Course
New Hampshire Renewal Bundle
Course Highlights
- In this New Hampshire Renewal Bundle course, we will learn about strategies and best practices aimed at preventing medical errors in healthcare settings.
- You’ll also learn how to implement patient education taking into consideration different learning styles and individual preferences.
- You’ll leave this course with a broader understanding of various nursing interventions when caring for patients.
About
Contact Hours Awarded: 30
Course By:
Various Authors
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Preventing Medical Errors
Introduction
Medical errors remain a critical concern in healthcare, with potentially very serious consequences for patients and healthcare organizations (15). Recent statistics indicate that medical errors, including medication mistakes, surgical errors, and diagnostic inaccuracies, contribute to a staggering number of patient deaths annually in the United States (5). For instance, a patient might experience harm after receiving an incorrect medication dosage due to a prescription error, potentially leading to severe side effects or even death.
The high statistics and effects of medical errors underscore the critical importance of comprehensively addressing this problem. To tackle this pressing issue, healthcare systems must implement a multifaceted approach that includes robust communication and teamwork among healthcare providers (11).
By fostering a culture of safety and equipping healthcare professionals with the necessary tools and knowledge to prevent medical errors, healthcare organizations can work towards enhancing patient safety and reducing the associated human and financial costs. This course aims to equip healthcare professionals with the tools to prevent medical errors, improve healthcare quality, reduce harm, and improve patient outcomes.
Self Quiz
Ask yourself...
- What is the primary objective of the course?
- Why is it essential for healthcare professionals to understand how to prevent medical errors?
Statistical Evidence
Statistical evidence of medical errors serves as a reminder of the significant challenges facing healthcare systems and patients worldwide. A recent report from the Institute for Healthcare Improvement estimated that medical errors contribute to more than 250,000 deaths in the United States annually, making them a leading cause of mortality (5).
Medical errors also result in substantial economic burdens. For example, a study published in Health Affairs estimated that medical errors cost the United States healthcare system $19.5 billion annually in extra healthcare spending (13). These costs encompass prolonged hospitalizations, additional treatments, legal expenses, and lost productivity.
These statistics underscore the urgent need for comprehensive efforts to enhance patient safety, address the root causes of medical errors, and equip healthcare professionals with the knowledge and strategies necessary to prevent these costly and potentially fatal mistakes.
Self Quiz
Ask yourself...
- According to recent statistics, what is the estimated annual cost of medical errors in the United States?
- What is the estimated number of annual patient deaths attributed to preventable medical errors in the United States?
Impact of Medical Errors
Medical errors have far-reaching and profound consequences in American healthcare and globally, affecting patients, healthcare providers, and healthcare systems. These errors can result in serious harm, extended hospital stays, and even death, imposing immense physical and emotional burdens on patients and their families.
For instance, a medication dosage error may lead to adverse drug reactions, prolonged hospitalization, and extensive medical costs. Beyond the individual level, medical errors strain healthcare resources and budgets, leading to increased healthcare expenditures and litigation costs for healthcare organizations. A recent report by (14), highlighted that healthcare-associated infections alone, often exacerbated by medical errors, cost the U.S. healthcare system billions of dollars annually (SHEA, 2020).
Furthermore, medical errors erode public trust in healthcare institutions, hindering the delivery of effective care and undermining the overall quality of healthcare. Addressing medical errors is not only a moral imperative but also a financial and public health necessity to ensure safe and efficient healthcare delivery.
Self Quiz
Ask yourself...
- How do medical errors affect patients beyond physical harm?
- Discuss the impact of medical errors on healthcare organizations, including financial implications.
Injuries Caused by Medical Errors
Medical errors have a wide-ranging impact on patients, often resulting in a spectrum of injuries that can vary from minor complications to severe and life-threatening consequences.
Some examples of injuries caused by medical errors include the following:
- Injuries caused by medication errors: Patients may receive the incorrect drug, dosage, or route of administration. For example, a patient on a prescribed medication for hypertension might mistakenly receive a medication intended for a different condition, leading to adverse drug reactions, allergic responses, or, in extreme cases, fatal overdoses (2).
- Injuries caused by surgical errors: Surgical errors represent a significant risk, encompassing scenarios like wrong-site surgeries or the retention of surgical instruments within a patient's body. In the event of a wrong-site surgery or retention of surgical instruments within a patient’s body, a patient may undergo an additional surgery or unnecessary procedure, leading to complications, extended hospital stays, and long-term physical and emotional repercussions (9).
- Injuries caused by diagnostic errors: Diagnostic errors, such as misdiagnoses or delayed diagnoses, present another facet of medical errors. These errors can have profound consequences as they may lead to patients receiving inappropriate treatments or experiencing disease progression due to the delay in receiving the correct diagnosis. For instance, a delayed cancer diagnosis might result in the cancer advancing to a more advanced and less treatable stage (4).
- Injuries caused by lapses in infection control measures within healthcare settings: These lapses can contribute to hospital-acquired infections, resulting in complications, prolonged hospitalization, and increased healthcare costs (18).
- Psychological injuries: Beyond the physical harm, medical errors can also inflict psychological injuries, with patients and their families often experiencing anxiety, post-traumatic stress disorder, or other emotional distress, especially in cases involving severe harm or near misses.
These different types of injuries underscore the complex and far-reaching impact of medical errors on patients' physical and emotional well-being, emphasizing the critical need for comprehensive strategies to prevent the errors causing them.
Self Quiz
Ask yourself...
- Provide an example of a medical error that can result in injuries to patients.
- How can healthcare-associated infections be linked to medical errors?
How Medical Errors Can Cause Death
Medical errors can tragically lead to patient deaths through several pathways, each emphasizing the dire consequences of possible systemic failures within healthcare systems.
Let’s discuss some examples below.
- One of the most pervasive types of medical errors that can cause death is medication errors, where patients may inadvertently receive the wrong drug or an incorrect dosage. Such errors can result in fatal overdoses or severe adverse reactions, contributing to patient fatalities (8). For instance, administering a medication intended for another patient with a similar name can lead to grave consequences, highlighting the critical importance of medication safety measures.
- Surgical errors represent another alarming category, encompassing scenarios like wrong-site surgeries or complications during procedures. In cases of wrong-site surgery, patients may undergo unnecessary procedures, while complications can lead to severe infections or life-threatening hemorrhages. These errors can result in fatal infections or excessive blood loss, ultimately contributing to patient deaths (10).
- Diagnostic errors, where conditions are misdiagnosed or diagnosed too late, pose additional challenges. These errors can lead to treatment delays, allowing diseases to progress unchecked and reach an advanced, untreatable stage, further underscoring the significance of accurate and timely diagnosis in patient outcomes (4).
- Lastly, lapses in infection control practices can lead to healthcare-associated infections, potentially culminating in sepsis and organ failure, with the dire consequence of patient deaths (18).
These examples collectively emphasize the imperative of enhancing patient safety and mitigating medical errors to prevent the diverse ways in which they can tragically lead to the loss of life.
Self Quiz
Ask yourself...
- Can medical errors lead to patient death?
- Explain two examples of how medical errors can lead to patient deaths.
Cost of Medical Errors
The link between medical errors and the cost of healthcare is a substantial and concerning issue. Medical errors lead to significant financial burdens on healthcare systems, patients, and society at large. For example, a study published in Health Affairs estimated that medical errors in the United States cost an astonishing $19.5 billion annually in extra healthcare spending (13).
These costs encompass a range of factors, including extended hospital stays, additional medical procedures to address complications, and increased medication and treatment expenses. Moreover, medical errors can result in costly litigation, settlements, and insurance premiums for healthcare organizations.
In addition to direct costs, indirect costs such as lost productivity due to disabilities resulting from medical errors can further inflate the economic toll. These findings underscore that addressing medical errors is not only crucial for patient safety but also for reducing the financial strain on healthcare systems and individuals.
Self Quiz
Ask yourself...
- What are the financial costs associated with medical errors for healthcare organizations?
- What indirect costs are associated with medical errors, and how do they contribute to the overall financial burden?
Types of Medical Errors
There are several types of medical errors, with each one carrying the potential to harm patients in distinct ways.
Let’s discuss examples of types of medical errors below.
- Medication errors, which occur during prescribing, dispensing, or administering medications. Such errors can lead to adverse drug reactions, with patients suffering severe side effects or other harmful consequences.
- Surgical errors represent another critical facet of medical errors, including alarming scenarios such as wrong-site surgery or the unintentional retention of surgical instruments within a patient's body.
- Diagnostic errors form yet another category of medical errors, encompassing scenarios where conditions are misdiagnosed or diagnosed too late. These errors can result in delayed or inappropriate treatments, potentially enabling diseases to progress unchecked.
- Communication errors, a common type of medical error, involve miscommunication among healthcare providers. Such errors may lead to misunderstandings about patient care plans, hindering the delivery of optimal care (15).
- Infection control lapses are another concerning category, contributing to healthcare-associated infections. Scenarios like improper hand hygiene can lead to the spread of infections within healthcare facilities, posing risks to patients, staff, and visitors alike (18).
Self Quiz
Ask yourself...
- Name three common types of medical errors discussed in the course.
- Describe a scenario illustrating a communication error in healthcare.
- Provide a real-world example of a medication error.
- Explain a scenario demonstrating a surgical error and its consequences.
Examples of medical error
This topic explores examples of medical errors that have occurred within healthcare settings, to illustrate their diverse nature and potential consequences. By examining the examples of how medical errors occur, learners gain insight into the critical importance of identifying and addressing the errors, to enhance patient safety and minimize harm in healthcare practice.
Let’s discuss the examples below.
- Medication errors, such as administering the wrong medication or dosage, can occur when a nurse misinterprets a physician's handwritten prescription.
- Surgical errors may involve performing surgery on the wrong patient or body part, as in a scenario where a patient undergoes knee surgery intended for another individual with a similar name.
- Diagnostic errors may manifest when a radiologist misinterprets an X-ray, leading to a delayed or incorrect diagnosis.
- Communication errors can arise when healthcare providers fail to share critical information, potentially leading to a patient receiving a medication they are allergic to, due to a lack of allergy documentation in their medical records.
Preventing Medical Errors
Preventing medical errors is an endeavor that hinges on a combination of strategies, encompassing rigorous communication, technological solutions, standardized procedures, quality improvement initiatives, and education programs across healthcare settings.
Let’s see some examples below.
- Prevention through effective communication and teamwork among healthcare providers: This is exemplified by the implementation of structured handoff protocols during shift changes, ensuring that critical patient information is accurately and comprehensively shared among care teams. By fostering transparent and efficient communication, healthcare organizations can mitigate the risk of errors stemming from misunderstandings or miscommunications.
- Prevention through harnessing technology to bolster error prevention efforts: Electronic prescribing systems with built-in error checks offer a powerful tool to reduce medication errors. These systems can flag potential issues, such as medication interactions or dosing errors, before prescriptions are finalized, thereby enhancing medication safety.
- Prevention using standardized checklists: In surgical settings, the utilization of standardized checklists has proven effective in preventing wrong-site surgeries. These checklists mandate the verification of critical details, including patient identity, procedure, and surgical site, before the commencement of surgery. Such standardized procedures serve as essential safeguards against critical surgical errors.
- Prevention through continuous quality improvement: Continuous quality improvement initiatives are essential components of a proactive approach to error prevention. After adverse events occur, healthcare organizations often conduct root cause analysis to identify system weaknesses and implement necessary changes to prevent similar errors from recurring. This process of introspection and improvement not only rectifies specific issues but also bolsters overall patient safety protocols (15).
- Prevention through education: Education and training programs tailored for healthcare providers play a pivotal role in error prevention. These programs emphasize patient safety principles and error recognition, empowering healthcare professionals with the knowledge and skills necessary to identify, prevent, and mitigate errors in clinical practice. By nurturing a culture of safety that values continuous learning and the integration of safety measures into daily practice, healthcare systems can proactively work to minimize the occurrence of medical errors and enhance patient safety.
Self Quiz
Ask yourself...
- What strategies can healthcare organizations implement to create a culture of safety?
- How can standardized checklists prevent surgical errors?
Current Research
Current research on medical errors continues to explore various facets of this critical issue in healthcare. For example, recent studies have investigated the impact of advanced technologies like artificial intelligence and machine learning in identifying and mitigating medical errors, offering potential solutions for early error detection (16). Researchers are also delving into the role of healthcare culture and organizational factors in error prevention, examining how organizational culture can be optimized to promote patient safety (17).
Additionally, ongoing research is exploring the effectiveness of interdisciplinary training programs that simulate real-world scenarios to enhance teamwork and communication among healthcare providers, reducing errors in clinical practice (3). These emerging research areas offer promising insights and strategies for addressing medical errors and improving patient safety in healthcare settings.
Self Quiz
Ask yourself...
- What recent research area explores the role of artificial intelligence in preventing medical errors?
- How can interdisciplinary team training programs contribute to error prevention?
Bedside Strategies
Bedside strategies are crucial in preventing medical errors, as they empower healthcare providers to identify and mitigate potential risks directly at the patient's bedside.
Examples of bedside strategies that not only enhance patient safety but also empower healthcare providers to actively engage in error prevention at the point of care include the following:
- Using transparent and purposeful "time-out" procedures before surgical interventions, where the entire surgical team pauses to verify the patient's identity, procedure, and surgical site, to help prevent wrong-site surgeries (12).
- Using effective barcode scanning technology at the bedside to confirm the accuracy of medication administration, ensuring that patients receive the correct medications and dosages.
- Using thorough handoffs during nursing shift changes to allow for direct communication between nurses, reducing the risk of information gaps and miscommunication.
- Implementing medication reconciliation protocols by thoroughly reviewing a patient's medication history and comparing it to the prescribed medications at the bedside, to identify discrepancies and prevent potential medication errors. For instance, if a patient mentions taking a medication that is not listed in their current prescription, this can trigger a thorough investigation to avoid drug interactions or duplications that could lead to adverse effects. Research by (11), highlights the significance of medication reconciliation in reducing medication errors and enhancing patient safety at the bedside.
- Using efficient patient identifiers, such as wristbands and two-factor identification, to prevent wrong-patient errors. In scenarios where patients share similar names or medical records, verifying the patient's identity before administering treatments or procedures is critical. For example, before administering medications, nurses can cross-reference the patient's identification wristband with the medication order, ensuring that the right patient receives the right medication and dosage. Studies, like the one by (7), emphasize the effectiveness of patient identification strategies in preventing wrong-patient errors and the potential harm they can cause.
Self Quiz
Ask yourself...
- What is a "time-out" procedure in healthcare, and how does it help prevent errors?
- Describe the role of barcode scanning technology in medication error prevention.
Organizational Strategies
Organizational strategies play a pivotal role in preventing medical errors and fostering a culture of patient safety. Recent research by (15), underscores the importance of promoting a culture of safety within healthcare organizations.
Examples of organizational strategies that not only prevent medical errors but also contribute to a safer and more effective healthcare environment include the following:
- Creating an environment where healthcare providers feel comfortable reporting errors and near misses without fear of retribution, allowing for comprehensive analysis and error prevention.
- Implementing computerized physician order entry (CPOE) systems with clinical decision support, which can help identify potential medication errors by flagging contraindications, potential drug interactions, or dosage errors (1).
- Using interdisciplinary team training programs, such as simulations of complex clinical scenarios to enhance teamwork and communication among healthcare professionals, reducing the likelihood of errors related to miscommunication or coordination failures.
- Implementing standardized protocols and procedures across healthcare units to reduce variation and improve consistency in care delivery. For instance, the Universal Protocol for preventing wrong-site surgeries mandates preoperative verification of patient identity, procedure, and surgical site, as well as the marking of the surgical site (6).
- Encouraging a culture of open communication and reporting of errors without fear of reprisal, enabling the identification of system weaknesses and the implementation of corrective actions to prevent recurrence (15).
Self Quiz
Ask yourself...
- Why is fostering a culture of safety essential in healthcare organizations?
- How can computerized physician order entry (CPOE) systems contribute to error reduction?
Conclusion
Preventing medical errors is very important, as these errors pose significant threats to patient safety and incur substantial costs for healthcare organizations. By fostering a culture of safety and equipping healthcare professionals with the necessary tools and knowledge to prevent medical errors, healthcare organizations can work towards enhancing patient safety and reducing the associated human and financial costs.
This course has provided healthcare professionals with a comprehensive understanding of the critical issue of medical errors, in addition to equipping them with invaluable strategies to enhance patient safety. Healthcare professionals have been empowered to actively engage in recognizing and preventing errors, contributing to the improvement of patient safety and healthcare quality. In an era where healthcare is increasingly complex and technology-driven, the knowledge and skills gained in this course are essential for safeguarding patients from the far-reaching and costly impacts of medical errors.
As healthcare professionals continue their careers, they are now better equipped to champion patient safety, implement error prevention strategies, and provide higher-quality care to those they serve.
Patient Education Strategies
Introduction
As nurses, we wear many hats and take on numerous roles in our careers. The main part of our job is to educate our patients.
Have you ever walked into your patient’s room after the physician leaves, and are bombarded with questions from your patient? They are confused and scared, and this is when you come in.
Patient education is important in every type of nursing: inpatient, outpatient, acute care, long-term care, adults, or pediatrics. No matter the specialty of nursing, at some point in time you must educate your patients and their families.
This course’s goal is to provide resources to improve education for your patients, give strategies to prevent barriers to education and evaluate the effectiveness of the education we provide.
Definition- Patient Education
What does patient education mean exactly?
Education is knowledge that results from the process of being educated [10]. No matter what type of nursing you are in, you are constantly giving patients instruction on a topic.
Whether it is regarding medications, diagnostic testing, or diagnoses we are the patient’s main point of contact. A physician or provider is with a patient for a short amount of time, and it is our job to explain the information that was given to them.
Currently, there is information everywhere. We are almost overloaded with information. With the use of smartphones, we can search for almost anything.
Our patients, for the most part, want to feel in control of their health, and this can come in the form of knowledge. As soon as they hear something, they want to search for information on the subject.
This should not substitute our teaching. A lot of the information published may not be accurate or not pertain to their situation. We must be aware of this and make sure we are providing our patients with resources so they can find accurate information [2].
Who are we educating?
The Healthcare Education Association has shared guidelines on patient education [8]. In some instances, we are educating family members, caregivers, friends, and sometimes an entire family [8].
You might be caring for an elderly patient in an acute care setting and will be discharging this patient home to their adult child. They will now be the caregivers and they will require education. Or you are caring for a five-year-old, just diagnosed with type I diabetes in which multiple members of the family will need to be educated on carbohydrate counting and insulin administration.
During this course, the term patient education may be used but it is meant to encompass anyone that we are providing teaching to.
Importance
At the end of the day, patient safety is our main goal. Patient education is a vital way to promote patient safety.
After a new medication is prescribed, we must educate the patient on why they need to take this medication, how to take the medication appropriately, and the side effects of the medication. Our education can also push the importance of lifestyle changes after a diagnosis.
It is easy to go through the motions of your job and forget why we became nurses. Our patients need their healthcare team to take the time to explain the importance of their treatment plan. Education helps patients be the center of their healthcare [12].
What is health literacy?
Health literacy is described as the knowledge of health information and the ability to understand and find resources related to health information, to make decisions for their healthcare based on this information [1].
This definition was changed in 2020 [1]. The change included being able to use health information and apply it to their life, not just having the ability to understand the information. This new definition also states that organizations need to include health literacy in their mission statement [1].
A study conducted by the National Assessment of Adult Literacy showed that only 12% of adult Americans have the appropriate health literacy to understand their care and make informed decisions [7]. With the average population, there is an extreme deficit of the ability to have the information to make autonomous decisions for their healthcare.
How does health literacy play a role in education?
With understanding what health literacy means, we want to give our patients the most accurate information, so they can make the most informed decisions about their healthcare. As nurses, we should be aware of our patients’ health literacy and want them to have the highest level of information available.
Our goal should be that the patient understands and utilizes the information provided in their healthcare choices. Studies have shown that there is a correlation between low education and poor health status [4].
Self Quiz
Ask yourself...
- How can nurses determine their patient’s health literacy?
- Can patient education cut healthcare spending costs?
- Who is responsible for funding patient education?
Role of Nursing
Whose role is it to provide patient education?
Sometimes education can be thought to fall under the physician’s scope of practice. However, every member of the healthcare team can play a part in educating our patients [8].
As said earlier, nurses usually spend the bulk of their time with patients. It is our duty to reinforce and expand upon the teaching provided by other members of the healthcare team. We also must collaborate with other members of the healthcare team to not leave gaps in the education that is provided [12].
Opportunities for Teaching
How should education be prioritized?
In nursing, we are expected to perform a variety of tasks. It can get overwhelming at times trying to prioritize and complete each task. Adding any other task to that list can be daunting.
Education should be incorporated into our work to place patient safety as the goal. Education should be prioritized over other tasks [13]. Many factors such as time and adequate staffing can result in insufficient education [13]. Simple tasks should be delegated if possible, so that you can focus on educating your patients.
Learning Styles
What are the main learning styles?
- Visual- A visual learner requires seeing what they are learning right in front of them [9]. They benefit from graphs and examples for them to look at. Not only going over the education but also providing them with a copy of the teaching is useful.
- Auditory- An auditory learner thrives on hearing the information [9]. This type of learner would not benefit from just receiving a pamphlet.
- Reading- This example of a learning style would be providing material for the learner to read on their own [9].
- Kinesthetic- This type of learner would be described as a “hands-on” learner [9]. This learner would benefit by tangibly holding material. When providing education about
changing an ostomy bag and giving them an ostomy bag to hold would be useful during the teaching.
How do we as nurses identify a patient’s learning style?
A barrier to education can be that we sometimes treat each patient the same. We build standardized educational pamphlets to provide to our patients, teach group classes, and provide similar, if not identical, resources.
While this can be helpful and save time, it can also be a barrier. Not all people learn the same way. Completing a learning assessment for each patient could help identify their preferred learning style to in turn make the teaching more effective [8].
How can we use learning styles in our teaching?
Each person may not be a single type of learner and may be responsive to a variety of learning styles. Prior to providing the actual education, it is important to determine which learning style the patient would be most receptive to.
Also factoring the subject matter into which style you use can be beneficial in teaching [9]. If you need to educate on how to change a dressing on a wound, a demonstration would be appropriate.
If you need to educate on dietary modifications for a low-cholesterol diet, a handout that can be referenced makes sense. The subject matter should be considered when determining which type of learning style should be used.
Case Study:
A patient is being discharged home with a diagnosis of asthma and a new prescription for an albuterol MDI as needed for wheezing. You are the nurse providing discharge teaching.
Prior to providing education you ask if the patient has a preferred learning style. The patient states they are a hands-on learner and are receptive to reading material.
When providing the teaching you give them a spacer with the inhaler to hold and demonstrate how to attach them together. You demonstrate how to administer the ordered number of puffs. You review and provide them with a printout of triggers that could exacerbate their asthma.
Self Quiz
Ask yourself...
- Can multiple learning styles be utilized in your patient’s education?
- Does age play a role in learning styles?
- Can the patient’s education level be a factor in their learning style?
- What if the patient does not have a preferred learning style?
Teaching Strategies
What to include in your education plan?
Before beginning your education with the patient or family member you must set a plan. In your plan, you should include realistic information [2]. Stick to the need to know and not all the information you would like your patient to know [2].
Information overload can be a barrier to helping the patient understand what you are teaching them. In some specialties, nurses have multiple interactions with their patients, where they can build a rapport with them [12].
Use this to your advantage. It might take several visits with your patients to help them understand a certain topic. While other specialties such as acute care, the emergency department, or outpatient surgery centers need to provide concise information and additional resources so the patient can review the information at a later time [2].
Set an attainable goal for yourself and your patient. If you have a short amount of time, it is not realistic to expect to educate on an entire topic such as COPD and expect the patient to verbalize understanding. With specific attainable goals, this will help in your planning and execution of the teaching.
What to ask patients at the beginning of the teaching?
At the start of your teaching, it is crucial to ask the patient about their concerns [8]. A patient might be more receptive to the education if they feel like they are heard. Patient education should be patient-centered, which means focusing on their needs [8].
This can be useful information so you can include what they are most concerned about in the teaching. The patient will then feel valued and will be open to learning.
How does a learner’s demographic become a factor in their understanding of information?
A review was conducted regarding older adults and their preferred style of information [3]. This review concluded that older adults benefit more from written articles presented by healthcare professionals and were not as receptive to group classes, online apps, or videos [3].
Statistics from the CDC states that by 2030, 71.5 million people will be over the age of 65 living in the United States [6]. Which means, in order for them to lead healthy lives, it is our responsibility as healthcare workers to play our part in providing accurate information for them to implement in their lives [6].
On the other end of the spectrum, you might be educating a patient on the other end of the spectrum, a child. Pediatric nursing requires lots of education for the families and the patients themselves.
Children can learn and understand topics when they are presented with developmentally appropriate material. With pediatric patients props and hands-on learning can be beneficial. Age should be considered when planning education materials for patients or their families.
Language can also be a barrier to communication. It is important to ask a patient their preferred language for healthcare information. A patient may speak English however they might be more comfortable in their first language if it is something other than language.
Prior to teaching, a learning assessment is beneficial for you and the patient [8]. Asking the learner their preferred language should take place first.
A patient’s culture can also impact their learning abilities [5][8]. As health care providers we must not shy away from cultural differences but rather incorporate this in our practice [8]. The information we provide should be standardized with our patients, however the way we communicate can vary.
Self Quiz
Ask yourself...
- How can your own culture become a barrier to patient communication?
- What is the best way to ask about a patient’s culture?
- When providing education to a patient who speaks a different language than your own, can information be lost when utilizing an interpreter?
When is the appropriate time to educate your patient?
The patient may be in the middle of a life-changing event or managing a chronic disease and they may have a hard time focusing. When planning to educate a patient it is important to factor in the time of the education.
Did the patient just get out of surgery? Was the patient up all night? Involving the patient in the education will help the patient be more receptive and give them some control [2].
If the patient is being discharged and requires education set a time with them to go over the information. This can prevent barriers that might occur.
How can technology influence education?
In this day in age, technology has influenced all aspects of our lives. Technology can be incorporated into our education as well [2]. Many hospitals are using programs on patient televisions to provide education.
When planning to teach our patients we should explore these methods to help the patient and ourselves as the educator. Some videos can be used that explain procedures, skills, and medications to our patients [8]. It is also important to know our patients and see how receptive they are to this means of education.
An elderly patient may not be interested in a link for more education regarding dietary changes [3]. A person in their 30s may like education they can look at on their computer at home.
Self Quiz
Ask yourself...
- When is providing a patient with a video for teaching appropriate?
- Can technology inhibit a patient from understanding the education provided?
Evaluating Effectiveness
What does it mean to evaluate your teaching?
Teaching is not complete until it is evaluated. As healthcare professionals, we must gauge if our teaching was understood or if further teaching is indicated [8].
If further teaching is needed, it does not mean we failed at our job. It means that we have our patient’s best interest, and we want them to succeed and need to change our education to fit their needs.
Studies in the past have shown that 40-80% of medical teaching done at an outpatient visit was not remembered by the patient and almost half of the information that was retained was not accurate [11].
What are some strategies to evaluate the patient’s understanding of the education provided?
- Demonstration- Often nurses must teach a patient to perform a skill, for example, check blood pressure with a blood pressure cuff, perform a blood glucose check, and administer a subcutaneous injection.
In this type of instruction, the nurse should begin by stating the objective to the patient, which is the skill that needs to be performed, and explain that the patient should return to demonstrate that skill to the nurse [8]. By stating this at the beginning, the patient will know they need to perform the skill at the end of teaching and not be caught off guard. This is also a way to evaluate the teaching [8].
When the patient returns and demonstrates this skill, the nurse can discuss ways they can improve the skill [8].
- Teach-back method- This is a strategy that includes teaching and then allows the learner/patient to demonstrate what they learned back to you [11].
This is an example of how to evaluate the level of the patient’s understanding [11]. Giving the patient time to verbalize what you are educating is a measurable way to evaluate the education that was provided.
A strategy to use the teach-back method is to teach in sections and then allow the patient to state in their own words what they learned in that section [11]. This helps break up the teaching and allows the patient to process the information [11].
Case Study
You are set to discharge a patient home that was hospitalized due to anaphylactic shock from a food allergy. They are overwhelmed by the amount of information they are receiving.
They are prescribed an Epi-pen in case of future reactions. To implement the teach-back method you can use a training Epi-pen to demonstrate how it works.
Then give the practice Epi-pen to the patient so they can hold the Epi-pen and apply the Epi-pen to themselves. Now the patient can feel more comfortable after practice, and you can evaluate if the teaching was understood.
Self Quiz
Ask yourself...
- How can nurses use the return demonstration method in their practice?
- Is the return demonstration method appropriate for every patient?
- What are the next steps if a patient does not accurately demonstrate the skill you were teaching?
Case Study
A patient is diagnosed with hypertension and high cholesterol. As the nurse at an outpatient clinic, you are responsible for going over some lifestyle changes with the patient. You have listed some changes they should make in their diet.
In the middle of the teaching, you ask, “What are 3 dietary modifications you can implement into your daily life?” This helps the patient process the information and turn it into their own words.
Self Quiz
Ask yourself...
- How can nurses use the teach-back method in their practice?
- What settings can the teach-back method be useful in?
When to allow questions during teaching?
Sometimes it might feel easier for us to instruct the learner to save their questions till the end of the instruction. However, allowing the learner to ask questions throughout the education can help prevent information overload and be helpful for you to evaluate your teaching [8].
Questions can allow you to tailor your education to focus on areas that the patient might need more information on [8]. The patient can emphasize their concerns by asking to hear more information on a certain aspect of what you have taught.
When preparing for education make sure that you insert breaks so the patient or family member can ask questions. This will help with their learning and can help you determine the effectiveness.
Self Quiz
Ask yourself...
- What are signs that the patient is not understanding our education?
- If our patient is not grasping the teaching, does it mean our educational techniques fail?
- What is the next step if the patient does not understand our teaching?
Conclusion
To summarize the content of this course: Patient education should be specific, concise, tailored to your patient’s needs, and measurable.
You should present your patients with objectives at the beginning of your education so they will know what to expect to understand by the end of the teaching. Address any questions that the patient might have and allow the patient to provide you with feedback.
By providing intentional patient-centered education we can give our patients the tools they need to make informed decisions about their healthcare.
Nurse Burnout
Introduction
In May 2022, during Mental Health Awareness Month, the United States Surgeon General Dr. Vivek Murthy issued a new Surgeon General’s Advisory highlighting the urgent need to address the health worker burnout crisis nationwide. Citing existing challenges in the healthcare system and the long-term effects of the coronavirus pandemic, Dr. Murthy prioritized our healthcare workers' mental health to strengthen our nation’s public health infrastructure.
This report stated that “…. up to 54% of nurses and physicians, and up to 60% of medical students and residents, suffering from burnout”. Symptoms of burnout have indeed impacted the current workplace, and ongoing employee mental and physical exhaustion results in a vulnerable, compromised workforce (2).
The lingering effects of post-pandemic burnout have affected every element of our current healthcare system. Healthcare professionals are leaving the profession at an alarming rate (due to illness and scheduled retirement), which translates to increasing shortages of providers. Coupled with additional vacancies due to ongoing mental health conditions (depression, anxiety, post-traumatic stress disorder), our healthcare system is experiencing significant gaps in its ability to provide quality care across the healthcare spectrum.
While the legislature addresses healthcare burnout on a larger scale, nurse professionals owe it to themselves to recognize the signs and symptoms of nurse burnout and take appropriate action to protect themselves, their families, colleagues, and patients.
Self Quiz
Ask yourself...
- Why do you think the coronavirus pandemic caused such large numbers of healthcare worker burnout?
- How do you think the coronavirus pandemic affected your place of employment?
- What difference did the pandemic make in your specific job responsibilities?
Nurse Burnout vs. Compassion Fatigue
Although the terms “nurse burnout” and “compassion fatigue” are often used interchangeably, they do refer to two separate conditions (4). Nurse burnout is the term used to describe emotional and physical exhaustion related to ongoing stressful working environments and associated responsibilities. Burnout has a gradual onset and usually occurs in behaviors such as decreased workplace productivity and persistent feelings of hopelessness, helplessness, and overwhelming exhaustion.
Compassion fatigue, on the other hand, often emerges from some prolonged emotional stress or strain. It may occur after exposure to a traumatized individual more so than a workplace trauma. Signs and symptoms of compassion fatigue may manifest in such behaviors as anger, irritability, increased anxiety, and physical exhaustion. In comparing burnout to compassion fatigue, burnout appears to gradually rise to the surface, while compassion fatigue occurs more suddenly (5).
Self Quiz
Ask yourself...
- Regarding compassion fatigue, what situations could make a healthcare professional “angry, irritable, and exhausted” while on duty?
- Regarding nurse burnout, what situations could make a healthcare professional feel “hopeless and helpless” while on duty?
Life As a Nurse
An average day in the life of a nurse will include varying degrees of stress and long work hours. Both factors are known to affect one’s mental health, yet it is considered “a normal day’s work” when describing a day in the life of a nurse.
In any workplace setting, a nurse's role includes a very demanding set of acceptable stressors (“part of the job”). Upon completing a highly stressful workday, nurses may head home to face additional demands on their time and energy levels (child/elder care, various household responsibilities, and community and church obligations, to name a few). This routine leaves little time for rest and recovery, both mind and body.
All those demands on their time and attention can lead to compassion fatigue. The pandemic is a convincing example of both nurse burnout and compassion fatigue. Nursing professionals were repeatedly exposed to critically ill patients, many of whom did not survive. Staffing patterns were suboptimal, critical care beds and equipment were sorely lacking in some areas, and the daily stressors felt during a single shift seemed to repeat themselves. There was no quality “downtime” for nurses to take a well-deserved break, much less debriefing and regrouping/refocus efforts.
This pandemic, a universal “once in a lifetime” event by any standard, affected everyone at some level. Nurse professionals were witnessing traumatic losses of life every day. Compassion fatigue, understandably so, began to surface. The healthcare community experienced anger, irritability, and increasing levels of anxiety. They took to the news media, voicing feelings of isolation, despair, anger, and devastation. They publicly spoke of sleep difficulties, increased workloads, and lack of appropriate lifesaving supplies, thus becoming more exhausted and cynical with each passing shift. When the pandemic crisis finally came under control, the landscape of nursing looked quite different (6).
Nurses had resigned, transferred, or walked off their shifts. Early retirements and medical leaves of absence were increasing in number. Enrollments in nursing schools were down. The healthcare arena continues to suffer years later, looking for solutions to “heal thyself.”
So, the question remains…. What can we do to reduce the risk of nurse burnout moving forward?
Self Quiz
Ask yourself...
- How would you describe your current workplace?
- Do you feel appreciated for your efforts while at work?
- What is one “major stressor” you wish to change at your workplace?
Burnout Risk Factors
While no single factor causes nurse burnout, there are undoubtedly identifiable risk factors and patterns that heighten the risk. Early identification and intervention of such risk factors lower the chances of nurse professionals suffering personally and professionally.
Increased workloads (due to staff call-ins, lack of patient care equipment, and lack of ancillary help) are a leading causative factor in nurse burnout. In addition, lack of support from senior leadership, unit managers, worksite colleagues, and other members of the organizational healthcare team impacts feelings of helplessness and hopelessness.
Again, there is no single factor to point blame at, but there are often patterns of behavior that warrant further investigation at the workplace. In addition, nurse burnout is very individualized. What is harmful and hurtful to one nurse may not be seen as such to another nurse.
The goal is to make the workplace environment supportive for all employees by creating (and nurturing) a culture that welcomes nursing input. By recognizing the bigger picture of individual and organizational safety, the nurse in crisis feels safe in stepping forward and seeking professional help in a supportive environment.
While nurse burnout can occur in any area of nursing, from hospitals to clinics to home health settings and beyond, some areas are at higher risk for burnout. Nursing professionals in the intensive care and emergency care units are at higher risk for symptoms of burnout.
Studies have shown that many specialty nurses experience anxiety, increasing exhaustion, and mounting frustration while on duty. Combined with a patient population often experiencing high rates of trauma-related mortality and complex illnesses, it is understandable that “typical workdays” may be filled with extremely high levels of workplace stress.
Self Quiz
Ask yourself...
- Think about your current workplace. Are there any factors that could contribute to burnout?
- Have you witnessed anyone in your workplace display signs of being “burned” out?
Causes of Burnout
An article published in the Journal of the American Medical Association identified some causes that directly impact nurse burnout (7). The authors found that nurses who routinely worked longer shifts (extra shifts, mandated overtime shifts) and experienced sleep deprivation exhibited symptoms of burnout. The combination of excessive work hours and inadequate sleep (as often occurred with shortened turnaround times and back-to-back shifts) resulted in increased patient care errors. These occurrences often compounded the feelings of helplessness and hopelessness (8).
Self Quiz
Ask yourself...
- Have you ever picked up extra shifts only to regret it afterward?
- How did you feel after working those extra shifts?
Impact on (Individual) Health
In the early stages of burnout, the nurse professional may feel overworked, underappreciated, and physically tired. While such symptoms may appear benign when occurring sporadically and “chalked up” to “just having a bad day,” repeated shifts like this may manifest into a more profound feeling of despair.
It soon becomes challenging to continue working under such circumstances, further escalating the situation. To distance oneself from these feelings, the nurse professional may become cynical and jaded about their workplace, mentally distancing themselves from colleagues. These efforts only serve to isolate the individual further and exacerbate feelings of hopelessness and isolation while negatively impacting workplace efficacy (9).
Impact on Workplace/Organization Health
The stressed out, overworked, and exhausted nurse professional may unknowingly / unintentionally compromise the quality of care. Feelings of helplessness and hopelessness can negatively affect the nurse’s judgment and critical thinking skills. Critical steps/tasks may be skipped when the nurse is tired and overworked.
Nurse burnout negatively impacts job satisfaction and, in doing so, also negatively impacts patient care. The effect will be poor patient care, increased patient and family complaints, and poorer patient outcomes. Nurse burnout affects not only the individual but the organization. (10)
Self Quiz
Ask yourself...
- How does a nurse unintentionally compromise the care being delivered to a patient?
- How do you think being sleep-deprived could affect your abilities while on duty?
Self-Care Strategies
“I have come to believe that caring for myself is not self-indulgent. Caring for myself is an act of survival.”
— Audre Lorde (3).
What is self-care? (12)
In the most basic definition, self-care refers to doing things that will improve your physical and mental health. It is very subjective, and self-care strategies must focus on your needs, wants, and desires. As stated, nurse burnout is very individualized: what profoundly affects one nurse may not even bother the next nurse.
The strategies discussed here are generic; they must be personalized to fit your specific needs and healing process.
- A good night’s sleep: Limit caffeine intake before bedtime, no electronics 1-2 hours before sleep, lower room temperature to facilitate comfortable sleep, and blackout curtains.
- Physical activity: Light-impact activities such as swimming, yoga, walking, bike riding, and other activities will be physically and mentally beneficial.
- Diet: Maintain a balanced diet. Monitor hydration levels and limit caffeine products. The goal is to nourish your body to offset the adverse effects of stress. Cut down on processed food intake and “junk foods.”
- Mental health: Journaling, podcasts, music, and joyful hobbies and activities (knitting, crafts, painting).
- Homefront Maintenance: Calm surroundings foster the healing process. Keep the environment clean, uncluttered, and welcoming. Empty the sinks and dishwashers, fold the laundry, and make your bed. Aromatherapy, lighted candles, and essential oils are all ways to make your home a place to rest and relax.
The list of “self-care “strategies is endless. Be sure to find an appropriate diet, activity, and behaviors that enable you to focus on building a balanced lifestyle.
Self Quiz
Ask yourself...
- What are some self-care strategies that have worked in your personal life?
- How could you encourage a nursing colleague to “take better care of themselves” through self-care practices?
Organizational Strategies
Healthcare organizations must provide structured support for their nurse professionals to ensure quality patient care. Facility-wide strategies work best to identify and treat nurse stress and burnout early.
- Nursing rounds- routinely meet with nursing staff and listen to their feedback. Ask the difficult questions (staffing patterns, scheduling issues) and be receptive to working on viable solutions.
- Support staff in utilizing earned days off, vacation time/ paid time off.
- Open lines of communication with staff experiencing signs of nurse burnout or compassion fatigue. Offer alternate job duties and work assignments if possible.
- Acknowledge employee organizational loyalty (through retention bonuses, additional days off, gift cards, personalized thank-you letters, and personal development endeavors).
- Encourage critical debriefings for staff members involved in essential/traumatic patient care encounters.
- Openly promote facility resources available to staff, including all Employee Assistance Programs.
Self Quiz
Ask yourself...
- How do you feel your healthcare organization could improve the current workplace?
- What are some employee assistance programs currently offered at your workplace?
- What incentives/ acknowledgments from your nurse leaders would most benefit staff morale?
Case study
Marie is a 35-year-old Registered Nurse working full-time on a 16-bed ICU unit. She has been employed here for three years, beginning her employment at the start of the coronavirus pandemic. Marie works 12-hour shifts (7p-7a) with every other weekend off. Two of Marie’s nurses' coworkers recently resigned, leaving the unit chronically short-staffed.
Marie has been working additional shifts to help her coworkers and has just completed a 50-hour work week. She was once again called into work early and arrived on only 4 hours of sleep the night before. The unit is at total capacity with 2 “ICU holds” in the Emergency Department. Marie has fallen behind on her patient care while intercepting repeated calls from the ED staff.
Marie spent a long overdue break crying in the nurse's lounge. She confided to another staff member (Anne) that she is exhausted and overwhelmed by these work conditions and is considering resigning. Anne told Marie to take a few more minutes for her break and promised to discuss the situation with their charge nurse, Carol. Marie agreed.
Anne discussed the situation with Carol, stating Marie is a great nurse who has been working too many shifts lately. Anne offered to pick up some of Marie’s current patient assignments to lower Marie’s stress level, hopefully. Carol approved and also took some of Marie’s patients. Marie finished her break, apologized to her coworkers for her “moment of weakness,” and promised, “it wouldn’t happen again.”
Self Quiz
Ask yourself...
- What factors did you identify that put Marie at risk for nurse burnout?
- If Marie confided in you, as a colleague, that she was exhausted and overwhelmed, how would you respond?
- Marie apologized for her “moment of weakness” and promised “it wouldn’t happen again.” How would you respond to this employee if you oversaw this shift?
- What resources are available at your current workplace for employees who acknowledge they are “exhausted and stressed out”?
- If you were the Nurse Manager of this ICU, what would you do to support your staff during this time (* significant staffing shortages due to recent resignations)?
Resources
The following links are provided for additional information on nurse burnout surveys.
Conclusion
The healthcare workforce continues to be challenged by large numbers of scheduled retirements, an aging population, and medically complex patients. Nurse leaders must proactively hire and retain a healthy workforce (13). Healthcare organizations must invest in a workplace culture that supports workers' work/life balance. It is the key to ensuring the health and safety of our nation.
Bullying in Nursing
Introduction
In a time when bullying has become one of the most frowned upon behaviors, why is it thriving in the world of nursing? We’ve all heard the saying that “nurses eat their young”. It is a term that has been passed down the nursing ranks as each generation of nurses enters the workplace; unchanged and still true. We, as nurses, cannot permit such unhealthy and detrimental behavior to continue. In this course, we will discuss nurse bullying, why it happens and what we can do to break the curse.
Definitions
To fully understand nurse bullying and the issues that come with it, we must define some terms and phrases so that we are all on the same page.
Nurse Bully
A nurse bully is someone who repeatedly harasses and/or harms other nurses whom they believe they can dominate; they may also see them as less skilled or incompetent (5).
Incivility
Incivility is a type of lower-level bullying that entails more passive types of behavior. This is your mocking, gossiping, alienation, and general rudeness. The difference between incivility and actual bullying is that incivility may not actually harm the victim (6).
Harassment
Harassment is when someone torments or intimidates another person (4).
Self Quiz
Ask yourself...
- What is the difference between incivility and bullying?
- Who is the victim of the nurse bully?
Incidence Rate
The nursing profession has historically been known as the most trusted profession. Nursing is also synonymous with caring and compassion. From the outside looking in, it may be difficult to believe that bullying could exist in such a respected and revered profession. The prevalence of bullying in nursing is staggering. Both new and seasoned nurses; young and old; nurses of every gender; and nurses of every walk of life report that they have been bullied on the job. These instances represent a wide variety of bullying behaviors which include verbal abuse, threatening, scapegoating, sabotage, and physical abuse (5).
Incidence rates of bullying in nursing, as documented in a variety of studies, ranging from 17-85%. This includes incidents of verbal abuse, threatening, belittling, and even physical abuse. With the prevalence of bullying so high among nurses, it is safe to say that virtually every nurse has been touched by bullying, whether victim, perpetrator, or observer (5).
Self Quiz
Ask yourself...
- Does the incident rate of nurse bullying surprise you?
- Have you ever witnessed or been involved in an incident of nurse bullying?
Why Does It Occur?
What drives bullying behaviors? What makes a bully? There are a myriad of factors that come into play when discussing why bullying occurs.
Anger and frustration are two strong emotions that can contribute to bullying behaviors. In today’s nursing work environment, anger and frustration are at the forefront of many nursing units. Nursing shortages have left many units understaffed and the nurses overworked. This frustration leads to anger when the nurses who have remained loyal, full-time staff see travelers come into their areas making higher pay. Lack of resources and the belief that they are unheard of also contribute to feelings of frustration (5).
The belief that another nurse is less competent or altogether incompetent can also lead to bullying. When it is perceived that another nurse can’t do their job and therefore may leave tasks for the oncoming shift, the above-mentioned frustration sets in and bullying may result. Just the feeling of superiority over another nurse can have bullying effects on the nursing environment (1).
Self Quiz
Ask yourself...
- Is there a key risk factor that promotes an environment of nurse bullying?
- Are nurse bullying risk factors real or perceived? Explain.
Risk Factors
There are some circumstances that contribute to the bullying climate. These are not excuses that give permission to the bullies, rather they are risk factors that have been identified as possible catalysts to bullying behaviors.
Seniority
Some nurses may feel that they have “paid their dues” and should have authority over their less-experienced peers. If this authority is not granted, the senior nurse may harbor feelings of underappreciation and lash out by being unhelpful or, to the extreme, harmful. The aim is to show how much this nurse is needed; they will refrain from helping the newer nurse or giving any advice (5).
Insecurity
When new nurses come into the workplace, the existing nurses may feel that they will be replaced. Nursing is an ever-evolving occupation with new technologies and treatments being developed all the time. A new nurse who was taught the most up-to-date trends in nursing may pose a threat to their job. This is when the nurse may start to bully the new nurse joining the team (1).
Protection
Some nurses become very attached to their patients. They may feel that no one else can give the same level of care that they can. As a result, they may see other nurses as incapable of providing care that is up to their standards. Only they can provide the care that their patients require. These perceived inadequacies can quickly turn into bullying behaviors (1).
Education
Differences in levels of education may also contribute to bullying. Nursing has many different levels of education and nurses from all these levels may work together on a single unit. Nurses with higher levels of education may feel superior and lash out at those with less education. RNs may treat LVNs differently than their RN peers (3).
Self Quiz
Ask yourself...
- Name 2 risk factors that contribute to nurse bullying.
- Have these risk factors led to a nurse bullying environment in your organization?
- Does one risk factor stand out to you as a prime contributor to nurse bullying?
- Which one?
Types of Bullying
It is important to note that not every bullying-type behavior can be construed as actual bullying. We all have bad days when things just don’t seem to be going right and we may react inappropriately. One of the key factors that differentiates bullying from a lapse in judgment is that bullying is a repeated or habitual behavior.
This does not excuse the one-time behavior however, we must realize that not all poor behaviors are bullying. Nurse bullying may manifest itself in a variety of different behaviors. Below, we will discuss a few of these types of bullying. This is by no means an exhaustive list of all possible bullying behaviors; they are some of the behaviors that you may commonly see in the healthcare environment (5).
Verbal abuse
This may include being rude, belittling, criticizing, and threatening. We’ve all heard “sticks and stones may break my bones, but words will never hurt me”. This is a false saying as constant verbal abuse plays with our psyche as we rerun the taunts in our heads over and over. If heard enough, we may start to believe the bully’s words.
Controlling
Constantly telling another nurse what to do and how to do it. This is unsolicited advice that if not taken may escalate bullying behaviors. Controlling behaviors may also include certain “looks” and intimidating posturing.
Ignoring/excluding
Ignoring requests for help. Ignoring any suggestions to better provide care to the patients. Excluding that one nurse from lunch plans, work-related activities, or any after-work gatherings.
Assigning heavy workloads
Repeatedly assigning a nurse a heavy workload while everyone else’s load is relatively light. All the other nurses have time to sit and document while the one nurse is overwhelmed.
Physical abuse
Unwanted physical contact is usually violent in nature.
Mobbing
This happens when a group of bullies band together to create an environment to force the victim to resign (2).
Self Quiz
Ask yourself...
- Have you witnessed any of these behaviors at your organization?
- Is there a behavior that is most indicative of nurse bullying?
- What is the key aspect that makes these behaviors acts of bullying?
Characteristics of a Nurse Bully
Nurse bullies come in all shapes and sizes and come from all walks of life. There isn’t necessarily a template for what a nurse bully will look like. However, there are some characteristics that may help identify a nurse bully.
You may encounter a nurse who bullies out of a sense of superiority. They will be condescending and have an entitled attitude. You will also recognize them by their “correcting comments” often spoken where others can hear. Next, we have nurses who bully because they have been offended by something said or done. They bully with an ax to grind. They may hold on to the grudge for a long time. Creating drama with the victim at the center will be their course of action; they will try to pull in other nurses to help ostracize their victim. Other nurse bullies will use rumors and gossip to bully their victim (3)
These bullies love to dish out the put-downs but can’t take any back. They will become offended at the slightest criticism. There are others who will be very friendly at first. Bringing the victim in close to learn details of their lives and then using that information against them. They will weaponize all obtained information to lift themselves up. Another characteristic is envy. There are those bullies who are envious of others. The envy could stem from something totally unrelated to nursing or the workplace. The victim, however, will most likely possess the item or characteristic that the bully is envious of. This bully is very bitter. Finally, there is the bully who plays favorites. They will favor their clique and ignore or exclude the victim (3).
Self Quiz
Ask yourself...
- Do you recognize these characteristics in the nurses you work with?
- Do you see any of these characteristics in you? How will you change?
What Can You Do?
There are many actions that you can take when you are either the witness or victim of nurse bullying. Though some bullies may be intentionally trying to intimidate a fellow nurse, there are those who are oblivious to the fact that they are bullies. They behave like a bully without knowing that they are perceived as such.
The first action that you may want to take is to talk with the bully about the behavior. The bullying may end there. Once it has been brought to the bully’s attention that the behavior is being taken as bullying, change can occur. Communication may be all that is needed (5). Prior to speaking with the bully, try using empathy. Put yourself in the bully’s shoes to figure out what the motive for the behaviors may be. This may aid you in both the tone and direction of the conversation.
Identifying a mentor in the workplace can also help you through a bullying situation. Having someone that you can talk to about the issue and seek their advice about how to handle the situation. Look for those nurses who can’t be bullied. Why do the bullies not prey on them? Why are they not intimidated? Often, these nurses are focused on the patient’s needs above all else and refuse to allow any situation to be about them or the bully (3).
Talking with your manager or director is another prudent course of action. It is possible that these nurse leaders have the best vantage point to deal with and prevent nurse bullying. They work closely with the front-line staff nurses and should have the pulse of the unit. In their position of authority, they are also able to investigate and, if needed, conduct disciplinary actions.
Unless your manager or director is the bully, a meeting with them to discuss any instances of bullying is needed. Contacting the Human Resources department is another step that can be taken. No matter the situation, it is always important to follow your facility’s policies and procedures and chain of command (3).
Self Quiz
Ask yourself...
- What can you do to prevent/stop nurse bullying in your organization?
- What organizational resource should you use to guide your actions?
Solutions to Nurse Bullying
Nurse bullying has repercussions throughout the entire facility. According to a study from 2012, the cost for each individual who is bullied can be from thirty thousand to one hundred thousand dollars (3). This includes the cost of absenteeism, lower work performance, any therapies needed for physical and psychological issues, and increased turnover due to ongoing bullying.
Nurse bullying can also play a big part in the overall feeling of “burnout” among nurses. Nurse bullying can lead to workplace errors which means it is crucial that organizations have strategies to combat any kind of bullying in the workplace. As nursing accounts for the majority of employees at most hospitals, curbing nurse bullying should be in the forefront. Here are some organizational strategies that should be considered:
Culture of Safety
Many organizations have adopted a “Culture of Safety”. The Culture of Safety promotes patient and colleague safety. It is the shared beliefs and values of the organization that influence behaviors and actions. Principles such as non-punitive reporting, communication of policies and expectations, recognition, and leadership modeling of behaviors all come into play in the Culture of Safety. All reports of bullying should be taken seriously (3).
Admit that there is a problem
Like any issue, the first step in fixing it is admitting that the problem exists in the first place. Bullying thrives in the darkness. Once it is brought to light and people are talking about it, it can be addressed. Even if there is no evidence of nurse bullying in your area, talking about and discouraging it may stop it from even starting (3).
Elimination
Try to eliminate factors that promote an environment of bullying.
Commitment
The organization should commit to a zero-tolerance policy when it comes to bullying. The policy on bullying should outline clear expectations along with the consequences that will be enforced if the policy is not followed. The policy should also include the organization’s social and online media sites (3).
Accountability
Nurses should be encouraged to hold each other accountable. You promote what you permit. As there are generally more bullying witnesses than actual bullies, nurses must be empowered to call out bullying. This can lead to a true change in the culture of an organization (3).
Self Quiz
Ask yourself...
- Is your facility currently using any of the above-mentioned strategies?
- How have these strategies mitigated the incidence of nurse bullying in your area?
- Can an organization eliminate nurse bullying?
Conclusion
Nurse bullying is a real problem that can affect any unit in any hospital. It creates a toxic work environment that we, as nurses, can no longer tolerate. In this post-COVID time, nursing shortages and nurse burnout are rapidly depleting the nursing ranks. It is time for nurses to call out bullying when they see it. It is time for nurse leaders to enforce the organizational consequences of nurse bullying.
We must create safe environments for our new nurses (all nurses) to thrive. It is the only way that our profession will survive. Know the signs of nurse bullying and become the change within your organization. Empower your colleagues to do the same. Together, we can see an end to nurse bullying.
Quality Improvement for Nurses
Introduction
Welcome to the world of Quality Improvement (QI) in healthcare, a dedicated field committed to continually enhancing patient care and outcomes. Quality Improvement involves a systematic approach to identify, analyze, and address areas for improvement within healthcare processes, ultimately resulting in improved patient safety, satisfaction, and overall healthcare excellence (13). In this course, we will embark on a journey to explore the fundamental principles and practical applications of QI, explicitly tailored for nurses who aspire to make a positive impact in their healthcare settings.
As a nurse, you know the significance of providing high-quality patient care. However, you may wonder how you can actively contribute to improving the systems and processes in your workplace.
Imagine this scenario: You observe a recurring issue with medication administration, where doses are occasionally missed due to workflow inefficiencies. Through this course, you will acquire the knowledge and skills to apply QI methodologies like Plan-Do-Study-Act (PDSA) cycles to investigate such issues, implement changes, and monitor the impact of your interventions. By understanding QI principles and tools, you will be better equipped to collaborate with your colleagues, drive meaningful improvements, and ensure that your patients receive the best care possible.
Self Quiz
Ask yourself...
- How can nurses leverage their unique position at the bedside to identify opportunities for quality improvement in healthcare settings?
- Can you provide an example from your own experience or knowledge where a quality improvement project led to tangible improvements in patient care?
- What potential challenges could a nurse encounter when attempting to implement quality improvement projects?
What is Quality Improvement?
Quality Improvement (QI) in healthcare represents an ongoing, systematic effort to elevate the quality of patient care and healthcare services that involves identifying areas needing improvement, implementing changes, and evaluating the effects of those changes to ensure better patient outcomes (12).
Let’s envision a scenario where a hospital's surgical department grapples with a higher-than-average rate of post-operative infections. Through a QI initiative, the healthcare team can meticulously scrutinize the surgical processes, pinpoint potential sources of infection, and introduce evidence-based practices such as enhanced sterilization techniques or more rigorous antibiotic prophylaxis protocols. Over time, they can gauge the effectiveness of these changes by monitoring infection rates for a reduction.
Commonly used QI methodologies in healthcare include the DMAIC (Define, Measure, Analyze, Improve, Control) process and the Plan-Do-Study-Act (PDSA) cycle. These approaches provide structured frameworks for healthcare professionals to tackle issues systematically and iteratively. For example, imagine a bustling primary care clinic with extended patient wait times.
Here, the PDSA cycle can come into play using the systematic iterative steps below:
- The team defines the problem (lengthy wait times)
- The team proceeds to test a change (for example, adjusting appointment scheduling)
- The team then scrutinizes the results and acts accordingly to refine the process.
Self Quiz
Ask yourself...
- How does the concept of Quality Improvement (QI) align with the goal to provide the best possible care for patients?
- Can you think of a specific healthcare scenario where QI methodologies like DMAIC or PDSA could significantly improve patient care?
- What are the advantages of using structured frameworks like DMAIC and PDSA in QI initiatives?
- How do DMAIC or PDSA contribute to the success of improvement projects?
History and Background of Quality Improvement
The history and background of Quality Improvement (QI) in healthcare have a rich and evolving timeline, dating back to the early 20th Century, with significant developments occurring over the years. One pivotal moment in this journey was the introduction of statistical quality control by Dr. Walter A. Shewhart in the 1920s (24). Dr. Shewhart's pioneering work laid the foundation for using statistical methods to monitor and enhance processes, a concept that would become integral to QI initiatives (24).
In the mid-20th Century, the contributions of Dr. W. Edwards Deming further propelled QI principles forward (7). Dr. Deming emphasized the significance of continuous improvement, active employee engagement, and process variability reduction. His ideas found fertile ground in post-World War II Japan, playing a crucial role in the nation's economic recovery and the emergence of renowned companies like Toyota, famous for its Toyota Production System (TPS), incorporating QI concepts (7).
Until today, QI has become indispensable to healthcare systems worldwide (16). To illustrate, envision a scenario where a hospital grapples with a high readmission rate among heart failure patients. By scrutinizing historical data and implementing evidence-based protocols for post-discharge care, hospitals can effectively lower readmissions, enhance patient outcomes, and potentially evade financial penalties under value-based reimbursement models (16).
Self Quiz
Ask yourself...
- How did the work of Dr. Walter A. Shewhart in the early 20th Century contribute to the foundation of QI, and how do statistical methods continue to play a role in healthcare improvement today?
- What fundamental principles were introduced by Dr. W. Edwards Deming, and how did they influence QI practices in healthcare and other industries?
- Can you provide an example of how QI methodologies, inspired by Deming's principles, have been successfully applied in modern healthcare settings to address specific challenges or improve patient care?
- How has continuous improvement evolved, and why is it considered a cornerstone of QI in healthcare?
Models
At the heart of ongoing transformations in healthcare lies various Quality Improvement (QI) models. These models provide structured frameworks for identifying and addressing areas of improvement within healthcare systems (14). These models offer healthcare professionals a systematic approach to instigate meaningful process changes, ultimately resulting in elevated care quality. See some models below.
Model for Improvement
The Model for Improvement is a widely recognized and highly effective framework for Quality Improvement (QI) in healthcare. This is because it empowers healthcare professionals to systematically test and fine-tune their ideas for process improvement, ensuring that changes are grounded in evidence and proven effective (17).
The Model for Improvement offers a structured and systematic approach to identifying, testing, and implementing changes to enhance healthcare processes and ultimately elevate patient outcomes.
Developed by Associates in Process Improvement (API), this model revolves around the iterative "Plan-Do-Study-Act" (PDSA) cycle, which forms the foundational structure of QI initiatives (17). The Plan-Do-Study-Act (PDSA) cycle is a systematic approach that guides healthcare teams through quality improvement, and it comprises the four key phases below, each contributing to developing and implementing meaningful changes in healthcare practices (12).
- Plan: In this initial phase, healthcare teams define the specific problem they aim to address, set clear and measurable goals, and craft a comprehensive plan for implementing the proposed change. For instance, if a hospital seeks to reduce patient wait times in the emergency department, the plan may involve adjustments to triage protocols or streamlining documentation processes.
- Do: Once the plan is established, the proposed change is implemented, typically on a small scale or within a controlled or pilot environment. This enables healthcare professionals to assess the feasibility and potential impact of the change without making widespread adjustments.
- Study: The study phase involves rigorous data collection and analysis to evaluate the effects of the change. In our example, the hospital would measure the impact of the new triage protocols on wait times, closely examining whether they have decreased as expected.
- Act: Based on the findings from the study phase, the healthcare team makes informed decisions about the change. They may adopt the change if it has successfully reduced wait times, adapt it further for enhanced effectiveness, or, if necessary, abandon it.
The PDSA cycle's iterative nature means adjustments can be made, and the cycle repeats until the desired improvement is achieved (12).
Lean Model
The Lean model, initially conceived in the manufacturing sector, has found considerable success and applicability in healthcare as a potent tool for process enhancement and waste reduction (22). At its core, Lean thinking revolves around the principles of efficiency and value optimization because it focuses on refining processes to eliminate wasteful elements while simultaneously delivering care of the highest quality (22).
Healthcare organizations have adopted Lean methodologies to tackle many challenges, from reducing patient wait times to improving inventory management and elevating overall patient satisfaction (22). For instance, when a hospital is challenged with prolonged wait times in its outpatient clinic, it can apply Lean principles to systematically analyze the patient flow, pinpoint bottlenecks, and streamline processes.
This might involve reconfiguring furniture to enhance flow, adjusting appointment scheduling, or implementing standardized work procedures. The ultimate objective is to cultivate a patient-centric, efficient environment that ensures timely access to care while meticulously conserving time and resources.
Another integral aspect of Lean thinking is the unwavering commitment to continuous improvement and the pursuit of perfection through the systematic identification and eradication of various forms of waste (19). The forms of waste are often categorized into seven types: overproduction, waiting, unnecessary transportation, overprocessing, excess inventory, motion, and defects (19). By keenly identifying and addressing these forms of waste, healthcare organizations not only enhance the utilization of resources but also curtail costs and elevate the overall quality of care delivery.
Six Sigma model
The Six Sigma model is a robust and widely adopted healthcare method for improving processes and reducing mistakes (9). It was first used in manufacturing but is now used in healthcare to make processes more consistent and improved by finding and fixing mistakes and inefficiencies (9).
An example is when a hospital is concerned about the accuracy of medication dosing for pediatric patients, a Six Sigma team might include: indicating the problem, gathering data on mistakes regarding dosing, and finding out why the mistakes happened. The strategy may encompass the implementation of standardized dosing protocols, refining staff training programs, and closely monitoring the medication administration process to ensure that mistakes are eliminated.
Six Sigma uses a framework called DMAIC (Define, Measure, Analyze, Improve, Control) to make improvements. This framework utilizes data-driven tools to discern problems, quantify their origins, develop practical solutions, and institute control mechanisms to sustain improvements (11). Through this systematic journey, healthcare organizations position themselves to deliver care of elevated quality, curtail costs, and bolster patient safety.
TeamSTEPPS model
TeamSTEPPS, which stands for Team Strategies and Tools to Enhance Performance and Patient Safety, is a teamwork and communication model designed explicitly for healthcare settings (4). Developed by the U.S. Department of Defense and the Agency for Healthcare Research and Quality (AHRQ), TeamSTEPPS focuses on improving patient safety by enhancing team collaboration, communication, and decision-making among healthcare professionals (4).
One key element of TeamSTEPPS is using structured communication techniques to prevent errors and misunderstandings. For instance, during patient handoffs from one healthcare provider to another, TeamSTEPPS emphasizes using a structured tool like SBAR (Situation, Background, Assessment, Recommendation) to convey critical information succinctly and accurately. This ensures that essential patient details are noticed, reducing the risk of adverse events (18).
In a surgical team scenario, TeamSTEPPS principles can be applied to improve teamwork and communication among surgeons, nurses, and anesthesiologists. The model encourages briefings before procedures to set clear objectives, huddles during surgery to address emerging issues, and debriefings afterward to reflect on the process and identify areas for improvement. By fostering a culture of open communication and mutual respect, TeamSTEPPS contributes to safer, more efficient healthcare delivery (4).
Self Quiz
Ask yourself...
- How can healthcare organizations determine which QI model suits their specific challenges or improvement goals?
- How do QI models emphasize data collection and analysis, and why is this critical in healthcare?
- Can you imagine a real-world scenario where the Lean Six Sigma framework can successfully improve healthcare processes and outcomes?
- What are some emerging trends or innovations in QI models and methodologies, and how might they shape the future of healthcare quality improvement?
IOM Six Domains of Patient Care
The Institute of Medicine (IOM), now known as the National Academy of Medicine, introduced the Six Domains of Quality in Healthcare as a framework to assess and improve the quality of patient care (14). These domains, introduced in 2001, encompass various aspects of care delivery and patient experience, helping healthcare organizations and providers identify areas for improvement (14). The domains serve as pillars for assessing the different dimensions of care delivery, ensuring that healthcare organizations and providers address the holistic needs of patients (14).
Definitions
The Six Domains of Patient Care are essential for providing high-quality healthcare. See definitions of each of the IOM's six domains of patient care below.
- Safe: Safety is the foundational domain, emphasizing the importance of reducing the risk of patient harm. This includes preventing medical errors, preventing infections, and ensuring the safe administration of medications. Healthcare organizations implement safety protocols and engage in continuous monitoring to minimize risks (14).
- Effective: Effective care ensures that patients receive evidence-based treatments and interventions that result in the desired outcomes. It involves using the best available scientific knowledge to make informed decisions about patient care avoiding unnecessary or ineffective treatments (14).
- Patient-Centered: Patient-centered care focuses on individualizing healthcare to meet each patient's unique needs and preferences. It involves respecting patients' values and preferences, engaging them in shared decision-making, and delivering care with empathy and compassion (14).
- Timely: Timely care emphasizes reducing delays in healthcare delivery. It includes providing care promptly and avoiding unnecessary waiting times for appointments, tests, and treatments. Timely care is especially critical in emergencies (14).
- Efficient: Efficiency in healthcare means maximizing resource utilization and minimizing waste while providing high-quality care. This domain emphasizes streamlining processes, reducing unnecessary costs, and optimizing healthcare resources (14).
- Equitable: Equitable care underscores the importance of providing healthcare that is fair and just, regardless of a patient's background, socioeconomic status, or other factors. It aims to eliminate healthcare access and outcomes disparities among different patient populations (14).
Measures
Measures in the context of the Institute of Medicine (IOM) six domains of patient care refer to the metrics and indicators used to assess and evaluate the quality of care provided in each domain. According to (14), the measures below are essential for monitoring and improving healthcare services. See details below.
- The "Safe" domain measures focus on tracking and reducing adverse events and medical errors. Key indicators include rates of medication errors, hospital-acquired infections, falls, and complications from procedures. Safety measures also assess the implementation of safety protocols, such as hand hygiene compliance and patient identification bracelets.
- Measures in the "Effective" domain assess how evidence-based practices and treatments are utilized. These measures include adherence to clinical guidelines, appropriate use of medications, and the success rates of medical interventions. Additionally, outcomes such as patient recovery, remission, or improvement are indicators of the effectiveness of care.
- The "Patient-Centered" domain focuses on assessing the patient’s experience and satisfaction with care. Patient surveys and feedback are standard measures, evaluating aspects like communication with healthcare providers, involvement in decision-making, and overall satisfaction with the care received. Healthcare organizations also measure shared decision-making and respect for patient preferences.
- Measures related to the "Timely" domain evaluate the efficiency of healthcare delivery. Key metrics include waiting times for appointments, diagnostic tests, and procedures. Additionally, measures track the timely delivery of urgent care and the avoidance of unnecessary delays in treatment.
- Efficiency measures aim to quantify resource utilization and the reduction of waste in healthcare. Metrics may include the cost of care per patient, length of hospital stays, and resource allocation efficiency. Improvement in resource utilization and cost-effectiveness are vital indicators of efficiency.
- Measures within the "Equitable" domain assess disparities in healthcare access and outcomes among different patient populations. Healthcare utilization and outcomes data are stratified by demographics, socioeconomic status, race, and ethnicity to identify and address inequities. Key indicators include access to preventive care, healthcare utilization rates, and health outcomes across various demographic groups.
Self Quiz
Ask yourself...
- How can healthcare providers ensure their care aligns with patients' values, preferences, and cultural backgrounds?
- What challenges might patients face in accessing healthcare services, and how can healthcare organizations improve access for all patients?
- What are the potential consequences of poor care coordination among healthcare providers, and how can interdisciplinary teams work together to enhance coordination?
- Why must healthcare organizations continually assess and improve the quality of care they provide, and what mechanisms can be implemented to support ongoing improvement efforts?
Nursing Quality Indicators
According to (5), nursing quality indicators are essential metrics used to evaluate and improve the quality of nursing care in healthcare settings. These indicators provide valuable insights into nursing practice and patient outcomes, helping healthcare organizations and nursing staff deliver safe, effective, patient-centered care. Let's delve into some key nursing quality indicators and their significance below.
Patient Falls
Patient falls are a critical quality indicator in nursing care since they can result in severe injuries and complications for patients (5). As a result, healthcare organizations measure and monitor the rate of patient falls to identify trends and implement preventive measures.
For example, when a hospital notices an increase in the rate of falls among elderly patients in a particular unit, they may introduce interventions such as nonslip flooring, improved lighting, and patient education as fall prevention strategies to reduce the incidence of falls.
Medication Administration Errors
Ensuring accurate medication administration is crucial in nursing practice because medication errors can lead to adverse events, including patient harm or death (5). Nursing quality indicators related to medication administration errors include the rate of medication errors and adherence to medication reconciliation processes (5). For instance, nurses are encouraged to verify patient allergies and cross-check medication orders to prevent errors. If there is an increase in medication errors in a healthcare facility, it may prompt a review of medication administration protocols and additional staff training.
Pressure Ulcers (Bedsores)
Pressure ulcers are a quality indicator of patient skin integrity since they develop when patients remain immobile for extended periods (5). As a result, healthcare organizations measure the incidence and prevalence of pressure ulcers as an indicator of the quality of nursing care (5).
Patient Satisfaction
Patient satisfaction is a patient-centered nursing quality indicator since it reflects the overall patient experience and perception of care (5). Surveys and feedback mechanisms are used to measure patient satisfaction. For example, a scenario might involve patients receiving post-discharge surveys that assess various aspects of their hospital experience, including nurse responsiveness, communication, and pain management. Healthcare organizations can use this feedback to identify areas for improvement and enhance patient-centered care.
In summary, nursing quality indicators encompass a range of metrics that evaluate nursing care quality, patient safety, and patient experiences. By monitoring and responding to these indicators, healthcare organizations and nursing staff can continuously improve their quality of care, leading to better outcomes and increased patient satisfaction (5).
Self Quiz
Ask yourself...
- Why is data collection critical in nursing quality improvement efforts?
- What types of data should nurses prioritize collecting to assess patient safety?
- How can nurses ensure the accuracy and reliability of the data they collect for quality improvement purposes?
- What challenges might nurse face when collecting patient-related data, and how can these challenges be overcome?
Data Collection
Quality improvement data collection is a critical component of healthcare quality initiatives, providing the necessary information to assess the current state of care, identify areas for improvement, and monitor progress over time (2). Accurate and meaningful data collection enables healthcare organizations to make informed decisions, implement evidence-based interventions, and ultimately enhance patient outcomes. Let's explore the methods of data collection below.
- Clinical Outcome Collection: Clinical outcome data collection is essential for assessing the effectiveness of healthcare interventions (2). For example, consider a scenario where a hospital is implementing a quality improvement project to reduce surgical site infections (SSIs) following orthopedic surgeries. Data collection would involve tracking the number of SSIs occurring over a specific period and collecting information on patient characteristics, surgical techniques, and post-operative care protocols. By analyzing this data, the healthcare team can identify trends, risk factors, and areas for improvement, ultimately leading to targeted interventions to reduce SSIs.
- Patient Satisfaction Survey Data Collection: Patient satisfaction surveys are valuable tools for collecting data on patient experience (2). A primary care clinic that aims to improve patient satisfaction may administer surveys to patients after each visit, asking about aspects of care such as communication with healthcare providers, wait times, and overall experience. The collected data can reveal areas of strength and areas requiring improvement. For instance, if survey results consistently indicate longer-than-desired wait times, the clinic can adjust scheduling practices or implement strategies to reduce wait times and enhance patient satisfaction.
- Process Measures Data Collection: Process measure data collection focuses on evaluating the efficiency and effectiveness of healthcare processes (2). For instance, in a medication reconciliation scenario, a healthcare organization might collect data on the accuracy and completeness of medication lists during care transitions. By tracking the frequency of medication reconciliation discrepancies, they can identify process inefficiencies and implement standardized protocols for reconciliation, leading to safer care transitions and reduced medication errors.
- Adverse Event Reporting Data Collection: Adverse event reporting is a crucial mechanism for collecting data on incidents that result in patient harm or near misses (2). For example, consider a scenario where a nurse administers the wrong medication dose to a patient but catches the error before any harm occurs. Reporting this near-miss event allows the healthcare organization to investigate the root causes, implement preventive measures, and share lessons learned with the care team to prevent similar incidents in the future.
Types of Data
Data types play a crucial role in understanding the current state of care, identifying areas for improvement, and implementing evidence-based interventions (2). Let’s explore the different types of data used in quality improvement below.
- Quantitative Data: Quantitative data involves numerical measurements and is particularly useful for assessing the frequency and extent of specific events or outcomes (2). For instance, in a hospital's quality improvement project focused on reducing hospital-acquired infections, the team collects quantitative data on the number of infections over time, allowing them to track trends and measure the impact of interventions, such as hand hygiene protocols or disinfection practices.
- Qualitative Data: Qualitative data provides insights into the "why" and "how" behind healthcare processes and patient experiences (2). This data type is collected through interviews, focus groups, and open-ended surveys. For example, in a primary care setting aiming to improve patient satisfaction, qualitative data may be collected through patient interviews to gather in-depth information about their perceptions of care. Qualitative data can uncover nuances and provide valuable context to complement quantitative findings (2).
- Patient-Reported Data: Patient-reported data includes information directly provided by patients about their health, symptoms, experiences, and preferences. Patient-reported outcome measures (PROMs) and patient-reported experience measures (PREMs) are standard data collection tools. In a scenario involving chronic disease management, patients with diabetes may be asked to complete a PROM assessing their quality of life and symptom management. This data helps healthcare providers tailor care plans to individual patient needs and preferences (2).
- Process Data: Process data track the steps and activities involved in healthcare delivery to help assess the efficiency and effectiveness of care processes. For example, in a surgical quality improvement initiative, process data may include the time from patient admission to surgery, surgical team checklist completion, and adherence to anesthesia protocols. By collecting and analyzing process data, healthcare organizations can identify bottlenecks and areas for improvement in care delivery processes.
In summary, quality improvement data collection relies on various data types, including quantitative, qualitative, patient-reported, and processed data. Each data type contributes to a comprehensive understanding of healthcare quality and supports evidence-based decision-making to enhance patient care and outcomes.
Identification Stage
The identification stage for quality improvement data collection is a critical initial phase where healthcare organizations and teams define what data to collect, why it is relevant, and how it aligns with their quality improvement goals (23). This stage is essential for ensuring meaningful data collection efforts will lead to actionable insights. Let's explore the identification stage in more detail.
- Defining Objectives and Goals: During this stage, healthcare organizations must clearly define the objectives and goals of their quality improvement initiative (23). For instance, a hospital aiming to reduce readmission rates for heart failure patients may set a specific goal of reducing readmissions by 20% within the following year.
- Selecting Relevant Metrics: Identifying the right metrics and data points is crucial, and organizations should choose metrics that directly relate to their quality improvement goals (23). Continuing with the example of reducing heart failure readmissions, relevant metrics might include the number of heart failure patients readmitted within 30 days, the reasons for readmission, and patient characteristics. By selecting these metrics, the organization ensures that data collection efforts are aligned with their specific improvement goal.
- Determining Data Sources: Healthcare organizations must identify where the necessary data will be sourced (23). This may involve looking at electronic health records, claims data, patient surveys, or other sources. For instance, to collect data on heart failure readmissions, the hospital may extract relevant information from electronic health records, including admission and discharge dates, diagnosis codes, and patient demographics.
- Creating Data Collection Protocols: Establishing clear data collection protocols is essential for consistency and reliability (23). Healthcare teams should define how data will be collected, who will be responsible for data collection, and the frequency of data collection. For example, in a hospital project aiming to improve hand hygiene compliance, data collection protocols might specify that trained observers will monitor hand hygiene practices at random intervals and record their findings on standardized forms.
By carefully navigating the identification stage, healthcare organizations ensure that their quality improvement data collection efforts are purposeful and aligned with their goals. This sets the stage for collecting meaningful data to drive evidence-based decisions and interventions to enhance healthcare quality.
Gathering Stage
The gathering stage of quality improvement data collection is crucial for healthcare organizations to collect the identified data based on their quality improvement objectives and goals (23). This stage involves systematically collecting data from various sources and often requires careful planning and coordination to ensure data accuracy and completeness. Let's delve into the gathering stage in detail below.
- Data Collection Methods: To gather data, healthcare organizations must determine the most suitable methods for collecting the identified data, which may involve a combination of electronic health records, patient surveys, direct observations, and administrative databases (23). For example, in a quality improvement project aimed at reducing hospital readmissions, data may be collected by reviewing electronic health records to track patient outcomes, conducting patient surveys to gather feedback on discharge instructions, and analyzing administrative data to identify trends in readmission rates.
- Ensuring Data Accuracy and Consistency: Data accuracy is critical in the gathering stage, and organizations must implement procedures to collect data consistently and without errors (23). For instance, if a healthcare facility is collecting data on medication administration, nurses may use standardized protocols to accurately record medication administration times and doses. Regular training and quality checks may also be implemented to maintain data accuracy.
- Timely Data Collection: Timeliness is another important aspect of the gathering stage, and data should be collected promptly to ensure it is current and relevant for analysis and decision-making (23). In a scenario involving tracking patient outcomes, healthcare teams may set specific intervals for data collection, such as collecting post-surgical complication data daily or weekly, depending on the project's requirements.
- Data Security and Privacy: Protecting patient data is a paramount concern in healthcare. As a result, healthcare organizations must adhere to strict privacy and security protocols during the gathering stage to ensure that patient information is handled confidentially and complies with applicable laws and regulations, such as the Health Insurance Portability and Accountability Act (HIPAA) (23). For example, when collecting patient-reported data, organizations may anonymize responses to protect patient identities and comply with privacy regulations.
By effectively managing the gathering stage, healthcare organizations can ensure that they collect accurate, timely, and secure data that will serve as the foundation for subsequent analysis and quality improvement efforts.
Analysis stage
The analysis stage for quality improvement data collection is a critical phase where collected data is processed, examined, and transformed into actionable insights. This stage involves various analytical techniques and tools to identify patterns, trends, and areas for improvement (2). Let's explore the analysis stage in detail below.
- Descriptive Analysis: Descriptive analysis is the initial step in data analysis, focusing on summarizing and presenting data meaningfully (2). For example, in a quality improvement project aimed at reducing patient wait times in an emergency department, an analysis may involve calculating and displaying key statistics, such as average wait times, 95th percentile wait times, and the distribution of wait times (2). These descriptive statistics provide an overview of the current situation and help identify areas that need attention.
- Root Cause Analysis (RCA): Root cause analysis is a critical aspect of the analysis stage, as it helps pinpoint the underlying causes of issues or problems (2). In our scenario, if the analysis reveals prolonged wait times in the emergency department, RCA may involve a thorough investigation into the factors contributing to the delays. Potential root causes include staffing shortages, inefficient triage processes, or bottlenecks in diagnostic testing. Identifying these root causes is essential for developing effective interventions.
- Statistical Analysis: Statistical analysis plays a vital role in quality improvement by examining the relationships between variables and testing hypotheses (2). In reducing hospital readmissions, statistical analysis may be used to identify factors associated with readmission risk. For example, healthcare teams can use logistic regression to analyze patient data to determine which variables, such as comorbidities or medication adherence, are statistically significant predictors of readmission risk. This information can guide the development of targeted interventions for at-risk patients.
- Benchmarking: Benchmarking involves comparing an organization's performance data with industry standards or best practices to identify performance gaps (2). When a hospital is looking to improve patient satisfaction, benchmarking may involve comparing its patient satisfaction scores to those of similar hospitals or national averages. Identifying areas where the hospital falls behind benchmarks can inform strategies for improvement, such as implementing best practices from higher-performing institutions.
The analysis stage is critical for transforming raw data into actionable insights and understanding healthcare quality factors (2). Through descriptive analysis, root cause analysis, statistical techniques, and benchmarking, healthcare organizations can gain valuable insights that drive evidence-based decisions and interventions to improve care quality (6).
Benchmarking
The benchmarking stage in quality improvement data collection is a crucial phase where healthcare organizations compare their performance against established benchmarks or best practices (1). This gives healthcare organizations a clear understanding of their position relative to recognized standards and allows them to effectively identify areas for improvement, prioritize, and focus their improvement efforts (5). Let's delve into the benchmarking stage in detail below.
- Defining Benchmarks: In the benchmarking stage, healthcare organizations must define the benchmarks or standards against which they will measure their performance. These benchmarks can be internal (comparing current performance to historical data) or external (comparing to industry standards, best practices, or similar organizations) (1). For example, a primary care clinic seeking to improve appointment scheduling efficiency may choose to benchmark its appointment wait times against industry benchmarks for acceptable wait times.
- Collecting Comparative Data: Gathering data that allows for a meaningful comparison is critical in benchmarking, so healthcare organizations must collect data from relevant sources to measure their performance against the chosen benchmarks (1). Continuing with the appointment scheduling example, the clinic may collect data on the time it takes to schedule an appointment, the number of scheduling errors, and patient feedback. This data is then compared to industry benchmarks or best practices.
- Identifying Performance Gaps: The benchmarking process reveals gaps or disparities between an organization's performance and the benchmarks to highlight improvement areas (1). For instance, if the clinic discovers that its appointment wait times are significantly longer than industry benchmarks, this identifies a performance gap that needs to be addressed to enhance patient access and satisfaction.
- Developing Improvement Strategies: Healthcare organizations can develop targeted improvement strategies once performance gaps are identified. These strategies are based on evidence from the benchmarking process and aim to align performance with or exceed established benchmarks (1). In our scenario, the clinic may implement strategies such as optimizing appointment scheduling processes, enhancing staff training, or using technology to improve scheduling efficiency.
Self Quiz
Ask yourself...
- Why is data collection a crucial step in the quality improvement process?
- What types of data are typically collected during the data collection stage of quality improvement?
- How do you determine which data points are relevant to your quality improvement project?
- What methods and tools can be used to collect data accurately and efficiently?
Change Models in Healthcare
Change models are essential frameworks used in healthcare, including nursing, to guide and manage the effective implementation of quality improvement initiatives (15). These models offer structured approaches to initiate, plan, execute, and sustain changes in healthcare practice (15). Let’s discuss some prominent change models used in nursing quality improvement below.
- Kotter's 8-Step Change Model: Developed by Dr. John Kotter, this model emphasizes the importance of creating a sense of urgency, building a guiding coalition, and sustaining the change (15). For instance, in a nursing scenario focused on reducing hospital-acquired infections, the 8-step model would involve creating urgency by highlighting the impact of infections on patient safety, assembling a coalition of nurses and infection control specialists, and sustaining change by monitoring infection rates over time and continually reinforcing hygiene protocols.
- Lewin's Change Management Model: Lewin's model consists of three stages: unfreezing, changing, and refreezing (15). Let's consider implementing a new electronic health record (EHR) system in nursing. Nurses first "unfreeze" by acknowledging the need for a new system and undergoing training. Then, they "change" by adopting the EHR and adjusting workflows. Finally, they "refreeze" by becoming proficient and maintaining the new system's use as a standard practice.
- PDSA Cycle (Plan-Do-Study-Act): This model emphasizes iterative cycles of planning, implementing, observing, and adjusting (15). For instance, if a nursing unit aims to improve patient handoffs, they might "plan" by identifying handoff best practices, "do" by implementing changes, "study" by assessing the impact on patient outcomes, and "act" by making further refinements based on their findings. This continuous cycle allows for gradual, data-driven improvements.
- ADKAR Model: The ADKAR model focuses on individual change management, and this could apply to a scenario where nurses are adopting new pain management protocols (15). Nurses would first need awareness of the change (A), followed by desire (D) to participate, knowledge (K) of how to implement the new protocols, ability (A) to do so, and reinforcement (R) to sustain the change over time.
In summary, change models provide structured approaches to drive quality improvement initiatives in nursing, and by applying these models, nurses and healthcare organizations can systematically plan, implement, and evaluate changes to enhance patient care, safety, and outcomes (15).
Self Quiz
Ask yourself...
- Why are change models essential in nursing quality improvement initiatives?
- What is the primary purpose of creating a sense of urgency in change models like Kotter's 8-Step model?
- How does Lewin's Change Management Model address the need to "unfreeze" existing practices in nursing before implementing change?
- Why is individual change management crucial in nursing practice, as the ADKAR model emphasizes?
Implementing Change
Implementing changes for quality improvement in nursing is a multifaceted process that requires careful planning, effective communication, and the engagement of healthcare professionals at all levels. According to (15), successful implementation ensures that desired changes are integrated into daily nursing practice, improving patient outcomes. Let’s explore key strategies and considerations for implementing changes in nursing quality improvement below.
- Engage Interdisciplinary Teams: According to (15), collaborative engagement is crucial when implementing changes in nursing practice, and healthcare organizations should assemble interdisciplinary teams that include nurses, physicians, administrators, and other stakeholders. For example, in a scenario involving the adoption of a new pain management protocol, nurses can collaborate with physicians to ensure the consistent application of evidence-based pain management practices. This team approach facilitates a shared understanding of the change and fosters buy-in from all parties.
- Effective Communication: Clear and consistent communication is essential during the implementation phase, so nurses should communicate the rationale behind the change, its expected benefits, and the specific steps involved (15). For example, suppose a hospital is transitioning to a new electronic health record system. In that case, nurses can attend training sessions to understand its features and communicate effectively with patients about how it will enhance their care. This ensures that all stakeholders are informed and can adapt to the change seamlessly.
- Training and Education: Providing adequate training and education is critical to equip nursing staff with the knowledge and skills to implement the change effectively (15). In the case of introducing a new wound care protocol, nurses would require training on the updated practices, wound assessment techniques, and the use of new wound care products. In addition to initial training, ongoing education would ensure that nursing staff stay current with best practices to provide quality care confidently.
- Continuous Monitoring and Feedback: According to (15), implementing change is an ongoing process that requires constant monitoring and feedback since feedback mechanisms allow for adjustments and refinements to the change process. As a result, nursing quality improvement initiatives benefit from the regular collection and analysis of data to assess the impact of the change. For example, suppose a hospital introduces a sepsis screening tool. In that case, nurses can track the number of patients screened, identify missed cases, and evaluate whether early interventions have reduced sepsis-related mortality rates. By engaging interdisciplinary teams, fostering effective communication, providing training and education, and implementing continuous monitoring and feedback mechanisms, nurses can successfully implement changes that improve the quality of patient care and enhance overall healthcare outcomes (8).
Self Quiz
Ask yourself...
- Why is it crucial for nursing teams to engage in interdisciplinary collaboration when implementing changes for quality improvement?
- How can effective communication strategies help nursing staff understand the purpose and benefits of a proposed change in healthcare practice?
- What role does ongoing training and education play in ensuring that nursing staff are well-prepared to implement and sustain changes in their practice?
- What methods can be employed to gather feedback from nursing staff while implementing a new practice or protocol?
Evaluating Change
Evaluating change for quality improvement in nursing is a critical phase that involves assessing the impact and effectiveness of implemented changes on patient care outcomes, safety, and the overall quality of healthcare services. According to (15), rigorous evaluation ensures that improvements are sustained, and necessary adjustments are made. Let’s explore key strategies and considerations for evaluating changes in nursing quality improvement below.
- Establishing Clear Evaluation Metrics: To evaluate change effectively, it is essential to define clear and measurable evaluation metrics, and according to (15), these metrics should align with the specific objectives of the change initiative. For example, suppose a nursing unit has introduced a new hand hygiene protocol to reduce hospital-acquired infections. In that case, evaluation metrics may include the number of infections before and after the change, adherence to hand hygiene guidelines, and patient satisfaction scores related to cleanliness and infection prevention.
- Data Collection and Analysis: Data collection is a fundamental component of the evaluation process, and nursing teams should collect relevant data using standardized methods and tools (15). In our scenario, data on infection rates can be collected regularly, and statistical analysis can be performed to determine whether the change has had a statistically significant impact. Nurses can then use run charts or control charts to visualize trends in infection rates over time, allowing for early detection of any potential issues.
- Patient and Staff Feedback: Patient and nursing staff feedback is invaluable in evaluating change since patients' perspectives on the quality of care and their experiences following the change can provide insights into the initiative's effectiveness (15). Additionally, nursing staff can provide feedback on the practicality and feasibility of the new practices. For instance, nursing staff may suggest further improvements in infection control procedures.
- Sustainability and Continuous Improvement: Evaluating change is not solely about assessing immediate outcomes but also ensuring sustainability and continuous improvement. According to (15), nursing teams should determine whether the positive effects of the change are maintained over time and whether there is room for further refinement. For example, when a nursing unit has reduced infection rates, regular audits and monitoring should continue to ensure sustained compliance with hygiene protocols.
Self Quiz
Ask yourself...
- Why must nursing teams establish clear and measurable evaluation metrics when assessing the impact of change in healthcare practice?
- How can nurses effectively collect and analyze data to evaluate the success of a change in their nursing practice?
- What role does patient feedback play in evaluating the impact of a change on the quality of nursing care, and how can this feedback be gathered and utilized?
- How can nursing staff engage in ongoing self-assessment to determine their practice changes' effectiveness and identify improvement areas?
Self Quiz
Ask yourself...
- What specific infection prevention measures should nurses prioritize in their daily practice to reduce hospital-acquired infections, and why are these measures effective?
- What are the primary goals of a quality improvement project to reduce hospital-acquired infections, and how can nursing staff contribute to achieving these goals?
- Why is continuous monitoring and evaluation crucial in quality improvement projects, and how can nursing staff use data to drive ongoing improvements in patient care quality?
- Enhancing Medication Safety: Medication errors can have severe consequences for patients (6). A quality improvement project may target medication safety by introducing barcode scanning systems for medication administration, implementing double-check procedures for high-risk medications, and providing ongoing training to nursing staff. The project's effectiveness can be assessed by monitoring the number of medication errors reported and verifying that the new safety measures reduce the occurrence of such errors. For example, a nursing team could reduce the incidence of wrong-patient medication administration by implementing barcode scanning during medication administration.
Self Quiz
Ask yourself...
- How can nurses ensure that barcode scanning systems and double-check procedures are effectively integrated into their daily workflow in medication safety improvement projects?
- What potential challenges and barriers can nurse units encounter when implementing medication safety improvements, and how can these challenges be addressed?
- Improving Nurse-to-Patient Ratios: Adequate nurse staffing levels are crucial for patient safety and quality of care (6). A quality improvement project may involve adjusting nurse-to-patient ratios based on patient acuity levels, introducing workload management tools, and conducting regular staffing needs assessments. In this case, the project's success can be measured by tracking patient outcomes, nurse workload, and patient satisfaction scores. For example, a nursing unit could reduce nurse burnout and improve patient care by optimizing staffing ratios during peak hours.
Self Quiz
Ask yourself...
- Why is it important to regularly assess and adjust nurse-to-patient ratios in a healthcare setting, and what strategies can nurse leaders employ to optimize staffing levels?
- In a quality improvement project focused on nurse-to-patient ratios, what key factors should nurse leaders consider when determining staffing needs during different shifts and patient acuity levels?
- Enhancing Discharge Planning and Care Transitions: Effective care transitions from the hospital to home or other healthcare settings are essential to preventing readmissions and ensuring continuity of care (6). A quality improvement project may focus on improving the discharge planning process, including patient education, medication reconciliation, and post-discharge follow-up. Success can be assessed by monitoring readmission rates and patient-reported experiences. For example, a nursing team could work on reducing hospital readmissions by ensuring that patients receive thorough discharge instructions and have access to follow-up care.
Self Quiz
Ask yourself...
- What steps can nurse teams take to enhance the discharge planning process and ensure seamless care transitions for patients moving from the hospital to home care?
- What strategies can nurse teams employ to ensure that patient education during discharge planning is effective and leads to better patient outcomes and satisfaction?
The above examples illustrate the diverse range of quality improvement projects in nursing, each addressing specific challenges to enhance patient safety and care quality.
Self Quiz
Ask yourself...
- Why is continuous monitoring and evaluation crucial in quality improvement projects, and how can nursing staff use data to drive ongoing improvements in patient care quality?
- What are the primary goals and objectives of QI models, and how do they contribute to the overall quality of healthcare?
Conclusion
In conclusion, this course provides essential knowledge and skills valuable for nurses aiming to deliver high-quality, safe, patient-centered care. Quality improvement in nursing is not merely a theoretical concept but a practical approach that can be applied to various aspects of healthcare, and one critical aspect to remember is the importance of interdisciplinary collaboration. As frontline caregivers, nurses must collaborate with physicians, administrators, pharmacists, and other healthcare professionals to drive improvements in healthcare delivery.
As nurses continue to play a pivotal role in healthcare delivery, the knowledge and skills gained from this course will empower them to lead and actively participate in quality improvement initiatives. By applying quality improvement principles, nurses can contribute to better patient experiences, patient outcomes, and overall healthcare quality.
Final Reflection Questions
- What have you learned from this course?
- Why is interdisciplinary collaboration essential for nurses to effectively implement quality improvement initiatives in healthcare settings, and how can nurses foster collaboration among healthcare professionals?
- How does the concept of continuous learning and adaptation align with the dynamic nature of healthcare, and what strategies can nurses employ to stay current with evolving best practices and guidelines?
- In what ways does Quality Improvement benefit both healthcare providers and patients?
- What are the potential challenges in implementing QI initiatives in a healthcare organization?
- In what ways has QI in healthcare become intertwined with the broader goals of healthcare reform, such as improving patient outcomes and reducing healthcare costs?
- What role does leadership play in the effective implementation of QI models?
- How can leaders promote a culture of continuous improvement within healthcare organizations?
- How do QI models facilitate interdisciplinary collaboration among healthcare professionals to drive improvements in patient care?
- What challenges might healthcare organizations face when attempting to adopt and sustain QI models, and how can these challenges be overcome?
- How does the "testing and learning" concept in the PDSA cycle align with the principles of evidence-based practice in healthcare?
- In what ways do QI models promote patient-centered care and patient safety, and can you provide examples of tangible improvements in these areas achieved through QI initiatives?
- How can the Six Sigma model contribute to the reliability and consistency of healthcare processes?
- Safe: What steps can healthcare organizations take to minimize the risk of medical errors and adverse events?
- Practical: How do healthcare providers ensure that evidence-based treatments and interventions lead to positive patient outcomes?
- Patient-centered: Why is it important to involve patients in their care decisions, and how can healthcare professionals effectively engage patients in the decision-making process?
- Timely: What are some key factors contributing to delays in healthcare delivery, and how can these delays be reduced to improve timeliness?
- Efficient: How can healthcare processes and workflows be streamlined to enhance efficiency and reduce waste?
- Equitable: What are some barriers to achieving healthcare equity, and how can healthcare organizations address these disparities?
- How can nurses actively involve patients in data collection to enhance patient-centered care?
- What tools or technologies are available to streamline data collection processes in nursing practice?
- How can nurses effectively collaborate with interdisciplinary teams to gather comprehensive data for quality improvement initiatives?
- What strategies can nurses employ to maintain patient privacy and confidentiality while collecting sensitive healthcare data?
- What methods can nurse use to analyze and interpret the data they collect to identify areas for improvement?
- Why must nurses regularly review and assess the data they collect to drive continuous quality improvement in healthcare settings?
- Regarding patient falls, what strategies can healthcare organizations implement to reduce the incidence of patient falls, and how can nursing staff actively contribute to fall prevention efforts?
- How can nurses ensure the accurate and safe administration of medications, and what measures can be taken to minimize medication errors?
- What are the key nursing practices and interventions that can prevent the development of pressure ulcers in hospitalized patients, and how can nursing staff collaborate to achieve this goal?
- Why is patient satisfaction an important nursing quality indicator, and what actions can nurses take to enhance the overall patient experience?
- What impact do nurse-to-patient staffing ratios have on the quality of nursing care, and how can healthcare organizations ensure safe nurse staffing levels?
- How can nurses enhance patient education to promote better understanding and self-management of their health conditions?
- How can you ensure that the data collected is reliable and valid?
- What role does standardization play in data collection for quality improvement?
- How can you establish baseline data for comparison in your quality improvement project?
- What challenges or obstacles might you encounter when collecting data for quality improvement?
- How frequently should data be collected to monitor progress in a quality improvement project?
- How can you involve frontline staff in the data collection to ensure accuracy?
- What measures can be taken to protect patient privacy and confidentiality during data collection?
- How can you analyze the data collected to identify trends or patterns?
- What actions should be taken if the data collected indicates a problem or deviation from the desired outcome?
- What strategies can ensure that data collection remains an ongoing and sustainable practice in healthcare quality improvement efforts?
- What are the potential challenges or resistance nurses might encounter when implementing changes using these models?
- How can a guiding coalition or interdisciplinary team be effectively assembled to support nursing quality improvement efforts?
- What strategies can nurses employ to sustain changes and prevent reverting to previous practices once implemented?
- How can nursing leaders ensure that staff have the necessary knowledge and skills to embrace the changes outlined in these models?
- How can nurses use these change models to promote a culture of continuous improvement in healthcare settings?
- How can nurses ensure their implementation changes align with evidence-based best practices and clinical guidelines?
- What potential challenges or barriers might nurse teams encounter when trying to implement changes for quality improvement?
- What strategies can address resistance to change among nursing staff and promote their active participation in the implementation process?
- How can nursing leaders effectively communicate the expected outcomes and benefits of the change to gain support and commitment from their teams?
- What are the advantages of using data and performance metrics to monitor the progress and impact of change implementation in nursing practice?
- How can nursing staff ensure that changes are sustained and become integral to their daily practice rather than temporary modifications?
- Why is it crucial to consider the sustainability of change when evaluating its long-term impact on nursing quality improvement?
- What challenges or obstacles might nurse teams encounter when collecting and analyzing data for change evaluation, and how can these challenges be addressed?
- How can nursing leaders encourage a culture of continuous improvement among their teams as part of the change evaluation process?
- What strategies can be employed to ensure that the feedback and insights gathered during the evaluation phase are actively used to refine and optimize nursing practices?
- What are the potential consequences of not conducting thorough and systematic evaluations of changes in nursing practice for quality improvement?
- How can nursing staff and healthcare organizations ensure that the lessons learned from change evaluations are applied to future improvement initiatives to enhance patient care outcomes?
Workplace Violence Against Nurses
Introduction
The role of the registered nurse, while fundamentally dedicated to the care and wellbeing of patients, has long been fraught with challenges that extend beyond the complexities of medical care. One such pressing concern is workplace violence, an issue that nurses confront with alarming frequency. Recent statistics show that healthcare workers, particularly nurses, are at a higher risk for workplace violence compared to other professions.
Given the vital role nurses play in patient care and the broader healthcare system, it is imperative to understand the scope, sources, and solutions to this pressing issue. This continuing education course is dedicated to arming nurses with the knowledge, tools, and strategies to recognize, respond to, and prevent incidents of workplace violence, thereby ensuring their safety and the uninterrupted provision of quality care.
Workplace Violence
Definitions
The Occupational and Safety Health Administration (OSHA) (3) defines workplace violence (WPV for the purpose of this course) as any act or threat of physical violence, harassment, intimidation, or other threatening, disruptive behavior that occurs at the work site. This can also include verbal, written, or acts of sabotage against an individual while they are at work.
Workplace violence crosses all demographic barriers and is indiscriminate in who it can and does affect. Even seeing workplace violence influences morale, attendance, and the overall well-being of employees and their co-workers.
Types of Violence
Currently, there are four categories of workplace violence according to the American Nurses Association (5).
1: Criminal Intent - normally involves theft from the business or employees.
Example: Carol is working on documentation and notices a person lingering in the hallway. Carol doesn’t really think anything of it, assuming they are family members of one of the patients. Several minutes later, the person exits quickly from the supply room and down the stairs. Carol calls security to let them know, but they can’t locate the individual. After looking through the supply room, they find that several containers of wound dressing supplies are missing.
2: Customer/client/patient - the individual becomes violent with employees while receiving services.
Example: David was updating a family on their father’s critical condition. David could tell the family was upset, but the patient’s son seemed more frustrated than the others. During David’s explanation, the son grabbed David’s clipboard and yelled, “You’re not doing anything! You’re just letting him die!” The son then threw the clipboard at David’s head. David blocked the clipboard with his arm, receiving a rather deep cut as a result. Security became involved, and David had to go to the ER for treatment.
3: Worker on worker - an employee bullies, attacks, or threatens another employee.
Example: Emily was rounding when Dr. G. came onto the floor. This doctor was well known for being difficult to work with, and he always required the nurses to stand behind him in the room while he talked with his patients. Emily had one of Dr. G.’s patients today and was in the room, he asked her if the patient had ambulated. Emily told him they had not, but they planned to before and after lunch. The doctor made an audible sigh and while shaking his head at the patient said, “See…this is what I deal with every day. These nurses can’t get anything right. They’re all useless.”
4: Personal relationship - involves a person who has an interpersonal relationship with the nurse, but no association with the nurse’s employer or the business.
Example: Rebecca was walking to her car after work. Halfway to her car, she noticed an individual leaning against the trunk of her vehicle. Rebecca recognized this person as the someone her friend was currently dating. This person approached Rebecca aggressively and began yelling about gossiping and trying to break their relationship. Rebecca started back toward the building, hoping security was nearby, and was pursued by the female. Eventually, Rebecca made it to the building and got inside. Luckily, the door only opened with an employee badge, and Rebecca was safe. She went ahead to security.
Currently, the customer/client type of workplace violence is the most prominent, especially in healthcare and toward nurses. The American Nurses Association (ANA) reports that OSHA does not require employers to implement workplace violence prevention programs, but it supplies voluntary guidelines and may cite employers for not supplying a workplace free from recognized serious hazards.
Some states have legislated that employers develop a program while most states have advanced laws that amend existing statute for assaults of first responders by adding health care providers / nurses and/or increasing the penalty associated with such behavior. (3)
It is worth noting that since there are, in most cases, no actual requirements for employers to provide safe work environments for nurses, preventing and dealing with WPV proves problematic. It falls on nurses to understand what constitutes WPV, how to manage it, how to cope with it, how to report it, and how to ensure action is taken and a resolution is reached when WPV occurs.
Self Quiz
Ask yourself...
- In the scenarios above, should the employees report these incidents to administration at once?
- How would you describe the earlier scenarios on workplace violence?
- Why is it important to ask how you would find and describe workplace violence?
- Can you provide any examples of workplace violence you have experienced or seen?
Epidemiology
Workplace violence can take many forms, and the possible varieties and scenarios are endless. Regardless of how it manifests, the effects of workplace violence are clear and widespread. It can affect productivity of employees, morale, attendance, turnover rates, quality of work, patient outcomes, and much more.
Workplace violence can affect and involve workers, clients, customers, and visitors. WPV ranges from threats and verbal abuse to physical assaults and even homicide. In 2010, the Bureau of Labor Statistics (BLS) data reported healthcare and social aid workers were the victims of approximately 11,370 assaults by persons; a greater than 13% increase over the number of such assaults reported in 2009 (10). Almost 19% of these assaults occurred in nursing and residential care facilities alone. Unfortunately, many more incidents probably go unreported (5).
Impact on Nurses Well-Being
Workplace violence can take a heavy toll on nurses. These tolls can be emotional, mental, and physical as well as short-term or long-term. The seriousness of these injuries can vary widely ranging from minor upset to permanent injury and in worst cases, even death. (13)
This harm doesn’t stop with the nurse. The effects of workplace violence may also include effects spanning the unit the nurse works on or even the entire facility. Low morale, reduced productivity, lack of trust in employers, and fear of going to work can be results of violent events occurring to even a single co-worker.
Workplace violence can also have a financial effect on nurses and their employers related to lost time at work from injury or callouts, costs of care for treatment related to the incident (physical and/or psychological), or even legal fees. (13)
Given that incidents of workplace violence are rapidly increasing, these impacts are expected to increase as well. It is easy to see how this harm is widespread and can potentially ripple outward into the nurse’s professional and personal life. The stress and harm do not stay at work, and can spread to the nurse’s family, social interactions, and more.
Self Quiz
Ask yourself...
- How far reaching do you think workplace violence is?
- Can you give some examples of how workplace violence has affected you or your co-workers?
- What are some examples of how workplace violence against someone else can affect you or the patients on your unit?
Barriers to Reporting
One way to combat workplace violence is knowledge of its existence, its nature, and its frequency. Unfortunately, there are many factors that either prevent or discourage nurses from coming forward with reports when they are the victims of WPV.
A study presented in a Chinese nursing journal surveyed 325 nurses. Of these nurses, 266 were spread across 165 hospitals, and these hospitals were in 72 cities.
A total of 172 nurses (64.7%) experienced violent incidents during the past year. Of these incidents, 45.5% were reported; and the reporting rate of physical assaults (69.0%) was higher than those of verbal abuse (36.9%), threatening behavior (51.7%), and sexual harassment (60.0%). Formal reporting accounted for 25.4% (15.4% in written form and 10.0% through a computer-assisted reporting system.
Almost half of the nurses (49.6%) said that the hospital had no reporting system, or they were uncertain about the reporting system. For reasons of not reporting, 51.9% of the nurses were unaware of how and what types of violence to report, and 50.6% of the nurses believed that the hospital paid greater attention to patients rather than staff. (7)
Interestingly, almost fifty percent of the nurses surveyed had limited knowledge, if any, of a reporting system available to them, while fifty percent felt the hospital favored the patients over their own employees. Combined with an actual or perceived lack of supervisory support, this encourages an environment where nurses feel powerless to protect themselves or to take proper action when threatened or harmed.
The Minnesota Nurses Association, in August of 2022, published a press release with the results of a nursing survey on the topic of workplace violence. In this survey, ninety-seven percent of the nurses surveyed observed WPV or harassment over the previous two years.
The top reasons cited by nurses who did not report workplace violence were lack of time due to overwork and under-staffing, cited by fifty-eight percent of respondents, and lack of action by hospital management, cited by fifty-three percent of nurses in the survey. (4)
It would appear from these studies that many nurses feel it is futile to report incidents of workplace violence they encounter, and even if they realized an incident was reportable, they may not be aware of a way to report it or have time to do it. This perceived powerlessness and sense of futility in the face of abuse and violence will only continue to worsen unless action is taken to remove barriers to reporting and for nurses to have access to aid and support for supervisory staff.
Self Quiz
Ask yourself...
- Can you think of any examples of when you or a co-worker tried to report an incident of workplace violence and were unable to?
- If so, what was the barrier that prevented you from reporting?
- Can you name three alternative ways to report workplace violence at your organization?
Culture of Safety
A commonly used phrase is “Culture of Safety”, but is there a standardized definition of what it is or could be? Many resources point to the safety of patients about medical errors, patient rights, and protecting the patient’s information, but few address the issue facing caregivers and especially nurses. However, there is no agreed-upon or standard definition of what exactly a “culture of safety” is or what it should look like.
The American Nurses Association approaches the concept by saying, “Establishing a culture of safety in health care is essential to the security and well-being of your patients, staff, and organization. Effective nurse leaders embrace safety protocols that ensure their organization delivers a secure, protective environment that prioritizes patients and caregivers.” (12)
Currently, there is only a single federal legislation in place about the issue.
The only federal regulation currently in place is the General Duty Clause of the Occupational Safety and Health Act of 1970. This clause requires employers to supply a work environment free from recognized hazards that are causing or likely to cause death or serious physical harm. However, the general duty clause offers no specific recommendations about management of workplace violence.
The Occupational Safety and Health Administration (OSHA) issued guidelines for workplace violence prevention for health care and social service workers. First issued in 1996 and later updated, the guidelines are only advisory. (1)
It is paramount that nurses and other direct care providers accept the responsibility of creating policies and procedures within their organizations to define and enforce a work environment where violence is not tolerated and dealt with accordingly.
There is currently a small body of research and work of the effects workplace violence has on nurses as human beings. Most of the evidence focuses on how workplace violence increases the risk nurses present to patients in the form of medical errors, staffing issues due to missed work, poor documentation, etc.
The main body of evidence discussing how workplace violence affects nurses is noted in research around nurse burnout. A 2020 study published by the National Health Institute (10) states, “Workplace aggression is a source of extreme socio-emotional stress, which may lead to the experience of psychological strain.
A large body of research shows that exposure to workplace aggression and violence may severely impair healthcare workers’ mental health, including symptoms of post-traumatic stress disorder, depression, and burnout.”
This study also shows an important association with workplace aggression and violence targeting nurses and drastically increased levels of emotional exhaustion, depersonalization, and deep feelings of poor personal accomplishment. Over time, these feelings lead to complete burnout, and even worse, possibly psychological and/or physical conditions in the nurse affected.
Even with this preliminary information and research, we still have a long way to go to show the full and far-reaching effects of workplace violence on nurses. Again, by being proactive and acting now, we as nurses can foster this research and bring to light the issues so they can be addressed.
Self Quiz
Ask yourself...
- How does your organization define a “culture of safety”?
- Do you agree with the definition?
- How would you define a “culture of safety” from your own perspective given your experiences and challenges?
ANA Zero Tolerance Policy
In 2019 the American Nurses Association (ANA) (2) release a brief titled “Reporting Incidents of Workplace Violence”. In it, they discussed several issues surrounding workplace violence, barriers to its reporting, and made recommendations to healthcare organizations on strategies relating to the issues of workplace violence.
They also set forth a “Zero Tolerance Policy on Workplace Violence”, which provided some definitions and several recommendations on how to deal with WPV.
The introduction to the “Culture of Safety” part of this brief is as follows:
By prioritizing, developing, and sustaining an organizational culture focused on safety, we can drive the future of healthcare to a place where patients and those who care for them are free from harm. It is not only one of many priorities but is the overriding ethical imperatives for all leaders. (9)
The ANA also suggested a three-level prevention strategy, each with a part for the employer and the employee. Essentially, the role of the employer is gathering data, providing a “safe” work environment, non-punitive reporting, and development of programs to provide a safe work environment for nurses. The employee’s role is to take part in the implementation and evaluation of said programs.
Unfortunately, these are only suggestions and employers do not have to implement any programs or services to protect employees against workplace violence. Also, healthcare employers do not have to report any incidents to JCAHO who consider events of workplace violence to be “sentinel events”.
In the end, it falls on the nurses and employees directly affected by WPV to assume the charge against workplace violence, hold employers accountable, communicate with local and state legislators, and effect change to protect themselves.
Self Quiz
Ask yourself...
- Considering the recommendations and guidelines set forth by these entities, do you think they are adequate or effective? Why nor why not?
- How has this information changed your perception of the overall reporting process on workplace violence against nurses?
- What generalizations can you make from this information on the reporting process from an employer perspective?
Strategies to Prevent Workplace Violence
To end nurse abuse for good, Boston-Leary says it takes every nurse speaking up and reporting abuse within an organizational culture that has an established process for allowing nurses to report abuse without fear of recrimination and then follows up with a resolution. (8)
There are some suggested actions to help prevent and combat workplace violence in your practice setting. These actions include:
Know the definition of abuse.
The National Institute for Occupational Safety and Health (NIOSH) defines workplace violence as “the act or threat of violence, ranging from verbal abuse to physical assaults directed toward persons at work or on duty.”
Agreeing on this definition is an important first step to achieving widespread acknowledgement of the distinct types of nurse abuse, particularly non-physical abuse, Boston-Leary explains. (8)
Report Abuse
Ask about how your workplace manages abuse reporting, whether it is in your current workplace or when you are applying for a position, Boston-Leary suggests. “Ask about how reporting abuse happens during any shift because there should be a reporting mechanism in place for everyone, even if it’s on a weekend or evening shift with no manager easily accessible to report to.”
If (when) you do experience abuse, it’s essential that you speak up immediately and note any witnesses who could corroborate your description of the incident, she says.
Even after you experience abuse and even if you didn’t report it, it’s important to share your past abuse with others to empower them to report abuse they experience. (8)
Change Your Culture
Join or meet a committee to build or strengthen zero-tolerance abuse policies. Based on ANA’s Zero Tolerance Policy on Workplace Violence, Boston-Leary suggests these crucial elements of a zero-tolerance abuse program:
Stop violence before it starts through education to find risks and reduce vulnerabilities for workplace violence.
Create an effective response to violence immediately after it occurs, including emergency care.
Establish long-term responses that reduce the long-term negative effects of workplace abuse. (8)
Communicate with your Legislator!
Congress was considering legislation to #End Nurse Abuse by passing The Workplace Violence Prevention for Health Care and Social Service Workers Act (H.R 1195). If approved, this law would have required health care and social service industry employers to develop and implement a comprehensive workplace violence prevention plan that protects nurses and other healthcare professionals from on-the-job abuse.
Boston-Leary believes legislators are very attuned to the trusted voice of nurses to share about what is happening in health care today (8).
Self Quiz
Ask yourself...
- What is your organization’s primary method of reporting abuse or violence against employees?
- Do you know who your local and state legislators are and how to contact them?
- Are you aware of any committees or groups within your organization that actively address the issue of workplace violence?
Nurse-led Strategies
You can join these committees or work with your employer to create them. Collaborating with your supervisory staff and HR, you can create workflows, policies, reporting methods, and provide education on prevention of workplace violence and make a difference in your overall work environment.
Regarding Your Legislators
As mentioned before, 2021 Congress was considering federal legislation to end nurse abuse by passing The Workplace Violence Prevention for Health Care and Social Service Workers Act (H.R. 1195). The bill was passed by the House on April 16, 2021, but was never passed by the Senate.
You can find your local and state legislator contact information very easily on the internet. A simple search for “how to find state legislator contact information” is a wonderful place to start. As a voting citizen, you have every right to contact them, and demand laws be created to protect you while you work.
Below are some links to help you find elected officials:
- https://www.usa.gov/elected-officials
- https://www.usa.gov/state-governor
- https://www.senate.gov/senators/senators-contact.htm
- https://www.house.gov/representatives/find-your-representative
Advocate for your own safety the same way you would for your patients!
As nurses we aren’t afraid of stepping up to bat for our patients when they need something, but we are notorious for taking a hit and letting it slide, sometimes even to our own detriment.
We owe it to ourselves to offer that same level of advocacy to ourselves and our co-workers.
Self Quiz
Ask yourself...
- How can you become an advocate for yourself or your co-workers when it comes to workplace violence?
- Who is the contact in your organization for instances of workplace violence?
Resources
The Joint Commission supplies resources available to report and learn about how to report workplace violence. The links included are for federal, state, professional, and other resources. The direct link to this page is:
The Joint Commission: Workplace Violence Prevention Resources
Local law enforcement
As a private citizen, you are protected by laws about assault, battery, and other attacks on your person. You are within your rights to call the police on events of workplace violence, especially if your life or health are threatened, or you are physically attacked. It is likely your employer will not support you in this situation due to legal implications. It is best to ask your HR department and supervisory staff how these situations should be managed if they occur.
Legal Counsel
Consult with a lawyer about your legal rights in situations on workplace violence and how to best manage them. Be sure to bring scenarios, information on how your employer suggests dealing with these situations, and examples of violence you have seen or have experienced.
Educate and Train Yourself
Learn as much as you can about recognizing and managing workplace violence. Your employer may supply these courses, and if they don’t, it may be prudent to request them. Also, you can seek outside education and training on these topics including self-defense classes and crisis management courses.
Practice Self-Awareness
We all have inherent beliefs, perspectives, and feelings that can prevent us from acting in certain situations. Knowing yourself and understanding possible nuances within yourself that could be a detriment to you appropriately handling a situation of workplace violence could mean the difference between prevention and becoming a victim.
Self Quiz
Ask yourself...
- What training opportunities does your organization provide on management and follow-up for workplace violence?
- What information would you ask local law enforcement or a legal counsel for on workplace violence?
- What might someone who believes abuse against nurses is “just part of the job” do when they find themselves a victim of workplace violence?
- What can you do to help individuals that may simply allow workplace violence to affect their well-being?
Conclusion
Being an agent of change can be intimidating, terrifying, and even force us to deal with feelings and beliefs we didn’t even realize were in our way. Incidents of WPV have been rising sharply over the past several years, and there is no sign of slowing. It’s up to us as front-line workers, nurses, and co-workers to take responsibility for our own safety and work environment.
Through cooperation and consistency, we can create and bring solutions to the workplace and hopefully one day, aid in the creation of laws that make our jobs safer for us to supply the care and support our patients need. We owe it to ourselves to take the necessary steps to show our employers it’s time to address this issue. “Be the change you wish to see in the world.” ~Mahatma Gandhi –
Telemetry Basics - Rhythm Recognition
Introduction
To truly understand telemetry, nurses must have knowledge about the anatomy of the heart and how electricity passes through it, how the electrocardiograph (EKG) works to receive and record the electrical activity, and how this information is transmitted via telemetry to the appropriate receiving device.
Defined as the transmission of instrumental readings by various methods such as radio waves or wires, telemetry gathers and transmits EKG readings to a central or remote monitor for interpretation and storage (71). The ability to read EKG rhythms from a variety of monitors consists of more than looking at a rhythm strip and identifying the rhythm. It consists of knowing the anatomy of the heart, how electricity travels through it and translates into the EKG we know, and what changes can happen based on injury, electrolytes, or other causes.
Heart Anatomy 101
As we know, the heart consists of four chambers, two atria—right atria (RA) and left atria (LA)—and two ventricles—right ventricle (RV) and left ventricle (LV)—working in a cycle to ensure adequate blood flow occurs. The heart receives blood from the inferior and superior vena cava (IVC and SVC) and enters the RA, moves to the RV, passes through the pulmonary artery (PA) and lungs, returns to the LA, enters the LV, and exits the heart through the aorta.
Heart cells, known as myocytes, are negatively charged, or “polarized” at rest. When these muscle cells contract, they become “depolarized” or positively charged. But how do the myocytes know when to contract? Less than 1% of the cells in the heart have a special role and name. These are known as the pacemaker cells and their role is to ensure that the heart beats. This is done through the action potential that is spontaneously created by the pacemaker cells. Some of these pacemaker cells have different speeds in depolarization, meaning that the fastest pacemaker cells are the ones controlling the speed. This will make more sense later when discussing specific cardiac rhythms (69).
Starting in the right atria, the sinoatrial node (SA node) is the primary group of pacemaker cells that determines the heart rhythm. The SA node, as well as the other pacemaker cells within the heart, progress through a rapid depolarization and repolarization process (2).
Pacemaker cells do not have a true resting potential, this means they are always in an “unstable” state to create spontaneous action potential. The action potential is the brief reversal of polarity in the cell; polarity consists of potassium (K+) in the cell with a negative charge, while sodium (Na+) and calcium (Ca++) are outside of the cell with a positive charge (2).
Starting at the beginning of the cardiac cycle the pacemaker cells always have a membrane potential or voltage—the voltage of the cellular membrane as a result of permeability and concentrations of ions inside and outside the cell—of -60 microvolts (mV). From -60mV to -50mV the channels within the cells open, leading to a slow influx of Na+ inside the cell and a slow depolarization of the cell. Once the membrane voltage has reached the minimum threshold of -50mV the Ca++ channels open, causing Ca++ to move into the cell. This is known as the rising depolarization phase. The membrane voltage reaches the peak and the next thing that happens is the falling repolarization phase. This is where the K+ channels open to return the cell to a repolarized state (2).
(20)
Once these steps have occurred, the energy is transferred to surrounding cells, and the cardiac cycle continues. However, the action potential in the other myocytes is slightly different. Myocytes have a resting potential, which is different from the pacemaker cells. The resting potential is around -90mV and these cells only start the depolarization process when stimulated by an external force. During the end of the pacemaker cell’s action potential phase, additional Ca++ is passed into the neighboring myocytes through gap junctions. The introduction of Ca++ into the cell causes a sharp rise in the membrane voltage that approaches the threshold which is -70mVs. Once that threshold has been reached, the NA+ fast channels open and a rapid depolarization occurs since Na+ is brought into the cell. The Ca++ slow channels open at -40mVs, further causing depolarization with Ca++ entering the cell (2).
At the peak of cellular depolarization, the Na+ channels close, leading to a slight repolarization through some K+ entering the cell. This is minor as the Ca++ channel is still open and continues to move K+ out of the cell. A plateau is created because of this and allows for the cell to go through two important phases. The first phase starts when the membrane voltage increases from the resting potential and continues until the plateau phase ends. This is known as the absolute refractory period and is where the myocytes relax before they can respond to additional stimuli. It prevents summation and tetanus which could lead to the heart not beating. The second phase is where additional Ca++ is pulled out of the sarcoplasmic reticulum (SR) to further push K+ out of the cell (2).
The phase ends when the Ca++ channel closes, extra Ca++ is sent back to the SR, and K+ is allowed back into the cell. The sodium/potassium pump allows Na+ to exit the cell, returning the cell to its resting potential. This rapid process occurs in every myocyte for the life of the cell. Pacemaker cells are the only cells that can generate a heartbeat. Impulses from the nervous system can increase or decrease the heart rate, but they are influencing the pacemaker cell to generate more beats, not creating them (2).
It is important to note that there are several sets of pacemaker cells within the heart. The SA node starts the process, but there are a few others spaced out along the electricity’s path to ensure that the atria and ventricles of the heart have time to fill and properly contract. The second set of pacemaker cells is the atrioventricular node (AV node) where a slight delay of 0.01-0.05 meters per second (m/s) happens to make sure that the ventricles fill up adequately. The bundle of His takes the electric impulse to the left and right bundle branches and from there, the Purkinje Fibers are triggered. These fibers have a speed of 2-4 m/s to provide enough force to eject the blood from the ventricles (69).
Correlating all of this back to telemetry, scientific development within the medical profession has allowed us to visualize this electrical activity and translate it into an effective method of diagnosing cardiac conditions such as abnormal heart rates or cell death.
Self Quiz
Ask yourself...
- Reflecting on what you know and what you have learned so far, what information would you consider important to know when it comes to reading EKGs or telemetry strips?
- What information, if any, was surprising to you in regard to the action potential of the pacemaker cells?
- Why do you think the pacemaker cells start with a voltage or an action potential?
Types of Telemetry
EKG
There are many ways to view cardiac rhythms now, however, the oldest method is the EKG. During the late 1700s, the Italian physician Luigi Galvani was experimenting with electricity and animal tissue. His experiments spanned at least three decades and inspired other physicians during and after his time. Using legs removed from the bodies of frogs, Galvani theorized that “animal electric fluid” enabled the muscles within the legs to move when touched by metals; according to him, this was “natural” fluid and not created as static electricity or friction is. He went on to theorize that the brain is an essential part of creating the “electric fluid” with nerves as the conductors (6).
Jumping forward to 1842, Doctor Carlo Matteucci made a significant contribution to EKGs. During his time researching electrical detection in animals, he discovered the electrical currents within the heart that accompany each heartbeat. Thirty-five years after Matteucci, Augustus Waller was able to use a capillary electrometer and electrodes to perform the first human EKG. These electrodes were placed on the chest and back of the participant and were vital in demonstrating there was electrical activity that preceded the contraction of the ventricles. William Bayliss and Edward Starling improved upon Waller’s research by using improved capillary electrometers to demonstrate triphasic cardiac electrical activity (1).
The Dutch physician most noted for creating the EKG known today was Doctor Willem Einthoven. He was inspired by Waller and those before him to improve the capillary electrometer, successfully identifying five deflections that were initially named ABCDE. Having to factor for inertia, Einthoven implemented mathematic correlation, resulting in the traditional EKG rhythm strips we use today with the letters PQRST depicted in the image below. Einthoven is also responsible for coining the word electrocardiogram or electrokardiogram in Dutch. This is where providers get the “k” in EKG from (1).
While Waller’s EKG utilized ten electrodes, Einthoven was able to condense that number to three, eliminating the right leg and the mouth electrodes. These three leads created Einthoven’s triangle; an important concept still used today and that will be discussed later. All of Einthoven's work resulted in him being awarded the Nobel Prize in Physiology and Medicine in 1924 (1).
Self Quiz
Ask yourself...
- What do you know of the history of the EKG and telemetry? Was there anything new you learned?
- What process of developing the EKG interested you the most? Why?
- Do you think there is more that can be done to improve EKG? If so, what do you think could be done?
Bedside Monitor
Emergency departments (ED), intensive care units (ICU), and other specialized areas that require continuous monitoring of a patient’s EKG and vital signs utilize various bedside monitors to ensure they are receiving accurate, real-time information on the patient. Cords are used to connect the patient to the monitor. The electrodes to display and document cardiac rhythm and heart rate are applied to patients in the standard 5 lead placement displayed in the below image. The vitals displayed on the monitor can also be displayed outside the room on a screen with multiple patients. Nurses, paramedics, or trained telemetry monitor technicians can watch many of these monitors at a time.
(14)
The placement of the five leads consists of the following:
- RA: 2nd intercostal space, anterior axillary on the right – some providers may put this lead higher on the chest or on the right arm
- LA: 2nd intercostal space, anterior axillary on the left – some providers may put this lead higher on the chest or on the left arm
- RL: 8th intercostal space, anterior axillary on the right – some providers may put this lead lower on the abdomen
- LL: 8th intercostal space, anterior axillary on the left – some providers may put this lead lower on the abdomen
- V: 4th intercostal space, right margin of the sternum
Note: Always follow the manufacturer’s instructions for specific lead placement.
Helpful Tip: Many healthcare providers quickly remember lead placement based on color is smoke (black) over fire (red) and snow (white) over grass (green). This leaves brown (chocolate) in the middle.
These bedside monitors can monitor pulse oximetry, respiratory rate, temperature, capnography, blood pressure, and arterial pressure. Some devices may have other unique monitoring features. These monitors may be portable or have a way to transfer the cords to a transport monitor. They come with alarms that can be adjusted based on the patient’s unique vital signs or hospital policy.
First responders have similar devices they use when transporting patients with the added benefit of having a defibrillator and a real-time feedback device built in (91).
Remote Monitoring
Remote cardiac monitoring is similar to bedside monitoring; however, the EKG rhythm, heart rate, and pulse oximetry are not displayed at the bedside. Instead, they are displayed in a different location, sometimes a monitor room, where a trained professional is watching many patients. When they recognize an abnormal rhythm, they will contact the appropriate staff to assess the patient. They may call for the leads to be removed, a change in rhythm, or a low battery.
The EKG leads are placed the same way as the bedside monitor leads are placed (always be sure to consult the manufacturer’s instructions). The information is transmitted wirelessly via wireless medical telemetry service (WMTS) from the “tele box,” but the leads must be wired to the box. WMTS does not use Wi-Fi and protects transmissions from Wi-Fi interference (48).
Mobile Cardiac Monitor and Event Monitor
A mobile cardiac or event monitor is a device attached to the skin that can perform continuous or event-specific monitoring. This device is attached to the patient’s chest near the heart and records when activated. This device is smaller than other portable cardiac monitoring devices like the Holter Monitor which will be discussed later. Information can be transmitted to the monitoring center to be reviewed by trained staff and/or artificial intelligence. Abnormalities like tachycardia, bradycardia, atrial fibrillation, or cardiac pauses are reported to a physician. The patient may or may not know about the rhythm abnormalities occurring as some patients are asymptomatic (18).
Event monitoring consists of the following methods (23):
- Patch monitor: depending on the manufacturer, the device is stuck to the chest and left on for a designated period of time.
- Loop memory monitor: the sensors always stay on the patient and the patient activates the devices to begin recording when symptoms occur in addition to a few minutes before the event starts and after it ends. There is an implanted option as well.
- Symptom event monitor: Patients place the monitor on them and activate it like a patch monitor, but only when symptoms start.
Insertable Monitor
Insertable or implantable cardiac monitors are just like mobile and event monitors, but they are surgically inserted into the patient. They perform the same actions, but there is an added benefit to these devices. If the patient has worn an external device in the past and has known cardiac arrhythmias, they may have an implanted cardioverter-defibrillator (ICD) inserted to detect and treat the abnormal rhythm. These devices are connected to the heart via wires (they may be placed in the right atria, the right ventricle, or both) and are operated by batteries that do need to be changed per manufacture direction. Patients and providers should be aware of magnets, or electrical signals from other devices that can interfere with the insertable device (61).
Healthcare providers can “interrogate” ICDs or pacemakers with a device created by the monitor’s manufacturer. When interrogated, the device’s information is transmitted to a monitor center who calls the provider to give them a verbal report of what the device has recorded; a paper copy is often faxed to the provider as well. Some newer interrogation devices may display the information of the device on the screen.
Holter Monitor
As mentioned with mobile cardiac monitors, the Holter monitor is another wearable device that can be used to monitor and diagnose cardiac arrhythmias outside of the hospital setting. This device consists of five electrodes and a monitor that the patient can wear or carry on them. It is similar to the remote telemetry devices used in the inpatient hospital setting as shown in the next image. Patients wear this device for a short time, and information is not transmitted to a monitor technician. Instead, information collected is sent to a monitoring center where it is interpreted and sent to the physician (58).
As covered in this section, there are many options for cardiac telemetry monitoring, and providers may encounter many types of them. It is important to know these devices and how they operate.
Self Quiz
Ask yourself...
- What types of telemetry/EKGs are you most familiar with? Which ones would you like to know more about?
- Are there any parts of the devices mentioned above that you have never heard of before?
- Out of all the devices which one do you like best? Which device do you not like?
- What devices do you think could be improved and how would you suggest improving them?
Lead Placement
Now that we have discussed the types of telemetry monitoring devices that are available, it is time to discuss how to properly place the EKG leads on a 12 lead, 15 lead, right-sided EKG, and where to place the V4R lead.
12 Lead EKG
For the 12 lead EKG, providers should start with the four limb leads (14):
- RA: On the upper or lower right arm
- LA: On the upper or lower left arm
- RL: on the upper or lower right leg
- LL: on the upper or lower left leg
From there, the six pericardial leads are placed strategically around the chest to create a partial circle around the heart (14):
- V1: 4th intercostal space, right margin of the sternum (this is lead V on the 5 lead EKG)
- V2: 4th intercostal space, left margin of the sternum
- V3: sits midway between leads V2 and V4 on the left
- V4: 5th intercostal space, mid-clavicular line on the left
- V5: 5th intercostal space, anterior axillary line on the left (aligned horizontally with V4, between V4 and V6) on the left
- V6: 5th intercostal space, mid-axillary line on the left (aligned horizontally with V4)
15 Lead EKG
The 15 lead EKG uses the same leads as the 12 lead EKG, but it adds V7, V8, and V9, known as the posterior leads, to encompass the posterior angles of the heart (14):
- V7: left posterior axillary line (aligned horizontally with V6, across from V5)
- V8: tip of the left scapula (aligned horizontally with V6, across from V4)
- V9: left of the spinal column (aligned horizontally with V6, across from V3)
Right Sided EKG
The right-sided EKG is important to rule out the diagnosis of a right-sided myocardial infarction (MI) or ischemia in or out while treating a patient. Lead placement is the same for the four limb leads, but the 6 precordial leads are flipped (14):
- V1: 4th intercostal space, left margin of the sternum
- V2: 4th intercostal space, right margin of the sternum (this is lead V on the 5 lead EKG)
- V3: sits midway between leads V2 and V4
- V4: 5th intercostal space, mid-clavicular line on the right
- V5: 5th intercostal space, anterior axillary line on the right (aligned horizontally with V4, between V4 and V6)
- V6: 5th intercostal space, mid-axillary line on the right (aligned horizontally with V4)
V4R Lead Placement
A full right-sided EKG is not always needed. Lead V4 on the right side of the heart is the most important lead when it comes to determining an MI on the right side of the heart (14):
- V1, V2, V3, V5, V6: same placement as the 12 and 15 lead EKGs.
- V4 is removed and placed on the right side of the chest
- V4R: 5th intercostal space, mid-clavicular line on the right (Where it is located on a complete right sided EKG)
- The “R” stands for right to ensure that those reading the EKG are aware that lead is on the right while the rest are located on the left side of the chest.
Limb Leads
Now that lead placement has been covered, we can now discuss how lead placement shows different parts of the heart.
Leads I, II, III, AVR, AVL, and AVF are considered limb leads when reading the EKG. It is important to note that the right leg lead is the grounding electrode and does not affect the EKG (83). Leads I, II, and III leads form a triangle over the chest known as Einthoven’s Triangle as reflected in the below image. Lead I always has negative polarity while lead III always has positive polarity. Lead II’s polarity depends on what side of the triangle is being discussed. If we are looking at lead I on the EKG, then lead II is positive, but if we are looking at lead III, then lead II is negative (82).
The importance of what leads are negative and positive comes from how electricity travels through the heart. It starts on the right side and moves to the left, so it would make sense for lead I to have negative polarity while leads II and III are positively charged (82). This is also why the height of a PQRST complex changes based on what lead is being looked at on an EKG as reflected below.
Augmented or unipolar leads AVR, AVL, and AVF have the heart as the negative electrode and the limb leads are the positive electrodes. AVR goes from the heart to the right arm lead, AVL goes from the heart to the left arm lead, and AVF goes from the heart to the left leg lead. Just as discussed with leads I, II, and III, the path of the electricity in the heart determines how the PQRST complex appears on the rhythm strip (82). Lead II is the preferred strip to read by providers due to the best view of the rhythm due to the way electricity travels through the heart and how lead II follows that path by starting at the right shoulder and going to the left leg.
The chest leads, V1 – V9, create a circle around the heart on a horizontal plane. These leads are unipolar as well, with the heart being the negative electrode. Multiple views of the heart are captured because of the many leads placed along the patient’s body. This can give providers valuable knowledge on what areas of the heart may be affected. The next image gives a visual depiction of how the leads display their view of the heart.
Self Quiz
Ask yourself...
- What lead do you think is the most beneficial in reading EKGs? Why do you think that?
- What lead do you prefer to use when reading EKGs? What makes that your “go-to” lead?
- If you could make a policy on EKGs, would you include what type of EKG should be done on patients? Would all patients with chest pain get a 15 lead EKG instead of 12?
- Do you think that one type of EKG is better than the other? Or do they all have their specific uses and benefits?
Reading EKGs: EKG Components
To be able to interpret EKGs successfully, nurses must first have knowledge about the EKG components displayed on the EKG strips and how each part correlates to a part of a single heartbeat.
P wave
The P wave is the first deflection from the isoelectric line or baseline. Correlating this to the heart, this is where the atria depolarize or contract. The contraction of the right atria starts at the beginning of the P wave while the contraction of the left atria begins in the middle and end of it. Normal P waves are apparent between 120 and 200 milliseconds (msec) before the upward deflection of the QRS complex (44)
PR Interval
The next part of the PQRST complex is the PR interval. The interval symbolized the time between the depolarization of the atria and the depolarization of the ventricle. The normal speed is 120 to 200 msec (44).
PR Segment
Next is the PR segment. This is similar to the PR interval but starts at the end of the P wave and ends at the start of the Q wave. This line is important because if there is a deviation from the isoelectric line, it could indicate a cardiac rhythm abnormality like Wolff-Parkinson-White syndrome which will be discussed later. The EKG may have a “slurred” upstroke from the P to R points on the EKG, making the Q wave appear to be on the isoelectric line. This is because the ventricles were stimulated or excited early, leading to a shortened PR interval. The “slurred” area is known as a delta wave (13).
QRS Complex
The QRS complex is where the ventricles depolarize and contract. The first downward deflection of the beat is the Q wave that lasts for < 0.05 seconds. It is present in all leads save for V1 and V3 due to the angle of the vector. The R wave is the upward deflection of the complex. R waves do not have a set height, but severely elevated R waves can be an indicator of ventricular hypertrophy. The second downward deflection is the S wave. Overall, the QRS complex is 0.07 to 0.10 seconds long and variations to this time can be an indicator of abnormal heart rhythms (17).
ST Segment
The ST segment starts when the S wave ends by returning to the isoelectric line and ends when the T wave begins. This period represented the completion of ventricular depolarization (17). The ST segment lasts 0.08 seconds to 0.12 seconds (51).
T Wave
The final wave in the standard EKG components is the T wave. This wave symbolizes the ventricles repolarizing. Inverted T waves can be an indication of past or current infections. A peaked T wave—as opposed to the normal curved T wave—can be caused by hypocalcemia, hyperkalemia, and left ventricular hypertrophy (17). The T wave runs from 0.01 seconds to 0.25 seconds (51).
The image below depicts the components of an EKG with labels to assist with understanding how the waves appear.
(4)
Reading EKGs: EKG Paper
The EKG paper has sets of squares, 25 little squares within one larger square. The smaller squares symbolize 0.04 seconds making the larger square 0.20 seconds. A single small square is 1mm while the large square is 5mm, this is because the larger square is five small squares tall.
(15)
Some EKG strips are presented in a six second format. To determine if the strip is a six-second, you must count the larger boxes. 30 larger boxes are required for the strip to be six seconds. Some may even have second markers that symbolize one second of time passed.
The 12 lead EKG can be more challenging to read and is often used to make an overall observation about the patient’s heart rate and rhythm. It can provide more information to providers than a single lead strip can.
As discussed previously, the leads are placed along the path of the heart, and providers can determine what part of the heart may be affected by knowing what leads are placed where.
Lead | Location |
II, III, AVF | Inferior |
I, AVL, V5, V6 | Lateral |
V2, V3, V4 | Anterior |
V1, AVR | Right atrium, left ventricle |
(51)
Now that we have discussed leads, lead placement, the PQRST complex, and EKG paper, it is time to cover different cardiac rhythms that you may encounter.
Self Quiz
Ask yourself...
- What parts of the PQRST complex may not appear on the EKG strip?
- How do you remember what leads are associated with each part of the heart?
- What are some ways you can quickly determine heart rate using an EKG strip?
- Is there a part of the PQRST complex do you think is important to pay attention to? Why do you think that?
Rhythm Recognition
Normal Sinus (41):
- Rate: 60-100 beats per minute (bpm)
- Conduction:
- PR interval 120-200ms
- QRS width 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic (curves above and then dips below the isoelectric line) in V1
- Duration:
- Less than 0.12 seconds
- Rhythm Strip:
- The maximum height of the P wave is:
(29)
Sinus Bradycardia (87):
- Rate: less than 60bpm
- Conduction:
- PR interval 120-200ms
- QRS width 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- The maximum height of the P wave is:
(87)
- Signs and Symptoms:
- None – depending on the patient
- Cyanosis
- Peripheral edema
- Shortness of breath
- Dizziness
- Fatigue
- Syncope or near syncope
- Lightheadedness
- Causes (not limited to):
- Normal physiology in an athlete
- Medications like beta-blockers
- Ischemia
- Heart diseases
- Sick sinus syndrome
- Hypothermia
- Hypothyroidism
- Neuro-mediated bradycardia as caused by a vasovagal reaction
- Pericarditis
- Hypoxia
- Electrolyte imbalances
- Treatment:
- None if asymptomatic, admission for observation may be indicated
- Medications:
- Atropine 0.5mg every 3 to 5 minutes for a maximum dose of 3mg
- Antidotes or reversal agents
- Transcutaneous cardiac pacing or pacemaker
- Return patient to a normothermic state if hypothermic
Sinus Tachycardia (55):
- Rate: greater than 100bpm but less than 150bpm
- Conduction:
- PR interval 120-200ms
- QRS width 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- The maximum height of the P wave is:
(42)
- Signs and Symptoms:
- Shortness of breath
- Chest pain
- Dizziness
- Syncope or near syncope
- Lightheadedness
- Palpitations
- Causes:
- Infection or sepsis
- Medications
- Withdrawal
- Electrolyte imbalances
- Blood loss or anemia
- Dehydration
- Hypoglycemia
- Pulmonary embolism
- Trauma
- Cardiac tamponade
- Myocarditis
- Pregnancy
- Treatment:
- Medications
- Antibiotics
- Antidotes or reversal agents
- Insulin
- Electrolyte replacement
- Fluids
- Heparin or other anticoagulant medications
- Blood replacement
- Surgery
- Medications
Self Quiz
Ask yourself...
- Looking at the signs and symptoms for sinus bradycardia what other signs and symptoms have you seen with patients who present with that heart rhythm?
- What other causes have you seen as the reason for sinus bradycardia?
- With sinus tachycardia, when would you be concerned with the causes of the rhythm?
- Are there any other treatments you could think of for either sinus bradycardia or tachycardia?
1st Degree AV Block (68):
- Rate: 60-100 beats per minute (bpm)
- Conduction:
- PR interval greater than 0.20 seconds
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- A QRS complex always follows the P wave
- The maximum height of the P wave is:
- Duration:
- Less than 0.12 seconds
- Rhythm Strip:
(32)
- Signs and Symptoms:
- None
- Fatigue
- Shortness of breath
- Syncope or near syncope
- Chest pain
- Lightheadedness
- Causes:
- Increased vagal tones in young patients
- Fibrotic changes in the elderly
- Cardiac disease
- Inflammation
- Medications
- Electrolyte abnormalities
- Treatment:
- None if asymptomatic
- Medications
- Antibiotics
- Antidotes or reversal agents
- Electrolyte replacement
2nd Degree Type I AV Block (Mobitz Type 1 or Wenckebach) (60):
- Rate: varies
- Conduction:
- PR interval increases with each beat, eventually “dropping off” and another P wave appears
- “Longer, longer, drop, that’s a Wenckebach.”
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- The maximum height of the P wave is:
(27)
- Signs and Symptoms:
- None
- Fatigue
- Shortness of breath
- Syncope or near syncope
- Chest pain
- Lightheadedness
- Causes:
- Increased vagal tones
- Cardiomyopathy
- Myocardial infarction
- Cardiac surgery
- Electrolyte abnormalities
- Medications
- Treatment:
- None if asymptomatic
- Medications
- Atropine if bradycardic
- Antidotes or reversal agents
- Electrolyte replacement
2nd Degree Type II AV Block (Mobitz II) (60):
- Rate: varies
- Conduction:
- PR interval varies
- QRS width 60-100ms when present
- QRS does not follow all P waves
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- The maximum height of the P wave is:
(40)
- Signs and Symptoms:
- Fatigue
- Shortness of breath
- Syncope or near syncope
- Chest pain
- Lightheadedness
- Cardiac arrest
- Causes:
- Structural heart disease
- Amyloidosis
- lymphoma
- Cardiac tumors
- Transcatheter placement of valves
- Myocardial infarction
- Genetics
- Treatment:
- None if asymptomatic
- Medications
- Atropine does not work on these patients
- Antidotes or reversal agents
- Transcutaneous cardiac pacing or pacemaker since this rhythm can progress to a complete heart block or cardiac arrest
3rd Degree AV Block (78):
- Rate: varies, but usually bradycardic
- Conduction:
- PR interval varies
- QRS width 60-100ms when present
- P wave and QRS complex do not communicate (called AV disassociation)
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- The maximum height of the P wave is:
(33)
- Signs and Symptoms:
- Fatigue
- Shortness of breath
- Syncope or near syncope
- Chest pain
- Lightheadedness
- Hemodynamic instability
- Cardiac murmurs
- Cardiac arrest
- Causes:
- Cardiac surgery
- Cardiac disease
- Medications
- Electrolyte imbalances
- Lyme disease
- Transcatheter aortic valve replacement
- Myocardial infarction
- Systemic lupus erythematosus
- Sarcoidosis
- Treatment:
- Medications
- Atropine usually does not work, but can be administered
- Epinephrine
- Dopamine
- Antidotes or reversal agents
- Electrolyte replacement
- Transcutaneous cardiac pacing or pacemaker
- Medications
Self Quiz
Ask yourself...
- 2nd degree Type I and Type II can be mixed up, what are your methods for remembering how each one appears on the EKG strip?
- What type of AV block would lead you to provide quick intervention and why?
- Have you encountered a patient with any of these rhythms? What was the cause? How was it resolved, if it was?
- Are there any causes for these rhythms that were not listed?
Premature Ventricular Contraction (PVC) (88):
- Rate: varies, underlying rhythm is usually normal sinus
- The impulse to beat comes from the ventricles, not from the SA node
- Conduction:
- PR interval varies, but in a regular PQRST complex PR interval is 120-200ms
- PR interval after a PVC is longer due to the PVC and the retrograde concealed conduction goes back into the AV node junction.
- PVC QRS width is at least 120ms but usually 160-200ms
- Regular QRS width is 60-100ms
- PR interval after a PVC is longer due to the PVC and the retrograde concealed conduction goes back into the AV node junction.
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave is:
- Positive or above the isoelectric line in II and AVF
- Biphasic in V1
- Rhythm Strip:
- Monomorphic: All PVCs are shaped the same
- The maximum height of the P wave is:
(38)
- Biomorphic: PVCs are shaped differently
(64)
- Bigeminy: Every PVC is separated by one sinus beat.
(35)
- Trigeminy: Every PVC is separated by two sinus beats.
(9)
- Ventricular Couplet: Two PVC beats in a row.
(9)
- Ventricular Triplet: Three PVC beats in a row.
(9)
- Signs and Symptoms:
- None
- Fatigue
- Shortness of breath
- Syncope or near syncope
- Chest pain
- Palpitations
- Lightheadedness
- Abnormal neck pulsation
- Hemodynamic instability with frequent PVCs
- Cardiac arrest
- Causes:
- Hypoxia
- Illicit drug use
- Amphetamines
- Alcohol
- Cocaine
- Electrolyte imbalances
- Myocarditis
- Mitral valve prolapse
- Hypercarbia
- Cardiomyopathies
- Myocardial infarction
- Medications
- Treatment:
- None if asymptomatic
- Medications
- Beta-blockers
- Calcium channel blockers
- Amiodarone is for those with preexisting coronary artery diseases, but used with caution and close observation and monitoring
- Antidotes or reversal agents
- Electrolyte replacement
- Cardiac ablation
- Defibrillation if cardiac arrest occurs
Premature Atrial Contractions (PAC) (54):
- Rate: varies, underlying rhythm is usually normal sinus
- Conduction:
- PR interval varies, but in a regular PQRST complex PR interval is 120-200ms
- PAC
- Regular QRS width is 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- The P wave:
- Can be inverted
- May be hidden in the T wave creating a hump or peaked T wave
- These rhythms can come in the same variations as PVCs:
- Bigeminy
- Trigeminy
- Couplet
- Triplet
- Rhythm Strip:
- The maximum height of the P wave is:
(37)
- Signs and Symptoms:
- None
- Palpitations
- Shortness of breath
- Anxiety
- Signs and symptoms of heart failure
- Early or additional heart sounds
- Pauses in rhythm
- Causes:
- Coronary artery disease
- Left ventricular hypertrophy
- Septal defects
- Congenital heart deformities
- Medications
- Beta-blockers
- Chemotherapeutic agents
- Congestive heart failure
- Diabetes mellitus
- Hypertension
- Chronic obstructive pulmonary disorder
- Anxiety
- Treatment:
- None if asymptomatic
- Avoiding triggers
- Medications
- Beta-adrenergic blockers
- Antiarrhythmic agents are used with caution and close observation and monitoring
- Antidotes or reversal agents
- Cardiac ablation
Self Quiz
Ask yourself...
- Between PACs and PVCs, which one would you be more concerned about? Why did you pick that rhythm?
- Have you encountered a patient with either of these rhythms? What treatments were ordered if any?
Ventricular Tachycardia (V Tach) (45):
- Rate: greater than 100bpm
- Conduction:
- PR interval none
- QRS width greater than 140ms
- P wave morphology:
- Not present
- Non-sustained V-Tach: three or more ventricular beats over a maximum of 30 seconds.
- Sustained V-Tach: a run of V Tach for more than 30 seconds or less is treated by cardioversion
- Monomorphic V-Tach: all ventricular beats look the same
- Polymorphic V-Tach: the ventricular beats look different.
- Biphasic V Teach: where the QRS complexes alternate with each beat.
- Digoxin intoxication
- Long QT syndrome
- Rhythm Strip:
- Monomorphic V-Tach
(11)
- Signs and Symptoms:
- Palpitations
- Shortness of breath
- Chest pain
- Syncope or near syncope
- Signs of heart failure
- Hemodynamic instability
- ICD shocks if the patient has one
- Cardiac arrest
- Also known as pulseless V-Tach
- Causes:
- Ischemic heart disease
- Acute coronary artery disease
- Myocardial scar-related reentry
- Congenital heart deformities
- Cardiomyopathy
- Illicit drugs
- Cocaine
- Digitalis toxicity
- Methamphetamine
- Medications
- Beta-blockers
- Chemotherapeutic agents
- Electrolyte imbalances
- Sepsis
- Metabolic acidosis
- Inherited cardiac channelopathies
- Treatment:
- Cardiopulmonary resuscitation (CPR) and defibrillation if no pulse present
- Cardioversion if hemodynamically unstable and has a pulse
- Treatment for myocardial infarction
- Medications
- Amiodarone, procainamide, sotalol
- Antidotes or reversal agents
- ICD
- Cardiac ablation
Self Quiz
Ask yourself...
- What would be the priorities when providing care to a patient with V-Tach with a pulse?
- If you were the only one in the room with the patient what would be your first action?
- Have you ever cardioverted a patient with this rhythm? What do you remember from the event?
- Do you think the patient should sign consent before cardioversion? Why or why not?
Torsades de Pointes (V Fib) (25):
- Rate: none
- Conduction:
- Polymorphic V-Tach with a prolonged QR interval
- P wave morphology:
- Not present
- Rhythm Strip:
(12)
- Signs and Symptoms:
- None
- Syncope or near syncope
- Dizziness
- Lightheadedness
- Hypotension
- Rapid pulse
- Cardiac arrest
- No pulse
- Not breathing or only gasping for air
- Loss of consciousness
- Causes:
- Electrolyte imbalances
- Medications
- Zofran causes a long QT interval (19)
- Congenital prolonged QT:
- Jervell and Lange-Nielsen
- Romano-Ward syndrome
- Bradycardia
- Diuretic use
- Female gender
- Age
- Treatment:
- Electrolyte replacement
- CPR and defibrillation
- Medications
- Epinephrine
- Atropine
- Cardioversion
- Treatment of the underlying cause
Supraventricular Tachycardia (SVT) (72):
- Rate: Greater than 160bpm
- Conduction:
- PR interval not present
- QRS width less than 120 milliseconds = narrow complex, regular SVT
- QRS width greater than 120 milliseconds = wide complex, regular SVT
- P wave morphology:
- Not present
- Rhythm Strip:
- Narrow complex, regular SVT
(30)
- Wide complex, regular SVT
(79)
- Signs and Symptoms:
- None
- Hypotension
- Shortness of breath
- Lightheadedness
- Signs and symptoms of heart failure
- Shock
- Causes:
- Narrow complex, regular SVT - Orthodromic reentry phenomenon (56):
- Accessory pathway that connects the atria and ventricles without passing through the AV node
- A pulse goes through the AV node, down into the ventricles via the Bundle of His, up through the accessory pathway, and back into the AV node
- Wide complex, regular SVT - Atrioventricular reentry phenomenon (57):
- Signals from the SA node travel through the accessory pathway down the ventricles via the Bundle of His and up to the AV node, creating a backward cycle.
- This is slower than the orthodromic SVT because it is traveling against the regular path of conduction, leaving to a wide QRS complex
- Medications
- Caffeine
- Smoking
- Stress
- Alcohol
- Narrow complex, regular SVT - Orthodromic reentry phenomenon (56):
- Treatment:
- None if asymptomatic
- Vagal maneuvers
- Bearing down
- Blowing into a straw
- Medications
- Adenosine: 1st dose 6mg, 2nd dose 12mg
- Ensure rapid saline flush after pushing medication as it has an extremely short half-life
- Cardizem
- Antidotes or reversal agents
- Adenosine: 1st dose 6mg, 2nd dose 12mg
- Cardioversion
- Cardiac ablation
Self Quiz
Ask yourself...
- If you have encountered a patient in SVT, what vagal maneuvers have you seen used? Were they successful or not?
- If you have not encountered a patient with SVT, what vagal maneuvers could you think of that might be utilized?
- Would a patient’s age impact the vagal maneuvers used? Why or why not?
- Do you know the half-life of Adenosine? If not, will you look it up after this course?
Ventricular Fibrillation (V-Fib) (3):
- Rate: none
- Conduction:
- PR interval not present
- QRS width not present
- P wave morphology:
- Not present
- Rhythm Strip:
(39)
- Signs and Symptoms:
- Cardiac arrest
- No pulse
- Not breathing or only gasping for air
- Loss of consciousness
- Causes:
- Electrolyte imbalances
- Myocardial infarction
- Congenital heart defects
- Sudden blow to the chest right over the heart
- Medications
- Anemia
- Cardiomyopathy
- Electrocution
- Thoracic trauma
- Heart surgery
- Treatment:
- CPR and defibrillation
- Medications
- Epinephrine
- Atropine
- Electrolytes
- Surgery
- Coronary perfusion
- Treatment of the underlying cause
- Cardiac arrest
Asystole (59):
- Rate: none
- Conduction:
- PR interval not present
- QRS width not present
- P wave morphology:
- May or may not be present
- Rhythm Strip:
(21)
- Signs and Symptoms:
- Cardiac arrest
- No pulse
- Not breathing or only gasping for air
- Loss of consciousness
- Causes:
- Electrolyte imbalances
- Myocardial infarction
- Congenital heart defects
- Medications or illicit drugs
- Blood loss
- Cardiomyopathy
- Electrocution
- Trauma
- Treatment:
- CPR
- Since there is no electrical activity with this rhythm, defibrillation cannot be used
- Medications
- Epinephrine
- Atropine
- Electrolytes
- Surgery
- Coronary perfusion
- Treatment of the underlying cause
- CPR
- Cardiac arrest
Pulseless Electrical Activity (PEA) (22):
- Rate: varies
- There is no pulse with this rhythm despite the fact that it may appear as an organized rhythm
- Conduction:
- PR interval none
- QRS width greater than 110ms
- P wave morphology:
- Not present
- The P wave is:
- Not present
- Rhythm Strip:
(22)
- Signs and Symptoms:
- Cardiac arrest
- No pulse
- Not breathing or only gasping for air
- Loss of consciousness
- Causes:
- Electrolyte imbalances
- Myocardial infarction
- Congenital heart defects
- Medications or illicit drugs
- Blood loss
- Cardiomyopathy
- Electrocution
- Trauma
- Hypothermia
- Pneumothorax or hemothorax
- Treatment:
- CPR
- Since there is no electrical activity with this rhythm, defibrillation cannot be used
- Medications
- Epinephrine
- Atropine
- Electrolytes
- Surgery
- Coronary perfusion
- Treatment of the underlying cause
- CPR
- Cardiac arrest
Self Quiz
Ask yourself...
- What are some misconceptions about V-Fib, asystole, and PEA?
- How do you educate other staff members and family members on these misconceptions?
- What treatments have you seen work on V Fib? What treatments did not work?
- Have you ever seen a patient’s rhythm change from asystole to another rhythm?
- What is the most prominent cause of cardiac arrest in your area?
Atrial Flutter (73):
- Rate: varies
- Depends on how many QRS complexes there are
- Atrial rate 250-350 bpm
- Ventricular rate 75-150bpm
- P waves can come in blocks
- 2 P waves per 1 QRS (2:1)
- 3 P waves per 1 QRS (3:1)
- 4 P waves per 1 QRS (4:1)
- Intervals of P waves per 1 QRS (2:1 then 3: 1 then 2:1 then 4:1)
- Conduction:
- PR interval varies
- QRS width 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- Sawtooth pattern
- Rhythm Strip:
- The maximum height of the P wave is:
- Depends on how many QRS complexes there are
(31)
- Signs and Symptoms:
- None
- Palpitations
- Fatigue
- Syncope or near syncope
- Shortness of breath
- Regular or irregularly regular pulse
- Causes:
- COPD
- Heart failure
- Atrial size abnormalities
- Hypertension
- Diabetes mellitus
- Age
- Male gender
- Treatment:
- None if asymptomatic
- Medications
- Amiodarone
- Cardizem
- Metoprolol
- Anticoagulation to prevent stroke
- Catheter ablation
- Treatment of the underlying cause
Atrial Fibrillation (AFib) (89):
- Rate: varies
- Atrial rate 400-600 bpm
- Ventricular rate 75-175 bpm
- Anything over 100 is considered A Fib with rapid ventricular response (RVR)
- Conduction:
- PR interval varies
- QRS width 60-100ms
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- Rhythm Strip:
- A Fib
- The maximum height of the P wave is:
(28)
- A Fib RVR
(34)
- Signs and Symptoms:
- None
- Palpitations
- Fatigue
- Syncope or near syncope
- Shortness of breath
- Regular or irregular pulse
- Patients can go in and out of A Fib or it can be permanent,
- They can go in and out of RVR
- Causes:
- Heart disease
- Genetics
- Pulmonary embolism or other hemodynamic stressors
- Obstructive sleep apnea
- Heart failure
- Pericarditis
- Myocarditis
- Myocardial infarction
- Hypertension
- Diabetes mellitus
- Age
- Treatment:
- None if asymptomatic
- Medications
- Cardizem
- Metoprolol
- Amiodarone
- Anticoagulation to prevent stroke
- Catheter ablation
- Treatment of the underlying cause
Idioventricular Rhythms (47):
- Rate: varies
- Idioventricular rate 35-40bpm
- Accelerated rate 60-120bpm
- Conduction:
- PR interval not present
- QRS width greater than 120ms but can be greater than 160ms
- The normal conduction system does not transmit the signal to beat, the vertical signal is transmitted from cell to cell
- P wave morphology:
- Not present
- Rhythm Strip:
- Idioventricular rate
(36)
- Signs and Symptoms:
- None
- Palpitations
- Fatigue
- Lightheadedness
- Syncope or near syncope
- Cardiac arrest
- Causes:
- Electrolyte imbalances
- Reperfusion of cardiac cells after a myocardial infarction
- Medications
- Digoxin
- Beta-adrenoreceptor agonists
- Illicit drug use like cocaine
- Cardiomyopathies
- Congenital cardiac defects
- Athletes
- Treatment:
- None if asymptomatic
- Medications
- Atropine
- Amiodarone or lidocaine
- Reversal agents
- Rarely cardiac pacing
- Treatment of the underlying cause
Junctional Rhythms (52):
- Rate: varies
- Junctional bradycardia less than 40bpm
- Junctional escape rhythm 40-60bpm
- Accelerated junctional rhythm 60-100bpm
- Junctional tachycardia greater than 100bpm
- Conduction:
- PR interval not present
- QRS width 60-100ms
- P wave morphology:
- Not present
- Rhythm Strip:
- Accelerated Junctional Rhythm
- Rhythms look the same but have more beats depending on the type of rhythm
- Accelerated Junctional Rhythm
(52)
- Signs and Symptoms:
- None
- Shortness of breath
- Palpitations, intermittent or continuous
- Fatigue
- Lightheadedness
- Syncope or near syncope
- Causes:
- Electrolyte imbalances
- Can be caused by anorexia nervosa
- Thoracic trauma
- Myocarditis
- Reperfusion of cardiac cells after a myocardial infarction
- Medications
- Adenosine
- Clonidine
- Antiarrhythmics
- Lithium
- Digoxin
- Sleep apnea
- Hypoxia
- Coronary artery disease
- Congenital cardiac defects and repairs of these defects
- Electrolyte imbalances
- Treatment:
- None if asymptomatic
- Medications
- Atropine
- Reversal agents
- Transcutaneous pacing
- Permanent pacemaker
- Treatment of the underlying cause
Bundle Branch Blocks (BBB) (43, 53, 70):
- Rate: varies
- Conduction:
- Right BBB (RBBB):
- QRS interval greater than 120ms
- Septal depolarization that leads to a:
- Small R wave being present in V1
- Q wave in V6
- The left ventricle’s contraction leads to and:
-
- S wave in V1
- R wave in V6
-
- The right ventricle’s contraction leads to an:
- R wave in V1
- Deep S wave in V6
- Left BBB (LBBB):
- QRS interval greater than 120ms
- T wave inversion is due to abnormal repolarization
- From first principles:
- Septal depolarization that leads to a:
- Q wave in V1
- R wave in V6
- Right BBB (RBBB):
-
-
- The right ventricle’s contraction leads to an:
- R wave in V1
- S wave in V6
- The left ventricle’s contraction leads to and:
- S wave in V1
- R wave in V6
- The right ventricle’s contraction leads to an:
- P wave morphology:
- The maximum height of the P wave is:
- Lead II and III: 2.5 mm
- Rhythm Strip:
- RBBB
- The maximum height of the P wave is:
-
(71)
-
-
-
- LBBB
-
-
(71)
- Signs and Symptoms:
- None
- Lightheadedness
- Syncope or near syncope
- Causes:
- RBBB:
- Myocardial infarction
- Congenital cardiac defects
- Pulmonary embolism
- Myocarditis
- Pulmonary hypertension
- LBBB:
- Myocardial infarction
- Hypertension
- Cardiomyopathy
- Myocarditis
- Treatment:
- None if asymptomatic
- Treatment of the underlying cause
- RBBB:
Identifying Ischemia and Infarction
Known as coronary artery disease (CAD), acute myocardial ischemia is the decrease of blood flow to the heart by atherosclerosis or plaque. The atherosclerosis starts as a plaque streak within the large arteries and continues to build up. After the plaque has grown to a significant size, occlusion begins and blood flow to areas below the growing occlusion suffers a decrease in blood flow. This is what is known as ischemia (81).
When resting, patients may not experience any signs or symptoms. Upon exertion, however, patients may experience stable angina—chest pain, discomfort, pressure, etc.—as activity requires increased blood flow and the arteries constrict to pump blood through the body faster. This pain is relieved at rest and can be further treated by nitrates. The routine is what makes this stable angina (81).
Unstable angina begins once the artery has become occluded enough to create a significant obstruction of blood flow. Signs and symptoms can include chest pain or other discomfort that is challenging to relieve, even when at rest. Patients may be woken from sleep due to the pain and report that it takes longer for the pain to decrease or resolve completely. These signs and symptoms symbolize that the plaque within the artery is unstable and could potentially rupture (90).
Infarction is when the blood flow is completely obstructed and the cells below the obstruction begin to die off. This often occurs when the plaque within the artery ruptures, leading to the body’s natural clotting processing in an attempt to repair the rupture, and a complete occlusion of the artery occurs (46).
Now that we have discussed ischemia and infarction, it is time to discuss how a myocardial infarction (MI) appears on an EKG and how to identify it. You may also hear them referred to as STEMIs or ST-elevation myocardial infarction.
The progression of PQRST complex changes during an MI can start with hyperacute T waves. The T wave will increase with amplitude and become wider, while some ST elevation may be noted. This elevation begins to occur as injury to the heart muscle begins. From there, the ST elevation increases and creates the image often associated with an MI. Pathological Q wave may develop as the MI progresses. As discussed earlier, the Q wave is the first downward deflection of the QRS complex and is normally 1mm or less in depth. Pathological Q waves are measured by greater than 1mm wide or greater than 25% of the R wave’s amplitude (84).
T wave inversion occurs when the cells have become necrotized and begin to form fibrosis. Once all necrotized cells have become fibrotic, the Q waves will remain, but the T waves will become upright again (84).
(84)
These changes should be present in at least 2 contiguous leads or leads that are side by side. To discuss this more, we will refer to the 12 lead EKG photo we used earlier. It is important to know that there will be leads with ST elevation and there will be leads with reciprocal ST depression based on the type of MI and how these leads are placed in relation to the area of the heart that is being affected.
Type of MI | Leads with ST Elevation | Reciprocal ST Depression |
Inferior | I, II, AVF | I, AVL |
Lateral | V5, V6 | III, AVR |
Anterior | I, AVL, V5, V6 | II, III, AVF |
Posterior | V7, V8, V9 | V1, V2, V3 |
(82)
With posterior MIs the elevation must be at least 0.5mm, there will be tall, broad R waves of at least 30ms long, and the T wave will be upright. When looking at an EKG for a posterior MI, the ST depression is what will be observed in leads V1, V2, and V3. If a posterior MI is suspected, look at the EKG from the back of the paper by flipping it over and holding it to light. This will display the ST depression as ST elevation, prompting you to consider a posterior EKG. It is advised that a posterior EKG with leads V7, V8, and V9 be done. A quick method to do this is by removing leads V4, V5, and V6; placing them in the posterior lead positions; and relabeling them on the EKG. (77).
Right ventricular MIs can occur, and it is important to assess and treat them appropriately. To assess for a right-sided MI, first look at the standard EKG. If ST elevation is noted in leads II and III, but the ST elevation is greater in lead III than lead II, consider right ventricular involvement. As discussed previously, one method is to do a right-sided EKG, with lead placement along the right side of the chest. The second, quicker way to do this is to take lead V4 and place it on the right side of the chest and mark it as V4R on the EKG (77).
Another rhythm that can be an indicator of an MI is a bundle branch block. New or suspected new BBBs are to be treated as a MI by providers. But what if you have a copy of an old EKG and the BBB isn’t new, can the patient still be having an MI? The answer is yes. However, it can be challenging to determine what is a change from the MI and what is from the BBB. The Sgarbossa criteria is useful in making these determinations and can also be used for patients who have a pacemaker (77)
Sgarbossa criteria (77):
- Concordant ST elevation that is greater than 1mm
- Concordant ST depression that is greater than 1mm
- Excess discordant ST elevation that is greater than 5mm in leads with negative QRS complexes – these are complexes below the isoelectric line
For reference, concordance means that the ST segment and QRS complex go in the same direction, either both deflecting upwards or downwards. Discordance is what should be seen in a BBB or paced rhythm. This is where the ST segment and the QRS complex go in different directions. Smith et al. created a modification to the Sgarbossa criteria to include a greater than 1mm ST elevation to an S-wave amplitude ratio of greater than 0.25mm (7).
Another method that has been created, but not validated is the Barcelona criteria. This criterion has greater than 1mm ST deviation concordance or discordance with QRS polarity in any EKG lead. Discordant ST deviation is greater than 1mm in any lead where the R or S points of the QRS complex are less than 6mm (7).
There is an EKG rhythm that can indicate a future MI which is known as Wellens syndrome. This EKG has a deeply inverted or biphasic T wave in leads V2 and V3. The patient is often pain-free when the rhythm is present, ischemic chest pain can obscure the rhythm by creating a false normal appearance of the T waves in the affected leads. Their cardiac enzymes may not even be elevated. Any patient presenting with chest pain should have serial EKGs done for this reason, since they may be pain-free at a later time. These EKG changes symbolize the critical stenosis of the proximal left anterior descending artery (LAD). This is the artery that provides the left ventricle with blood (65).
Self Quiz
Ask yourself...
- Do you remember the first patient that you had that was experiencing an MI? What stood out about that patient in your mind?
- Patients have a variety of symptoms that can be experienced during an MI, what was the most interesting symptom a patient had during an MI?
- Have you ever encountered a patient with Wellens Syndrome? Do you know if they ended up having an MI later?
Cardiac Assessment:
A traditional cardiac assessment focuses on more than just the heart; it encompasses aspects of both the neurological and respiratory systems. However, we will begin our focus with the heart.
Pain may not be a word patients use to describe what they are feeling. As mentioned, they may vocalize discomfort, pressure, cramping, burning, or tightness. Women may have jaw or arm pain as opposed to the traditional chest pain that men may experience. Ask them to rate their pain on a scale of one to ten, looking for changes in the value. An EKG based on pain, discomfort, pressure, cramping, or tightness should be completed within the time frame set by hospital policy.
The PQRST pneumonic can assist providers in remembering the specific information they need to collect (90).
P: What provokes, precipitates, or palliates/alleviates the pain or discomfort the patient is feeling? Does it get worse or better when you do certain things, i.e., walk or rest?
Q: What is the quality of pain or discomfort you are feeling?
R: Does this pain or discomfort radiate anywhere else in your body? Jaw, arm, back?
S: Are there associated symptoms with the pain or discomfort? Shortness of breath, dizziness, heartburn?
T: What time elements are involved? When did it start? Did it stop and come back? Are you currently feeling it now? Was it gradual or did it occur suddenly? Did it wake you up?
Patients should be asked about palpitations or any experienced abnormal heart rhythms detected on monitoring devices. Many individuals have smartwatches that can detect heart rates and some rhythms. If the patient is wearing one, determine if the device has recorded anything.
Edema in the legs can be a sign of acute heart failure while pain in the calf can indicate a blood clot that could have traveled from another part of the body (85). In A Fib, the blood can clot in the ventricles due to poor circulation of blood. It will pool until it clots or is ejected from the heart. Once expelled, the clot will travel until it can no longer pass through the veins (63). Ensure a thorough assessment of the patient’s distal pulses is done as well to determine circulation. The further pulse locations can be an indicator of poor circulation (85).
Moving on to the respiratory system, we will reflect on the many arrhythmias that have shortness of breath as a sign or symptom. Providers should assess lung sounds to determine if there is any fluid buildup, a sign of acute heart failure. Determine if the shortness of breath is all the time, upon exertion, or at rest. Also, it is important to ask if the patient has been woken from sleep due to a shortness of breath. Sometimes arrhythmias occur at unexpected moments, even in the middle of the night (85).
Syncope was another common sign or symptom of cardiac arrhythmias due to decreased perfusion to the brain. Providers should determine if the patient currently feels lightheaded or dizzy, if they felt that way in the past, or if they have fainted. They should ask when this feeling happens—at rest, while moving, or both—and if they get any warning signs or auras beforehand. Always ensure you ask the patient to describe what happened so it can be added to the assessment (85).
A full medical history should be obtained, with a special focus on any past cardiac medical history the patient or their family has. Providers may consider asking the following questions:
- Have you been diagnosed with coronary artery disease, high blood pressure, peripheral vascular disease, valve problems, heart failure, high cholesterol, or other heart conditions?
- Have you had a heart attack or stroke in the past?
- Have you had any surgical procedures to help with your heart function? This may include things like ablation or stent placement.
Asking about medications can assist providers in determining any missed diagnoses with the patient while asking about social history can provide information about smoking, illicit drug use, alcohol consumption, and exercise habits (85).
Self Quiz
Ask yourself...
- Have you seen changes in the patients admitted to your facilities that you could correlate to these indications?
- Do you agree with this list? Is there anything you feel should be added or removed? Why?
- Are there any time frames (how long a patient is on a telemetry monitor) that you think should be adjusted?
- Do you think sending patients home with wearable monitors could be used in the future to prevent admission in some of the patients who meet the criteria for admission with telemetry?
Conclusion
Thanks to advancements within the medical profession, cardiac telemetry can be greatly beneficial to patients in and outside of the hospital setting. From devices you can carry, to devices implanted inside someone, patient outcomes have improved for identifying, treating, and managing cardiac arrhythmias that had once been deemed unmanageable. With proper knowledge of EKG rhythms, nurses can confidently provide the proper care for their patients by being an advocate for those they care for.
Heart Failure Updates
Introduction
In 1997, Heart Failure (HF) was designated an epidemic due to the significant increase in hospitalizations. (2) This increase in hospitalizations appears to be due to accurate management of HF patients who re-hospitalize for stabilization and medication management rather than a new diagnosis or end-stage disease.
HF occurs when the heart is too weak to pump blood to the body and lungs. The blood then backs up into the heart, lungs, and lower extremities, causing less blood supply to the body. HF can also be so severe that it can cause death in patients. (1)
It is crucial for nurses to understand the pathophysiology of HF, risk factors, and what education and treatment a nurse can incorporate in the plan of care, which will slow the progression of disease and maintain quality of life.
Self Quiz
Ask yourself...
- How can you find the costs associated with HF patients at your place of work? What treatments are helping manage HF patients?
- How would you assess an HF patient on your initial encounter as a nurse?
Statistical Evidence/Epidemiology
Epidemiologists study a disease's incidence, mortality, and prevalence to predict health care costs, how many people have a disease, how it affects society, and when the numbers of a disease change.
According to the CDC, there are approximately 6.2 million patients with heart failure in the United States. The diagnosis was noted on 13.8% of death certificates in 2018. (2) $30.7 billion was spent on HF in 2012, including health care costs, days away from work, and medications that treat HF.
Although HF is higher in the elderly population, the more significant number of patients ages 35 and above who die with HF are concentrated in the southeast, southwest, Indiana, Wisconsin, and Illinois, with some counties in Utah, Oregon, Montana, South Dakota, and Nebraska.
Readmission rates declined when the Hospital Readmission Reduction Program (HRRP) began in 2012 to reduce costs and deliver care more safely.
Hospitals are penalized by the Centers for Medicare and Medicaid to lower readmission rates to less than 30 days for some diagnoses, and HF was among them. Hospitals began to look closer at the readmission rates, which helped them to focus on improved management. (2) . Using the information below, nurses can better assess the patient and add more information to their care plan.
The classifications of HF as defined by the New York Heart Association are:
- No symptoms with regular physical activity.
- Some mild symptoms with physical activity but not at rest
- Comfortable at rest but with moderate symptoms with some minor physical activity.
- Severe shortness of breath with rest. (2)
Providers typically use echocardiograms to measure heart failure using the ejection fraction (EF) percentage. Ejection fraction demonstrates the blood pumping rate from the left ventricle to the body.
An EF of below 30% indicates severe disease, while an EF at or above 50% indicates milder or no condition. Left ventricular failure with an EF of 50% or above is considered HF with preserved EF. An EF of 30% or below is considered HF with reduced EF. There is now a new category called HF with mid-range, which shows an EF of 40%-50%.
Approximately 15% of the HF population shows mid-range EF.
Incidence - is the number of new disease cases in certain patients. In HF, this number also helps scientists understand how the prevalence of the disease results from a lifestyle change. These studies aid in determining the burden of HF on society, which in turn helps to make changes in public policy and, eventually, how HF patients are treated. "For HF, incidence as a measure of new cases is particularly helpful to assess how the occurrences of HF might have changed over time as a result of changes in risk factors." (2)
Prevalence - measures the commonality of a disease, in this case HF, in the at-risk population at or over a given time. It also measures how often an HF patient will be encountered. (6)
Mortality - CHF is one of the top causes of death. Mortality rates are high, and the data shows that 50% of HF patients die at or within five years of diagnosis. (2) More recent studies show mortality rates in HF are increasing, which may be due in part to an aging population.
Self Quiz
Ask yourself...
- Where can you find more information on the epidemiology of HF?
- Where do epidemiologists get their information?
- Can you define the difference between incidence and prevalence?
Etiology and Pathophysiology
Heart failure is often caused by an injury to the heart's muscle, such as Myocardial Infarction (MI), valvular regurgitation, stenosis of the heart's valves, and arrhythmia. (4) It is essential that the provider determines the cause to treat these patients appropriately.
The most common cause of HF is cardiovascular disease. When fatty deposits or plaque buildup in the vessels supplying the heart, the arteries become narrowed and decrease blood flow to the heart muscle. This can cause ischemia (lack of oxygen) to the area of the heart's power involved, causing an MI. This, in turn, causes damage to the heart's muscle, reducing its ability to pump normally.
There are two main types of HF:
- Left ventricular HF or systolic (LHF)
- Right ventricular HF or diastolic (RHF)
LHF occurs when the damage to the left ventricle occurs, and RHF occurs when the damage is to the right ventricle.
The following Table taken from the National Institutes of Health shows comorbidities for Systolic and Diastolic HF:
Systolic (LHF)
- Coronary Heart disease
- Arterial Hypertension
- Valvular Heart Disease
- Arrhythmias
- Inflammatory disease
- Idiopathic cardiomyopathy
- Toxic Cardiomyopathy (alcohol)
Diastolic (RHF)
- Diabetes Mellitus
- Arterial Hypertension
- Valvular Heart Disease (pressure load)
- Hypertrophic Cardiomyopathy
- Restrictive Cardiomyopathy
- Constrictive Pericarditis
- Amyloidosis (storage disease)
HF causes volume overload in the ventricles of the heart. This is due to enlargement and stiffness of the ventricles, so they cannot pump enough blood to the lungs and the body. (1,4) The nurse can utilize this information to care for the patient and implement essential treatments.
Genetics also play a role in HF but are varied and complex. Studies have found more than 100 genes that may contribute to cardiomyopathy. Depending on where the failure occurs, more genetic testing is recommended in some instances: Left, Right, or Biventricular determines what signs and symptoms may be present in a patient.
In a patient with an MI or volume/pressure overload, the whole heart will change in structure and function. There will be hypertrophy of the Left ventricle and the dilatation of the chambers, which will cause further deterioration in cardiac function. (4)
Certain medications may also lead to HF in some patients. These are the diabetic medications Actos and Avandia. NSAIDS (non-steroidal inflammatory drugs) and certain medicines that treat hypertension, cancer, blood dyscrasias, mental health, lung urinary issues, and infections. (1)
Aging also contributes as the heart's ability to work decreases over time. Too much alcohol and smoking are also important considerations. Heart failure may also cause complications such as kidney damage and failure, more heart problems, and liver disease caused by the backup of fluid that the liver cannot handle.
The photo below shows the difference between a normal heart and an enlarged one (12).
Preventable and non-preventable risk factors for heart disease are:
- Poor diet
- Smoking
- Lack of exercise
- Alcoholism
- Obesity
- Genetics/Race-non preventable
It is also known that Hispanic women are at higher risk for diabetes, which can lead to heart disease if their diabetes is not managed well. Also, African American men are at higher risk for heart disease, possibly leading to HF.
Interestingly, some studies have shown that the incidence of hospitalizations has declined. This may be due to early diagnosis, better use of medications and newer devices, earlier and ongoing patient education of risk factors, and stellar outpatient and preventive care of those patients living with HF or at risk in the community (2).
Self Quiz
Ask yourself...
- Why do you think certain diseases and medications contribute to heart disease?
- How would you plan to educate your new patient on this disease?
- What are the mechanisms of HF that may cause other diseases?
Diagnostic and Screening Tools for Heart Failure (HF)
Essential diagnostic screening tools are heart rate, cholesterol testing, blood pressure, and weight. Blood pressure measurement is one of the most critical tests since it can have no symptoms.
If high, it significantly increases the risk of cardiac disease. Fortunately, diet exercise can control blood pressure to lose weight if needed, and medications.
According to the American Heart Association, the standard for blood pressure is 120/80 or below and should be measured starting at age 20. (5) Next is the fasting cholesterol profile. Again, starting at age 20, a fasting lipid profile should be done. (5) This will give the provider and patient a baseline to follow and assist nurses in developing and implementing care plans.
The following chart describes lab values for cholesterol. As you can see, the values in red are at the highest risk for cardiovascular disease, which could lead to HF.
(13)
Body habitus is another crucial factor in predicting CAD. Body mass index (BMI), Waist measurements, and body structure can help predict how at risk a patient is for many diseases, including CAD, diabetes, atrial fibrillation, HF, and stroke. (7)
The typical Western diet is full of fats and sugars. In the US, many processed foods containing high salt, fat, and sugar are used.
These foods are unhealthy for the body and cause obesity and poor health. The Mediterranean diet, in turn, is full of fresh fruits and vegetables, lean meat, and a few processed foods. This is the most recommended diet for all populations.
High blood glucose is another indicator of poor health. Insulin resistance is the precursor to diabetes. A patient has insulin resistance when the body's muscles and tissues cannot respond to insulin, so glucose increases in the blood. (5)
Causes of insulin resistance are thought to be obesity with a large waist measurement. Blood glucose is usually tested with routine blood work. This gives the provider knowledge if a patient is at risk for diabetes and, therefore, heart disease. (5) Smoking and lack of physical activity can cause poor health, which may lead to cardiovascular disease.
Echocardiogram, Holter monitoring, stress tests, and nuclear stress tests are routinely used when a patient presents with symptoms of or has known cardiovascular disease. These tests provide a look at heart function and are used to determine disease progression or maintenance.
Self Quiz
Ask yourself...
- What are the waist measurements in males and females that are considered for a diagnosis of obesity?
- How would you care for a patient undergoing this testing using the nursing process?
- Why is diabetes a risk factor for HF?
Medication Management
Treating HF with medications can reduce disease progression, and relieve symptoms of dyspnea, fatigue, and edema. Several classes of drugs can be used to treat HF. Each one may be used to treat a different symptom.
The classes are as follows:
Angiotensin-Converting Enzyme (ACE) Inhibitors
These medications open blood vessels decreasing blood pressure and lowering the heart’s work to keep HF from worsening. (6)
Some common ACE inhibitors are:
- Captopril
- Enalapril
- Lisinopril
- Ramipril
Angiotensin-Receptor Blockers (Arbs)
- Losartan
- Valsartan
Angiotensin-Receptor Neprilysin Inhibitors (Arnis)
Entresto is a drug combination in the class of Angiotensin-receptor neprilysin inhibitors (ARNIs). ARNIs limit the enzyme neprilysin from breaking down natural substances in the body. By limiting this enzyme, the arteries can open to increase blood flow. This drug also limits the retention of sodium. (7)
Beta Blockers
Beta-blockers work to slow down the heart rate and increase blood flow by widening blood vessels. This also lowers blood pressure. (9)
Common Beta Blockers are:
- Atenolol
- Bisoprolol
- Carvedilol
- Labetalol
- Metoprolol succinate
- Metoprolol tartrate
- Nadolol
- Propranolol
Sodium-Glucose Cotransporter-2 (SGLT2) Inhibitors
Jardiance and Farxiga are Sodium-glucose cotransporter-2 (SGLT2) inhibitors that were designed to treat diabetes, but they have been found to be cardio-protective. (7)
Diuretics
Diuretics allow the body to release extra fluid and sodium through the kidneys. They cause increased urination so should be taken earlier in the day.
Most common diuretics are:
- Lasix
- Bumex
- Torsemide
- Diuril
- Hydrochlorothiazide (HCTZ)
- Metolazone
Other medications can be prescribed depending on the patient's needs, such as anticoagulants to keep the blood thin, statins to lower cholesterol, and Digoxin to control heart rate and increase pumping strength. Calcium channel blockers allow the heart muscle to relax, thereby reducing blood pressure and circulation within the heart. Potassium may be used with certain diuretics that cause potassium to leave the body.
It is needed to keep the heart's rhythm in control. Oxygen may also increase its amount in the blood, assisting with dyspnea and activity tolerance. (7) It is the nurse's responsibility to evaluate these medications and interventions for plan updates.
Self Quiz
Ask yourself...
- Which medications are the first line in controlling HF?
- Where can you find side effects of these medications?
- What would your care plan look like for a patient with HF?
Other Interventions
Several types of surgery can be utilized for the most severe cases of HF. Bypass surgery has been used for many years. This procedure bypasses blocked coronary arteries, allowing for better blood flow to the heart muscle.
Replacing damaged or stenosed heart valves will assist blood flow within the heart chambers. In some patients, biventricular pacing with a pacemaker allows both sides of the heart to work in sync. (10) An ICD, or implantable defibrillator, can shock the heart from a life-threatening rhythm back to normal.
The ventricular assist device or VAD can assist the ventricles to pump blood out to the body. (10) This device can be used either waiting for a transplant or permanently.
Heart Transplants can be used as the last intervention, with a success rate of 88% after one year and 75% after five. If a patient has sleep apnea, it can be linked to heart failure. In this case, an evaluation and treatment will be performed. (10)
Self Quiz
Ask yourself...
- Where can you learn more about assistive devices for HF?
- How many arteries can be bypassed in surgery at one time?
- How would you care for a person with a surgical device?
Current areas of research in HF are producing more effective drug therapy, genetic testing, non-surgical devices, transplants, and mechanical support. (8)
The research is now studying drugs that improve physical symptoms when added to the standard drug treatment and care. These drugs have shown improvement in reducing hospitalizations.
The newer diabetic medications Jardiance, Invokana, and Farxiga are being studied on HF patients without diabetes to learn if they will improve function and risk reduction of MI, stroke, or cardiovascular death. (8)
Non-invasive imaging such as MRI, ultrasound, nuclear testing, and radiology are being researched in the hope that advancing these technologies will "provide additional information about coronary arteries and heart tissue, coronary strain, the function and structure of the heart." (8)
Genetic testing is under investigation to help determine if there is an inherited disease, especially in specific cardiomyopathies. These cardiomyopathies present differently and may be treated with differing modalities.
One of the newest areas of HF management and treatment is remote monitoring. Nurses are at the forefront of home monitoring in many areas as they are the clinicians making home visits.
New types of VADs are emerging as treatments for advanced illnesses. They are being manufactured to be more durable and portable. (8)
Self Quiz
Ask yourself...
- Where can you find new research studies on HF?
- Where can you go to get educated on new devices?
- Who is conducting the new research?
Conclusion
As discussed in this course, Heart Failure affects over 6 million people in the US. Age, lifestyle, race, and genetics may predispose a patient to this disease.
HF burdens society and health care costs due to missed work, rehospitalizations, and poor outcomes. As a nurse, learning the mechanisms of HF is imperative. Understanding etiology, statistics, pharmaceuticals, and other interventions will assist nurses in administering the best care.
New research shows how emerging medications, improved implantable devices, and surgery can improve outcomes. However, patient education and prevention are vital to caring for HF patients.
Hypertension Updates
Introduction
This course aims to provide nurses and healthcare professionals with an up-to-date understanding of hypertension (HTN). The course covers epidemiological evidence, etiology, diagnostic tools, medication management, other interventions, and future research on HTN.
Hypertension, or high blood pressure, is a chronic condition and a significant risk factor for heart disease, stroke, kidney failure, and other serious health problems. The American College of Cardiology defines hypertension as systolic blood pressure greater than 130 mmHg or diastolic blood pressure greater than 80 mmHg [1].
Statistical Evidence/Epidemiology
According to the Centers for Disease Control and Prevention (CDC), hypertension afflicts 108 million Americans and contributes to almost 500,000 deaths per year in the United States [2]. The prevalence of hypertension varies by race and ethnicity, with non-Hispanic Black adults having the highest majority (57.1%), followed by Hispanic adults (43.7%) and non-Hispanic White adults (43.6%).
Hypertension is also more common among older adults, with (74.5%) of adults aged 60 and over having high blood pressure [3]. Despite the high prevalence of hypertension, less than a quarter of all adults with hypertension in the United States have their blood pressure under control [2].
This leaves millions at risk for serious health problems from uncontrolled hypertension, such as heart disease, stroke, kidney failure, and eye problems. In 2021, high blood pressure was a primary or contributing cause of death for more than 691,095 Americans [4].
[31]
Self Quiz
Ask yourself...
- How do the current epidemiological statistics about hypertension affect healthcare planning and resource allocation?
- Given that hypertension is a significant public health problem and a major risk factor for serious health problems, what are the essential things that nurses and healthcare professionals should know about hypertension to manage their patients?
- Why do you think there exists such a pronounced disparity in the prevalence of hypertension among different racial and ethnic groups, and what societal and medical strategies might be employed to address this?
Etiology/Pathophysiology of Hypertension
Hypertension (high blood pressure) is a multifactorial disease characterized by persistent elevated blood pressure in the systemic arteries. Understanding hypertension's etiology, pathophysiology, and sequela is crucial for effective management and treatment.
There are two main types of hypertension: primary hypertension and secondary hypertension. Primary or essential hypertension (idiopathic hypertension), which accounts for about 80-95% of all cases, has no identifiable cause and results from complex interactions between genetic, environmental, and other unknown factors [5].
The cause of secondary hypertension (15-30% of cases) is often an underlying medical condition, such as kidney disease, adrenal gland tumors, diabetes, or thyroid disease [6]. Family history plays a role, although science has identified no genetic factor as the "hypertension gene" [7].
A key mechanism in hypertension is the imbalance between the forces that constrict and dilate blood vessels. This imbalance can be caused by several factors, including increased activity of the sympathetic nervous system, which leads to vasoconstriction, increased production of vasoconstrictor hormones, such as angiotensin II and aldosterone, a decreased output of vasodilator hormones, such as nitric oxide, and structural changes in the blood vessels, such as thickening of the vessel walls [8].
The most understood mechanism of hypertension involves increased peripheral vascular resistance due to constriction of small arterioles. The Renin-Angiotensin-Aldosterone System (RAAS) is a hormonal system that regulates blood pressure. Dysfunction of the RAAS can lead to fluid retention and vasoconstriction [9]. Endothelial dysfunction involves the inner lining of the blood vessels (endothelium) and the release of nitric oxide, which promotes blood vessel relaxation. The dysfunction of nitric oxide is a primary contributor to hypertension [10].
Secondary hypertension often involves:
- The kidneys and volume overload.
- Leading to elevated blood pressure.
- Often affecting younger patients and those with resistant or refractory hypertension.
The typical secondary causes of hypertension include:
- Primary aldosteronism (PA).
- Renovascular disease.
- Chronic kidney disease (CKD).
- Obstructive sleep apnea (OSA).
- Drug-induced or alcohol-induced hypertension [11].
Overactivation within the sympathetic nervous system can result in increased heart rate (tachycardia) and vasoconstriction, both of which can cause a temporary elevation in blood pressure. Within the metabolic process, insulin resistance has been associated with endothelial dysfunction and hypertension [12].
Self Quiz
Ask yourself...
- What underlying mechanisms or factors might contribute to the development of primary hypertension when classified as having no identifiable cause, and how might this classification influence our approach to treatment and management?
- What common myths and misconceptions about hypertension have you encountered in your practice?
- How do mechanisms like vascular resistance, RAAS dysfunction, and endothelial dysfunction interact or possibly counteract each other in the pathophysiology of hypertension, and what are the implications of this interplay for targeted therapeutic interventions?
- If hypertension is a complex disease with multiple causes, how can we develop effective treatments and prevention strategies?
Diagnostic and Screening Tools
The primary current diagnostic and screening tools around hypertension include blood pressure measurement. Blood pressure consists of systolic blood pressure (SBP) and diastolic blood pressure (DBP).
SBP is the pressure when the heart is beating, and DBP is the pressure when the heart is resting. A diagnosis of hypertension can be established when the Systolic Blood Pressure (SBP) is 130 mmHg or above or when the Diastolic Blood Pressure (DBP) is at least 80 mmHg [1].
The American Heart Association (AHA) recommends that all adults have their blood pressure checked at least once a year. People with risk factors for hypertension, such as obesity, diabetes, and kidney disease, should have their blood pressure checked more often [13].
Secondary tools for evaluating hypertension include ambulatory blood pressure monitoring (ABPM). ABPM is a more accurate way to measure blood pressure, measuring blood pressure over 24 hours. ABPM is an integral part of hypertensive care [14].
Urine tests can check for protein in the urine, a sign of kidney damage. Kidney damage is a risk factor for hypertension. Blood tests can be used to check for other medical conditions that can cause hypertension, such as diabetes and kidney disease, cholesterol levels, and other risk factors for heart disease.
Hormonal Tests can measure hormones produced by the adrenal and thyroid glands, which can help diagnose secondary hypertension. Regardless of the diagnostic or screening tools, early diagnosis and management of hypertension save lives [15].
Self Quiz
Ask yourself...
- What are the advantages and disadvantages of using blood pressure measurement as the primary diagnostic and screening tool for hypertension?
- What are some of the challenges of implementing ABPM as a routine screening tool for hypertension?
- How can we improve the early diagnosis and management of hypertension in all populations?
Imaging and Other Diagnostic Tests
Ultrasound of the Kidneys: To rule out kidney abnormalities.
Echocardiogram: To assess heart function and structure. Useful if hypertension has been longstanding.
Eye Exam: A fundoscopic examination can reveal changes in the retinal blood vessels, indicative of chronic hypertension.
Telemedicine: Remote monitoring can be helpful for ongoing assessment and titration of treatment.
Healthcare Apps: Smartphone apps can log and track blood pressure readings over time.
Self Quiz
Ask yourself...
- Considering the variety of diagnostic and screening tools available for hypertension—from traditional blood pressure measurements to digital devices like telemedicine and healthcare apps—how can healthcare providers ensure that they employ the most practical combination of methods for accurate diagnosis and long-term management of the condition?
- How does an early diagnosis contribute to better management and prognosis in hypertension patients?
Medication Management
The management of hypertension has evolved over the years, with numerous classes of medications available for treatment. The type of medication best suited for your patients will depend on their needs and health history.
Treatment strategies often begin with monotherapy, a single drug, usually a diuretic, beta-blocker, ACE inhibitor, or Angiotensin II receptor blocker (ARBs) [16]. Combination therapy for patients with stage 2 hypertension or those not reaching the target BP with monotherapy, which may include two or more drug classes, is also used.[16].
Step therapy involves starting with one drug and adding others to achieve the desired effect. A tailored approach is considered if comorbid conditions are present, such as diabetes or heart failure, which may influence drug choice.
Several standard classes of antihypertensive medications are used to treat hypertension, including first-line thiazides such as hydrochlorothiazide, which help rid excess salt and water and lower blood pressure [17]. Angiotensin-converting enzyme (ACE) inhibitors such as lisinopril and ramipril block the production of angiotensin II, a hormone that narrows blood vessels.
Angiotensin II Receptor Blockers (ARBs) such as losartan and valsartan which inhibit the action of angiotensin II, leading to vasodilation [17]. Beta-blockers such as atenolol or metoprolol slow the heart rate and reduce the force of the heart's contractions, which can lower blood pressure [17].
Calcium channel blockers such as amlodipine and diltiazem relax the muscles of the blood vessels by inhibiting the movement of calcium into vascular smooth muscle cells, thus lowering blood pressure [17]. Alpha-blockers such as doxazosin work by blocking alpha-adrenergic receptors, leading to vasodilation. Vasodilators such as hydralazine and minoxidil relax the muscles in blood vessel walls [17].
Central action agents such as clonidine, methyldopa, and moxonidine work on the central nervous system to lower blood pressure [17]. Moxonidine is a new-generation antihypertensive drug that works by activating imidazoline-I1 receptors in the brain, and it may be used when other antihypertensive drugs, such as thiazides, beta-blockers, ACE inhibitors, and calcium channel blockers, are not appropriate or have failed [18].
Thiazide-like diuretics such as chlorthalidone and indapamide have found increased use for their more prolonged duration of action and better cardiovascular outcomes when compared to traditional thiazides [19]. New evidence-based medications are coming into play, such as angiotensin receptor-neprilysin inhibitors (ARNIs), and a clinical trial is underway to test the effectiveness of a new drug called finerenone in preventing heart failure and kidney disease in people with hypertension and diabetes [20] [21].
Due to their safety profiles, there are special considerations with hypertensive management, including methyldopa and labetalol for pregnancy [22].
For older people, care is taken to avoid overtreatment, considering the risks of low blood pressure. For patients with chronic kidney disease (CKD), ACE inhibitors and ARBs are often favored due to their renal protective effects.
Generics are preferred when appropriate to reduce patient costs [23]. Digital adherence tools, including smartphone apps and telemedicine platforms, monitor patient compliance and adjust treatment as necessary.
[32]
Self Quiz
Ask yourself...
- What challenges do healthcare providers face in medication compliance among hypertensive patients?
- Given the myriad antihypertensive drug classes and treatment strategies available, coupled with considerations for special populations such as pregnant women, older adults, and those with chronic kidney disease, how can healthcare providers effectively customize treatment plans while maintaining a consistent standard of care across different patient profiles?
Other Interventions
Beyond medication, lifestyle changes, including dietary interventions like the DASH diet and exercise, have proven effective in managing hypertension [24]. The DASH diet focuses on a high intake of fruits, vegetables, and low-fat dairy foods and is low in saturated and total fat.
A reduction in dietary sodium has been shown to lower blood pressure, with a general recommendation to consume less than 2,300 mg per day, with an ideal limit of 1,500 mg for most adults [24]. Regular aerobic exercise such as walking, jogging, or swimming can lower blood pressure.
Weight loss of even 5-10% can significantly impact reducing blood pressure [25]. Alcohol moderation and smoking cessation can also lead to blood pressure reduction.
Behavioral therapies, including stress management techniques such as deep breathing, meditation, and relaxation exercises, can help reduce short-term spikes in blood pressure. There is some evidence that suggests that Cognitive CBT can be effective in managing hypertension [26].
Biofeedback can help manage stress triggers and measure physiological functions like heart rate and blood pressure [26]. Although evidence is mixed, some studies suggest acupuncture can help lower blood pressure.
Renal denervation is an invasive procedure using radiofrequency energy to destroy kidney nerves contributing to hypertension. Central sleep apnea therapy can treat central sleep apnea and lower blood pressure.
Weight loss surgery can be an effective way to lower blood pressure in people who are obese or overweight. Several stress management techniques, such as yoga, meditation, and deep breathing, can be helpful.
Self-monitoring and regular medical check-ups can ensure that the treatment plan is effective and can be adjusted as needed. Remote consultations can offer more frequent touchpoints for adjustments in treatment plans.
Various mobile applications can help patients track blood pressure readings, medication schedules, and lifestyle changes. Community-based interventions to educate the public about hypertension risks, prevention, and management can be effective.
On a policy level, changes and initiatives that reduce sodium in processed foods can have a broader societal impact [27].
Self Quiz
Ask yourself...
- How do non-pharmacological interventions compare with medication management in terms of effectiveness and patient compliance?
- What roles do genetics and lifestyle factors play in the development of hypertension?
- How might the interactions among genetic factors, diet, obesity, lifestyle choices, and psychological elements contribute to the complex etiology of primary hypertension, and what does this complexity imply for diagnosing and treating secondary hypertension?
Upcoming Research
Using "Omics" genomic, proteomic, and metabolomic data to tailor antihypertensive therapies to individuals' researchers are working to identify the genes that contribute to hypertension and specific genetic markers that can help predict an individual's risk for developing hypertension and their potential response to treatments [28].
This information could be used to create new genetic tests to identify people who are at risk of developing the condition. Personalized medicine seeks to create customized approaches to managing hypertension, which would involve tailoring treatment to the individual's needs and risk factors.
Non-invasive treatments, such as devices worn on the body to deliver medication or stimulate the nerves, may also be effective. Researchers are developing a new type of blood pressure monitor that can be worn on the wrist and measure blood pressure throughout the day.
A study is underway to investigate the use of artificial intelligence to develop personalized treatment plans for people with hypertension. With predictive analytics, AI models are trained to predict hypertension risk and disease progression using large-scale electronic health records [29].
In the area of new therapeutic targets, researchers are looking into novel ways to improve endothelial function and vascular health. Studies into how the gut microbiome may influence blood pressure regulation offer potential for new treatment modalities [30]. Research on how diet interacts with genes within the gut microbiome may affect blood pressure.
Self Quiz
Ask yourself...
- How might advancements in technology and research change the landscape of hypertension management in the next decade?
- How can we balance the potential benefits of personalized medicine for hypertension with the challenges of ensuring that everyone has access to these new treatments?
Awareness and Patient Education
What your patients should know:
- Early diagnosis and treatment of hypertension are essential for preventing complications.
- There are several different types of medications available to treat hypertension.
- Lifestyle changes, such as eating a healthy diet, exercising regularly, and maintaining a healthy weight, can also help to lower blood pressure.
Nurses and healthcare professionals should be aware of the following:
- Nurses and healthcare professionals play a vital role in educating patients about hypertension and helping them manage their condition.
- The latest epidemiological statistics on hypertension, including its prevalence, risk factors, and impact on public health.
- The etiology and pathophysiology of hypertension, including the different types of hypertension and their underlying causes.
- The diagnostic tools used to diagnose hypertension include blood pressure measurement, ambulatory blood pressure monitoring, urine tests, blood tests, and imaging tests.
- The different types of medications available to treat hypertension, as well as their side effects and interactions.
Nurses and healthcare professionals can help patients to manage their hypertension by:
- Educating patients about hypertension and its risks.
- Helping patients develop a treatment plan that includes lifestyle changes and medications.
- Monitoring their blood pressure and adjusting their treatment plan as needed.