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Redesign of Health Care Systems to Reduce Diagnostic Errors: Leveraging Human Experience and Artificial Intelligence
From the Institute for Healthcare Improvement, Boston, MA (Dr. Abid); Continuous Quality Improvement and Patient Safety Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Abid); Primary and Secondary Healthcare Department, Government of Punjab, Lahore, Pakistan (Dr. Ahmed); Infection Prevention and Control Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Din); Internal Medicine Department, Greater Baltimore Medical Center, Baltimore, MD (Dr. Abid); Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, Houston, TX (Dr. Ratnani).
Diagnostic errors are defined by the National Academies of Sciences, Engineering, and Medicine (NASEM) as the failure to either establish an accurate and timely explanation of the patient’s health problem(s) or communicate that explanation to the patient.1 According to a report by the Institute of Medicine, diagnostic errors account for a substantial number of adverse events in health care, affecting an estimated 12 million Americans each year.1 Diagnostic errors are a common and serious issue in health care systems, with studies estimating that 5% to 15% of all diagnoses are incorrect.1 Such errors can result in unnecessary treatments, delays in necessary treatments, and harm to patients. The high prevalence of diagnostic errors in primary care has been identified as a global issue.2 While many factors contribute to diagnostic errors, the complex nature of health care systems, the limited processing capacity of human cognition, and deficiencies in interpersonal patient-clinician communication are primary contributors.3,4
Discussions around the redesign of health care systems to reduce diagnostic errors have been at the forefront of medical research for years.2,4 To decrease diagnostic errors in health care, a comprehensive strategy is necessary. This strategy should focus on utilizing both human experience (HX) in health care and artificial intelligence (AI) technologies to transform health care systems into proactive, patient-centered, and safer systems, specifically concerning diagnostic errors.1
Human Experience and Diagnostic Errors
The role of HX in health care cannot be overstated. The HX in health care integrates the sum of all interactions, every encounter among patients, families and care partners, and the health care workforce.5 Patients and their families have a unique perspective on their health care experiences that can provide valuable insight into potential diagnostic errors.6 The new definition of diagnostic errors introduced in the 2015 NASEM report emphasized the significance of effective communication during the diagnostic procedure.1 Engaging patients and their families in the diagnostic process can improve communication, improve diagnostic accuracy, and help to identify errors before they cause harm.7 However, many patients and families feel that they are not listened to or taken seriously by health care providers, and may not feel comfortable sharing information that they feel is important.8 To address this, health care systems can implement programs that encourage patients and families to be more engaged in the diagnostic process, such as shared decision-making, patient portals, and patient and family advisory councils.9 Health care systems must prioritize patient-centered care, teamwork, and communication. Patients and their families must be actively engaged in their care, and health care providers must be willing to work collaboratively and listen to patients’ concerns.6,10
Health care providers also bring their own valuable experiences and expertise to the diagnostic process, as they are often the ones on the front lines of patient care. However, health care providers may not always feel comfortable reporting errors or near misses, and may not have the time or resources to participate in quality improvement initiatives. To address this, health care systems can implement programs that encourage providers to report errors and near misses, such as anonymous reporting systems, just-culture initiatives, and peer review.11 Creating a culture of teamwork and collaboration among health care providers can improve the accuracy of diagnoses and reduce the risk of errors.12
A key factor in utilizing HX to reduce diagnostic errors is effective communication. Communication breakdowns among health care providers, patients, and their families are a common contributing factor resulting in diagnostic errors.2 Strategies to improve communication include using clear and concise language, involving patients and their families in the decision-making process, and utilizing electronic health records (EHRs) to ensure that all health care providers have access to relevant, accurate, and up-to-date patient information.4,13,14
Another important aspect of utilizing HX in health care to reduce diagnostic errors is the need to recognize and address cognitive biases that may influence diagnostic decisions.3 Cognitive biases are common in health care and can lead to errors in diagnosis. For example, confirmation bias, which is the tendency to look for information that confirms preexisting beliefs, can lead providers to overlook important diagnostic information.15 Biases such as anchoring bias, premature closure, and confirmation bias can lead to incorrect diagnoses and can be difficult to recognize and overcome. Addressing cognitive biases requires a commitment to self-reflection and self-awareness among health care providers as well as structured training of health care providers to improve their diagnostic reasoning skills and reduce the risk of cognitive errors.15 By implementing these strategies around HX in health care, health care systems can become more patient-centered and reduce the likelihood of diagnostic errors (Figure).
Artificial Intelligence and Diagnostic Errors
Artificial intelligence has the potential to significantly reduce diagnostic errors in health care (Figure), and its role in health care is rapidly expanding. AI technologies such as machine learning (ML) and natural language processing (NLP) have the potential to significantly reduce diagnostic errors by augmenting human cognition and improving access to relevant patient data.1,16 Machine learning algorithms can analyze large amounts of patient data sets to identify patterns and risk factors and predict patient outcomes, which can aid health care providers in making accurate diagnoses.17 Artificial intelligence can also help to address some of the communication breakdowns that contribute to diagnostic errors.18 Natural language processing can improve the accuracy of EHR documentation and reduce the associated clinician burden, making it easier for providers to access relevant patient information and communicate more effectively with each other.18
In health care, AI can be used to analyze medical images, laboratory results, genomic data, and EHRs to identify potential diagnoses and flag patients who may be at risk for diagnostic errors. One of the primary benefits of AI in health care is its ability to process large amounts of data quickly and accurately.19 This can be particularly valuable in diagnosing rare or complex conditions. Machine learning algorithms can analyze patient data to identify subtle patterns that may not be apparent to human providers.16 This can lead to earlier and more accurate diagnoses, which can reduce diagnostic errors and improve patient outcomes.17 One example of the application of AI in health care is the use of computer-aided detection (CAD) software to analyze medical images. This software can help radiologists detect abnormalities in medical images that may be missed by the human eye, such as early-stage breast cancer.20 Another example is the use of NLP and ML to analyze unstructured data in EHRs, such as physician notes, to identify potential diagnoses and flag patients who may be at risk for diagnostic errors.21 A recent study showed that using NLP on EHRs for screening and detecting individuals at risk for psychosis can considerably enhance the prognostic accuracy of psychosis risk calculators.22 This can help identify patients who require assessment and specialized care, facilitating earlier detection and potentially improving patient outcomes. On the same note, ML-based severe sepsis prediction algorithms have been shown to reduce the average length of stay and in-hospital mortality rate.23
However, there are also concerns about the use of AI in health care, including the potential for bias and the risk of overreliance on AI. Bias can occur when AI algorithms are trained on data that is not representative of the population being analyzed, leading to inaccurate or unfair results, hence, perpetuating and exacerbating existing biases in health care.24 Over-reliance on AI can occur when health care providers rely too heavily on AI algorithms and fail to consider other important information, such as the lived experience of patients, families, and health care providers. Addressing these concerns will require ongoing efforts to ensure that AI technologies are developed and implemented in an ethical and responsible manner.25
Conclusion
Reducing diagnostic errors is a critical goal for health care systems, and requires a comprehensive approach that utilizes both HX and AI technologies. Engaging patients and their families in the diagnostic process, promoting teamwork and collaboration among health care providers, addressing cognitive biases, and harnessing the power of AI can all contribute to more accurate diagnoses and better patient outcomes. By integrating the lived experience of patients, families, and health care providers with AI technologies, health care systems can be redesigned to become more proactive, safer, and patient-centered in identifying potential health problems and reducing the risk of diagnostic errors, ensuring that patients receive the care they need and deserve.
Corresponding author: Iqbal Ratnani, Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, 6565 Fannin St, Houston, TX 77030; [email protected]
Disclosures: None reported.
1. National Academy of Medicine. Improving Diagnosis in Health Care. Balogh EP, Miller BT, Ball JR, eds. National Academies Press; 2015. doi:10.17226/21794
2. Singh H, Schiff GD, Graber ML, et al. The global burden of diagnostic errors in primary care. BMJ Qual Saf. 2017;26(6):484-494. doi:10.1136/bmjqs-2016-005401
3. Croskerry P, Campbell SG, Petrie DA. The challenge of cognitive science for medical diagnosis. Cogn Res Princ Implic. 2023;8(1):13. doi:10.1186/s41235-022-00460-z
4. Dahm MR, Williams M, Crock C. ‘More than words’ - interpersonal communication, cogntive bias and diagnostic errors. Patient Educ Couns. 2022;105(1):252-256. doi:10.1016/j.pec.2021.05.012
5. Wolf JA, Niederhauser V, Marshburn D, LaVela SL. Reexamining “defining patient experience”: The human experience in Healthcare. Patient Experience J. 2021;8(1):16-29. doi:10.35680/2372-0247.1594
6. Sacco AY, Self QR, Worswick EL, et al. Patients’ perspectives of diagnostic error: A qualitative study. J Patient Saf. 2021;17(8):e1759-e1764. doi:10.1097/PTS.0000000000000642
7. Singh H, Graber ML. Improving diagnosis in health care—the next imperative for patient safety. N Engl J Med. 2015;373(26):2493-2495. doi:10.1056/NEJMp1512241
8. Austin E, LeRouge C, Hartzler AL, Segal C, Lavallee DC. Capturing the patient voice: implementing patient-reported outcomes across the health system. Qual Life Res. 2020;29(2):347-355. doi:10.1007/s11136-019-02320-8
9. Waddell A, Lennox A, Spassova G, Bragge P. Barriers and facilitators to shared decision-making in hospitals from policy to practice: a systematic review. Implement Sci. 2021;16(1):74. doi: 10.1186/s13012-021-01142-y
10. US Preventive Services Task Force. Collaboration and shared decision-making between patients and clinicians in preventive health care decisions and US Preventive Services Task Force Recommendations. JAMA. 2022;327(12):1171-1176. doi:10.1001/jama.2022.3267
11. Reporting patient safety events. Patient Safety Network. Published September 7, 2019. Accessed April 29, 2023. https://psnet.ahrq.gov/primer/reporting-patient-safety-events
12. McLaney E, Morassaei S, Hughes L, et al. A framework for interprofessional team collaboration in a hospital setting: Advancing team competencies and behaviours. Healthc Manage Forum. 2022;35(2):112-117. doi:10.1177/08404704211063584
13. Abid MH, Abid MM, Shahid R, et al. Patient and family engagement during challenging times: what works and what does not? Cureus. 2021;13(5):e14814. doi:10.7759/cureus.14814
14. Abimanyi-Ochom J, Bohingamu Mudiyanselage S, Catchpool M, et al. Strategies to reduce diagnostic errors: a systematic review. BMC Med Inform Decis Mak. 2019;19(1):174. doi:10.1186/s12911-019-0901-1
15. Watari T, Tokuda Y, Amano Y, et al. Cognitive bias and diagnostic errors among physicians in Japan: A self-reflection survey. Int J Environ Res Public Health. 2022;19(8):4645. doi:10.3390/ijerph19084645
16. Rajkomar A, Oren E, Chen K et al. Scalable and accurate deep learning with electronic health records. NPJ Digit Med. 2018;1:18. https://doi.org/10.1038/s41746-018-0029-1
17. Davenport T, Kalakota R. The potential for artificial intelligence in healthcare. Future Healthc J. 2019;6(2):94-98. doi:10.7861/futurehosp.6-2-94
18. Dymek C, Kim B, Melton GB, et al. Building the evidence-base to reduce electronic health record-related clinician burden. J Am Med Inform Assoc. 2021;28(5):1057-1061. doi:10.1093/jamia/ocaa238
19. Beam AL, Kohane IS. Big data and machine learning in health care. JAMA. 2018;319(13):1317-1318. doi:10.1001/jama.2017.18391
20. Lehman CD, Wellman RD, Buist DS, et al. Diagnostic accuracy of digital screening mammography with and without computer-aided detection. JAMA Intern Med. 2015;175(11):1828-1837. doi:10.1001/jamainternmed.2015.5231
21. Liao KP, Cai T, Savova GK, et al. Development of phenotype algorithms using electronic medical records and incorporating natural language processing. BMJ. 2015;350:h1885. doi:10.1136/bmj.h1885
22. Irving J, Patel R, Oliver D, et al. Using natural language processing on electronic health records to enhance detection and prediction of psychosis risk. Schizophr Bull. 2021;47(2):405-414. doi:10.1093/schbul/sbaa126. Erratum in: Schizophr Bull. 2021;47(2):575.
23. Shimabukuro DW, Barton CW, Feldman MD, et al. Effect of a machine learning-based severe sepsis prediction algorithm on patient survival and hospital length of stay: a randomised clinical trial. BMJ Open Respir Res. 2017;4(1):e000234. doi:10.1136/bmjresp-2017-000234
24. Obermeyer Z, Powers B, Vogeli C, Mullainathan S. Dissecting racial bias in an algorithm used to manage the health of populations. Science. 2019;366(6464):447-453. doi:10.1126/science.aax2342
25. Ibrahim SA, Pronovost PJ. Diagnostic errors, health disparities, and artificial intelligence: a combination for health or harm? JAMA Health Forum. 2021;2(9):e212430. doi:10.1001/jamahealthforum.2021.2430
From the Institute for Healthcare Improvement, Boston, MA (Dr. Abid); Continuous Quality Improvement and Patient Safety Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Abid); Primary and Secondary Healthcare Department, Government of Punjab, Lahore, Pakistan (Dr. Ahmed); Infection Prevention and Control Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Din); Internal Medicine Department, Greater Baltimore Medical Center, Baltimore, MD (Dr. Abid); Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, Houston, TX (Dr. Ratnani).
Diagnostic errors are defined by the National Academies of Sciences, Engineering, and Medicine (NASEM) as the failure to either establish an accurate and timely explanation of the patient’s health problem(s) or communicate that explanation to the patient.1 According to a report by the Institute of Medicine, diagnostic errors account for a substantial number of adverse events in health care, affecting an estimated 12 million Americans each year.1 Diagnostic errors are a common and serious issue in health care systems, with studies estimating that 5% to 15% of all diagnoses are incorrect.1 Such errors can result in unnecessary treatments, delays in necessary treatments, and harm to patients. The high prevalence of diagnostic errors in primary care has been identified as a global issue.2 While many factors contribute to diagnostic errors, the complex nature of health care systems, the limited processing capacity of human cognition, and deficiencies in interpersonal patient-clinician communication are primary contributors.3,4
Discussions around the redesign of health care systems to reduce diagnostic errors have been at the forefront of medical research for years.2,4 To decrease diagnostic errors in health care, a comprehensive strategy is necessary. This strategy should focus on utilizing both human experience (HX) in health care and artificial intelligence (AI) technologies to transform health care systems into proactive, patient-centered, and safer systems, specifically concerning diagnostic errors.1
Human Experience and Diagnostic Errors
The role of HX in health care cannot be overstated. The HX in health care integrates the sum of all interactions, every encounter among patients, families and care partners, and the health care workforce.5 Patients and their families have a unique perspective on their health care experiences that can provide valuable insight into potential diagnostic errors.6 The new definition of diagnostic errors introduced in the 2015 NASEM report emphasized the significance of effective communication during the diagnostic procedure.1 Engaging patients and their families in the diagnostic process can improve communication, improve diagnostic accuracy, and help to identify errors before they cause harm.7 However, many patients and families feel that they are not listened to or taken seriously by health care providers, and may not feel comfortable sharing information that they feel is important.8 To address this, health care systems can implement programs that encourage patients and families to be more engaged in the diagnostic process, such as shared decision-making, patient portals, and patient and family advisory councils.9 Health care systems must prioritize patient-centered care, teamwork, and communication. Patients and their families must be actively engaged in their care, and health care providers must be willing to work collaboratively and listen to patients’ concerns.6,10
Health care providers also bring their own valuable experiences and expertise to the diagnostic process, as they are often the ones on the front lines of patient care. However, health care providers may not always feel comfortable reporting errors or near misses, and may not have the time or resources to participate in quality improvement initiatives. To address this, health care systems can implement programs that encourage providers to report errors and near misses, such as anonymous reporting systems, just-culture initiatives, and peer review.11 Creating a culture of teamwork and collaboration among health care providers can improve the accuracy of diagnoses and reduce the risk of errors.12
A key factor in utilizing HX to reduce diagnostic errors is effective communication. Communication breakdowns among health care providers, patients, and their families are a common contributing factor resulting in diagnostic errors.2 Strategies to improve communication include using clear and concise language, involving patients and their families in the decision-making process, and utilizing electronic health records (EHRs) to ensure that all health care providers have access to relevant, accurate, and up-to-date patient information.4,13,14
Another important aspect of utilizing HX in health care to reduce diagnostic errors is the need to recognize and address cognitive biases that may influence diagnostic decisions.3 Cognitive biases are common in health care and can lead to errors in diagnosis. For example, confirmation bias, which is the tendency to look for information that confirms preexisting beliefs, can lead providers to overlook important diagnostic information.15 Biases such as anchoring bias, premature closure, and confirmation bias can lead to incorrect diagnoses and can be difficult to recognize and overcome. Addressing cognitive biases requires a commitment to self-reflection and self-awareness among health care providers as well as structured training of health care providers to improve their diagnostic reasoning skills and reduce the risk of cognitive errors.15 By implementing these strategies around HX in health care, health care systems can become more patient-centered and reduce the likelihood of diagnostic errors (Figure).
Artificial Intelligence and Diagnostic Errors
Artificial intelligence has the potential to significantly reduce diagnostic errors in health care (Figure), and its role in health care is rapidly expanding. AI technologies such as machine learning (ML) and natural language processing (NLP) have the potential to significantly reduce diagnostic errors by augmenting human cognition and improving access to relevant patient data.1,16 Machine learning algorithms can analyze large amounts of patient data sets to identify patterns and risk factors and predict patient outcomes, which can aid health care providers in making accurate diagnoses.17 Artificial intelligence can also help to address some of the communication breakdowns that contribute to diagnostic errors.18 Natural language processing can improve the accuracy of EHR documentation and reduce the associated clinician burden, making it easier for providers to access relevant patient information and communicate more effectively with each other.18
In health care, AI can be used to analyze medical images, laboratory results, genomic data, and EHRs to identify potential diagnoses and flag patients who may be at risk for diagnostic errors. One of the primary benefits of AI in health care is its ability to process large amounts of data quickly and accurately.19 This can be particularly valuable in diagnosing rare or complex conditions. Machine learning algorithms can analyze patient data to identify subtle patterns that may not be apparent to human providers.16 This can lead to earlier and more accurate diagnoses, which can reduce diagnostic errors and improve patient outcomes.17 One example of the application of AI in health care is the use of computer-aided detection (CAD) software to analyze medical images. This software can help radiologists detect abnormalities in medical images that may be missed by the human eye, such as early-stage breast cancer.20 Another example is the use of NLP and ML to analyze unstructured data in EHRs, such as physician notes, to identify potential diagnoses and flag patients who may be at risk for diagnostic errors.21 A recent study showed that using NLP on EHRs for screening and detecting individuals at risk for psychosis can considerably enhance the prognostic accuracy of psychosis risk calculators.22 This can help identify patients who require assessment and specialized care, facilitating earlier detection and potentially improving patient outcomes. On the same note, ML-based severe sepsis prediction algorithms have been shown to reduce the average length of stay and in-hospital mortality rate.23
However, there are also concerns about the use of AI in health care, including the potential for bias and the risk of overreliance on AI. Bias can occur when AI algorithms are trained on data that is not representative of the population being analyzed, leading to inaccurate or unfair results, hence, perpetuating and exacerbating existing biases in health care.24 Over-reliance on AI can occur when health care providers rely too heavily on AI algorithms and fail to consider other important information, such as the lived experience of patients, families, and health care providers. Addressing these concerns will require ongoing efforts to ensure that AI technologies are developed and implemented in an ethical and responsible manner.25
Conclusion
Reducing diagnostic errors is a critical goal for health care systems, and requires a comprehensive approach that utilizes both HX and AI technologies. Engaging patients and their families in the diagnostic process, promoting teamwork and collaboration among health care providers, addressing cognitive biases, and harnessing the power of AI can all contribute to more accurate diagnoses and better patient outcomes. By integrating the lived experience of patients, families, and health care providers with AI technologies, health care systems can be redesigned to become more proactive, safer, and patient-centered in identifying potential health problems and reducing the risk of diagnostic errors, ensuring that patients receive the care they need and deserve.
Corresponding author: Iqbal Ratnani, Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, 6565 Fannin St, Houston, TX 77030; [email protected]
Disclosures: None reported.
From the Institute for Healthcare Improvement, Boston, MA (Dr. Abid); Continuous Quality Improvement and Patient Safety Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Abid); Primary and Secondary Healthcare Department, Government of Punjab, Lahore, Pakistan (Dr. Ahmed); Infection Prevention and Control Department, Armed Forces Hospitals Taif Region, Taif, Saudi Arabia (Dr. Din); Internal Medicine Department, Greater Baltimore Medical Center, Baltimore, MD (Dr. Abid); Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, Houston, TX (Dr. Ratnani).
Diagnostic errors are defined by the National Academies of Sciences, Engineering, and Medicine (NASEM) as the failure to either establish an accurate and timely explanation of the patient’s health problem(s) or communicate that explanation to the patient.1 According to a report by the Institute of Medicine, diagnostic errors account for a substantial number of adverse events in health care, affecting an estimated 12 million Americans each year.1 Diagnostic errors are a common and serious issue in health care systems, with studies estimating that 5% to 15% of all diagnoses are incorrect.1 Such errors can result in unnecessary treatments, delays in necessary treatments, and harm to patients. The high prevalence of diagnostic errors in primary care has been identified as a global issue.2 While many factors contribute to diagnostic errors, the complex nature of health care systems, the limited processing capacity of human cognition, and deficiencies in interpersonal patient-clinician communication are primary contributors.3,4
Discussions around the redesign of health care systems to reduce diagnostic errors have been at the forefront of medical research for years.2,4 To decrease diagnostic errors in health care, a comprehensive strategy is necessary. This strategy should focus on utilizing both human experience (HX) in health care and artificial intelligence (AI) technologies to transform health care systems into proactive, patient-centered, and safer systems, specifically concerning diagnostic errors.1
Human Experience and Diagnostic Errors
The role of HX in health care cannot be overstated. The HX in health care integrates the sum of all interactions, every encounter among patients, families and care partners, and the health care workforce.5 Patients and their families have a unique perspective on their health care experiences that can provide valuable insight into potential diagnostic errors.6 The new definition of diagnostic errors introduced in the 2015 NASEM report emphasized the significance of effective communication during the diagnostic procedure.1 Engaging patients and their families in the diagnostic process can improve communication, improve diagnostic accuracy, and help to identify errors before they cause harm.7 However, many patients and families feel that they are not listened to or taken seriously by health care providers, and may not feel comfortable sharing information that they feel is important.8 To address this, health care systems can implement programs that encourage patients and families to be more engaged in the diagnostic process, such as shared decision-making, patient portals, and patient and family advisory councils.9 Health care systems must prioritize patient-centered care, teamwork, and communication. Patients and their families must be actively engaged in their care, and health care providers must be willing to work collaboratively and listen to patients’ concerns.6,10
Health care providers also bring their own valuable experiences and expertise to the diagnostic process, as they are often the ones on the front lines of patient care. However, health care providers may not always feel comfortable reporting errors or near misses, and may not have the time or resources to participate in quality improvement initiatives. To address this, health care systems can implement programs that encourage providers to report errors and near misses, such as anonymous reporting systems, just-culture initiatives, and peer review.11 Creating a culture of teamwork and collaboration among health care providers can improve the accuracy of diagnoses and reduce the risk of errors.12
A key factor in utilizing HX to reduce diagnostic errors is effective communication. Communication breakdowns among health care providers, patients, and their families are a common contributing factor resulting in diagnostic errors.2 Strategies to improve communication include using clear and concise language, involving patients and their families in the decision-making process, and utilizing electronic health records (EHRs) to ensure that all health care providers have access to relevant, accurate, and up-to-date patient information.4,13,14
Another important aspect of utilizing HX in health care to reduce diagnostic errors is the need to recognize and address cognitive biases that may influence diagnostic decisions.3 Cognitive biases are common in health care and can lead to errors in diagnosis. For example, confirmation bias, which is the tendency to look for information that confirms preexisting beliefs, can lead providers to overlook important diagnostic information.15 Biases such as anchoring bias, premature closure, and confirmation bias can lead to incorrect diagnoses and can be difficult to recognize and overcome. Addressing cognitive biases requires a commitment to self-reflection and self-awareness among health care providers as well as structured training of health care providers to improve their diagnostic reasoning skills and reduce the risk of cognitive errors.15 By implementing these strategies around HX in health care, health care systems can become more patient-centered and reduce the likelihood of diagnostic errors (Figure).
Artificial Intelligence and Diagnostic Errors
Artificial intelligence has the potential to significantly reduce diagnostic errors in health care (Figure), and its role in health care is rapidly expanding. AI technologies such as machine learning (ML) and natural language processing (NLP) have the potential to significantly reduce diagnostic errors by augmenting human cognition and improving access to relevant patient data.1,16 Machine learning algorithms can analyze large amounts of patient data sets to identify patterns and risk factors and predict patient outcomes, which can aid health care providers in making accurate diagnoses.17 Artificial intelligence can also help to address some of the communication breakdowns that contribute to diagnostic errors.18 Natural language processing can improve the accuracy of EHR documentation and reduce the associated clinician burden, making it easier for providers to access relevant patient information and communicate more effectively with each other.18
In health care, AI can be used to analyze medical images, laboratory results, genomic data, and EHRs to identify potential diagnoses and flag patients who may be at risk for diagnostic errors. One of the primary benefits of AI in health care is its ability to process large amounts of data quickly and accurately.19 This can be particularly valuable in diagnosing rare or complex conditions. Machine learning algorithms can analyze patient data to identify subtle patterns that may not be apparent to human providers.16 This can lead to earlier and more accurate diagnoses, which can reduce diagnostic errors and improve patient outcomes.17 One example of the application of AI in health care is the use of computer-aided detection (CAD) software to analyze medical images. This software can help radiologists detect abnormalities in medical images that may be missed by the human eye, such as early-stage breast cancer.20 Another example is the use of NLP and ML to analyze unstructured data in EHRs, such as physician notes, to identify potential diagnoses and flag patients who may be at risk for diagnostic errors.21 A recent study showed that using NLP on EHRs for screening and detecting individuals at risk for psychosis can considerably enhance the prognostic accuracy of psychosis risk calculators.22 This can help identify patients who require assessment and specialized care, facilitating earlier detection and potentially improving patient outcomes. On the same note, ML-based severe sepsis prediction algorithms have been shown to reduce the average length of stay and in-hospital mortality rate.23
However, there are also concerns about the use of AI in health care, including the potential for bias and the risk of overreliance on AI. Bias can occur when AI algorithms are trained on data that is not representative of the population being analyzed, leading to inaccurate or unfair results, hence, perpetuating and exacerbating existing biases in health care.24 Over-reliance on AI can occur when health care providers rely too heavily on AI algorithms and fail to consider other important information, such as the lived experience of patients, families, and health care providers. Addressing these concerns will require ongoing efforts to ensure that AI technologies are developed and implemented in an ethical and responsible manner.25
Conclusion
Reducing diagnostic errors is a critical goal for health care systems, and requires a comprehensive approach that utilizes both HX and AI technologies. Engaging patients and their families in the diagnostic process, promoting teamwork and collaboration among health care providers, addressing cognitive biases, and harnessing the power of AI can all contribute to more accurate diagnoses and better patient outcomes. By integrating the lived experience of patients, families, and health care providers with AI technologies, health care systems can be redesigned to become more proactive, safer, and patient-centered in identifying potential health problems and reducing the risk of diagnostic errors, ensuring that patients receive the care they need and deserve.
Corresponding author: Iqbal Ratnani, Department of Anesthesiology and Critical Care, DeBakey Heart and Vascular Center, Houston Methodist Hospital, 6565 Fannin St, Houston, TX 77030; [email protected]
Disclosures: None reported.
1. National Academy of Medicine. Improving Diagnosis in Health Care. Balogh EP, Miller BT, Ball JR, eds. National Academies Press; 2015. doi:10.17226/21794
2. Singh H, Schiff GD, Graber ML, et al. The global burden of diagnostic errors in primary care. BMJ Qual Saf. 2017;26(6):484-494. doi:10.1136/bmjqs-2016-005401
3. Croskerry P, Campbell SG, Petrie DA. The challenge of cognitive science for medical diagnosis. Cogn Res Princ Implic. 2023;8(1):13. doi:10.1186/s41235-022-00460-z
4. Dahm MR, Williams M, Crock C. ‘More than words’ - interpersonal communication, cogntive bias and diagnostic errors. Patient Educ Couns. 2022;105(1):252-256. doi:10.1016/j.pec.2021.05.012
5. Wolf JA, Niederhauser V, Marshburn D, LaVela SL. Reexamining “defining patient experience”: The human experience in Healthcare. Patient Experience J. 2021;8(1):16-29. doi:10.35680/2372-0247.1594
6. Sacco AY, Self QR, Worswick EL, et al. Patients’ perspectives of diagnostic error: A qualitative study. J Patient Saf. 2021;17(8):e1759-e1764. doi:10.1097/PTS.0000000000000642
7. Singh H, Graber ML. Improving diagnosis in health care—the next imperative for patient safety. N Engl J Med. 2015;373(26):2493-2495. doi:10.1056/NEJMp1512241
8. Austin E, LeRouge C, Hartzler AL, Segal C, Lavallee DC. Capturing the patient voice: implementing patient-reported outcomes across the health system. Qual Life Res. 2020;29(2):347-355. doi:10.1007/s11136-019-02320-8
9. Waddell A, Lennox A, Spassova G, Bragge P. Barriers and facilitators to shared decision-making in hospitals from policy to practice: a systematic review. Implement Sci. 2021;16(1):74. doi: 10.1186/s13012-021-01142-y
10. US Preventive Services Task Force. Collaboration and shared decision-making between patients and clinicians in preventive health care decisions and US Preventive Services Task Force Recommendations. JAMA. 2022;327(12):1171-1176. doi:10.1001/jama.2022.3267
11. Reporting patient safety events. Patient Safety Network. Published September 7, 2019. Accessed April 29, 2023. https://psnet.ahrq.gov/primer/reporting-patient-safety-events
12. McLaney E, Morassaei S, Hughes L, et al. A framework for interprofessional team collaboration in a hospital setting: Advancing team competencies and behaviours. Healthc Manage Forum. 2022;35(2):112-117. doi:10.1177/08404704211063584
13. Abid MH, Abid MM, Shahid R, et al. Patient and family engagement during challenging times: what works and what does not? Cureus. 2021;13(5):e14814. doi:10.7759/cureus.14814
14. Abimanyi-Ochom J, Bohingamu Mudiyanselage S, Catchpool M, et al. Strategies to reduce diagnostic errors: a systematic review. BMC Med Inform Decis Mak. 2019;19(1):174. doi:10.1186/s12911-019-0901-1
15. Watari T, Tokuda Y, Amano Y, et al. Cognitive bias and diagnostic errors among physicians in Japan: A self-reflection survey. Int J Environ Res Public Health. 2022;19(8):4645. doi:10.3390/ijerph19084645
16. Rajkomar A, Oren E, Chen K et al. Scalable and accurate deep learning with electronic health records. NPJ Digit Med. 2018;1:18. https://doi.org/10.1038/s41746-018-0029-1
17. Davenport T, Kalakota R. The potential for artificial intelligence in healthcare. Future Healthc J. 2019;6(2):94-98. doi:10.7861/futurehosp.6-2-94
18. Dymek C, Kim B, Melton GB, et al. Building the evidence-base to reduce electronic health record-related clinician burden. J Am Med Inform Assoc. 2021;28(5):1057-1061. doi:10.1093/jamia/ocaa238
19. Beam AL, Kohane IS. Big data and machine learning in health care. JAMA. 2018;319(13):1317-1318. doi:10.1001/jama.2017.18391
20. Lehman CD, Wellman RD, Buist DS, et al. Diagnostic accuracy of digital screening mammography with and without computer-aided detection. JAMA Intern Med. 2015;175(11):1828-1837. doi:10.1001/jamainternmed.2015.5231
21. Liao KP, Cai T, Savova GK, et al. Development of phenotype algorithms using electronic medical records and incorporating natural language processing. BMJ. 2015;350:h1885. doi:10.1136/bmj.h1885
22. Irving J, Patel R, Oliver D, et al. Using natural language processing on electronic health records to enhance detection and prediction of psychosis risk. Schizophr Bull. 2021;47(2):405-414. doi:10.1093/schbul/sbaa126. Erratum in: Schizophr Bull. 2021;47(2):575.
23. Shimabukuro DW, Barton CW, Feldman MD, et al. Effect of a machine learning-based severe sepsis prediction algorithm on patient survival and hospital length of stay: a randomised clinical trial. BMJ Open Respir Res. 2017;4(1):e000234. doi:10.1136/bmjresp-2017-000234
24. Obermeyer Z, Powers B, Vogeli C, Mullainathan S. Dissecting racial bias in an algorithm used to manage the health of populations. Science. 2019;366(6464):447-453. doi:10.1126/science.aax2342
25. Ibrahim SA, Pronovost PJ. Diagnostic errors, health disparities, and artificial intelligence: a combination for health or harm? JAMA Health Forum. 2021;2(9):e212430. doi:10.1001/jamahealthforum.2021.2430
1. National Academy of Medicine. Improving Diagnosis in Health Care. Balogh EP, Miller BT, Ball JR, eds. National Academies Press; 2015. doi:10.17226/21794
2. Singh H, Schiff GD, Graber ML, et al. The global burden of diagnostic errors in primary care. BMJ Qual Saf. 2017;26(6):484-494. doi:10.1136/bmjqs-2016-005401
3. Croskerry P, Campbell SG, Petrie DA. The challenge of cognitive science for medical diagnosis. Cogn Res Princ Implic. 2023;8(1):13. doi:10.1186/s41235-022-00460-z
4. Dahm MR, Williams M, Crock C. ‘More than words’ - interpersonal communication, cogntive bias and diagnostic errors. Patient Educ Couns. 2022;105(1):252-256. doi:10.1016/j.pec.2021.05.012
5. Wolf JA, Niederhauser V, Marshburn D, LaVela SL. Reexamining “defining patient experience”: The human experience in Healthcare. Patient Experience J. 2021;8(1):16-29. doi:10.35680/2372-0247.1594
6. Sacco AY, Self QR, Worswick EL, et al. Patients’ perspectives of diagnostic error: A qualitative study. J Patient Saf. 2021;17(8):e1759-e1764. doi:10.1097/PTS.0000000000000642
7. Singh H, Graber ML. Improving diagnosis in health care—the next imperative for patient safety. N Engl J Med. 2015;373(26):2493-2495. doi:10.1056/NEJMp1512241
8. Austin E, LeRouge C, Hartzler AL, Segal C, Lavallee DC. Capturing the patient voice: implementing patient-reported outcomes across the health system. Qual Life Res. 2020;29(2):347-355. doi:10.1007/s11136-019-02320-8
9. Waddell A, Lennox A, Spassova G, Bragge P. Barriers and facilitators to shared decision-making in hospitals from policy to practice: a systematic review. Implement Sci. 2021;16(1):74. doi: 10.1186/s13012-021-01142-y
10. US Preventive Services Task Force. Collaboration and shared decision-making between patients and clinicians in preventive health care decisions and US Preventive Services Task Force Recommendations. JAMA. 2022;327(12):1171-1176. doi:10.1001/jama.2022.3267
11. Reporting patient safety events. Patient Safety Network. Published September 7, 2019. Accessed April 29, 2023. https://psnet.ahrq.gov/primer/reporting-patient-safety-events
12. McLaney E, Morassaei S, Hughes L, et al. A framework for interprofessional team collaboration in a hospital setting: Advancing team competencies and behaviours. Healthc Manage Forum. 2022;35(2):112-117. doi:10.1177/08404704211063584
13. Abid MH, Abid MM, Shahid R, et al. Patient and family engagement during challenging times: what works and what does not? Cureus. 2021;13(5):e14814. doi:10.7759/cureus.14814
14. Abimanyi-Ochom J, Bohingamu Mudiyanselage S, Catchpool M, et al. Strategies to reduce diagnostic errors: a systematic review. BMC Med Inform Decis Mak. 2019;19(1):174. doi:10.1186/s12911-019-0901-1
15. Watari T, Tokuda Y, Amano Y, et al. Cognitive bias and diagnostic errors among physicians in Japan: A self-reflection survey. Int J Environ Res Public Health. 2022;19(8):4645. doi:10.3390/ijerph19084645
16. Rajkomar A, Oren E, Chen K et al. Scalable and accurate deep learning with electronic health records. NPJ Digit Med. 2018;1:18. https://doi.org/10.1038/s41746-018-0029-1
17. Davenport T, Kalakota R. The potential for artificial intelligence in healthcare. Future Healthc J. 2019;6(2):94-98. doi:10.7861/futurehosp.6-2-94
18. Dymek C, Kim B, Melton GB, et al. Building the evidence-base to reduce electronic health record-related clinician burden. J Am Med Inform Assoc. 2021;28(5):1057-1061. doi:10.1093/jamia/ocaa238
19. Beam AL, Kohane IS. Big data and machine learning in health care. JAMA. 2018;319(13):1317-1318. doi:10.1001/jama.2017.18391
20. Lehman CD, Wellman RD, Buist DS, et al. Diagnostic accuracy of digital screening mammography with and without computer-aided detection. JAMA Intern Med. 2015;175(11):1828-1837. doi:10.1001/jamainternmed.2015.5231
21. Liao KP, Cai T, Savova GK, et al. Development of phenotype algorithms using electronic medical records and incorporating natural language processing. BMJ. 2015;350:h1885. doi:10.1136/bmj.h1885
22. Irving J, Patel R, Oliver D, et al. Using natural language processing on electronic health records to enhance detection and prediction of psychosis risk. Schizophr Bull. 2021;47(2):405-414. doi:10.1093/schbul/sbaa126. Erratum in: Schizophr Bull. 2021;47(2):575.
23. Shimabukuro DW, Barton CW, Feldman MD, et al. Effect of a machine learning-based severe sepsis prediction algorithm on patient survival and hospital length of stay: a randomised clinical trial. BMJ Open Respir Res. 2017;4(1):e000234. doi:10.1136/bmjresp-2017-000234
24. Obermeyer Z, Powers B, Vogeli C, Mullainathan S. Dissecting racial bias in an algorithm used to manage the health of populations. Science. 2019;366(6464):447-453. doi:10.1126/science.aax2342
25. Ibrahim SA, Pronovost PJ. Diagnostic errors, health disparities, and artificial intelligence: a combination for health or harm? JAMA Health Forum. 2021;2(9):e212430. doi:10.1001/jamahealthforum.2021.2430
HFpEF: New guidelines are pertinent for primary care
This transcript has been edited for clarity.
I’m Dr. Neil Skolnik. The incidence of HFpEF is increasing, yet it’s underrecognized. Now that there are evidence-based treatment approaches that improve outcomes, we’ve started to look for this condition and are diagnosing it more often. HFpEF is commonly encountered in primary care.
We should be thinking about HFpEF when we see adults with shortness of breath and/or fatigue and reduced exercise capacity, particularly in the settings of obesity, hypertension, or diabetes. It may not be simple deconditioning; it could be HFpEF.
I’ll organize this discussion into three topics: when to think about HFpEF, how to diagnosis it. and how to treat it.
When to think about HFpEF. When we see a person with risk factors (e.g., older age, obesity, diabetes, hypertension) experiencing dyspnea or fatigue with physical activity, their symptoms are not always from simple deconditioning. HFpEF should be on our differential as well as chronic obstructive pulmonary disease (COPD).
Making the diagnosis. HFpEF is defined as a clinical diagnosis of HR with left ventricular EF (LVEF) greater than 50%. Remember, in HF with reduced EF (HFrEF), the EF is less than 40%, and the EF in midrange HF is 40%-50%. See this recent HF review for more details on reduced and midrange ejection fractions.
For practical purposes, to diagnose HFpEF, check for an elevated N-terminal pro B-type natriuretic peptide (NT-proBNP) (> 125 pg/mL) and evidence of diastolic dysfunction on echocardiogram. Be aware that patients with obesity and HFpEF have lower BNP concentrations than those without obesity, and one professional society has suggested that a 50% reduction in BNP cutoff values should be used when making the diagnosis in patients with obesity.
Of course, we evaluate for other causes of dyspnea and/or edema including lung (most commonly COPD), liver, or kidney disease. When the diagnosis of HFpEF is made, consider whether further evaluation is warranted for specific underlying causes of HFpEF, such as amyloidosis, sarcoid, hemochromatosis, or hypertrophic cardiomyopathy.
Treatment. The evolution of the management of HFpEF has been intriguing. I recommend that people take a look at the guidelines and read the supporting trials. Finding effective therapies has taken longer than it did for HFrEF, but finally, an effective therapy for HFpEF is available.
To quote the guidelines, diuretics should be used “judiciously as needed” to reduce pulmonary congestion and improve symptoms. But here’s the big deal. The mainstays of treatment for HFpEF are the sodium-glucose cotransporter 2 (SGLT2) inhibitors on the basis of the findings of two trials: DELIVER (dapagliflozin) and EMPEROR-Preserved (empagliflozin), both of which have shown very impressive levels of benefit.
Both trials lasted a little over 2 years and found a statistically significant approximately 30% decline in HF hospitalizations and a numerical reduction of about 10% in cardiovascular death, which was statistically significant in meta-analysis. That’s over 2 years! That’s a large level of effect. They also showed improvements in symptoms and health status. Therefore, SGLT2 inhibitors are first-line treatment for all individuals with HFpEF, currently graded as a Class 2a (moderate) recommendation, but likely soon to be upgraded to Class 1 (strong) recommendation.
After the SGLT2 inhibitors, treatment is based on evidence which is not as strong and the recommendations are graded as Class 2b (weak) recommendations. In men with an LVEF less than 55%-60% and for women with any EF, use of a mineralocorticoid antagonist (MRA), an angiotensin receptor-neprilysin inhibitor, or if an ARN inhibitor is not feasible, an angiotensin receptor blocker (ARB) may be considered.
Nonpharmacologic management is also important. Exercise and weight loss (if the patient is overweight) can improve symptoms and quality of life. A new intervention, an implantable ambulatory pulmonary artery sensor, called CardioMEMS, has been evaluated in two trials, showing a decrease in HF hospitalizations. This may be considered for those who experience hospitalizations for HF and continue to experience New York Heart Association functional Class 3 symptoms despite optimal guideline-directed medical therapy or those who have lability in volume status or other medical problems (such as obesity or COPD) that make it difficult to tell whether their symptoms are from HFpEF or a comorbid condition.
In summary:
- Have a low threshold to evaluate for HFpEF in any patients who have shortness of breath, fatigue with exertion, or fluid overload.
- Initially evaluate with an NT-proBNP level and an echocardiogram.
- First-line treatment is an evidence-based SGLT2 inhibitor along with exercise and perhaps weight loss if needed. A loop diuretic can be used as needed to control volume status. Then you can consider, based on symptoms and details discussed above, an MRA, ARN inhibitor, or ARB.
This is important information for a diagnosis that is common in primary care, HFpEF, and for which we now have impressive, effective treatment.
Dr. Skolnik is a professor in the department of family medicine at Sidney Kimmel Medical College, Philadelphia, and associate director of the department of family medicine at Abington (Pa.) Jefferson Health. He disclosed conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim; Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer.
A version of this article first appeared on Medscape.com.
This transcript has been edited for clarity.
I’m Dr. Neil Skolnik. The incidence of HFpEF is increasing, yet it’s underrecognized. Now that there are evidence-based treatment approaches that improve outcomes, we’ve started to look for this condition and are diagnosing it more often. HFpEF is commonly encountered in primary care.
We should be thinking about HFpEF when we see adults with shortness of breath and/or fatigue and reduced exercise capacity, particularly in the settings of obesity, hypertension, or diabetes. It may not be simple deconditioning; it could be HFpEF.
I’ll organize this discussion into three topics: when to think about HFpEF, how to diagnosis it. and how to treat it.
When to think about HFpEF. When we see a person with risk factors (e.g., older age, obesity, diabetes, hypertension) experiencing dyspnea or fatigue with physical activity, their symptoms are not always from simple deconditioning. HFpEF should be on our differential as well as chronic obstructive pulmonary disease (COPD).
Making the diagnosis. HFpEF is defined as a clinical diagnosis of HR with left ventricular EF (LVEF) greater than 50%. Remember, in HF with reduced EF (HFrEF), the EF is less than 40%, and the EF in midrange HF is 40%-50%. See this recent HF review for more details on reduced and midrange ejection fractions.
For practical purposes, to diagnose HFpEF, check for an elevated N-terminal pro B-type natriuretic peptide (NT-proBNP) (> 125 pg/mL) and evidence of diastolic dysfunction on echocardiogram. Be aware that patients with obesity and HFpEF have lower BNP concentrations than those without obesity, and one professional society has suggested that a 50% reduction in BNP cutoff values should be used when making the diagnosis in patients with obesity.
Of course, we evaluate for other causes of dyspnea and/or edema including lung (most commonly COPD), liver, or kidney disease. When the diagnosis of HFpEF is made, consider whether further evaluation is warranted for specific underlying causes of HFpEF, such as amyloidosis, sarcoid, hemochromatosis, or hypertrophic cardiomyopathy.
Treatment. The evolution of the management of HFpEF has been intriguing. I recommend that people take a look at the guidelines and read the supporting trials. Finding effective therapies has taken longer than it did for HFrEF, but finally, an effective therapy for HFpEF is available.
To quote the guidelines, diuretics should be used “judiciously as needed” to reduce pulmonary congestion and improve symptoms. But here’s the big deal. The mainstays of treatment for HFpEF are the sodium-glucose cotransporter 2 (SGLT2) inhibitors on the basis of the findings of two trials: DELIVER (dapagliflozin) and EMPEROR-Preserved (empagliflozin), both of which have shown very impressive levels of benefit.
Both trials lasted a little over 2 years and found a statistically significant approximately 30% decline in HF hospitalizations and a numerical reduction of about 10% in cardiovascular death, which was statistically significant in meta-analysis. That’s over 2 years! That’s a large level of effect. They also showed improvements in symptoms and health status. Therefore, SGLT2 inhibitors are first-line treatment for all individuals with HFpEF, currently graded as a Class 2a (moderate) recommendation, but likely soon to be upgraded to Class 1 (strong) recommendation.
After the SGLT2 inhibitors, treatment is based on evidence which is not as strong and the recommendations are graded as Class 2b (weak) recommendations. In men with an LVEF less than 55%-60% and for women with any EF, use of a mineralocorticoid antagonist (MRA), an angiotensin receptor-neprilysin inhibitor, or if an ARN inhibitor is not feasible, an angiotensin receptor blocker (ARB) may be considered.
Nonpharmacologic management is also important. Exercise and weight loss (if the patient is overweight) can improve symptoms and quality of life. A new intervention, an implantable ambulatory pulmonary artery sensor, called CardioMEMS, has been evaluated in two trials, showing a decrease in HF hospitalizations. This may be considered for those who experience hospitalizations for HF and continue to experience New York Heart Association functional Class 3 symptoms despite optimal guideline-directed medical therapy or those who have lability in volume status or other medical problems (such as obesity or COPD) that make it difficult to tell whether their symptoms are from HFpEF or a comorbid condition.
In summary:
- Have a low threshold to evaluate for HFpEF in any patients who have shortness of breath, fatigue with exertion, or fluid overload.
- Initially evaluate with an NT-proBNP level and an echocardiogram.
- First-line treatment is an evidence-based SGLT2 inhibitor along with exercise and perhaps weight loss if needed. A loop diuretic can be used as needed to control volume status. Then you can consider, based on symptoms and details discussed above, an MRA, ARN inhibitor, or ARB.
This is important information for a diagnosis that is common in primary care, HFpEF, and for which we now have impressive, effective treatment.
Dr. Skolnik is a professor in the department of family medicine at Sidney Kimmel Medical College, Philadelphia, and associate director of the department of family medicine at Abington (Pa.) Jefferson Health. He disclosed conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim; Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer.
A version of this article first appeared on Medscape.com.
This transcript has been edited for clarity.
I’m Dr. Neil Skolnik. The incidence of HFpEF is increasing, yet it’s underrecognized. Now that there are evidence-based treatment approaches that improve outcomes, we’ve started to look for this condition and are diagnosing it more often. HFpEF is commonly encountered in primary care.
We should be thinking about HFpEF when we see adults with shortness of breath and/or fatigue and reduced exercise capacity, particularly in the settings of obesity, hypertension, or diabetes. It may not be simple deconditioning; it could be HFpEF.
I’ll organize this discussion into three topics: when to think about HFpEF, how to diagnosis it. and how to treat it.
When to think about HFpEF. When we see a person with risk factors (e.g., older age, obesity, diabetes, hypertension) experiencing dyspnea or fatigue with physical activity, their symptoms are not always from simple deconditioning. HFpEF should be on our differential as well as chronic obstructive pulmonary disease (COPD).
Making the diagnosis. HFpEF is defined as a clinical diagnosis of HR with left ventricular EF (LVEF) greater than 50%. Remember, in HF with reduced EF (HFrEF), the EF is less than 40%, and the EF in midrange HF is 40%-50%. See this recent HF review for more details on reduced and midrange ejection fractions.
For practical purposes, to diagnose HFpEF, check for an elevated N-terminal pro B-type natriuretic peptide (NT-proBNP) (> 125 pg/mL) and evidence of diastolic dysfunction on echocardiogram. Be aware that patients with obesity and HFpEF have lower BNP concentrations than those without obesity, and one professional society has suggested that a 50% reduction in BNP cutoff values should be used when making the diagnosis in patients with obesity.
Of course, we evaluate for other causes of dyspnea and/or edema including lung (most commonly COPD), liver, or kidney disease. When the diagnosis of HFpEF is made, consider whether further evaluation is warranted for specific underlying causes of HFpEF, such as amyloidosis, sarcoid, hemochromatosis, or hypertrophic cardiomyopathy.
Treatment. The evolution of the management of HFpEF has been intriguing. I recommend that people take a look at the guidelines and read the supporting trials. Finding effective therapies has taken longer than it did for HFrEF, but finally, an effective therapy for HFpEF is available.
To quote the guidelines, diuretics should be used “judiciously as needed” to reduce pulmonary congestion and improve symptoms. But here’s the big deal. The mainstays of treatment for HFpEF are the sodium-glucose cotransporter 2 (SGLT2) inhibitors on the basis of the findings of two trials: DELIVER (dapagliflozin) and EMPEROR-Preserved (empagliflozin), both of which have shown very impressive levels of benefit.
Both trials lasted a little over 2 years and found a statistically significant approximately 30% decline in HF hospitalizations and a numerical reduction of about 10% in cardiovascular death, which was statistically significant in meta-analysis. That’s over 2 years! That’s a large level of effect. They also showed improvements in symptoms and health status. Therefore, SGLT2 inhibitors are first-line treatment for all individuals with HFpEF, currently graded as a Class 2a (moderate) recommendation, but likely soon to be upgraded to Class 1 (strong) recommendation.
After the SGLT2 inhibitors, treatment is based on evidence which is not as strong and the recommendations are graded as Class 2b (weak) recommendations. In men with an LVEF less than 55%-60% and for women with any EF, use of a mineralocorticoid antagonist (MRA), an angiotensin receptor-neprilysin inhibitor, or if an ARN inhibitor is not feasible, an angiotensin receptor blocker (ARB) may be considered.
Nonpharmacologic management is also important. Exercise and weight loss (if the patient is overweight) can improve symptoms and quality of life. A new intervention, an implantable ambulatory pulmonary artery sensor, called CardioMEMS, has been evaluated in two trials, showing a decrease in HF hospitalizations. This may be considered for those who experience hospitalizations for HF and continue to experience New York Heart Association functional Class 3 symptoms despite optimal guideline-directed medical therapy or those who have lability in volume status or other medical problems (such as obesity or COPD) that make it difficult to tell whether their symptoms are from HFpEF or a comorbid condition.
In summary:
- Have a low threshold to evaluate for HFpEF in any patients who have shortness of breath, fatigue with exertion, or fluid overload.
- Initially evaluate with an NT-proBNP level and an echocardiogram.
- First-line treatment is an evidence-based SGLT2 inhibitor along with exercise and perhaps weight loss if needed. A loop diuretic can be used as needed to control volume status. Then you can consider, based on symptoms and details discussed above, an MRA, ARN inhibitor, or ARB.
This is important information for a diagnosis that is common in primary care, HFpEF, and for which we now have impressive, effective treatment.
Dr. Skolnik is a professor in the department of family medicine at Sidney Kimmel Medical College, Philadelphia, and associate director of the department of family medicine at Abington (Pa.) Jefferson Health. He disclosed conflicts of interest with AstraZeneca, Teva, Eli Lilly, Boehringer Ingelheim; Sanofi, Sanofi Pasteur, GlaxoSmithKline, Merck, and Bayer.
A version of this article first appeared on Medscape.com.
No expiration date for sex
For health professionals, the thought that our parents and grandparents don’t have sex – or didn’t – might be comforting.
The reality is that, for a significant proportion of our older patients, sex has no use-by date. Humans are sexual beings throughout their lives, yet the culture has concealed that fact.
According to Rome, the purpose of sex is to make children. According to Hollywood, sex is only for the young, the healthy, and the beautiful. For the medical profession, sex consists mainly of risks or dysfunctions.
The results of these biases? Sexuality and intimacy are essential elements for quality of life, with clear physical, emotional, and relational benefits.
Let’s look at the data when researchers dared to ask seniors about their sexuality.
We start with the 2015 U.K. national research on sexuality. The study found a link between age and a decline in various aspects of sexual activity – but not a zeroing-out. For example, among men aged 70-79, 59% reported having had sex in the past year, with 19% having intercourse at least twice a month and 18% masturbating at least that often. Above age 80, those numbers dropped to 39%, 6%, and 5%, respectively. The reason behind the declines? A combination of taboo, fear of disease, use of medications or other interventions that disrupt sexual function or cause disfigurement, and a little bit of age itself.
What about women? Among women ages 70-79, 39% said they’d had sex in the past year, with 6% having intercourse at least twice per month and 5% masturbating two times or more monthly. Above age 80, those numbers were 10%, 4.5%, and 1%, respectively. Driving the falloff in women were the same factors as for men, plus the sad reality that many heterosexual women become widowed because their older male partners die earlier.
The male-female difference also reflects lower levels of testosterone in women. And, because women say they value intimacy more than performance, we have two explanations for their lower frequency of masturbation. After all, a lot of intimacy occurs without either intercourse or masturbation.
Surprising and relevant is the amount of distress – or rather, their relative lack thereof – older patients report because of sexual problems. At age 18-44, 11% of U.S. women indicated sexual distress; at age 45-64, the figure was 15%; and at age 65 and up, 9%.
For clinicians, those figures should prompt us to look more closely at alternative forms of sexual expression – those not involving intercourse or masturbation – in the aged, a field physicians typically do not consider.
Although dyspareunia or erectile problems affect many in long-standing relationships, neither is a reason to abstain from sexual pleasure. Indeed, in many couples, oral sex will replace vaginal intercourse, and if urinary, fecal, or flatal incontinence intrude, couples often waive oral sex in favor of more cuddling, kissing, digital stimulation, and other forms of sexual pleasure.
What about the expiry date for sex?
Fascinating research from Nils Beckman, PhD, and colleagues found that the sex drive persists even as people (and men in particular) reach their 100th year. Dr. Beckman’s group interviewed 269 Swedish seniors, all without dementia, at age 97. Sexual desire was affirmed by 27% of men and 5% of women in the survey. Among the men, 32% said they still had sexual thoughts, compared with 18% of women. Meanwhile, 26% of the men and 15% of the women said they missed sexual activity.
What should clinicians do with this information? First, we could start talking about sex with our older patients. According to the 97-year-old Swedes, most want us to! More than 8 in 10 of both women and men in the survey expressed positive views about questions on sexuality. And please don’t be scared to address the subject in the single senior. They, too, can have a sexual or relationship issue and are happy when we raise the subject. They’re not scared to talk about masturbation, either.
When caring for those with chronic diseases, cancer, in the course of physical rehabilitation, and even in the last phase of life, the clinical experience indicates that our patients are happy when we address sexuality and intimacy. Doing so can open the door to the admission of a problem and a corresponding solution, a lubricant or a PDE5 inhibitor.
But sometimes the solution is the conversation itself: Roughly 25% of patients are sufficiently helped simply by talking about sex. Addressing the importance of sexual pleasure is nearly always valuable.
Here are a few ice-breakers I find helpful:
- Did taking this medication change aspects of sexuality? If so, does that bother you?
- Knowing that continuing intimacy is healthy, do you mind if I address that subject?
- We know that aspects of sexuality and intimacy are healthy. Without a partner, some people become sexually isolated. Would you like to talk about that?’
If addressing sexuality has benefits, what about sex itself?
We are gradually learning more about the many short-, intermediate-, and long-term health benefits of solo and joint sexual activity. Short-term benefits include muscle relaxation, pain relief (even, perhaps ironically, for headaches), and better sleep – all pretty valuable for older adults. Examples of intermediate-term benefits include stress relief and less depression. Research from the United States has found that hugging can reduce the concentrations of proinflammatory cytokines, and kissing positively influences cholesterol levels.
Finally, while the long-term benefits of sex might be less relevant for seniors, they do exist.
Among them are delayed onset of dementia and a substantial reduction in cardiovascular and cerebrovascular problems in men. More sex has been linked to longevity, with men benefiting a bit more than women from going through the entire process, including an orgasm, whereas women appear to gain from having a “satisfying” sex life, which does not always require an orgasm.
Let us not forget that these benefits apply to both patients and clinicians alike. Addressing intimacy and sexuality can ease eventual sexual concerns and potentially create a stronger clinician-patient relationship.
Dr. Gianotten, MD is emeritus senior lecturer in medical sexology, Erasmus University Medical Centre, Rotterdam, the Netherlands. He reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
For health professionals, the thought that our parents and grandparents don’t have sex – or didn’t – might be comforting.
The reality is that, for a significant proportion of our older patients, sex has no use-by date. Humans are sexual beings throughout their lives, yet the culture has concealed that fact.
According to Rome, the purpose of sex is to make children. According to Hollywood, sex is only for the young, the healthy, and the beautiful. For the medical profession, sex consists mainly of risks or dysfunctions.
The results of these biases? Sexuality and intimacy are essential elements for quality of life, with clear physical, emotional, and relational benefits.
Let’s look at the data when researchers dared to ask seniors about their sexuality.
We start with the 2015 U.K. national research on sexuality. The study found a link between age and a decline in various aspects of sexual activity – but not a zeroing-out. For example, among men aged 70-79, 59% reported having had sex in the past year, with 19% having intercourse at least twice a month and 18% masturbating at least that often. Above age 80, those numbers dropped to 39%, 6%, and 5%, respectively. The reason behind the declines? A combination of taboo, fear of disease, use of medications or other interventions that disrupt sexual function or cause disfigurement, and a little bit of age itself.
What about women? Among women ages 70-79, 39% said they’d had sex in the past year, with 6% having intercourse at least twice per month and 5% masturbating two times or more monthly. Above age 80, those numbers were 10%, 4.5%, and 1%, respectively. Driving the falloff in women were the same factors as for men, plus the sad reality that many heterosexual women become widowed because their older male partners die earlier.
The male-female difference also reflects lower levels of testosterone in women. And, because women say they value intimacy more than performance, we have two explanations for their lower frequency of masturbation. After all, a lot of intimacy occurs without either intercourse or masturbation.
Surprising and relevant is the amount of distress – or rather, their relative lack thereof – older patients report because of sexual problems. At age 18-44, 11% of U.S. women indicated sexual distress; at age 45-64, the figure was 15%; and at age 65 and up, 9%.
For clinicians, those figures should prompt us to look more closely at alternative forms of sexual expression – those not involving intercourse or masturbation – in the aged, a field physicians typically do not consider.
Although dyspareunia or erectile problems affect many in long-standing relationships, neither is a reason to abstain from sexual pleasure. Indeed, in many couples, oral sex will replace vaginal intercourse, and if urinary, fecal, or flatal incontinence intrude, couples often waive oral sex in favor of more cuddling, kissing, digital stimulation, and other forms of sexual pleasure.
What about the expiry date for sex?
Fascinating research from Nils Beckman, PhD, and colleagues found that the sex drive persists even as people (and men in particular) reach their 100th year. Dr. Beckman’s group interviewed 269 Swedish seniors, all without dementia, at age 97. Sexual desire was affirmed by 27% of men and 5% of women in the survey. Among the men, 32% said they still had sexual thoughts, compared with 18% of women. Meanwhile, 26% of the men and 15% of the women said they missed sexual activity.
What should clinicians do with this information? First, we could start talking about sex with our older patients. According to the 97-year-old Swedes, most want us to! More than 8 in 10 of both women and men in the survey expressed positive views about questions on sexuality. And please don’t be scared to address the subject in the single senior. They, too, can have a sexual or relationship issue and are happy when we raise the subject. They’re not scared to talk about masturbation, either.
When caring for those with chronic diseases, cancer, in the course of physical rehabilitation, and even in the last phase of life, the clinical experience indicates that our patients are happy when we address sexuality and intimacy. Doing so can open the door to the admission of a problem and a corresponding solution, a lubricant or a PDE5 inhibitor.
But sometimes the solution is the conversation itself: Roughly 25% of patients are sufficiently helped simply by talking about sex. Addressing the importance of sexual pleasure is nearly always valuable.
Here are a few ice-breakers I find helpful:
- Did taking this medication change aspects of sexuality? If so, does that bother you?
- Knowing that continuing intimacy is healthy, do you mind if I address that subject?
- We know that aspects of sexuality and intimacy are healthy. Without a partner, some people become sexually isolated. Would you like to talk about that?’
If addressing sexuality has benefits, what about sex itself?
We are gradually learning more about the many short-, intermediate-, and long-term health benefits of solo and joint sexual activity. Short-term benefits include muscle relaxation, pain relief (even, perhaps ironically, for headaches), and better sleep – all pretty valuable for older adults. Examples of intermediate-term benefits include stress relief and less depression. Research from the United States has found that hugging can reduce the concentrations of proinflammatory cytokines, and kissing positively influences cholesterol levels.
Finally, while the long-term benefits of sex might be less relevant for seniors, they do exist.
Among them are delayed onset of dementia and a substantial reduction in cardiovascular and cerebrovascular problems in men. More sex has been linked to longevity, with men benefiting a bit more than women from going through the entire process, including an orgasm, whereas women appear to gain from having a “satisfying” sex life, which does not always require an orgasm.
Let us not forget that these benefits apply to both patients and clinicians alike. Addressing intimacy and sexuality can ease eventual sexual concerns and potentially create a stronger clinician-patient relationship.
Dr. Gianotten, MD is emeritus senior lecturer in medical sexology, Erasmus University Medical Centre, Rotterdam, the Netherlands. He reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
For health professionals, the thought that our parents and grandparents don’t have sex – or didn’t – might be comforting.
The reality is that, for a significant proportion of our older patients, sex has no use-by date. Humans are sexual beings throughout their lives, yet the culture has concealed that fact.
According to Rome, the purpose of sex is to make children. According to Hollywood, sex is only for the young, the healthy, and the beautiful. For the medical profession, sex consists mainly of risks or dysfunctions.
The results of these biases? Sexuality and intimacy are essential elements for quality of life, with clear physical, emotional, and relational benefits.
Let’s look at the data when researchers dared to ask seniors about their sexuality.
We start with the 2015 U.K. national research on sexuality. The study found a link between age and a decline in various aspects of sexual activity – but not a zeroing-out. For example, among men aged 70-79, 59% reported having had sex in the past year, with 19% having intercourse at least twice a month and 18% masturbating at least that often. Above age 80, those numbers dropped to 39%, 6%, and 5%, respectively. The reason behind the declines? A combination of taboo, fear of disease, use of medications or other interventions that disrupt sexual function or cause disfigurement, and a little bit of age itself.
What about women? Among women ages 70-79, 39% said they’d had sex in the past year, with 6% having intercourse at least twice per month and 5% masturbating two times or more monthly. Above age 80, those numbers were 10%, 4.5%, and 1%, respectively. Driving the falloff in women were the same factors as for men, plus the sad reality that many heterosexual women become widowed because their older male partners die earlier.
The male-female difference also reflects lower levels of testosterone in women. And, because women say they value intimacy more than performance, we have two explanations for their lower frequency of masturbation. After all, a lot of intimacy occurs without either intercourse or masturbation.
Surprising and relevant is the amount of distress – or rather, their relative lack thereof – older patients report because of sexual problems. At age 18-44, 11% of U.S. women indicated sexual distress; at age 45-64, the figure was 15%; and at age 65 and up, 9%.
For clinicians, those figures should prompt us to look more closely at alternative forms of sexual expression – those not involving intercourse or masturbation – in the aged, a field physicians typically do not consider.
Although dyspareunia or erectile problems affect many in long-standing relationships, neither is a reason to abstain from sexual pleasure. Indeed, in many couples, oral sex will replace vaginal intercourse, and if urinary, fecal, or flatal incontinence intrude, couples often waive oral sex in favor of more cuddling, kissing, digital stimulation, and other forms of sexual pleasure.
What about the expiry date for sex?
Fascinating research from Nils Beckman, PhD, and colleagues found that the sex drive persists even as people (and men in particular) reach their 100th year. Dr. Beckman’s group interviewed 269 Swedish seniors, all without dementia, at age 97. Sexual desire was affirmed by 27% of men and 5% of women in the survey. Among the men, 32% said they still had sexual thoughts, compared with 18% of women. Meanwhile, 26% of the men and 15% of the women said they missed sexual activity.
What should clinicians do with this information? First, we could start talking about sex with our older patients. According to the 97-year-old Swedes, most want us to! More than 8 in 10 of both women and men in the survey expressed positive views about questions on sexuality. And please don’t be scared to address the subject in the single senior. They, too, can have a sexual or relationship issue and are happy when we raise the subject. They’re not scared to talk about masturbation, either.
When caring for those with chronic diseases, cancer, in the course of physical rehabilitation, and even in the last phase of life, the clinical experience indicates that our patients are happy when we address sexuality and intimacy. Doing so can open the door to the admission of a problem and a corresponding solution, a lubricant or a PDE5 inhibitor.
But sometimes the solution is the conversation itself: Roughly 25% of patients are sufficiently helped simply by talking about sex. Addressing the importance of sexual pleasure is nearly always valuable.
Here are a few ice-breakers I find helpful:
- Did taking this medication change aspects of sexuality? If so, does that bother you?
- Knowing that continuing intimacy is healthy, do you mind if I address that subject?
- We know that aspects of sexuality and intimacy are healthy. Without a partner, some people become sexually isolated. Would you like to talk about that?’
If addressing sexuality has benefits, what about sex itself?
We are gradually learning more about the many short-, intermediate-, and long-term health benefits of solo and joint sexual activity. Short-term benefits include muscle relaxation, pain relief (even, perhaps ironically, for headaches), and better sleep – all pretty valuable for older adults. Examples of intermediate-term benefits include stress relief and less depression. Research from the United States has found that hugging can reduce the concentrations of proinflammatory cytokines, and kissing positively influences cholesterol levels.
Finally, while the long-term benefits of sex might be less relevant for seniors, they do exist.
Among them are delayed onset of dementia and a substantial reduction in cardiovascular and cerebrovascular problems in men. More sex has been linked to longevity, with men benefiting a bit more than women from going through the entire process, including an orgasm, whereas women appear to gain from having a “satisfying” sex life, which does not always require an orgasm.
Let us not forget that these benefits apply to both patients and clinicians alike. Addressing intimacy and sexuality can ease eventual sexual concerns and potentially create a stronger clinician-patient relationship.
Dr. Gianotten, MD is emeritus senior lecturer in medical sexology, Erasmus University Medical Centre, Rotterdam, the Netherlands. He reported no conflicts of interest.
A version of this article first appeared on Medscape.com.
Choosing our terms: The diagnostic words we use can be harmful
We are living in an era of increasing sensitivity to our diversity and the ways we interact, but also an era of growing resistance to change and accommodation. As clinicians, we hope to be among the sensitive and the progressive, open to improving our views and interactions. And as part of our respect for those we treat, we seek to speak clearly with them about our assessment of what is disrupting their lives and about their options.
Using the right words is crucial in that work. Well-chosen words can be heard and understood. Poorly chosen words can be confusing or off-putting; they may miscommunicate or be offensive. Careful choice of words is also important among colleagues, who may not always mean the same things when using the same words.
In psychiatry, consumer knowledge and access are growing. There are effective standard treatments and promising new ones. But our terminology is often antique and obscure. This is so despite a recognition that some terms we use may communicate poorly and some are deprecating.
A notable example is “schizophrenia.” Originally referring to cognitive phenomena that were not adequately coherent with reality or one another, it has gone through periods of describing most psychosis to particular subsets of psychoses. Debates persist on specific criteria for key symptoms and typical course. Even two clinicians trained in the same site may not agree on the defining criteria, and the public, mostly informed by books, movies, and newspapers, is even more confused, often believing schizophrenia is multiple-personality disorder. In addition, the press and public often associate schizophrenia with violent behavior and uniformly bad outcomes, and for those reasons, a diagnosis is not only frightening but also stigmatizing.1
Many papers have presented the case for retiring “schizophrenia.”2 And practical efforts to rename schizophrenia have been made. These efforts have occurred in countries in which English is not the primary language.3 In Japan, schizophrenia was replaced by “integration disorder.” In Hong Kong, “disorder of thought and perception” was implemented. Korea chose “attunement disorder.” A recent large survey of stakeholders, including clinicians, researchers, and consumers in the United States, explored alternatives in English.4 Terms receiving approval included: “psychosis spectrum syndrome,” “altered perception syndrome,” and “neuro-emotional integration disorder.”
Despite these recommendations, the standard manuals of diagnosis, the ICD and DSM, have maintained the century-old term “schizophrenia” in their most recent editions, released in 2022. Aside from the inertia commonly associated with long-standing practices, it has been noted that many of the alternatives suggested or, in some places, implemented, are complex, somewhat vague, or too inclusive to distinguish different clinical presentations requiring different treatment approaches. They might not be compelling for use or optimal to guide caregiving.
Perhaps more concerning than “schizophrenia” are terms used to describe personality disorders.5 “Personality disorder” itself is problematic, implying a core and possibly unalterable fault in an individual. And among the personality disorders, words for the related group of disorders called “Cluster B” in the DSM raise issues. This includes the terms narcissistic, antisocial, histrionic, and borderline in DSM-5-TR. The first three terms are clearly pejorative. The last is unclear: What is the border between? Originally, it was bordering on psychosis, but as explained in DSM and ICD, borderline disorder is much more closely related to other personality disorders.
Notably, the “Cluster B” disorders run together in families, but men are more likely to be called antisocial and women borderline, even though the overlap in signs and symptoms is profound, suggesting marginally different manifestations of the same condition. The ICD has made changes to address the problems associated with some of these terms. ICD proposes personality “difficulty” to replace personality “disorder”; a modest change but less offensive. And it proposes seeing all, or at least most, personality disorders as being related to one another. Most share features of disturbances in sense-of-self and relationships with others. As descriptors, ICD kept “borderline pattern,” but replaced “antisocial” with “dissocial,” in an effort to be accurate but less demeaning. Other descriptors it proposes are negative affectivity, detachment, disinhibition, and anankastia, the last referring to compulsions.
These are notable advances. Can the field find even better terms to communicate hard to hear information, with words that are less problematic? In search of options, we surveyed clinicians at academic centers about the terms they preferred to avoid and the ones they prefer to use in talking with patients.6 Their practices may be informative.
Briefly summarized, these clinicians preferred not to use “schizophrenia” and very few used “antisocial,” “histrionic,” or “narcissistic.” Most avoided using “borderline” as well. Instead, they recommended discussing specific symptoms and manifestations of illness or dysfunctional behavior and relationships with their patients. They employed terms including “psychosis,” “hallucination,” “delusion,” “thinking disorder,” and “mood disorder.” They explained these terms, as needed, and found that patients understood them.
For Cluster B personality disorders, they spoke of personality traits and styles and specifically about “conduct,” “rule breaking,” “coping,” “self-focus,” “emotionality,” and “reactivity.” Those choices are not perfect, of course. Medical terms are often not standard words used in a conversational way. But the words chosen by these clinicians are generally straightforward and may communicate in a clear and acceptable fashion. It is also notable that the terms match how the clinicians assess and treat their patients, as observed in a separate study of their practices.7 That is, the clinicians advised that they look for and suggest treatments for the specific symptoms they see that most disrupt an individual’s life, such as delusions or mood instability. They are not much guided by diagnoses, like schizophrenia or borderline disorder. That makes the chosen terms not only less confusing or off-putting but also more practical.
Changing terminology in any field is difficult. We are trained to use standard terms. Clearly, however, many clinicians avoid some terms and use alternatives in their work. Asked why, they responded that they did so precisely to communicate more effectively and more respectfully. That is key to their treatment goals. Perhaps others will consider these choices useful in their work. And perhaps both the DSM and the ICD will not only continue to consider but will decide to implement alternatives for problematic terms in the years ahead, as they discuss their next revisions.
Dr. Cohen is director of the Program for Neuropsychiatric Research at McLean Hospital, Belmont, Mass., and Robertson-Steele Professor of Psychiatry at Harvard Medical School, Boston.
References
1. Lasalvia A et al. Renaming schizophrenia? A survey among psychiatrists, mental health service users and family members in Italy. Schizophr Res. 2021;228:502-9.
2. Gülöksüz S et al. Renaming schizophrenia: 5 x 5. Epidemiol Psychiatr Sci. 2019;28(3):254-7.
3. Sartorius N et al. Name change for schizophrenia. Schizophr Bull. 2014;40(2):255-8.
4. Mesholam-Gately RI et al. Are we ready for a name change for schizophrenia? A survey of multiple stakeholders. Schizophr Res. 2021;238:152-60.
5. Mulder R. The evolving nosology of personality disorder and its clinical utility. World Psychiatry. 2021 Oct;20(3):361-2.
6. Cohen BM et al. Diagnostic terms psychiatrists prefer to use for common psychotic and personality disorders. J Psychiatr Res. 2022 Sep 5;155:226-31.
7. Cohen BM, et al. Use of DSM-5 diagnoses vs. other clinical information by US academic-affiliated psychiatrists in assessing and treating psychotic disorders. World Psychiatry. 2021 Oct;20(3):447-8.
We are living in an era of increasing sensitivity to our diversity and the ways we interact, but also an era of growing resistance to change and accommodation. As clinicians, we hope to be among the sensitive and the progressive, open to improving our views and interactions. And as part of our respect for those we treat, we seek to speak clearly with them about our assessment of what is disrupting their lives and about their options.
Using the right words is crucial in that work. Well-chosen words can be heard and understood. Poorly chosen words can be confusing or off-putting; they may miscommunicate or be offensive. Careful choice of words is also important among colleagues, who may not always mean the same things when using the same words.
In psychiatry, consumer knowledge and access are growing. There are effective standard treatments and promising new ones. But our terminology is often antique and obscure. This is so despite a recognition that some terms we use may communicate poorly and some are deprecating.
A notable example is “schizophrenia.” Originally referring to cognitive phenomena that were not adequately coherent with reality or one another, it has gone through periods of describing most psychosis to particular subsets of psychoses. Debates persist on specific criteria for key symptoms and typical course. Even two clinicians trained in the same site may not agree on the defining criteria, and the public, mostly informed by books, movies, and newspapers, is even more confused, often believing schizophrenia is multiple-personality disorder. In addition, the press and public often associate schizophrenia with violent behavior and uniformly bad outcomes, and for those reasons, a diagnosis is not only frightening but also stigmatizing.1
Many papers have presented the case for retiring “schizophrenia.”2 And practical efforts to rename schizophrenia have been made. These efforts have occurred in countries in which English is not the primary language.3 In Japan, schizophrenia was replaced by “integration disorder.” In Hong Kong, “disorder of thought and perception” was implemented. Korea chose “attunement disorder.” A recent large survey of stakeholders, including clinicians, researchers, and consumers in the United States, explored alternatives in English.4 Terms receiving approval included: “psychosis spectrum syndrome,” “altered perception syndrome,” and “neuro-emotional integration disorder.”
Despite these recommendations, the standard manuals of diagnosis, the ICD and DSM, have maintained the century-old term “schizophrenia” in their most recent editions, released in 2022. Aside from the inertia commonly associated with long-standing practices, it has been noted that many of the alternatives suggested or, in some places, implemented, are complex, somewhat vague, or too inclusive to distinguish different clinical presentations requiring different treatment approaches. They might not be compelling for use or optimal to guide caregiving.
Perhaps more concerning than “schizophrenia” are terms used to describe personality disorders.5 “Personality disorder” itself is problematic, implying a core and possibly unalterable fault in an individual. And among the personality disorders, words for the related group of disorders called “Cluster B” in the DSM raise issues. This includes the terms narcissistic, antisocial, histrionic, and borderline in DSM-5-TR. The first three terms are clearly pejorative. The last is unclear: What is the border between? Originally, it was bordering on psychosis, but as explained in DSM and ICD, borderline disorder is much more closely related to other personality disorders.
Notably, the “Cluster B” disorders run together in families, but men are more likely to be called antisocial and women borderline, even though the overlap in signs and symptoms is profound, suggesting marginally different manifestations of the same condition. The ICD has made changes to address the problems associated with some of these terms. ICD proposes personality “difficulty” to replace personality “disorder”; a modest change but less offensive. And it proposes seeing all, or at least most, personality disorders as being related to one another. Most share features of disturbances in sense-of-self and relationships with others. As descriptors, ICD kept “borderline pattern,” but replaced “antisocial” with “dissocial,” in an effort to be accurate but less demeaning. Other descriptors it proposes are negative affectivity, detachment, disinhibition, and anankastia, the last referring to compulsions.
These are notable advances. Can the field find even better terms to communicate hard to hear information, with words that are less problematic? In search of options, we surveyed clinicians at academic centers about the terms they preferred to avoid and the ones they prefer to use in talking with patients.6 Their practices may be informative.
Briefly summarized, these clinicians preferred not to use “schizophrenia” and very few used “antisocial,” “histrionic,” or “narcissistic.” Most avoided using “borderline” as well. Instead, they recommended discussing specific symptoms and manifestations of illness or dysfunctional behavior and relationships with their patients. They employed terms including “psychosis,” “hallucination,” “delusion,” “thinking disorder,” and “mood disorder.” They explained these terms, as needed, and found that patients understood them.
For Cluster B personality disorders, they spoke of personality traits and styles and specifically about “conduct,” “rule breaking,” “coping,” “self-focus,” “emotionality,” and “reactivity.” Those choices are not perfect, of course. Medical terms are often not standard words used in a conversational way. But the words chosen by these clinicians are generally straightforward and may communicate in a clear and acceptable fashion. It is also notable that the terms match how the clinicians assess and treat their patients, as observed in a separate study of their practices.7 That is, the clinicians advised that they look for and suggest treatments for the specific symptoms they see that most disrupt an individual’s life, such as delusions or mood instability. They are not much guided by diagnoses, like schizophrenia or borderline disorder. That makes the chosen terms not only less confusing or off-putting but also more practical.
Changing terminology in any field is difficult. We are trained to use standard terms. Clearly, however, many clinicians avoid some terms and use alternatives in their work. Asked why, they responded that they did so precisely to communicate more effectively and more respectfully. That is key to their treatment goals. Perhaps others will consider these choices useful in their work. And perhaps both the DSM and the ICD will not only continue to consider but will decide to implement alternatives for problematic terms in the years ahead, as they discuss their next revisions.
Dr. Cohen is director of the Program for Neuropsychiatric Research at McLean Hospital, Belmont, Mass., and Robertson-Steele Professor of Psychiatry at Harvard Medical School, Boston.
References
1. Lasalvia A et al. Renaming schizophrenia? A survey among psychiatrists, mental health service users and family members in Italy. Schizophr Res. 2021;228:502-9.
2. Gülöksüz S et al. Renaming schizophrenia: 5 x 5. Epidemiol Psychiatr Sci. 2019;28(3):254-7.
3. Sartorius N et al. Name change for schizophrenia. Schizophr Bull. 2014;40(2):255-8.
4. Mesholam-Gately RI et al. Are we ready for a name change for schizophrenia? A survey of multiple stakeholders. Schizophr Res. 2021;238:152-60.
5. Mulder R. The evolving nosology of personality disorder and its clinical utility. World Psychiatry. 2021 Oct;20(3):361-2.
6. Cohen BM et al. Diagnostic terms psychiatrists prefer to use for common psychotic and personality disorders. J Psychiatr Res. 2022 Sep 5;155:226-31.
7. Cohen BM, et al. Use of DSM-5 diagnoses vs. other clinical information by US academic-affiliated psychiatrists in assessing and treating psychotic disorders. World Psychiatry. 2021 Oct;20(3):447-8.
We are living in an era of increasing sensitivity to our diversity and the ways we interact, but also an era of growing resistance to change and accommodation. As clinicians, we hope to be among the sensitive and the progressive, open to improving our views and interactions. And as part of our respect for those we treat, we seek to speak clearly with them about our assessment of what is disrupting their lives and about their options.
Using the right words is crucial in that work. Well-chosen words can be heard and understood. Poorly chosen words can be confusing or off-putting; they may miscommunicate or be offensive. Careful choice of words is also important among colleagues, who may not always mean the same things when using the same words.
In psychiatry, consumer knowledge and access are growing. There are effective standard treatments and promising new ones. But our terminology is often antique and obscure. This is so despite a recognition that some terms we use may communicate poorly and some are deprecating.
A notable example is “schizophrenia.” Originally referring to cognitive phenomena that were not adequately coherent with reality or one another, it has gone through periods of describing most psychosis to particular subsets of psychoses. Debates persist on specific criteria for key symptoms and typical course. Even two clinicians trained in the same site may not agree on the defining criteria, and the public, mostly informed by books, movies, and newspapers, is even more confused, often believing schizophrenia is multiple-personality disorder. In addition, the press and public often associate schizophrenia with violent behavior and uniformly bad outcomes, and for those reasons, a diagnosis is not only frightening but also stigmatizing.1
Many papers have presented the case for retiring “schizophrenia.”2 And practical efforts to rename schizophrenia have been made. These efforts have occurred in countries in which English is not the primary language.3 In Japan, schizophrenia was replaced by “integration disorder.” In Hong Kong, “disorder of thought and perception” was implemented. Korea chose “attunement disorder.” A recent large survey of stakeholders, including clinicians, researchers, and consumers in the United States, explored alternatives in English.4 Terms receiving approval included: “psychosis spectrum syndrome,” “altered perception syndrome,” and “neuro-emotional integration disorder.”
Despite these recommendations, the standard manuals of diagnosis, the ICD and DSM, have maintained the century-old term “schizophrenia” in their most recent editions, released in 2022. Aside from the inertia commonly associated with long-standing practices, it has been noted that many of the alternatives suggested or, in some places, implemented, are complex, somewhat vague, or too inclusive to distinguish different clinical presentations requiring different treatment approaches. They might not be compelling for use or optimal to guide caregiving.
Perhaps more concerning than “schizophrenia” are terms used to describe personality disorders.5 “Personality disorder” itself is problematic, implying a core and possibly unalterable fault in an individual. And among the personality disorders, words for the related group of disorders called “Cluster B” in the DSM raise issues. This includes the terms narcissistic, antisocial, histrionic, and borderline in DSM-5-TR. The first three terms are clearly pejorative. The last is unclear: What is the border between? Originally, it was bordering on psychosis, but as explained in DSM and ICD, borderline disorder is much more closely related to other personality disorders.
Notably, the “Cluster B” disorders run together in families, but men are more likely to be called antisocial and women borderline, even though the overlap in signs and symptoms is profound, suggesting marginally different manifestations of the same condition. The ICD has made changes to address the problems associated with some of these terms. ICD proposes personality “difficulty” to replace personality “disorder”; a modest change but less offensive. And it proposes seeing all, or at least most, personality disorders as being related to one another. Most share features of disturbances in sense-of-self and relationships with others. As descriptors, ICD kept “borderline pattern,” but replaced “antisocial” with “dissocial,” in an effort to be accurate but less demeaning. Other descriptors it proposes are negative affectivity, detachment, disinhibition, and anankastia, the last referring to compulsions.
These are notable advances. Can the field find even better terms to communicate hard to hear information, with words that are less problematic? In search of options, we surveyed clinicians at academic centers about the terms they preferred to avoid and the ones they prefer to use in talking with patients.6 Their practices may be informative.
Briefly summarized, these clinicians preferred not to use “schizophrenia” and very few used “antisocial,” “histrionic,” or “narcissistic.” Most avoided using “borderline” as well. Instead, they recommended discussing specific symptoms and manifestations of illness or dysfunctional behavior and relationships with their patients. They employed terms including “psychosis,” “hallucination,” “delusion,” “thinking disorder,” and “mood disorder.” They explained these terms, as needed, and found that patients understood them.
For Cluster B personality disorders, they spoke of personality traits and styles and specifically about “conduct,” “rule breaking,” “coping,” “self-focus,” “emotionality,” and “reactivity.” Those choices are not perfect, of course. Medical terms are often not standard words used in a conversational way. But the words chosen by these clinicians are generally straightforward and may communicate in a clear and acceptable fashion. It is also notable that the terms match how the clinicians assess and treat their patients, as observed in a separate study of their practices.7 That is, the clinicians advised that they look for and suggest treatments for the specific symptoms they see that most disrupt an individual’s life, such as delusions or mood instability. They are not much guided by diagnoses, like schizophrenia or borderline disorder. That makes the chosen terms not only less confusing or off-putting but also more practical.
Changing terminology in any field is difficult. We are trained to use standard terms. Clearly, however, many clinicians avoid some terms and use alternatives in their work. Asked why, they responded that they did so precisely to communicate more effectively and more respectfully. That is key to their treatment goals. Perhaps others will consider these choices useful in their work. And perhaps both the DSM and the ICD will not only continue to consider but will decide to implement alternatives for problematic terms in the years ahead, as they discuss their next revisions.
Dr. Cohen is director of the Program for Neuropsychiatric Research at McLean Hospital, Belmont, Mass., and Robertson-Steele Professor of Psychiatry at Harvard Medical School, Boston.
References
1. Lasalvia A et al. Renaming schizophrenia? A survey among psychiatrists, mental health service users and family members in Italy. Schizophr Res. 2021;228:502-9.
2. Gülöksüz S et al. Renaming schizophrenia: 5 x 5. Epidemiol Psychiatr Sci. 2019;28(3):254-7.
3. Sartorius N et al. Name change for schizophrenia. Schizophr Bull. 2014;40(2):255-8.
4. Mesholam-Gately RI et al. Are we ready for a name change for schizophrenia? A survey of multiple stakeholders. Schizophr Res. 2021;238:152-60.
5. Mulder R. The evolving nosology of personality disorder and its clinical utility. World Psychiatry. 2021 Oct;20(3):361-2.
6. Cohen BM et al. Diagnostic terms psychiatrists prefer to use for common psychotic and personality disorders. J Psychiatr Res. 2022 Sep 5;155:226-31.
7. Cohen BM, et al. Use of DSM-5 diagnoses vs. other clinical information by US academic-affiliated psychiatrists in assessing and treating psychotic disorders. World Psychiatry. 2021 Oct;20(3):447-8.
What to expect in the new concussion guidelines
This transcript has been edited for clarity.
Andrew N. Wilner, MD: I’m your host, Dr. Andrew Wilner, reporting virtually from the 2023 American Academy of Neurology meeting in Boston. It’s my pleasure today to speak with Dr. Shae Datta, codirector of the NYU Langone Concussion Center.
She’s also a clinical assistant professor of neurology at NYU School of Medicine. Dr. Datta is chair of the AAN Sports Neurology Section, and she’s leading a panel on concussion at this year’s meeting. She’s going to give us an update. Welcome, Dr. Datta.
Shae Datta, MD: Thank you so much, Andrew. I really love the fact that I’m here speaking to you about all of the new, exciting developments in the field.
Dr. Wilner: Before we get too deep, tell us how you got interested in this topic.
Dr. Datta: I initially thought, when I was in training as a resident, that I wanted to do something like neurocritical care or EEG. It also puzzled me why these seemingly smaller head injuries that didn’t end up in the hospital or ICU were bounced from neurology headache clinic to neuro-ophthalmology headache clinic to neurovestibular headache clinic, and nobody seemed to be able to put together the dots about why they’re having so many different issues — but at the same time, nobody could help them.
At that time, this field was very new. I was on a plane to Paris to a neurocritical care conference as a resident, and I saw the movie Concussion with Will Smith.
It featured one of my current mentors who taught at the fellowship that I graduated from, and it was a fascinating field. I just started looking deeply into it, and I saw that there was a new training fellowship for sports neurology and concussion management, and this is basically why we’re here today.
New concussion consensus guidelines coming
Dr. Wilner: I think this field has really exploded. It used to be that you banged your head, you did a CT scan – remember, I trained about 45 years ago – and if there was nothing on the CT scan, you were done. If you had headaches, you took Tylenol until they went away.
Now, we do MRI, and we realized that it’s really a syndrome. I understand that there are going to be some formal guidelines that have been put together. Is that correct?
Dr. Datta: That’s correct. The 6th International Consensus Conference on Concussion in Sport, in Amsterdam, where I attended and presented a poster, was really a meeting of all the best minds – clinicians and researchers in brain injury – to form a consensus on the newest guidelines that are going to direct our treatment going forward.
Dr. Wilner: I’m going to ask you a trick question because the last time I looked it up I did not get a satisfying answer. What is a concussion?
Dr. Datta: That’s a very good question, and everyone always asks. A concussion is an external force that is emitted upon the head or the neck, or the body, in general, that may cause temporary loss of function. It’s a functional problem.
We don’t see much on CT. We can do MRI. We can do SPECT or we can do these very fancy images, sometimes, of high-velocity head injuries and see small microhemorrhages.
Often, we don’t see anything, but still the patient is loopy. They can’t see straight. They are double-visioned. They have vertigo. Why is that happening? On the cellular level, we have an energy deficit in the sodium-potassium-ATPase pump of the neurons themselves.
Dr. Wilner: Suppose you do see diffuse axonal injury; does that take it out of concussion, or can you have a concussion with visible injury?
Dr. Datta: I think you can have overlap in the symptoms. The diffuse axonal injury would put it into a higher grade of head injury as opposed to a mild traumatic brain injury. Definitely, we would need to work together with our trauma doctors to ensure that patients are not on blood thinners or anything until they heal well enough. Obviously, I would pick them up as an outpatient and follow them until we resolve or rehab them as best as possible.
Concussion assessment tools
Dr. Wilner: There are many sports out there where concussions are fairly frequent, like American football and hockey, for example. Are there any statements in the new guidelines?
Dr. Datta: There are no statements for or against a particular sport because that would really make too much of a bold statement about cause and effect. There is a cause and effect in long-term, repetitive exposure, I would say, in terms of someone being able to play or sustain injury.
Right now, at least at the concussion conference I went to and in the upcoming consensus statement, they will not comment on a specific sport. Obviously, we know that the higher-impact sports are a little more dangerous.
Let’s be honest. At the high school, middle school, or even younger level, some kids are not necessarily the most athletic, right? They play because their friends are playing. If they’re repeatedly getting injured, it’s time for an astute clinician, or a coach, and a whole team to assess them to see if maybe this person is just going to continue to get hurt if they’re not taken out of the game and perhaps they should go to a lower-impact sport.
Dr. Wilner: In schools, often there’s a big size and weight difference. There are 14-year-olds who are 6 fett 2 inches and 200 pounds, and there are 14-year-olds who are 5 feet 2 inches and 110 pounds. Obviously, they’re mismatched on the football field.
You mentioned coaches. Is there anything in the guidelines about training coaches?
Dr. Datta: Specifically, there was nothing in the guidelines about that. There’s a tool for coaches at every level to use, which is called the Sports Concussion Assessment Tool, or SCAT, which is going to be updated to the SCAT6. At the NCAA level, they must receive annual training on concussion management and be given an NCAA concussion handout for coaches.
Obviously, there are more rigorous protocols for national-level coaching. As it stands now, it is not mandatory, but they are given tools to assess someone once they’ve gotten a hit to take them out of the game.
Dr. Wilner: I’ve been following the concussion research through the years. They did some neuropsychological testing on athletes who’ve had this many concussions or that many concussions, and they would find deficits here or subtle deficits there, but they had no baseline.
Then, there was a movement to start testing athletes before the season starts so that they could do a repeat test after concussion and see if there is any difference. Is that something we’re recommending?
Dr. Datta: Most of the time, NCAA-level – certainly where I trained – and national-level sports do testing, but it’s not everywhere. Prior guidelines have indicated that preseason testing is not required. That is largely because there has been no standardized neuropsychological testing established.
There are computerized testing options where the validity and reliability are questionable. Also, let’s say it’s a college student; they didn’t sleep all night and then they took this computer test. They would probably do worse than they would if they had received a head hit.
Just to be on the safe side, most places that have collegiate-level sports that are at a high level do preseason testing. If I were to speak personally, aside from the guidelines, I would say that it’s been helpful for me to look at the before and after, in general, overall, to make a decision about my treatment protocol.
Dr. Wilner: Let’s talk about the patient. You have a 20-year-old guy. He’s playing football. There’s a big play. Bonk, he gets hit on the head. He’s on the ground. He’s dazed, staggers a little bit, gets up, and you ask how he is feeling. He says he’s fine and then he wobbles off to the sideline. What do you do with that kid?
Dr. Datta: Obviously, the first thing is to remove him from the play environment to a quiet space. Second, either an athletic trainer or a coach would administer basic screening neurologic tests, such as “where are you, what’s today’s date, what is your name?” and other orientation questions.
They’ll also go through the SCAT – that’ll be SCAT6 starting in July – the SCAT5 symptom questionnaire to see what symptoms they have. Often, they’re using sideline testing software.
There are two things that can be used on a card to test eye movements, to see if they’re slower. They come out of NYU, coincidentally – the Memory Image Completion (MIC) and the Mobile Universal Lexicon Evaluation System (MULES) – and are used to determine whether eye movements are slower. That way, you can tell whether someone is, compared with before they got their head hit, slower than before.
Based on this composite information, usually the teammates and the head people on the team will know if a player looks different.
They need to be taken out, obviously, if there is nausea or vomiting, any neurologic signs and symptoms, or a neck injury that needs to be stabilized. ABCs first, right? If there’s any vomiting or seizures, they should be taken to the ER right away.
The first thing is to take them out, then do a sideline assessment. Third, see if they need to immediately go to the ED versus follow-up outpatient with me within a day or two.
Dr. Wilner: I think it’s the subtle injuries that are the tough ones. Back to our 20-year-old. He says: “Oh, I’m fine. I want to go back in the game.” Everybody can tell he’s not quite right, even though he passed all the tests. What do you do then?
Dr. Datta: You have to make a judgment call for the safety of the player. They always want to go back, right? This is also an issue when they’re competing for college scholarships and things of that nature. Sometimes they’re sandbagging, where they memorize the answers.
Everything’s on the Internet nowadays, right? We have to make a judgment call as members of the healthcare community and the sports community to keep that player safe.
Just keep them out. Don’t bring them back in the game. Keep them out for a reasonable amount of time. There’s a test called the Buffalo Concussion Treadmill Test; Dr. John Leddy from University of Buffalo has developed a way for us to put athletes through a screening protocol.
This can be part of their vestibular and ocular rehabilitation, where if they don’t have symptoms when we bring their heart rate to certain levels, then we can slowly clear them for return to play as long as they’re nonsymptomatic.
Dr. Wilner: I spoke with your colleague, Dr. Riggins, who is also on your panel, and we were talking about when they can go back. She said they can go back when they don’t have any symptoms. No more headache, no more dizziness, no more lightheadedness, no more trouble concentrating or with memory – all those things have gone away.
Sometimes these symptoms are stubborn. If you have, say, 100 patients like our 20-year-old who got bonked on the head, has some headaches, and doesn’t feel quite right, what usually happens? How many are back to play the next day, the next week, or the next month? How many are out for the season? How does that play out?
Dr. Datta: It depends on a couple of different factors. One, have they had previous head injuries? Two, do they have preexisting symptoms or signs, or diagnoses like migraines, which are likely to get worse after a head injury? Anything that’s preexisting, like a mood disorder, anxiety, depression, or trouble sleeping, is going to get worse.
If they were compensating for untreated ADD or borderline personality or bipolar, I’ve seen many people who’ve developed them. These are not the norm, but I’m saying that you have to be very careful.
Getting back to the question, you treat them. Reasonably, if they’re healthy and they don’t have preexisting signs and symptoms, I would say more than half are back in about 2 weeks.. I would say 60%-70%. It all depends. If they have preexisting issues, then it’s going to take much longer.
From SCAT to SCOAT
Dr. Wilner: This has been very informative. Before we wrap up, tell us what to expect from these guidelines in July. How are they really going to help?
Dr. Datta: We’ve been using the SCAT, which was meant for more sideline assessment because that’s all we had, and it’s worked perfectly well.
This will be better because we often see them within 24-48 hours, when the symptoms are sometimes a little bit better.
We also will see the sport and concussion group come up with added athlete perspectives, ethics discussion, power-sport athlete considerations, and development of this new SCOAT.
Dr. Wilner: Dr. Datta, this is very exciting. I look forward to reading these guidelines in July. I want to thank you for your hard work. I also look forward to talking to you at next year’s meeting. Thank you very much for giving us this update.
Dr. Datta: No problem. It’s my pleasure.
A version of this article originally appeared on Medscape.com.
This transcript has been edited for clarity.
Andrew N. Wilner, MD: I’m your host, Dr. Andrew Wilner, reporting virtually from the 2023 American Academy of Neurology meeting in Boston. It’s my pleasure today to speak with Dr. Shae Datta, codirector of the NYU Langone Concussion Center.
She’s also a clinical assistant professor of neurology at NYU School of Medicine. Dr. Datta is chair of the AAN Sports Neurology Section, and she’s leading a panel on concussion at this year’s meeting. She’s going to give us an update. Welcome, Dr. Datta.
Shae Datta, MD: Thank you so much, Andrew. I really love the fact that I’m here speaking to you about all of the new, exciting developments in the field.
Dr. Wilner: Before we get too deep, tell us how you got interested in this topic.
Dr. Datta: I initially thought, when I was in training as a resident, that I wanted to do something like neurocritical care or EEG. It also puzzled me why these seemingly smaller head injuries that didn’t end up in the hospital or ICU were bounced from neurology headache clinic to neuro-ophthalmology headache clinic to neurovestibular headache clinic, and nobody seemed to be able to put together the dots about why they’re having so many different issues — but at the same time, nobody could help them.
At that time, this field was very new. I was on a plane to Paris to a neurocritical care conference as a resident, and I saw the movie Concussion with Will Smith.
It featured one of my current mentors who taught at the fellowship that I graduated from, and it was a fascinating field. I just started looking deeply into it, and I saw that there was a new training fellowship for sports neurology and concussion management, and this is basically why we’re here today.
New concussion consensus guidelines coming
Dr. Wilner: I think this field has really exploded. It used to be that you banged your head, you did a CT scan – remember, I trained about 45 years ago – and if there was nothing on the CT scan, you were done. If you had headaches, you took Tylenol until they went away.
Now, we do MRI, and we realized that it’s really a syndrome. I understand that there are going to be some formal guidelines that have been put together. Is that correct?
Dr. Datta: That’s correct. The 6th International Consensus Conference on Concussion in Sport, in Amsterdam, where I attended and presented a poster, was really a meeting of all the best minds – clinicians and researchers in brain injury – to form a consensus on the newest guidelines that are going to direct our treatment going forward.
Dr. Wilner: I’m going to ask you a trick question because the last time I looked it up I did not get a satisfying answer. What is a concussion?
Dr. Datta: That’s a very good question, and everyone always asks. A concussion is an external force that is emitted upon the head or the neck, or the body, in general, that may cause temporary loss of function. It’s a functional problem.
We don’t see much on CT. We can do MRI. We can do SPECT or we can do these very fancy images, sometimes, of high-velocity head injuries and see small microhemorrhages.
Often, we don’t see anything, but still the patient is loopy. They can’t see straight. They are double-visioned. They have vertigo. Why is that happening? On the cellular level, we have an energy deficit in the sodium-potassium-ATPase pump of the neurons themselves.
Dr. Wilner: Suppose you do see diffuse axonal injury; does that take it out of concussion, or can you have a concussion with visible injury?
Dr. Datta: I think you can have overlap in the symptoms. The diffuse axonal injury would put it into a higher grade of head injury as opposed to a mild traumatic brain injury. Definitely, we would need to work together with our trauma doctors to ensure that patients are not on blood thinners or anything until they heal well enough. Obviously, I would pick them up as an outpatient and follow them until we resolve or rehab them as best as possible.
Concussion assessment tools
Dr. Wilner: There are many sports out there where concussions are fairly frequent, like American football and hockey, for example. Are there any statements in the new guidelines?
Dr. Datta: There are no statements for or against a particular sport because that would really make too much of a bold statement about cause and effect. There is a cause and effect in long-term, repetitive exposure, I would say, in terms of someone being able to play or sustain injury.
Right now, at least at the concussion conference I went to and in the upcoming consensus statement, they will not comment on a specific sport. Obviously, we know that the higher-impact sports are a little more dangerous.
Let’s be honest. At the high school, middle school, or even younger level, some kids are not necessarily the most athletic, right? They play because their friends are playing. If they’re repeatedly getting injured, it’s time for an astute clinician, or a coach, and a whole team to assess them to see if maybe this person is just going to continue to get hurt if they’re not taken out of the game and perhaps they should go to a lower-impact sport.
Dr. Wilner: In schools, often there’s a big size and weight difference. There are 14-year-olds who are 6 fett 2 inches and 200 pounds, and there are 14-year-olds who are 5 feet 2 inches and 110 pounds. Obviously, they’re mismatched on the football field.
You mentioned coaches. Is there anything in the guidelines about training coaches?
Dr. Datta: Specifically, there was nothing in the guidelines about that. There’s a tool for coaches at every level to use, which is called the Sports Concussion Assessment Tool, or SCAT, which is going to be updated to the SCAT6. At the NCAA level, they must receive annual training on concussion management and be given an NCAA concussion handout for coaches.
Obviously, there are more rigorous protocols for national-level coaching. As it stands now, it is not mandatory, but they are given tools to assess someone once they’ve gotten a hit to take them out of the game.
Dr. Wilner: I’ve been following the concussion research through the years. They did some neuropsychological testing on athletes who’ve had this many concussions or that many concussions, and they would find deficits here or subtle deficits there, but they had no baseline.
Then, there was a movement to start testing athletes before the season starts so that they could do a repeat test after concussion and see if there is any difference. Is that something we’re recommending?
Dr. Datta: Most of the time, NCAA-level – certainly where I trained – and national-level sports do testing, but it’s not everywhere. Prior guidelines have indicated that preseason testing is not required. That is largely because there has been no standardized neuropsychological testing established.
There are computerized testing options where the validity and reliability are questionable. Also, let’s say it’s a college student; they didn’t sleep all night and then they took this computer test. They would probably do worse than they would if they had received a head hit.
Just to be on the safe side, most places that have collegiate-level sports that are at a high level do preseason testing. If I were to speak personally, aside from the guidelines, I would say that it’s been helpful for me to look at the before and after, in general, overall, to make a decision about my treatment protocol.
Dr. Wilner: Let’s talk about the patient. You have a 20-year-old guy. He’s playing football. There’s a big play. Bonk, he gets hit on the head. He’s on the ground. He’s dazed, staggers a little bit, gets up, and you ask how he is feeling. He says he’s fine and then he wobbles off to the sideline. What do you do with that kid?
Dr. Datta: Obviously, the first thing is to remove him from the play environment to a quiet space. Second, either an athletic trainer or a coach would administer basic screening neurologic tests, such as “where are you, what’s today’s date, what is your name?” and other orientation questions.
They’ll also go through the SCAT – that’ll be SCAT6 starting in July – the SCAT5 symptom questionnaire to see what symptoms they have. Often, they’re using sideline testing software.
There are two things that can be used on a card to test eye movements, to see if they’re slower. They come out of NYU, coincidentally – the Memory Image Completion (MIC) and the Mobile Universal Lexicon Evaluation System (MULES) – and are used to determine whether eye movements are slower. That way, you can tell whether someone is, compared with before they got their head hit, slower than before.
Based on this composite information, usually the teammates and the head people on the team will know if a player looks different.
They need to be taken out, obviously, if there is nausea or vomiting, any neurologic signs and symptoms, or a neck injury that needs to be stabilized. ABCs first, right? If there’s any vomiting or seizures, they should be taken to the ER right away.
The first thing is to take them out, then do a sideline assessment. Third, see if they need to immediately go to the ED versus follow-up outpatient with me within a day or two.
Dr. Wilner: I think it’s the subtle injuries that are the tough ones. Back to our 20-year-old. He says: “Oh, I’m fine. I want to go back in the game.” Everybody can tell he’s not quite right, even though he passed all the tests. What do you do then?
Dr. Datta: You have to make a judgment call for the safety of the player. They always want to go back, right? This is also an issue when they’re competing for college scholarships and things of that nature. Sometimes they’re sandbagging, where they memorize the answers.
Everything’s on the Internet nowadays, right? We have to make a judgment call as members of the healthcare community and the sports community to keep that player safe.
Just keep them out. Don’t bring them back in the game. Keep them out for a reasonable amount of time. There’s a test called the Buffalo Concussion Treadmill Test; Dr. John Leddy from University of Buffalo has developed a way for us to put athletes through a screening protocol.
This can be part of their vestibular and ocular rehabilitation, where if they don’t have symptoms when we bring their heart rate to certain levels, then we can slowly clear them for return to play as long as they’re nonsymptomatic.
Dr. Wilner: I spoke with your colleague, Dr. Riggins, who is also on your panel, and we were talking about when they can go back. She said they can go back when they don’t have any symptoms. No more headache, no more dizziness, no more lightheadedness, no more trouble concentrating or with memory – all those things have gone away.
Sometimes these symptoms are stubborn. If you have, say, 100 patients like our 20-year-old who got bonked on the head, has some headaches, and doesn’t feel quite right, what usually happens? How many are back to play the next day, the next week, or the next month? How many are out for the season? How does that play out?
Dr. Datta: It depends on a couple of different factors. One, have they had previous head injuries? Two, do they have preexisting symptoms or signs, or diagnoses like migraines, which are likely to get worse after a head injury? Anything that’s preexisting, like a mood disorder, anxiety, depression, or trouble sleeping, is going to get worse.
If they were compensating for untreated ADD or borderline personality or bipolar, I’ve seen many people who’ve developed them. These are not the norm, but I’m saying that you have to be very careful.
Getting back to the question, you treat them. Reasonably, if they’re healthy and they don’t have preexisting signs and symptoms, I would say more than half are back in about 2 weeks.. I would say 60%-70%. It all depends. If they have preexisting issues, then it’s going to take much longer.
From SCAT to SCOAT
Dr. Wilner: This has been very informative. Before we wrap up, tell us what to expect from these guidelines in July. How are they really going to help?
Dr. Datta: We’ve been using the SCAT, which was meant for more sideline assessment because that’s all we had, and it’s worked perfectly well.
This will be better because we often see them within 24-48 hours, when the symptoms are sometimes a little bit better.
We also will see the sport and concussion group come up with added athlete perspectives, ethics discussion, power-sport athlete considerations, and development of this new SCOAT.
Dr. Wilner: Dr. Datta, this is very exciting. I look forward to reading these guidelines in July. I want to thank you for your hard work. I also look forward to talking to you at next year’s meeting. Thank you very much for giving us this update.
Dr. Datta: No problem. It’s my pleasure.
A version of this article originally appeared on Medscape.com.
This transcript has been edited for clarity.
Andrew N. Wilner, MD: I’m your host, Dr. Andrew Wilner, reporting virtually from the 2023 American Academy of Neurology meeting in Boston. It’s my pleasure today to speak with Dr. Shae Datta, codirector of the NYU Langone Concussion Center.
She’s also a clinical assistant professor of neurology at NYU School of Medicine. Dr. Datta is chair of the AAN Sports Neurology Section, and she’s leading a panel on concussion at this year’s meeting. She’s going to give us an update. Welcome, Dr. Datta.
Shae Datta, MD: Thank you so much, Andrew. I really love the fact that I’m here speaking to you about all of the new, exciting developments in the field.
Dr. Wilner: Before we get too deep, tell us how you got interested in this topic.
Dr. Datta: I initially thought, when I was in training as a resident, that I wanted to do something like neurocritical care or EEG. It also puzzled me why these seemingly smaller head injuries that didn’t end up in the hospital or ICU were bounced from neurology headache clinic to neuro-ophthalmology headache clinic to neurovestibular headache clinic, and nobody seemed to be able to put together the dots about why they’re having so many different issues — but at the same time, nobody could help them.
At that time, this field was very new. I was on a plane to Paris to a neurocritical care conference as a resident, and I saw the movie Concussion with Will Smith.
It featured one of my current mentors who taught at the fellowship that I graduated from, and it was a fascinating field. I just started looking deeply into it, and I saw that there was a new training fellowship for sports neurology and concussion management, and this is basically why we’re here today.
New concussion consensus guidelines coming
Dr. Wilner: I think this field has really exploded. It used to be that you banged your head, you did a CT scan – remember, I trained about 45 years ago – and if there was nothing on the CT scan, you were done. If you had headaches, you took Tylenol until they went away.
Now, we do MRI, and we realized that it’s really a syndrome. I understand that there are going to be some formal guidelines that have been put together. Is that correct?
Dr. Datta: That’s correct. The 6th International Consensus Conference on Concussion in Sport, in Amsterdam, where I attended and presented a poster, was really a meeting of all the best minds – clinicians and researchers in brain injury – to form a consensus on the newest guidelines that are going to direct our treatment going forward.
Dr. Wilner: I’m going to ask you a trick question because the last time I looked it up I did not get a satisfying answer. What is a concussion?
Dr. Datta: That’s a very good question, and everyone always asks. A concussion is an external force that is emitted upon the head or the neck, or the body, in general, that may cause temporary loss of function. It’s a functional problem.
We don’t see much on CT. We can do MRI. We can do SPECT or we can do these very fancy images, sometimes, of high-velocity head injuries and see small microhemorrhages.
Often, we don’t see anything, but still the patient is loopy. They can’t see straight. They are double-visioned. They have vertigo. Why is that happening? On the cellular level, we have an energy deficit in the sodium-potassium-ATPase pump of the neurons themselves.
Dr. Wilner: Suppose you do see diffuse axonal injury; does that take it out of concussion, or can you have a concussion with visible injury?
Dr. Datta: I think you can have overlap in the symptoms. The diffuse axonal injury would put it into a higher grade of head injury as opposed to a mild traumatic brain injury. Definitely, we would need to work together with our trauma doctors to ensure that patients are not on blood thinners or anything until they heal well enough. Obviously, I would pick them up as an outpatient and follow them until we resolve or rehab them as best as possible.
Concussion assessment tools
Dr. Wilner: There are many sports out there where concussions are fairly frequent, like American football and hockey, for example. Are there any statements in the new guidelines?
Dr. Datta: There are no statements for or against a particular sport because that would really make too much of a bold statement about cause and effect. There is a cause and effect in long-term, repetitive exposure, I would say, in terms of someone being able to play or sustain injury.
Right now, at least at the concussion conference I went to and in the upcoming consensus statement, they will not comment on a specific sport. Obviously, we know that the higher-impact sports are a little more dangerous.
Let’s be honest. At the high school, middle school, or even younger level, some kids are not necessarily the most athletic, right? They play because their friends are playing. If they’re repeatedly getting injured, it’s time for an astute clinician, or a coach, and a whole team to assess them to see if maybe this person is just going to continue to get hurt if they’re not taken out of the game and perhaps they should go to a lower-impact sport.
Dr. Wilner: In schools, often there’s a big size and weight difference. There are 14-year-olds who are 6 fett 2 inches and 200 pounds, and there are 14-year-olds who are 5 feet 2 inches and 110 pounds. Obviously, they’re mismatched on the football field.
You mentioned coaches. Is there anything in the guidelines about training coaches?
Dr. Datta: Specifically, there was nothing in the guidelines about that. There’s a tool for coaches at every level to use, which is called the Sports Concussion Assessment Tool, or SCAT, which is going to be updated to the SCAT6. At the NCAA level, they must receive annual training on concussion management and be given an NCAA concussion handout for coaches.
Obviously, there are more rigorous protocols for national-level coaching. As it stands now, it is not mandatory, but they are given tools to assess someone once they’ve gotten a hit to take them out of the game.
Dr. Wilner: I’ve been following the concussion research through the years. They did some neuropsychological testing on athletes who’ve had this many concussions or that many concussions, and they would find deficits here or subtle deficits there, but they had no baseline.
Then, there was a movement to start testing athletes before the season starts so that they could do a repeat test after concussion and see if there is any difference. Is that something we’re recommending?
Dr. Datta: Most of the time, NCAA-level – certainly where I trained – and national-level sports do testing, but it’s not everywhere. Prior guidelines have indicated that preseason testing is not required. That is largely because there has been no standardized neuropsychological testing established.
There are computerized testing options where the validity and reliability are questionable. Also, let’s say it’s a college student; they didn’t sleep all night and then they took this computer test. They would probably do worse than they would if they had received a head hit.
Just to be on the safe side, most places that have collegiate-level sports that are at a high level do preseason testing. If I were to speak personally, aside from the guidelines, I would say that it’s been helpful for me to look at the before and after, in general, overall, to make a decision about my treatment protocol.
Dr. Wilner: Let’s talk about the patient. You have a 20-year-old guy. He’s playing football. There’s a big play. Bonk, he gets hit on the head. He’s on the ground. He’s dazed, staggers a little bit, gets up, and you ask how he is feeling. He says he’s fine and then he wobbles off to the sideline. What do you do with that kid?
Dr. Datta: Obviously, the first thing is to remove him from the play environment to a quiet space. Second, either an athletic trainer or a coach would administer basic screening neurologic tests, such as “where are you, what’s today’s date, what is your name?” and other orientation questions.
They’ll also go through the SCAT – that’ll be SCAT6 starting in July – the SCAT5 symptom questionnaire to see what symptoms they have. Often, they’re using sideline testing software.
There are two things that can be used on a card to test eye movements, to see if they’re slower. They come out of NYU, coincidentally – the Memory Image Completion (MIC) and the Mobile Universal Lexicon Evaluation System (MULES) – and are used to determine whether eye movements are slower. That way, you can tell whether someone is, compared with before they got their head hit, slower than before.
Based on this composite information, usually the teammates and the head people on the team will know if a player looks different.
They need to be taken out, obviously, if there is nausea or vomiting, any neurologic signs and symptoms, or a neck injury that needs to be stabilized. ABCs first, right? If there’s any vomiting or seizures, they should be taken to the ER right away.
The first thing is to take them out, then do a sideline assessment. Third, see if they need to immediately go to the ED versus follow-up outpatient with me within a day or two.
Dr. Wilner: I think it’s the subtle injuries that are the tough ones. Back to our 20-year-old. He says: “Oh, I’m fine. I want to go back in the game.” Everybody can tell he’s not quite right, even though he passed all the tests. What do you do then?
Dr. Datta: You have to make a judgment call for the safety of the player. They always want to go back, right? This is also an issue when they’re competing for college scholarships and things of that nature. Sometimes they’re sandbagging, where they memorize the answers.
Everything’s on the Internet nowadays, right? We have to make a judgment call as members of the healthcare community and the sports community to keep that player safe.
Just keep them out. Don’t bring them back in the game. Keep them out for a reasonable amount of time. There’s a test called the Buffalo Concussion Treadmill Test; Dr. John Leddy from University of Buffalo has developed a way for us to put athletes through a screening protocol.
This can be part of their vestibular and ocular rehabilitation, where if they don’t have symptoms when we bring their heart rate to certain levels, then we can slowly clear them for return to play as long as they’re nonsymptomatic.
Dr. Wilner: I spoke with your colleague, Dr. Riggins, who is also on your panel, and we were talking about when they can go back. She said they can go back when they don’t have any symptoms. No more headache, no more dizziness, no more lightheadedness, no more trouble concentrating or with memory – all those things have gone away.
Sometimes these symptoms are stubborn. If you have, say, 100 patients like our 20-year-old who got bonked on the head, has some headaches, and doesn’t feel quite right, what usually happens? How many are back to play the next day, the next week, or the next month? How many are out for the season? How does that play out?
Dr. Datta: It depends on a couple of different factors. One, have they had previous head injuries? Two, do they have preexisting symptoms or signs, or diagnoses like migraines, which are likely to get worse after a head injury? Anything that’s preexisting, like a mood disorder, anxiety, depression, or trouble sleeping, is going to get worse.
If they were compensating for untreated ADD or borderline personality or bipolar, I’ve seen many people who’ve developed them. These are not the norm, but I’m saying that you have to be very careful.
Getting back to the question, you treat them. Reasonably, if they’re healthy and they don’t have preexisting signs and symptoms, I would say more than half are back in about 2 weeks.. I would say 60%-70%. It all depends. If they have preexisting issues, then it’s going to take much longer.
From SCAT to SCOAT
Dr. Wilner: This has been very informative. Before we wrap up, tell us what to expect from these guidelines in July. How are they really going to help?
Dr. Datta: We’ve been using the SCAT, which was meant for more sideline assessment because that’s all we had, and it’s worked perfectly well.
This will be better because we often see them within 24-48 hours, when the symptoms are sometimes a little bit better.
We also will see the sport and concussion group come up with added athlete perspectives, ethics discussion, power-sport athlete considerations, and development of this new SCOAT.
Dr. Wilner: Dr. Datta, this is very exciting. I look forward to reading these guidelines in July. I want to thank you for your hard work. I also look forward to talking to you at next year’s meeting. Thank you very much for giving us this update.
Dr. Datta: No problem. It’s my pleasure.
A version of this article originally appeared on Medscape.com.
Morning PT
Tuesdays and Fridays are tough. Not so much because of clinic, but rather because of the 32 minutes before clinic that I’m on the Peloton bike. They are the mornings I dedicate to training VO2max.
Training VO2max, or maximal oxygen consumption, is simple. Spin for a leisurely, easy-breathing, 4 minutes, then for 4 minutes push yourself until you see the light of heaven and wish for death to come. Then relax for 4 minutes again. Repeat this cycle four to six times. Done justly, you will dread Tuesdays and Fridays too. The punishing cycle of a 4-minute push, then 4-minute recovery is, however, an excellent way to improve cardiovascular fitness. And no, I’m not training for the Boston Marathon, so why am I working so hard? Because I’m training for marathon clinic days for the next 20 years.
Now more than ever, I feel we have to be physically fit to deal with a physicians’ day’s work. It’s exhausting. The root cause is too much work, yes, but I believe being physically fit could help.
I was talking to an 86-year-old patient about this very topic recently. He was short, with a well-manicured goatee and shiny head. He stuck his arm out to shake my hand. “Glad we’re back to handshakes again, doc.” His grip was that of a 30-year-old. “Buff” you’d likely describe him: He is noticeably muscular, not a skinny old man. He’s an old Navy Master Chief who started a business in wholesale flowers, which distributes all over the United States. And he’s still working full time. Impressed, I asked his secret for such vigor. PT, he replied.
PT, or physical training, is a foundational element of the Navy. Every sailor starts his or her day with morning PT before carrying out their duties. Some 30 years later, this guy is still getting after it. He does push-ups, sit-ups, and pull-ups nearly every morning. Morning PT is what he attributes to his success not only in health, but also business. As he sees it, he has the business savvy and experience of an old guy and the energy and stamina of a college kid. A good combination for a successful life.
I’ve always been pretty fit. Lately, I’ve been trying to take it to the next level, to not just be “physically active,” but rather “high-performance fit.” There are plenty of sources for instruction; how to stay young and healthy isn’t a new idea after all. I mean, Herodotus wrote of finding the Fountain of Youth in the 5th century BCE. A couple thousand years later, it’s still on trend. One of my favorite sages giving health span advice is Peter Attia, MD. I’ve been a fan since I met him at TEDMED in 2013 and I marvel at the astounding body of work he has created since. A Johns Hopkins–trained surgeon, he has spent his career reviewing the scientific literature about longevity and sharing it as actionable content. His book, “Outlive: The Science and Art of Longevity” (New York: Penguin Random House, 2023) is a nice summary of his work. I recommend it.
Right now I’m switching between type 2 muscle fiber work (lots of jumping like my 2-year-old) and cardiovascular training including the aforementioned VO2max work. I cannot say that my patient inbox is any cleaner, or that I’m faster in the office, but I’m not flagging by the end of the day anymore. Master Chief challenged me to match his 10 pull-ups before he returns for his follow up visit. I’ll gladly give up Peloton sprints to work on that.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
Tuesdays and Fridays are tough. Not so much because of clinic, but rather because of the 32 minutes before clinic that I’m on the Peloton bike. They are the mornings I dedicate to training VO2max.
Training VO2max, or maximal oxygen consumption, is simple. Spin for a leisurely, easy-breathing, 4 minutes, then for 4 minutes push yourself until you see the light of heaven and wish for death to come. Then relax for 4 minutes again. Repeat this cycle four to six times. Done justly, you will dread Tuesdays and Fridays too. The punishing cycle of a 4-minute push, then 4-minute recovery is, however, an excellent way to improve cardiovascular fitness. And no, I’m not training for the Boston Marathon, so why am I working so hard? Because I’m training for marathon clinic days for the next 20 years.
Now more than ever, I feel we have to be physically fit to deal with a physicians’ day’s work. It’s exhausting. The root cause is too much work, yes, but I believe being physically fit could help.
I was talking to an 86-year-old patient about this very topic recently. He was short, with a well-manicured goatee and shiny head. He stuck his arm out to shake my hand. “Glad we’re back to handshakes again, doc.” His grip was that of a 30-year-old. “Buff” you’d likely describe him: He is noticeably muscular, not a skinny old man. He’s an old Navy Master Chief who started a business in wholesale flowers, which distributes all over the United States. And he’s still working full time. Impressed, I asked his secret for such vigor. PT, he replied.
PT, or physical training, is a foundational element of the Navy. Every sailor starts his or her day with morning PT before carrying out their duties. Some 30 years later, this guy is still getting after it. He does push-ups, sit-ups, and pull-ups nearly every morning. Morning PT is what he attributes to his success not only in health, but also business. As he sees it, he has the business savvy and experience of an old guy and the energy and stamina of a college kid. A good combination for a successful life.
I’ve always been pretty fit. Lately, I’ve been trying to take it to the next level, to not just be “physically active,” but rather “high-performance fit.” There are plenty of sources for instruction; how to stay young and healthy isn’t a new idea after all. I mean, Herodotus wrote of finding the Fountain of Youth in the 5th century BCE. A couple thousand years later, it’s still on trend. One of my favorite sages giving health span advice is Peter Attia, MD. I’ve been a fan since I met him at TEDMED in 2013 and I marvel at the astounding body of work he has created since. A Johns Hopkins–trained surgeon, he has spent his career reviewing the scientific literature about longevity and sharing it as actionable content. His book, “Outlive: The Science and Art of Longevity” (New York: Penguin Random House, 2023) is a nice summary of his work. I recommend it.
Right now I’m switching between type 2 muscle fiber work (lots of jumping like my 2-year-old) and cardiovascular training including the aforementioned VO2max work. I cannot say that my patient inbox is any cleaner, or that I’m faster in the office, but I’m not flagging by the end of the day anymore. Master Chief challenged me to match his 10 pull-ups before he returns for his follow up visit. I’ll gladly give up Peloton sprints to work on that.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
Tuesdays and Fridays are tough. Not so much because of clinic, but rather because of the 32 minutes before clinic that I’m on the Peloton bike. They are the mornings I dedicate to training VO2max.
Training VO2max, or maximal oxygen consumption, is simple. Spin for a leisurely, easy-breathing, 4 minutes, then for 4 minutes push yourself until you see the light of heaven and wish for death to come. Then relax for 4 minutes again. Repeat this cycle four to six times. Done justly, you will dread Tuesdays and Fridays too. The punishing cycle of a 4-minute push, then 4-minute recovery is, however, an excellent way to improve cardiovascular fitness. And no, I’m not training for the Boston Marathon, so why am I working so hard? Because I’m training for marathon clinic days for the next 20 years.
Now more than ever, I feel we have to be physically fit to deal with a physicians’ day’s work. It’s exhausting. The root cause is too much work, yes, but I believe being physically fit could help.
I was talking to an 86-year-old patient about this very topic recently. He was short, with a well-manicured goatee and shiny head. He stuck his arm out to shake my hand. “Glad we’re back to handshakes again, doc.” His grip was that of a 30-year-old. “Buff” you’d likely describe him: He is noticeably muscular, not a skinny old man. He’s an old Navy Master Chief who started a business in wholesale flowers, which distributes all over the United States. And he’s still working full time. Impressed, I asked his secret for such vigor. PT, he replied.
PT, or physical training, is a foundational element of the Navy. Every sailor starts his or her day with morning PT before carrying out their duties. Some 30 years later, this guy is still getting after it. He does push-ups, sit-ups, and pull-ups nearly every morning. Morning PT is what he attributes to his success not only in health, but also business. As he sees it, he has the business savvy and experience of an old guy and the energy and stamina of a college kid. A good combination for a successful life.
I’ve always been pretty fit. Lately, I’ve been trying to take it to the next level, to not just be “physically active,” but rather “high-performance fit.” There are plenty of sources for instruction; how to stay young and healthy isn’t a new idea after all. I mean, Herodotus wrote of finding the Fountain of Youth in the 5th century BCE. A couple thousand years later, it’s still on trend. One of my favorite sages giving health span advice is Peter Attia, MD. I’ve been a fan since I met him at TEDMED in 2013 and I marvel at the astounding body of work he has created since. A Johns Hopkins–trained surgeon, he has spent his career reviewing the scientific literature about longevity and sharing it as actionable content. His book, “Outlive: The Science and Art of Longevity” (New York: Penguin Random House, 2023) is a nice summary of his work. I recommend it.
Right now I’m switching between type 2 muscle fiber work (lots of jumping like my 2-year-old) and cardiovascular training including the aforementioned VO2max work. I cannot say that my patient inbox is any cleaner, or that I’m faster in the office, but I’m not flagging by the end of the day anymore. Master Chief challenged me to match his 10 pull-ups before he returns for his follow up visit. I’ll gladly give up Peloton sprints to work on that.
Dr. Benabio is director of Healthcare Transformation and chief of dermatology at Kaiser Permanente San Diego. The opinions expressed in this column are his own and do not represent those of Kaiser Permanente. Dr. Benabio is @Dermdoc on Twitter. Write to him at [email protected].
The antimicrobial peptide that even Pharma can love
Fastest peptide north, south, east, aaaaand west of the Pecos
Bacterial infections are supposed to be simple. You get infected, you get an antibiotic to treat it. Easy. Some bacteria, though, don’t play by the rules. Those antibiotics may kill 99.9% of germs, but what about the 0.1% that gets left behind? With their fallen comrades out of the way, the accidentally drug resistant species are free to inherit the Earth.
Antibiotic resistance is thus a major concern for the medical community. Naturally, anything that prevents doctors from successfully curing sick people is a priority. Unless you’re a major pharmaceutical company that has been loath to develop new drugs that can beat antibiotic-resistant bacteria. Blah blah, time and money, blah blah, long time between development and market application, blah blah, no profit. We all know the story with pharmaceutical companies.
Research from other sources has continued, however, and Brazilian scientists recently published research involving a peptide known as plantaricin 149. This peptide, derived from the bacterium Lactobacillus plantarum, has been known for nearly 30 years to have antibacterial properties. Pln149 in its natural state, though, is not particularly efficient at bacteria-killing. Fortunately, we have science and technology on our side.
The researchers synthesized 20 analogs of Pln149, of which Pln149-PEP20 had the best results. The elegantly named compound is less than half the size of the original peptide, less toxic, and far better at killing any and all drug-resistant bacteria the researchers threw at it. How much better? Pln149-PEP20 started killing bacteria less than an hour after being introduced in lab trials.
The research is just in its early days – just because something is less toxic doesn’t necessarily mean you want to go and help yourself to it – but we can only hope that those lovely pharmaceutical companies deign to look down upon us and actually develop a drug utilizing Pln149-PEP20 to, you know, actually help sick people, instead of trying to build monopolies or avoiding paying billions in taxes. Yeah, we couldn’t keep a straight face through that last sentence either.
Speed healing: The wavy wound gets the swirl
Did you know that wavy wounds heal faster than straight wounds? Well, we didn’t, but apparently quite a few people did, because somebody has been trying to figure out why wavy wounds heal faster than straight ones. Do the surgeons know about this? How about you dermatologists? Wavy over straight? We’re the media. We’re supposed to report this kind of stuff. Maybe hit us with a tweet next time you do something important, or push a TikTok our way, okay?
You could be more like the investigators at Nanyang Technological University in Singapore, who figured out the why and then released a statement about it.
They created synthetic wounds – some straight, some wavy – in micropatterned hydrogel substrates that mimicked human skin. Then they used an advanced optical technique known as particle image velocimetry to measure fluid flow and learn how cells moved to close the wound gaps.
The wavy wounds “induced more complex collective cell movements, such as a swirly, vortex-like motion,” according to the written statement from NTU Singapore. In the straight wounds, cell movements paralleled the wound front, “moving in straight lines like a marching band,” they pointed out, unlike some researchers who never call us unless they need money.
Complex epithelial cell movements are better, it turns out. Over an observation period of 64 hours the NTU team found that the healing efficiency of wavy gaps – measured by the area covered by the cells over time – is nearly five times faster than straight gaps.
The complex motion “enabled cells to quickly connect with similar cells on the opposite site of the wound edge, forming a bridge and closing the wavy wound gaps faster than straight gaps,” explained lead author Xu Hongmei, a doctoral student at NTU’s School of Mechanical and Aerospace Engineering, who seems to have time to toss out a tumblr or two to keep the press informed.
As for the rest of you, would it kill you to pick up a phone once in a while? Maybe let a journalist know that you’re still alive? We have feelings too, you know, and we worry.
A little Jekyll, a little Hyde, and a little shop of horrors
More “Little Shop of Horrors” references are coming, so be prepared.
We begin with Triphyophyllum peltatum. This woody vine is of great interest to medical and pharmaceutical researchers because its constituents have shown promise against pancreatic cancer and leukemia cells, among others, along with the pathogens that cause malaria and other diseases. There is another side, however. T. peltatum also has a tendency to turn into a realistic Audrey II when deprived.
No, of course they’re not craving human flesh, but it does become … carnivorous in its appetite.
T. peltatum, native to the West African tropics and not found in a New York florist shop, has the unique ability to change its diet and development based on the environmental circumstances. For some unknown reason, the leaves would develop adhesive traps in the form of sticky drops that capture insect prey. The plant is notoriously hard to grow, however, so no one could study the transformation under lab conditions. Until now.
A group of German scientists “exposed the plant to different stress factors, including deficiencies of various nutrients, and studied how it responded to each,” said Dr. Traud Winkelmann of Leibniz University Hannover. “Only in one case were we able to observe the formation of traps: in the case of a lack of phosphorus.”
Well, there you have it: phosphorus. We need it for healthy bones and teeth, which this plant doesn’t have to worry about, unlike its Tony Award–nominated counterpart. The investigators hope that their findings could lead to “future molecular analyses that will help understand the origins of carnivory,” but we’re guessing that a certain singing alien species will be left out of that research.
Fastest peptide north, south, east, aaaaand west of the Pecos
Bacterial infections are supposed to be simple. You get infected, you get an antibiotic to treat it. Easy. Some bacteria, though, don’t play by the rules. Those antibiotics may kill 99.9% of germs, but what about the 0.1% that gets left behind? With their fallen comrades out of the way, the accidentally drug resistant species are free to inherit the Earth.
Antibiotic resistance is thus a major concern for the medical community. Naturally, anything that prevents doctors from successfully curing sick people is a priority. Unless you’re a major pharmaceutical company that has been loath to develop new drugs that can beat antibiotic-resistant bacteria. Blah blah, time and money, blah blah, long time between development and market application, blah blah, no profit. We all know the story with pharmaceutical companies.
Research from other sources has continued, however, and Brazilian scientists recently published research involving a peptide known as plantaricin 149. This peptide, derived from the bacterium Lactobacillus plantarum, has been known for nearly 30 years to have antibacterial properties. Pln149 in its natural state, though, is not particularly efficient at bacteria-killing. Fortunately, we have science and technology on our side.
The researchers synthesized 20 analogs of Pln149, of which Pln149-PEP20 had the best results. The elegantly named compound is less than half the size of the original peptide, less toxic, and far better at killing any and all drug-resistant bacteria the researchers threw at it. How much better? Pln149-PEP20 started killing bacteria less than an hour after being introduced in lab trials.
The research is just in its early days – just because something is less toxic doesn’t necessarily mean you want to go and help yourself to it – but we can only hope that those lovely pharmaceutical companies deign to look down upon us and actually develop a drug utilizing Pln149-PEP20 to, you know, actually help sick people, instead of trying to build monopolies or avoiding paying billions in taxes. Yeah, we couldn’t keep a straight face through that last sentence either.
Speed healing: The wavy wound gets the swirl
Did you know that wavy wounds heal faster than straight wounds? Well, we didn’t, but apparently quite a few people did, because somebody has been trying to figure out why wavy wounds heal faster than straight ones. Do the surgeons know about this? How about you dermatologists? Wavy over straight? We’re the media. We’re supposed to report this kind of stuff. Maybe hit us with a tweet next time you do something important, or push a TikTok our way, okay?
You could be more like the investigators at Nanyang Technological University in Singapore, who figured out the why and then released a statement about it.
They created synthetic wounds – some straight, some wavy – in micropatterned hydrogel substrates that mimicked human skin. Then they used an advanced optical technique known as particle image velocimetry to measure fluid flow and learn how cells moved to close the wound gaps.
The wavy wounds “induced more complex collective cell movements, such as a swirly, vortex-like motion,” according to the written statement from NTU Singapore. In the straight wounds, cell movements paralleled the wound front, “moving in straight lines like a marching band,” they pointed out, unlike some researchers who never call us unless they need money.
Complex epithelial cell movements are better, it turns out. Over an observation period of 64 hours the NTU team found that the healing efficiency of wavy gaps – measured by the area covered by the cells over time – is nearly five times faster than straight gaps.
The complex motion “enabled cells to quickly connect with similar cells on the opposite site of the wound edge, forming a bridge and closing the wavy wound gaps faster than straight gaps,” explained lead author Xu Hongmei, a doctoral student at NTU’s School of Mechanical and Aerospace Engineering, who seems to have time to toss out a tumblr or two to keep the press informed.
As for the rest of you, would it kill you to pick up a phone once in a while? Maybe let a journalist know that you’re still alive? We have feelings too, you know, and we worry.
A little Jekyll, a little Hyde, and a little shop of horrors
More “Little Shop of Horrors” references are coming, so be prepared.
We begin with Triphyophyllum peltatum. This woody vine is of great interest to medical and pharmaceutical researchers because its constituents have shown promise against pancreatic cancer and leukemia cells, among others, along with the pathogens that cause malaria and other diseases. There is another side, however. T. peltatum also has a tendency to turn into a realistic Audrey II when deprived.
No, of course they’re not craving human flesh, but it does become … carnivorous in its appetite.
T. peltatum, native to the West African tropics and not found in a New York florist shop, has the unique ability to change its diet and development based on the environmental circumstances. For some unknown reason, the leaves would develop adhesive traps in the form of sticky drops that capture insect prey. The plant is notoriously hard to grow, however, so no one could study the transformation under lab conditions. Until now.
A group of German scientists “exposed the plant to different stress factors, including deficiencies of various nutrients, and studied how it responded to each,” said Dr. Traud Winkelmann of Leibniz University Hannover. “Only in one case were we able to observe the formation of traps: in the case of a lack of phosphorus.”
Well, there you have it: phosphorus. We need it for healthy bones and teeth, which this plant doesn’t have to worry about, unlike its Tony Award–nominated counterpart. The investigators hope that their findings could lead to “future molecular analyses that will help understand the origins of carnivory,” but we’re guessing that a certain singing alien species will be left out of that research.
Fastest peptide north, south, east, aaaaand west of the Pecos
Bacterial infections are supposed to be simple. You get infected, you get an antibiotic to treat it. Easy. Some bacteria, though, don’t play by the rules. Those antibiotics may kill 99.9% of germs, but what about the 0.1% that gets left behind? With their fallen comrades out of the way, the accidentally drug resistant species are free to inherit the Earth.
Antibiotic resistance is thus a major concern for the medical community. Naturally, anything that prevents doctors from successfully curing sick people is a priority. Unless you’re a major pharmaceutical company that has been loath to develop new drugs that can beat antibiotic-resistant bacteria. Blah blah, time and money, blah blah, long time between development and market application, blah blah, no profit. We all know the story with pharmaceutical companies.
Research from other sources has continued, however, and Brazilian scientists recently published research involving a peptide known as plantaricin 149. This peptide, derived from the bacterium Lactobacillus plantarum, has been known for nearly 30 years to have antibacterial properties. Pln149 in its natural state, though, is not particularly efficient at bacteria-killing. Fortunately, we have science and technology on our side.
The researchers synthesized 20 analogs of Pln149, of which Pln149-PEP20 had the best results. The elegantly named compound is less than half the size of the original peptide, less toxic, and far better at killing any and all drug-resistant bacteria the researchers threw at it. How much better? Pln149-PEP20 started killing bacteria less than an hour after being introduced in lab trials.
The research is just in its early days – just because something is less toxic doesn’t necessarily mean you want to go and help yourself to it – but we can only hope that those lovely pharmaceutical companies deign to look down upon us and actually develop a drug utilizing Pln149-PEP20 to, you know, actually help sick people, instead of trying to build monopolies or avoiding paying billions in taxes. Yeah, we couldn’t keep a straight face through that last sentence either.
Speed healing: The wavy wound gets the swirl
Did you know that wavy wounds heal faster than straight wounds? Well, we didn’t, but apparently quite a few people did, because somebody has been trying to figure out why wavy wounds heal faster than straight ones. Do the surgeons know about this? How about you dermatologists? Wavy over straight? We’re the media. We’re supposed to report this kind of stuff. Maybe hit us with a tweet next time you do something important, or push a TikTok our way, okay?
You could be more like the investigators at Nanyang Technological University in Singapore, who figured out the why and then released a statement about it.
They created synthetic wounds – some straight, some wavy – in micropatterned hydrogel substrates that mimicked human skin. Then they used an advanced optical technique known as particle image velocimetry to measure fluid flow and learn how cells moved to close the wound gaps.
The wavy wounds “induced more complex collective cell movements, such as a swirly, vortex-like motion,” according to the written statement from NTU Singapore. In the straight wounds, cell movements paralleled the wound front, “moving in straight lines like a marching band,” they pointed out, unlike some researchers who never call us unless they need money.
Complex epithelial cell movements are better, it turns out. Over an observation period of 64 hours the NTU team found that the healing efficiency of wavy gaps – measured by the area covered by the cells over time – is nearly five times faster than straight gaps.
The complex motion “enabled cells to quickly connect with similar cells on the opposite site of the wound edge, forming a bridge and closing the wavy wound gaps faster than straight gaps,” explained lead author Xu Hongmei, a doctoral student at NTU’s School of Mechanical and Aerospace Engineering, who seems to have time to toss out a tumblr or two to keep the press informed.
As for the rest of you, would it kill you to pick up a phone once in a while? Maybe let a journalist know that you’re still alive? We have feelings too, you know, and we worry.
A little Jekyll, a little Hyde, and a little shop of horrors
More “Little Shop of Horrors” references are coming, so be prepared.
We begin with Triphyophyllum peltatum. This woody vine is of great interest to medical and pharmaceutical researchers because its constituents have shown promise against pancreatic cancer and leukemia cells, among others, along with the pathogens that cause malaria and other diseases. There is another side, however. T. peltatum also has a tendency to turn into a realistic Audrey II when deprived.
No, of course they’re not craving human flesh, but it does become … carnivorous in its appetite.
T. peltatum, native to the West African tropics and not found in a New York florist shop, has the unique ability to change its diet and development based on the environmental circumstances. For some unknown reason, the leaves would develop adhesive traps in the form of sticky drops that capture insect prey. The plant is notoriously hard to grow, however, so no one could study the transformation under lab conditions. Until now.
A group of German scientists “exposed the plant to different stress factors, including deficiencies of various nutrients, and studied how it responded to each,” said Dr. Traud Winkelmann of Leibniz University Hannover. “Only in one case were we able to observe the formation of traps: in the case of a lack of phosphorus.”
Well, there you have it: phosphorus. We need it for healthy bones and teeth, which this plant doesn’t have to worry about, unlike its Tony Award–nominated counterpart. The investigators hope that their findings could lead to “future molecular analyses that will help understand the origins of carnivory,” but we’re guessing that a certain singing alien species will be left out of that research.
Nonpharmacologic therapies for T2D: Five things to know
According to the Centers for Disease Control and Prevention National Diabetes Statistic Report, there are more than 37 million adults aged 18 years or older with diabetes in the United States, representing 14.7% of the adult population. Approximately 90%-95% of people diagnosed with diabetes have type 2 diabetes (T2D). An increasing aging population with T2D and a disparate incidence and burden of disease in African American and Hispanic populations raise important care considerations in effective disease assessment and management, especially in primary care, where the majority of diabetes management occurs.
This extends to the need for quality patient education in an effort to give persons with diabetes a better understanding of what it’s like to live with the disease.
Here are five things to know about nonpharmacologic therapies for effective T2D management.
1. Understand and treat the person before the disease.
Diabetes is a complex and unrelenting disease of self-management, requiring an individualized care approach to achieve optimal health outcomes and quality of life for persons living with this condition. Over 90% of care is provided by the person with diabetes, therefore understanding the lived world of the person with diabetes and its connected impact on self-care is critical to establishing effective treatment recommendations, especially for people from racial and ethnic minority groups and lower socioeconomic status where diabetes disparities are highest. Disease prevalence, cost of care, and disease burden are driven by social determinants of health (SDOH) factors that need to be assessed, and strategies addressing causative factors need to be implemented. SDOH factors, including the built environment, safety, financial status, education, food access, health care access, and social support, directly affect the ability of a person with diabetes to effectively implement treatment recommendations, including access to new medications. The adoption of a shared decision-making approach is key to person-centered care. Shared decision-making promotes a positive communication feedback loop, therapeutic patient-care team relationship, and collaborative plan of care between the person with diabetes and the care team. It also supports the establishment of mutual respect between the person with diabetes and the care team members. This cultivates the strong, open, and authentic partnership needed for effective chronic disease management.
2. Quality diabetes education is the foundation for effective self-care.
Diabetes self-management education and support (DSMES) is a fundamental component of diabetes care and ensures patients have the knowledge, skills, motivation, and resources necessary for effectively managing this condition. Despite treatment advances and the evidence base for DSMES, less than 5% of Medicare beneficiaries and 6.8% of privately insured beneficiaries have utilized its services, and this is a likely contributor to the lack of improvement for achieving national diabetes clinical targets. The Association of Diabetes Care and Education Specialists (ADCES7) Self-Care Behaviors provides an evidence-based framework for an optimal DSMES curriculum, incorporating the self-care behaviors of healthy coping (e.g., having a positive attitude toward diabetes self-management), nutritious eating, being active, taking medication, monitoring, reducing risk, and problem-solving.
There are four core times to implement and adapt referral for DSMES: (1) at diagnosis, (2) annually or when not meeting targets, (3) when complications arise, and (4) with transitions in life and care. DSMES referrals should be made for programs accredited by the ADCES or American Diabetes Association (ADA) and led by expert Certified Diabetes Care and Education Specialists (CDCES). The multidisciplinary composition and clinical skill level of CDCES make them a highly valued member of the diabetes care team. CDCES have demonstrated not only diabetes education expertise but are involved in broader health care roles to include population health management, technology integration, mitigation of therapeutic inertia, quality improvement activity, and delivery of cost-effective care.
3. Establish a strong foundation in lifestyle medicine.
Lifestyle medicine encompasses healthy eating, physical activity, restorative sleep, stress management, avoidance of risky behaviors, and positive social connections. It has also been strongly connected as a primary modality to prevent and treat chronic conditions like T2D. Lifestyle modifications have been noted in reducing the incidence of developing diabetes, reversing disease, improving clinical markers such as A1c and lipids, weight reduction, reducing use of medications, and improving quality of life. The multidisciplinary care team and CDCES can support the empowerment of individuals with T2D to develop the life skills and knowledge needed to establish positive self-care behaviors and successfully achieve health goals. Lifestyle medicine is not a replacement for pharmacologic interventions but rather serves as an adjunct when medication management is required.
4. Harness technology in diabetes treatment and care delivery.
Diabetes technology is advancing swiftly and includes glucose monitors, medication delivery devices, data-sharing platforms, and disease self-management applications. Combined with education and support, diabetes technology has been shown to have a positive clinical and personal impact on disease outcomes and quality of life. Regardless of its benefits, at times technology can seem overwhelming for the person with diabetes and the care team. Diabetes Care and Education Specialists (DCES) can support the care team and people living with diabetes to effectively identify, implement, and evaluate patient-centered diabetes technologies, as well as implement processes to drive clinical efficiencies and sustainability. Patient-generated health data reports can provide the care team with effective and proficient evaluation of diabetes care and needed treatment changes.
The expansion of telehealth during the COVID-19 pandemic, including real-time and asynchronous approaches, coupled with in-person care team visits, has resulted in improved access to diabetes care and education. Moreover, there continues to be an expanding health system focus on improving access to care beyond traditional brick and mortar solutions. Telehealth poses one possible access solution for people living with diabetes for whom factors such as transportation, remote geographies, and physical limitations affect their ability to attend in-person care visits.
5. Assess and address diabetes-related distress.
The persistent nature of diabetes self-care expectations and the impact on lifestyle behaviors, medication adherence, and glycemic control demands the need for assessment and treatment of diabetes-related distress (DRD). DRD can be expressed as shame, guilt, anger, fear, and frustration in combination with the everyday context of life priorities and stressors. An assessment of diabetes distress, utilizing a simple scale, should be included as part of an annual therapeutic diabetes care plan. The ADA Standards of Care in Diabetes recommends assessing patients’ psychological and social situations as an ongoing part of medical management, including an annual screening for depression and other psychological problems. The prevalence of depression is nearly twice as high in people with T2D than in the general population and can significantly influence patients’ ability to self-manage their diabetes and achieve healthy outcomes. Assessment and treatment of psychosocial components of care can result in significant improvements in A1c and other positive outcomes, including quality of life.
Kellie M. Rodriguez, director of the global diabetes program at Parkland Health, Dallas, Tex., disclosed ties with the Association of Diabetes Care and Education Specialists.
A version of this article originally appeared on Medscape.com.
According to the Centers for Disease Control and Prevention National Diabetes Statistic Report, there are more than 37 million adults aged 18 years or older with diabetes in the United States, representing 14.7% of the adult population. Approximately 90%-95% of people diagnosed with diabetes have type 2 diabetes (T2D). An increasing aging population with T2D and a disparate incidence and burden of disease in African American and Hispanic populations raise important care considerations in effective disease assessment and management, especially in primary care, where the majority of diabetes management occurs.
This extends to the need for quality patient education in an effort to give persons with diabetes a better understanding of what it’s like to live with the disease.
Here are five things to know about nonpharmacologic therapies for effective T2D management.
1. Understand and treat the person before the disease.
Diabetes is a complex and unrelenting disease of self-management, requiring an individualized care approach to achieve optimal health outcomes and quality of life for persons living with this condition. Over 90% of care is provided by the person with diabetes, therefore understanding the lived world of the person with diabetes and its connected impact on self-care is critical to establishing effective treatment recommendations, especially for people from racial and ethnic minority groups and lower socioeconomic status where diabetes disparities are highest. Disease prevalence, cost of care, and disease burden are driven by social determinants of health (SDOH) factors that need to be assessed, and strategies addressing causative factors need to be implemented. SDOH factors, including the built environment, safety, financial status, education, food access, health care access, and social support, directly affect the ability of a person with diabetes to effectively implement treatment recommendations, including access to new medications. The adoption of a shared decision-making approach is key to person-centered care. Shared decision-making promotes a positive communication feedback loop, therapeutic patient-care team relationship, and collaborative plan of care between the person with diabetes and the care team. It also supports the establishment of mutual respect between the person with diabetes and the care team members. This cultivates the strong, open, and authentic partnership needed for effective chronic disease management.
2. Quality diabetes education is the foundation for effective self-care.
Diabetes self-management education and support (DSMES) is a fundamental component of diabetes care and ensures patients have the knowledge, skills, motivation, and resources necessary for effectively managing this condition. Despite treatment advances and the evidence base for DSMES, less than 5% of Medicare beneficiaries and 6.8% of privately insured beneficiaries have utilized its services, and this is a likely contributor to the lack of improvement for achieving national diabetes clinical targets. The Association of Diabetes Care and Education Specialists (ADCES7) Self-Care Behaviors provides an evidence-based framework for an optimal DSMES curriculum, incorporating the self-care behaviors of healthy coping (e.g., having a positive attitude toward diabetes self-management), nutritious eating, being active, taking medication, monitoring, reducing risk, and problem-solving.
There are four core times to implement and adapt referral for DSMES: (1) at diagnosis, (2) annually or when not meeting targets, (3) when complications arise, and (4) with transitions in life and care. DSMES referrals should be made for programs accredited by the ADCES or American Diabetes Association (ADA) and led by expert Certified Diabetes Care and Education Specialists (CDCES). The multidisciplinary composition and clinical skill level of CDCES make them a highly valued member of the diabetes care team. CDCES have demonstrated not only diabetes education expertise but are involved in broader health care roles to include population health management, technology integration, mitigation of therapeutic inertia, quality improvement activity, and delivery of cost-effective care.
3. Establish a strong foundation in lifestyle medicine.
Lifestyle medicine encompasses healthy eating, physical activity, restorative sleep, stress management, avoidance of risky behaviors, and positive social connections. It has also been strongly connected as a primary modality to prevent and treat chronic conditions like T2D. Lifestyle modifications have been noted in reducing the incidence of developing diabetes, reversing disease, improving clinical markers such as A1c and lipids, weight reduction, reducing use of medications, and improving quality of life. The multidisciplinary care team and CDCES can support the empowerment of individuals with T2D to develop the life skills and knowledge needed to establish positive self-care behaviors and successfully achieve health goals. Lifestyle medicine is not a replacement for pharmacologic interventions but rather serves as an adjunct when medication management is required.
4. Harness technology in diabetes treatment and care delivery.
Diabetes technology is advancing swiftly and includes glucose monitors, medication delivery devices, data-sharing platforms, and disease self-management applications. Combined with education and support, diabetes technology has been shown to have a positive clinical and personal impact on disease outcomes and quality of life. Regardless of its benefits, at times technology can seem overwhelming for the person with diabetes and the care team. Diabetes Care and Education Specialists (DCES) can support the care team and people living with diabetes to effectively identify, implement, and evaluate patient-centered diabetes technologies, as well as implement processes to drive clinical efficiencies and sustainability. Patient-generated health data reports can provide the care team with effective and proficient evaluation of diabetes care and needed treatment changes.
The expansion of telehealth during the COVID-19 pandemic, including real-time and asynchronous approaches, coupled with in-person care team visits, has resulted in improved access to diabetes care and education. Moreover, there continues to be an expanding health system focus on improving access to care beyond traditional brick and mortar solutions. Telehealth poses one possible access solution for people living with diabetes for whom factors such as transportation, remote geographies, and physical limitations affect their ability to attend in-person care visits.
5. Assess and address diabetes-related distress.
The persistent nature of diabetes self-care expectations and the impact on lifestyle behaviors, medication adherence, and glycemic control demands the need for assessment and treatment of diabetes-related distress (DRD). DRD can be expressed as shame, guilt, anger, fear, and frustration in combination with the everyday context of life priorities and stressors. An assessment of diabetes distress, utilizing a simple scale, should be included as part of an annual therapeutic diabetes care plan. The ADA Standards of Care in Diabetes recommends assessing patients’ psychological and social situations as an ongoing part of medical management, including an annual screening for depression and other psychological problems. The prevalence of depression is nearly twice as high in people with T2D than in the general population and can significantly influence patients’ ability to self-manage their diabetes and achieve healthy outcomes. Assessment and treatment of psychosocial components of care can result in significant improvements in A1c and other positive outcomes, including quality of life.
Kellie M. Rodriguez, director of the global diabetes program at Parkland Health, Dallas, Tex., disclosed ties with the Association of Diabetes Care and Education Specialists.
A version of this article originally appeared on Medscape.com.
According to the Centers for Disease Control and Prevention National Diabetes Statistic Report, there are more than 37 million adults aged 18 years or older with diabetes in the United States, representing 14.7% of the adult population. Approximately 90%-95% of people diagnosed with diabetes have type 2 diabetes (T2D). An increasing aging population with T2D and a disparate incidence and burden of disease in African American and Hispanic populations raise important care considerations in effective disease assessment and management, especially in primary care, where the majority of diabetes management occurs.
This extends to the need for quality patient education in an effort to give persons with diabetes a better understanding of what it’s like to live with the disease.
Here are five things to know about nonpharmacologic therapies for effective T2D management.
1. Understand and treat the person before the disease.
Diabetes is a complex and unrelenting disease of self-management, requiring an individualized care approach to achieve optimal health outcomes and quality of life for persons living with this condition. Over 90% of care is provided by the person with diabetes, therefore understanding the lived world of the person with diabetes and its connected impact on self-care is critical to establishing effective treatment recommendations, especially for people from racial and ethnic minority groups and lower socioeconomic status where diabetes disparities are highest. Disease prevalence, cost of care, and disease burden are driven by social determinants of health (SDOH) factors that need to be assessed, and strategies addressing causative factors need to be implemented. SDOH factors, including the built environment, safety, financial status, education, food access, health care access, and social support, directly affect the ability of a person with diabetes to effectively implement treatment recommendations, including access to new medications. The adoption of a shared decision-making approach is key to person-centered care. Shared decision-making promotes a positive communication feedback loop, therapeutic patient-care team relationship, and collaborative plan of care between the person with diabetes and the care team. It also supports the establishment of mutual respect between the person with diabetes and the care team members. This cultivates the strong, open, and authentic partnership needed for effective chronic disease management.
2. Quality diabetes education is the foundation for effective self-care.
Diabetes self-management education and support (DSMES) is a fundamental component of diabetes care and ensures patients have the knowledge, skills, motivation, and resources necessary for effectively managing this condition. Despite treatment advances and the evidence base for DSMES, less than 5% of Medicare beneficiaries and 6.8% of privately insured beneficiaries have utilized its services, and this is a likely contributor to the lack of improvement for achieving national diabetes clinical targets. The Association of Diabetes Care and Education Specialists (ADCES7) Self-Care Behaviors provides an evidence-based framework for an optimal DSMES curriculum, incorporating the self-care behaviors of healthy coping (e.g., having a positive attitude toward diabetes self-management), nutritious eating, being active, taking medication, monitoring, reducing risk, and problem-solving.
There are four core times to implement and adapt referral for DSMES: (1) at diagnosis, (2) annually or when not meeting targets, (3) when complications arise, and (4) with transitions in life and care. DSMES referrals should be made for programs accredited by the ADCES or American Diabetes Association (ADA) and led by expert Certified Diabetes Care and Education Specialists (CDCES). The multidisciplinary composition and clinical skill level of CDCES make them a highly valued member of the diabetes care team. CDCES have demonstrated not only diabetes education expertise but are involved in broader health care roles to include population health management, technology integration, mitigation of therapeutic inertia, quality improvement activity, and delivery of cost-effective care.
3. Establish a strong foundation in lifestyle medicine.
Lifestyle medicine encompasses healthy eating, physical activity, restorative sleep, stress management, avoidance of risky behaviors, and positive social connections. It has also been strongly connected as a primary modality to prevent and treat chronic conditions like T2D. Lifestyle modifications have been noted in reducing the incidence of developing diabetes, reversing disease, improving clinical markers such as A1c and lipids, weight reduction, reducing use of medications, and improving quality of life. The multidisciplinary care team and CDCES can support the empowerment of individuals with T2D to develop the life skills and knowledge needed to establish positive self-care behaviors and successfully achieve health goals. Lifestyle medicine is not a replacement for pharmacologic interventions but rather serves as an adjunct when medication management is required.
4. Harness technology in diabetes treatment and care delivery.
Diabetes technology is advancing swiftly and includes glucose monitors, medication delivery devices, data-sharing platforms, and disease self-management applications. Combined with education and support, diabetes technology has been shown to have a positive clinical and personal impact on disease outcomes and quality of life. Regardless of its benefits, at times technology can seem overwhelming for the person with diabetes and the care team. Diabetes Care and Education Specialists (DCES) can support the care team and people living with diabetes to effectively identify, implement, and evaluate patient-centered diabetes technologies, as well as implement processes to drive clinical efficiencies and sustainability. Patient-generated health data reports can provide the care team with effective and proficient evaluation of diabetes care and needed treatment changes.
The expansion of telehealth during the COVID-19 pandemic, including real-time and asynchronous approaches, coupled with in-person care team visits, has resulted in improved access to diabetes care and education. Moreover, there continues to be an expanding health system focus on improving access to care beyond traditional brick and mortar solutions. Telehealth poses one possible access solution for people living with diabetes for whom factors such as transportation, remote geographies, and physical limitations affect their ability to attend in-person care visits.
5. Assess and address diabetes-related distress.
The persistent nature of diabetes self-care expectations and the impact on lifestyle behaviors, medication adherence, and glycemic control demands the need for assessment and treatment of diabetes-related distress (DRD). DRD can be expressed as shame, guilt, anger, fear, and frustration in combination with the everyday context of life priorities and stressors. An assessment of diabetes distress, utilizing a simple scale, should be included as part of an annual therapeutic diabetes care plan. The ADA Standards of Care in Diabetes recommends assessing patients’ psychological and social situations as an ongoing part of medical management, including an annual screening for depression and other psychological problems. The prevalence of depression is nearly twice as high in people with T2D than in the general population and can significantly influence patients’ ability to self-manage their diabetes and achieve healthy outcomes. Assessment and treatment of psychosocial components of care can result in significant improvements in A1c and other positive outcomes, including quality of life.
Kellie M. Rodriguez, director of the global diabetes program at Parkland Health, Dallas, Tex., disclosed ties with the Association of Diabetes Care and Education Specialists.
A version of this article originally appeared on Medscape.com.
Overcoming death anxiety: Understanding our lives and legacies
Disappointment – “I failed this exam, my life is ruined” or regret – “I am getting a divorce, I wasted so much of my life.” Patients present with a wide variety of complaints that can be understood as a form of death anxiety.
Fundamentally, patients come to see us to understand and explain their lives. One can reinterpret this as a patient asking, “If I died today, would my life have been good enough?” or “When I die, how will I look back at this moment in time and judge the choices I made?”
Other patients come to us attempting to use the same maladaptive defenses that did not serve them well in the past in the hopes of achieving a new outcome that will validate their lives. While it may be understandable that a child dissociates when facing abuse, hoping that this defense mechanism – as an adult – will work, it is unlikely to be fruitful and will certainly not validate or repair the past. This hope to repair one’s past can be interpreted as a fear of death – “I cannot die without correcting this.” This psychic conflict can intensify if one does not adopt a more adaptive understanding of his or her life.
Death anxiety is the feeling associated with the finality of life. Not only is life final, but a constant reminder of that fact is the idea that any one moment is final. Other than in science fiction, one cannot return to a prior moment and repair the past in the hope of a better future. Time goes only in one direction and death is the natural outcome of all life.
Death may have some evolutionary purpose that encourages the promotion of newer and more fitter genes, but one doesn’t have to consider its origin and reason to admit death’s constancy throughout humanity. People die and that is an anxiety-provoking fact of life. Death anxiety can feel especially tangible in our connected world. In a world of constant news, it can feel – for many people – that if your house wasn’t displaced because of global warming or that you are not a war refugee, you don’t deserve to be seen and heard.
This can be a particularly strong feeling for and among physicians, who don’t think that the mental health challenges generated by their own tough circumstances deserve to be labeled a mental disorder, so they designate themselves as having “burnout”1 – as they don’t deserve the sympathy of having the clinically significant impairments of “depression.” Our traumas don’t seem important enough to deserve notice, and thus we may feel like we could die without ever having truly mattered.
This can also be applied in the reverse fashion. Certain individuals, like celebrities, live such extravagant lives that our simpler achievements can feel futile in comparison. While the neighbor’s grass has always felt greener, we are now constantly exposed to perfectly manicured lawns on social media. When compounded, the idea that our successes and our pains are both simultaneously irrelevant can lead one to have very palpable death anxiety – my life will never matter if none of the things I do matter, or my life will never matter because I will never achieve the requisite number of “likes” or “views” on social media required to believe that one’s life was worth living.
A way of alleviating death anxiety can be through the concept of legacy, or what we leave behind. How will people remember me? Will people remember me, or will I disappear like a shadow into the distant memory of my near and dear ones? The idea of being forgotten or lost to memory is intolerable to some and can be a strong driving force to “make a name” for oneself. For those who crave fame, whether a celebrity or a generous alumnus, part of this is likely related to remaining well known after death. After all, one can argue that you are not truly dead as long as you continue to live in the memory and/or genes of others.
Legacy thus serves as a form of posthumous transitional object; a way of calming our fears about how we will be remembered. For many, reconciling their feelings towards their legacy is an avenue to tame death anxiety.
A case study
The case of Mr. B illustrates this. As a 72-year-old male with a long history of generalized anxiety, he once had a nightmare as a child, similar to the plot of Sleeping Beauty. In his dream, he walks up a spiral staircase in a castle and touches the spindle on a spinning wheel, thus ending his life. The dream was vivid and marked him.
His fear of death has subsequently reared its head throughout his life. In more recent years, he has suffered from cardiovascular disease. Although he is now quite stable on his current cardiac medications, he is constantly fearful that he will experience a cardiac event while asleep and suddenly die. He is so anxious about not waking up in the morning that falling asleep is nearly impossible.
Mr. B is single, with no close family besides a sister who lives in another state. He has a dog and few friends. He worries about what will happen to his dog if he doesn’t wake up in the morning, but perhaps most distressing to him is “there’s so much left for me to do, I have so much to write!” As an accomplished author, he continues to write, and hopes to publish many more novels in his lifetime. It is unsurprising that someone without a strong social network may fear death and feel pressured to somehow make a mark on the world before the curtain falls. It is scary to think that even without us, life goes on.
By bringing to Mr. B’s attention that his ever-present anxiety is rooted in fear of death, he was able to gain more insight into his own defensive behaviors. By confronting his death anxiety and processing his definition of a life well lived together in therapy, he’s acknowledged his lack of social connection as demoralizing, and has made significant strides to remedy this. He’s been able to focus on a more fulfilling life day to day, with less emphasis on his to-do list and aspirations. Instead, he’s connected more with his faith and members of his church. He’s gotten close to several neighbors and enjoys long dinners with them on his back patio.
At a recent meeting, he confessed that he feels “lighter” and not as fearful about sudden cardiac death, and thus has noticed that his overall anxiety has diminished greatly. He concluded that experiencing meaningful relationships in the present moment would give him greater joy than spending his remaining time engaged in preserving a future identity for himself. It seems elementary, but if we look within, we may find that we all suffer similarly: How much of our daily actions, thoughts, and fears are tied to the looming threat of death?
Conclusion
While modern psychiatry continues to advance with better understandings of our neurobiology, improved knowledge of pathophysiological processes of mental illness, and expanding discovery of novel pharmacotherapeutics, the modern psychiatrist should not forget fundamental truths of behavior and humanity that were once the staple of psychiatry.
Death anxiety is one of those truths; it is the ultimate stressor that we will all face and should be regular study and practice for psychiatrists. In this article, we explored some of those facets most meaningful to us but recommend you expand your study to the many more available.
Patients often come to physicians seeking validation of their lives or trying to use the same maladaptive defense mechanisms that did not serve them well in the past to achieve a better outcome.
In today’s world, death anxiety can feel palpable due to the constant exposure to global news and social media that can make us feel irrelevant. However, legacy, or what we leave behind, can serve as a way to alleviate death anxiety. For many, reconciling their feelings toward their legacy is an avenue to tame death anxiety. Therapy can help individuals gain insight into their defensive behaviors and process their definition of a life well lived. By focusing on a life worth living, individuals can alleviate their death anxiety and gain a sense of fulfillment.
Dr. Akkoor is a psychiatry resident at the University of California, San Diego. She is interested in immigrant mental health, ethics, consultation-liaison psychiatry, and medical education. Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com. Dr. Badre and Dr. Akkoor have no conflicts of interest.
Reference
1. Badre N. Burnout: A concept that rebrands mental illness for professionals. Clinical Psychiatry News. 2020 Mar 5.
Disappointment – “I failed this exam, my life is ruined” or regret – “I am getting a divorce, I wasted so much of my life.” Patients present with a wide variety of complaints that can be understood as a form of death anxiety.
Fundamentally, patients come to see us to understand and explain their lives. One can reinterpret this as a patient asking, “If I died today, would my life have been good enough?” or “When I die, how will I look back at this moment in time and judge the choices I made?”
Other patients come to us attempting to use the same maladaptive defenses that did not serve them well in the past in the hopes of achieving a new outcome that will validate their lives. While it may be understandable that a child dissociates when facing abuse, hoping that this defense mechanism – as an adult – will work, it is unlikely to be fruitful and will certainly not validate or repair the past. This hope to repair one’s past can be interpreted as a fear of death – “I cannot die without correcting this.” This psychic conflict can intensify if one does not adopt a more adaptive understanding of his or her life.
Death anxiety is the feeling associated with the finality of life. Not only is life final, but a constant reminder of that fact is the idea that any one moment is final. Other than in science fiction, one cannot return to a prior moment and repair the past in the hope of a better future. Time goes only in one direction and death is the natural outcome of all life.
Death may have some evolutionary purpose that encourages the promotion of newer and more fitter genes, but one doesn’t have to consider its origin and reason to admit death’s constancy throughout humanity. People die and that is an anxiety-provoking fact of life. Death anxiety can feel especially tangible in our connected world. In a world of constant news, it can feel – for many people – that if your house wasn’t displaced because of global warming or that you are not a war refugee, you don’t deserve to be seen and heard.
This can be a particularly strong feeling for and among physicians, who don’t think that the mental health challenges generated by their own tough circumstances deserve to be labeled a mental disorder, so they designate themselves as having “burnout”1 – as they don’t deserve the sympathy of having the clinically significant impairments of “depression.” Our traumas don’t seem important enough to deserve notice, and thus we may feel like we could die without ever having truly mattered.
This can also be applied in the reverse fashion. Certain individuals, like celebrities, live such extravagant lives that our simpler achievements can feel futile in comparison. While the neighbor’s grass has always felt greener, we are now constantly exposed to perfectly manicured lawns on social media. When compounded, the idea that our successes and our pains are both simultaneously irrelevant can lead one to have very palpable death anxiety – my life will never matter if none of the things I do matter, or my life will never matter because I will never achieve the requisite number of “likes” or “views” on social media required to believe that one’s life was worth living.
A way of alleviating death anxiety can be through the concept of legacy, or what we leave behind. How will people remember me? Will people remember me, or will I disappear like a shadow into the distant memory of my near and dear ones? The idea of being forgotten or lost to memory is intolerable to some and can be a strong driving force to “make a name” for oneself. For those who crave fame, whether a celebrity or a generous alumnus, part of this is likely related to remaining well known after death. After all, one can argue that you are not truly dead as long as you continue to live in the memory and/or genes of others.
Legacy thus serves as a form of posthumous transitional object; a way of calming our fears about how we will be remembered. For many, reconciling their feelings towards their legacy is an avenue to tame death anxiety.
A case study
The case of Mr. B illustrates this. As a 72-year-old male with a long history of generalized anxiety, he once had a nightmare as a child, similar to the plot of Sleeping Beauty. In his dream, he walks up a spiral staircase in a castle and touches the spindle on a spinning wheel, thus ending his life. The dream was vivid and marked him.
His fear of death has subsequently reared its head throughout his life. In more recent years, he has suffered from cardiovascular disease. Although he is now quite stable on his current cardiac medications, he is constantly fearful that he will experience a cardiac event while asleep and suddenly die. He is so anxious about not waking up in the morning that falling asleep is nearly impossible.
Mr. B is single, with no close family besides a sister who lives in another state. He has a dog and few friends. He worries about what will happen to his dog if he doesn’t wake up in the morning, but perhaps most distressing to him is “there’s so much left for me to do, I have so much to write!” As an accomplished author, he continues to write, and hopes to publish many more novels in his lifetime. It is unsurprising that someone without a strong social network may fear death and feel pressured to somehow make a mark on the world before the curtain falls. It is scary to think that even without us, life goes on.
By bringing to Mr. B’s attention that his ever-present anxiety is rooted in fear of death, he was able to gain more insight into his own defensive behaviors. By confronting his death anxiety and processing his definition of a life well lived together in therapy, he’s acknowledged his lack of social connection as demoralizing, and has made significant strides to remedy this. He’s been able to focus on a more fulfilling life day to day, with less emphasis on his to-do list and aspirations. Instead, he’s connected more with his faith and members of his church. He’s gotten close to several neighbors and enjoys long dinners with them on his back patio.
At a recent meeting, he confessed that he feels “lighter” and not as fearful about sudden cardiac death, and thus has noticed that his overall anxiety has diminished greatly. He concluded that experiencing meaningful relationships in the present moment would give him greater joy than spending his remaining time engaged in preserving a future identity for himself. It seems elementary, but if we look within, we may find that we all suffer similarly: How much of our daily actions, thoughts, and fears are tied to the looming threat of death?
Conclusion
While modern psychiatry continues to advance with better understandings of our neurobiology, improved knowledge of pathophysiological processes of mental illness, and expanding discovery of novel pharmacotherapeutics, the modern psychiatrist should not forget fundamental truths of behavior and humanity that were once the staple of psychiatry.
Death anxiety is one of those truths; it is the ultimate stressor that we will all face and should be regular study and practice for psychiatrists. In this article, we explored some of those facets most meaningful to us but recommend you expand your study to the many more available.
Patients often come to physicians seeking validation of their lives or trying to use the same maladaptive defense mechanisms that did not serve them well in the past to achieve a better outcome.
In today’s world, death anxiety can feel palpable due to the constant exposure to global news and social media that can make us feel irrelevant. However, legacy, or what we leave behind, can serve as a way to alleviate death anxiety. For many, reconciling their feelings toward their legacy is an avenue to tame death anxiety. Therapy can help individuals gain insight into their defensive behaviors and process their definition of a life well lived. By focusing on a life worth living, individuals can alleviate their death anxiety and gain a sense of fulfillment.
Dr. Akkoor is a psychiatry resident at the University of California, San Diego. She is interested in immigrant mental health, ethics, consultation-liaison psychiatry, and medical education. Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com. Dr. Badre and Dr. Akkoor have no conflicts of interest.
Reference
1. Badre N. Burnout: A concept that rebrands mental illness for professionals. Clinical Psychiatry News. 2020 Mar 5.
Disappointment – “I failed this exam, my life is ruined” or regret – “I am getting a divorce, I wasted so much of my life.” Patients present with a wide variety of complaints that can be understood as a form of death anxiety.
Fundamentally, patients come to see us to understand and explain their lives. One can reinterpret this as a patient asking, “If I died today, would my life have been good enough?” or “When I die, how will I look back at this moment in time and judge the choices I made?”
Other patients come to us attempting to use the same maladaptive defenses that did not serve them well in the past in the hopes of achieving a new outcome that will validate their lives. While it may be understandable that a child dissociates when facing abuse, hoping that this defense mechanism – as an adult – will work, it is unlikely to be fruitful and will certainly not validate or repair the past. This hope to repair one’s past can be interpreted as a fear of death – “I cannot die without correcting this.” This psychic conflict can intensify if one does not adopt a more adaptive understanding of his or her life.
Death anxiety is the feeling associated with the finality of life. Not only is life final, but a constant reminder of that fact is the idea that any one moment is final. Other than in science fiction, one cannot return to a prior moment and repair the past in the hope of a better future. Time goes only in one direction and death is the natural outcome of all life.
Death may have some evolutionary purpose that encourages the promotion of newer and more fitter genes, but one doesn’t have to consider its origin and reason to admit death’s constancy throughout humanity. People die and that is an anxiety-provoking fact of life. Death anxiety can feel especially tangible in our connected world. In a world of constant news, it can feel – for many people – that if your house wasn’t displaced because of global warming or that you are not a war refugee, you don’t deserve to be seen and heard.
This can be a particularly strong feeling for and among physicians, who don’t think that the mental health challenges generated by their own tough circumstances deserve to be labeled a mental disorder, so they designate themselves as having “burnout”1 – as they don’t deserve the sympathy of having the clinically significant impairments of “depression.” Our traumas don’t seem important enough to deserve notice, and thus we may feel like we could die without ever having truly mattered.
This can also be applied in the reverse fashion. Certain individuals, like celebrities, live such extravagant lives that our simpler achievements can feel futile in comparison. While the neighbor’s grass has always felt greener, we are now constantly exposed to perfectly manicured lawns on social media. When compounded, the idea that our successes and our pains are both simultaneously irrelevant can lead one to have very palpable death anxiety – my life will never matter if none of the things I do matter, or my life will never matter because I will never achieve the requisite number of “likes” or “views” on social media required to believe that one’s life was worth living.
A way of alleviating death anxiety can be through the concept of legacy, or what we leave behind. How will people remember me? Will people remember me, or will I disappear like a shadow into the distant memory of my near and dear ones? The idea of being forgotten or lost to memory is intolerable to some and can be a strong driving force to “make a name” for oneself. For those who crave fame, whether a celebrity or a generous alumnus, part of this is likely related to remaining well known after death. After all, one can argue that you are not truly dead as long as you continue to live in the memory and/or genes of others.
Legacy thus serves as a form of posthumous transitional object; a way of calming our fears about how we will be remembered. For many, reconciling their feelings towards their legacy is an avenue to tame death anxiety.
A case study
The case of Mr. B illustrates this. As a 72-year-old male with a long history of generalized anxiety, he once had a nightmare as a child, similar to the plot of Sleeping Beauty. In his dream, he walks up a spiral staircase in a castle and touches the spindle on a spinning wheel, thus ending his life. The dream was vivid and marked him.
His fear of death has subsequently reared its head throughout his life. In more recent years, he has suffered from cardiovascular disease. Although he is now quite stable on his current cardiac medications, he is constantly fearful that he will experience a cardiac event while asleep and suddenly die. He is so anxious about not waking up in the morning that falling asleep is nearly impossible.
Mr. B is single, with no close family besides a sister who lives in another state. He has a dog and few friends. He worries about what will happen to his dog if he doesn’t wake up in the morning, but perhaps most distressing to him is “there’s so much left for me to do, I have so much to write!” As an accomplished author, he continues to write, and hopes to publish many more novels in his lifetime. It is unsurprising that someone without a strong social network may fear death and feel pressured to somehow make a mark on the world before the curtain falls. It is scary to think that even without us, life goes on.
By bringing to Mr. B’s attention that his ever-present anxiety is rooted in fear of death, he was able to gain more insight into his own defensive behaviors. By confronting his death anxiety and processing his definition of a life well lived together in therapy, he’s acknowledged his lack of social connection as demoralizing, and has made significant strides to remedy this. He’s been able to focus on a more fulfilling life day to day, with less emphasis on his to-do list and aspirations. Instead, he’s connected more with his faith and members of his church. He’s gotten close to several neighbors and enjoys long dinners with them on his back patio.
At a recent meeting, he confessed that he feels “lighter” and not as fearful about sudden cardiac death, and thus has noticed that his overall anxiety has diminished greatly. He concluded that experiencing meaningful relationships in the present moment would give him greater joy than spending his remaining time engaged in preserving a future identity for himself. It seems elementary, but if we look within, we may find that we all suffer similarly: How much of our daily actions, thoughts, and fears are tied to the looming threat of death?
Conclusion
While modern psychiatry continues to advance with better understandings of our neurobiology, improved knowledge of pathophysiological processes of mental illness, and expanding discovery of novel pharmacotherapeutics, the modern psychiatrist should not forget fundamental truths of behavior and humanity that were once the staple of psychiatry.
Death anxiety is one of those truths; it is the ultimate stressor that we will all face and should be regular study and practice for psychiatrists. In this article, we explored some of those facets most meaningful to us but recommend you expand your study to the many more available.
Patients often come to physicians seeking validation of their lives or trying to use the same maladaptive defense mechanisms that did not serve them well in the past to achieve a better outcome.
In today’s world, death anxiety can feel palpable due to the constant exposure to global news and social media that can make us feel irrelevant. However, legacy, or what we leave behind, can serve as a way to alleviate death anxiety. For many, reconciling their feelings toward their legacy is an avenue to tame death anxiety. Therapy can help individuals gain insight into their defensive behaviors and process their definition of a life well lived. By focusing on a life worth living, individuals can alleviate their death anxiety and gain a sense of fulfillment.
Dr. Akkoor is a psychiatry resident at the University of California, San Diego. She is interested in immigrant mental health, ethics, consultation-liaison psychiatry, and medical education. Dr. Badre is a clinical and forensic psychiatrist in San Diego. He holds teaching positions at the University of California, San Diego, and the University of San Diego. He teaches medical education, psychopharmacology, ethics in psychiatry, and correctional care. Dr. Badre can be reached at his website, BadreMD.com. Dr. Badre and Dr. Akkoor have no conflicts of interest.
Reference
1. Badre N. Burnout: A concept that rebrands mental illness for professionals. Clinical Psychiatry News. 2020 Mar 5.
Does the current age cutoff for screening miss too many cases of cervical cancer in older women?
Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
EXPERT COMMENTARY
Cervical cancer screening guidelines recommend screening cessation at age 65 once specific exit criteria are met. (According to the American Cancer Society, individuals aged >65 years who have no history of cervical intraepithelial neoplasia [CIN] grade 2 or more severe disease within the past 25 years, and who have documented adequate negative prior screening in the prior 10 years, discontinue all cervical cancer screening.)1 We know, however, that about one-fifth of all cervical cancer cases are diagnosed among individuals aged 65 or older, and for Black women that proportion is even higher when data are appropriately adjusted to account for the increased rate of hysterectomy among Black versus White women.2-4
Early-stage cervical cancer is largely a curable disease with very high 5-year overall survival rates. Unfortunately, more than half of all cervical cancer is diagnosed at a more advanced stage, and survival rates are much lower for this population.5
Cervical cancer incidence rates plummeted in the United States after the introduction of the Pap test for cervical cancer screening. However, the percentage of women who are not up to date with cervical cancer screening may now be increasing, from 14% in 2005 to 23% in 2019 according to one study from the US Preventive Services Task Force.6 When looking at cervical cancer screening rates by age, researchers from the Centers for Disease Control and Prevention estimate that the proportion of patients who have not been recently screened goes up as patients get older, with approximately 845,000 American women aged 61 to 65 not adequately screened in 2015 alone.7
Details of the study
Cooley and colleagues sought to better characterize the cohort of women diagnosed with cervical cancer at a later age, specifically the stage at diagnosis and survival.8 They used data from the California Cancer Registry (CCR), a large state-mandated, population-based data repository that is affiliated with the Surveillance, Epidemiology, and End Results (SEER) program.
The researchers identified 12,442 womenin the CCR who were newly diagnosed with cervical cancer from 2009 to 2018, 17.4% of whom were age 65 or older. They looked at cancer stage at diagnosis as it relates to relative survival rate (“the ratio of the observed survival rate among those who have cancer divided by the expected survival rate for people of the same sex, race/ethnicity, and age who do not have cancer”), Charlson comorbidity score, socioeconomic status, health insurance status, urbanicity, and race/ethnicity.
Results. In this study, 71% of women aged 65 or older presented with advanced-stage disease (FIGO [International Federation of Gynecology and Obstetrics] stage II–IV) as compared with only 48% in those aged 21 to 64. Five-year relative survival rates also were lower in the older cohort—23% to 37%, compared with 42% to 52% in the younger patients. In a sensitivity analysis, late-stage disease was associated with older age, increasing medical comorbidities, and nonadenocarcinoma histology.
Interestingly, older women of Hispanic ethnicity were less likely to be diagnosed with late-stage disease when compared with non-Hispanic White women.
Study strengths and limitations
Although this study’s conclusions—that patients with advanced-stage cancer are more likely to do poorly than those with early-stage cancer—may seem obvious to some even without the proven data, it is still important to highlight what a clinician may intuit with data to support that intuition. It is particularly important to emphasize this risk in older women in light of the aging population in the United States, with adults older than age 65 expected to account for more than 20% of the nation’s population by 2030.9
The study by Cooley and colleagues adds value to the existing literature due to its large study population, which included more than 12,000 patients diagnosed with cervical cancer.8 And although its results may not be completely generalizable as the data were gathered from only a California-specific population, the sample was diverse with significant portions of Hispanic and Black patients. This study supports previous data that showed high rates of advanced cervical cancer in women older than age 65, with resultant worse 5-year relative survival in this population of older women specifically.4 ●
Cervical cancer is both common and deadly in older women. Although current cervical cancer screening guidelines recommend screening cessation after age 65, remember that this is based on strict exit criteria. Consider screening older women (especially with human papillomavirus [HPV] testing) for cervical cancer if they have risk factors (such as smoking, multiple sexual partners, inconsistent or infrequent screening, history of abnormal Pap or HPV tests), and keep cervical cancer on your differential diagnosis in women who present with postmenopausal bleeding, vaginal discharge, pelvic pain, recurrent urinary tract infections, or other concerning symptoms.
SARAH DILLEY, MD, MPH, AND WARNER HUH, MD
- Fontham ETH, Wolf AMD, Church TR, et al. Cervical cancer screening for individuals at average risk: 2020 guideline update from the American Cancer Society. CA Cancer J Clin. 2020;70:321-346. doi:10.3322/caac.21628.
- Dilley S, Huh W, Blechter B, et al. It’s time to re-evaluate cervical cancer screening after age 65. Gynecol Oncol. 2021;162:200-202. doi:10.1016/j.ygyno.2021.04.027.
- Rositch AF, Nowak RG, Gravitt PE. Increased age and racespecific incidence of cervical cancer after correction for hysterectomy prevalence in the United States from 2000 to 2009. Cancer. 2014;120:2032-2038. doi:10.1002/cncr.28548.
- Beavis AL, Gravitt PE, Rositch AF. Hysterectomy-corrected cervical cancer mortality rates reveal a larger racial disparity in the United States. Cancer. 2017;123:1044-1050. doi:10.1002 /cncr.30507.
- Cancer Stat Facts. National Cancer Institute Surveillance, Epidemiology, and End Results Program. https://seer.cancer .gov/statfacts/html/cervix.html
- Suk R, Hong YR, Rajan SS, et al. Assessment of US Preventive Services Task Force guideline-concordant cervical cancer screening rates and reasons for underscreening by age, race and ethnicity, sexual orientation, rurality, and insurance, 2005 to 2019. JAMA Netw Open. 2022;5:e2143582. doi:10.1001 /jamanetworkopen.2021.43582.
- White MC, Shoemaker ML, Benard VB. Cervical cancer screening and incidence by age: unmet needs near and after the stopping age for screening. Am J Prev Med. 2017;53:392395. doi:10.1016/j.amepre.2017.02.024.
- Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
- Ortman JM, Velkoff VA, Hogan H. An aging nation: the older population in the United States. May 2014. United States Census Bureau. Accessed April 12, 2023. https://www.census .gov/library/publications/2014/demo/p25-1140.html
Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
EXPERT COMMENTARY
Cervical cancer screening guidelines recommend screening cessation at age 65 once specific exit criteria are met. (According to the American Cancer Society, individuals aged >65 years who have no history of cervical intraepithelial neoplasia [CIN] grade 2 or more severe disease within the past 25 years, and who have documented adequate negative prior screening in the prior 10 years, discontinue all cervical cancer screening.)1 We know, however, that about one-fifth of all cervical cancer cases are diagnosed among individuals aged 65 or older, and for Black women that proportion is even higher when data are appropriately adjusted to account for the increased rate of hysterectomy among Black versus White women.2-4
Early-stage cervical cancer is largely a curable disease with very high 5-year overall survival rates. Unfortunately, more than half of all cervical cancer is diagnosed at a more advanced stage, and survival rates are much lower for this population.5
Cervical cancer incidence rates plummeted in the United States after the introduction of the Pap test for cervical cancer screening. However, the percentage of women who are not up to date with cervical cancer screening may now be increasing, from 14% in 2005 to 23% in 2019 according to one study from the US Preventive Services Task Force.6 When looking at cervical cancer screening rates by age, researchers from the Centers for Disease Control and Prevention estimate that the proportion of patients who have not been recently screened goes up as patients get older, with approximately 845,000 American women aged 61 to 65 not adequately screened in 2015 alone.7
Details of the study
Cooley and colleagues sought to better characterize the cohort of women diagnosed with cervical cancer at a later age, specifically the stage at diagnosis and survival.8 They used data from the California Cancer Registry (CCR), a large state-mandated, population-based data repository that is affiliated with the Surveillance, Epidemiology, and End Results (SEER) program.
The researchers identified 12,442 womenin the CCR who were newly diagnosed with cervical cancer from 2009 to 2018, 17.4% of whom were age 65 or older. They looked at cancer stage at diagnosis as it relates to relative survival rate (“the ratio of the observed survival rate among those who have cancer divided by the expected survival rate for people of the same sex, race/ethnicity, and age who do not have cancer”), Charlson comorbidity score, socioeconomic status, health insurance status, urbanicity, and race/ethnicity.
Results. In this study, 71% of women aged 65 or older presented with advanced-stage disease (FIGO [International Federation of Gynecology and Obstetrics] stage II–IV) as compared with only 48% in those aged 21 to 64. Five-year relative survival rates also were lower in the older cohort—23% to 37%, compared with 42% to 52% in the younger patients. In a sensitivity analysis, late-stage disease was associated with older age, increasing medical comorbidities, and nonadenocarcinoma histology.
Interestingly, older women of Hispanic ethnicity were less likely to be diagnosed with late-stage disease when compared with non-Hispanic White women.
Study strengths and limitations
Although this study’s conclusions—that patients with advanced-stage cancer are more likely to do poorly than those with early-stage cancer—may seem obvious to some even without the proven data, it is still important to highlight what a clinician may intuit with data to support that intuition. It is particularly important to emphasize this risk in older women in light of the aging population in the United States, with adults older than age 65 expected to account for more than 20% of the nation’s population by 2030.9
The study by Cooley and colleagues adds value to the existing literature due to its large study population, which included more than 12,000 patients diagnosed with cervical cancer.8 And although its results may not be completely generalizable as the data were gathered from only a California-specific population, the sample was diverse with significant portions of Hispanic and Black patients. This study supports previous data that showed high rates of advanced cervical cancer in women older than age 65, with resultant worse 5-year relative survival in this population of older women specifically.4 ●
Cervical cancer is both common and deadly in older women. Although current cervical cancer screening guidelines recommend screening cessation after age 65, remember that this is based on strict exit criteria. Consider screening older women (especially with human papillomavirus [HPV] testing) for cervical cancer if they have risk factors (such as smoking, multiple sexual partners, inconsistent or infrequent screening, history of abnormal Pap or HPV tests), and keep cervical cancer on your differential diagnosis in women who present with postmenopausal bleeding, vaginal discharge, pelvic pain, recurrent urinary tract infections, or other concerning symptoms.
SARAH DILLEY, MD, MPH, AND WARNER HUH, MD
Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
EXPERT COMMENTARY
Cervical cancer screening guidelines recommend screening cessation at age 65 once specific exit criteria are met. (According to the American Cancer Society, individuals aged >65 years who have no history of cervical intraepithelial neoplasia [CIN] grade 2 or more severe disease within the past 25 years, and who have documented adequate negative prior screening in the prior 10 years, discontinue all cervical cancer screening.)1 We know, however, that about one-fifth of all cervical cancer cases are diagnosed among individuals aged 65 or older, and for Black women that proportion is even higher when data are appropriately adjusted to account for the increased rate of hysterectomy among Black versus White women.2-4
Early-stage cervical cancer is largely a curable disease with very high 5-year overall survival rates. Unfortunately, more than half of all cervical cancer is diagnosed at a more advanced stage, and survival rates are much lower for this population.5
Cervical cancer incidence rates plummeted in the United States after the introduction of the Pap test for cervical cancer screening. However, the percentage of women who are not up to date with cervical cancer screening may now be increasing, from 14% in 2005 to 23% in 2019 according to one study from the US Preventive Services Task Force.6 When looking at cervical cancer screening rates by age, researchers from the Centers for Disease Control and Prevention estimate that the proportion of patients who have not been recently screened goes up as patients get older, with approximately 845,000 American women aged 61 to 65 not adequately screened in 2015 alone.7
Details of the study
Cooley and colleagues sought to better characterize the cohort of women diagnosed with cervical cancer at a later age, specifically the stage at diagnosis and survival.8 They used data from the California Cancer Registry (CCR), a large state-mandated, population-based data repository that is affiliated with the Surveillance, Epidemiology, and End Results (SEER) program.
The researchers identified 12,442 womenin the CCR who were newly diagnosed with cervical cancer from 2009 to 2018, 17.4% of whom were age 65 or older. They looked at cancer stage at diagnosis as it relates to relative survival rate (“the ratio of the observed survival rate among those who have cancer divided by the expected survival rate for people of the same sex, race/ethnicity, and age who do not have cancer”), Charlson comorbidity score, socioeconomic status, health insurance status, urbanicity, and race/ethnicity.
Results. In this study, 71% of women aged 65 or older presented with advanced-stage disease (FIGO [International Federation of Gynecology and Obstetrics] stage II–IV) as compared with only 48% in those aged 21 to 64. Five-year relative survival rates also were lower in the older cohort—23% to 37%, compared with 42% to 52% in the younger patients. In a sensitivity analysis, late-stage disease was associated with older age, increasing medical comorbidities, and nonadenocarcinoma histology.
Interestingly, older women of Hispanic ethnicity were less likely to be diagnosed with late-stage disease when compared with non-Hispanic White women.
Study strengths and limitations
Although this study’s conclusions—that patients with advanced-stage cancer are more likely to do poorly than those with early-stage cancer—may seem obvious to some even without the proven data, it is still important to highlight what a clinician may intuit with data to support that intuition. It is particularly important to emphasize this risk in older women in light of the aging population in the United States, with adults older than age 65 expected to account for more than 20% of the nation’s population by 2030.9
The study by Cooley and colleagues adds value to the existing literature due to its large study population, which included more than 12,000 patients diagnosed with cervical cancer.8 And although its results may not be completely generalizable as the data were gathered from only a California-specific population, the sample was diverse with significant portions of Hispanic and Black patients. This study supports previous data that showed high rates of advanced cervical cancer in women older than age 65, with resultant worse 5-year relative survival in this population of older women specifically.4 ●
Cervical cancer is both common and deadly in older women. Although current cervical cancer screening guidelines recommend screening cessation after age 65, remember that this is based on strict exit criteria. Consider screening older women (especially with human papillomavirus [HPV] testing) for cervical cancer if they have risk factors (such as smoking, multiple sexual partners, inconsistent or infrequent screening, history of abnormal Pap or HPV tests), and keep cervical cancer on your differential diagnosis in women who present with postmenopausal bleeding, vaginal discharge, pelvic pain, recurrent urinary tract infections, or other concerning symptoms.
SARAH DILLEY, MD, MPH, AND WARNER HUH, MD
- Fontham ETH, Wolf AMD, Church TR, et al. Cervical cancer screening for individuals at average risk: 2020 guideline update from the American Cancer Society. CA Cancer J Clin. 2020;70:321-346. doi:10.3322/caac.21628.
- Dilley S, Huh W, Blechter B, et al. It’s time to re-evaluate cervical cancer screening after age 65. Gynecol Oncol. 2021;162:200-202. doi:10.1016/j.ygyno.2021.04.027.
- Rositch AF, Nowak RG, Gravitt PE. Increased age and racespecific incidence of cervical cancer after correction for hysterectomy prevalence in the United States from 2000 to 2009. Cancer. 2014;120:2032-2038. doi:10.1002/cncr.28548.
- Beavis AL, Gravitt PE, Rositch AF. Hysterectomy-corrected cervical cancer mortality rates reveal a larger racial disparity in the United States. Cancer. 2017;123:1044-1050. doi:10.1002 /cncr.30507.
- Cancer Stat Facts. National Cancer Institute Surveillance, Epidemiology, and End Results Program. https://seer.cancer .gov/statfacts/html/cervix.html
- Suk R, Hong YR, Rajan SS, et al. Assessment of US Preventive Services Task Force guideline-concordant cervical cancer screening rates and reasons for underscreening by age, race and ethnicity, sexual orientation, rurality, and insurance, 2005 to 2019. JAMA Netw Open. 2022;5:e2143582. doi:10.1001 /jamanetworkopen.2021.43582.
- White MC, Shoemaker ML, Benard VB. Cervical cancer screening and incidence by age: unmet needs near and after the stopping age for screening. Am J Prev Med. 2017;53:392395. doi:10.1016/j.amepre.2017.02.024.
- Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
- Ortman JM, Velkoff VA, Hogan H. An aging nation: the older population in the United States. May 2014. United States Census Bureau. Accessed April 12, 2023. https://www.census .gov/library/publications/2014/demo/p25-1140.html
- Fontham ETH, Wolf AMD, Church TR, et al. Cervical cancer screening for individuals at average risk: 2020 guideline update from the American Cancer Society. CA Cancer J Clin. 2020;70:321-346. doi:10.3322/caac.21628.
- Dilley S, Huh W, Blechter B, et al. It’s time to re-evaluate cervical cancer screening after age 65. Gynecol Oncol. 2021;162:200-202. doi:10.1016/j.ygyno.2021.04.027.
- Rositch AF, Nowak RG, Gravitt PE. Increased age and racespecific incidence of cervical cancer after correction for hysterectomy prevalence in the United States from 2000 to 2009. Cancer. 2014;120:2032-2038. doi:10.1002/cncr.28548.
- Beavis AL, Gravitt PE, Rositch AF. Hysterectomy-corrected cervical cancer mortality rates reveal a larger racial disparity in the United States. Cancer. 2017;123:1044-1050. doi:10.1002 /cncr.30507.
- Cancer Stat Facts. National Cancer Institute Surveillance, Epidemiology, and End Results Program. https://seer.cancer .gov/statfacts/html/cervix.html
- Suk R, Hong YR, Rajan SS, et al. Assessment of US Preventive Services Task Force guideline-concordant cervical cancer screening rates and reasons for underscreening by age, race and ethnicity, sexual orientation, rurality, and insurance, 2005 to 2019. JAMA Netw Open. 2022;5:e2143582. doi:10.1001 /jamanetworkopen.2021.43582.
- White MC, Shoemaker ML, Benard VB. Cervical cancer screening and incidence by age: unmet needs near and after the stopping age for screening. Am J Prev Med. 2017;53:392395. doi:10.1016/j.amepre.2017.02.024.
- Cooley JJ, Maguire FB, Morris CR, et al. Cervical cancer stage at diagnosis and survival among women ≥65 years in California. Cancer Epidemiol Biomarkers Prev. 2023;32:91-97. doi:10.1158/1055-9965.EPI-22-0793.
- Ortman JM, Velkoff VA, Hogan H. An aging nation: the older population in the United States. May 2014. United States Census Bureau. Accessed April 12, 2023. https://www.census .gov/library/publications/2014/demo/p25-1140.html
