Cardiology

Some instances of unprofessional behavior by medical trainees are universally deemed egregious and worthy of discipline — for example, looking up a friend’s medical data after HIPAA training.

Conversely, some professionalism lapses may be widely thought of as a teaching and consoling moment, such as the human error involved in forgetting a scheduled repositioning of a patient.

But between the extremes is a vast gray area. To deal with those cases appropriately, Jason Wasserman, PhD, and colleagues propose a new framework by which to judge each infraction.

The framework draws from “just culture” concepts used to evaluate medical errors, Wasserman, associate professor of biomedical science at Oakland University William Beaumont School of Medicine in Rochester, Michigan, told Medscape Medical News. Such an approach takes into account the environment in which the error was made, the knowledge and intent of the person making the error, and the severity and consequences of the infraction so that trainees and institutions can learn from mistakes.

“Trainees by definition are not going to fully get it,” he explained. “By definition they’re not going to fully achieve professional expectations. So how can we respond to the things we need to respond to, but do it in a way that’s educational?”

Wasserman and coauthors’ framework for remediation, which they published February 20 in The New England Journal of Medicine, takes into account several questions: Was the expectation clear? Were there factors beyond the trainees› control? What were the trainees› intentions and did they understand the consequences? Did the person genuinely believe the action was inconsequential?

An example requiring discipline, the authors say, would be using a crib sheet during an exam. In that case the intent is clear, there is no defensible belief that the action is inconsequential, and there is a clear understanding the action is wrong.

But a response of “affirm, support, and advise” is more appropriate, for example, when a student’s alarm doesn’t go off after a power outage and they miss a mandatory meeting.

Wasserman points out that this framework won’t cover all situations.

“This is not an algorithm for answering your questions about what to do,” he said. “It’s an architecture for clarifying the discussion about that. It can really tease out all the threads that need to be considered to best respond to and correct the professionalism lapse, but do it in a way that is developmentally appropriate.”
 

A Core Competency

For two decades, professionalism has been considered a core competency of medical education. In 1999, the Accreditation Council for Graduate Medical Education and the American Board of Medical Specialties formalized it as such. In 2013, the Association of American Medical Colleges formally required related professionalism competencies.

However, identifying lapses has operated largely on an “I-know-it-when-I-see-it” basis, leading to widely varying remediation practices judged by a small number of faculty members or administrators.

The ideas outlined by Wasserman and colleagues are “a terrific application of the ‘just-culture’ framework,” according to Nicole Treadway, MD, a first-year primary care resident at Emory School of Medicine in Atlanta, Georgia.

At Emory, discussions of professionalism start from day 1 of medical school and the subject is revisited throughout training in small groups, Treadway told Medscape Medical News.

But, she said, as the authors point out, definitions of unprofessionalism are not always clear and the examples the authors put forward help put lapses in context.

The framework also allows for looking at mistakes in light of the stress trainees encounter and the greater chance of making a professionalism error in those situations, she noted.

In her own work, she says, because she is juggling both inpatient and outpatient care, she is finding it is easy to get behind on correspondence or communicating lab results or having follow-up conversations.

Those delays could be seen as lapses in professionalism, but under this framework, there may be system solutions or training opportunities to consider.

“We do need this organizational architecture, and I think it could serve us well in really helping us identify and appropriately respond to what we see regarding professionalism,” she said.

Framework Helps Standardize Thinking

She said having a universal framework also helps because while standards of professionalism are easier to monitor in a single medical school, when students scatter to other hospitals for clinical training, those hospitals may have different professionalism standards.

Wasserman agrees, saying, “This could be easily adopted in any environment where people deal with professionalism lapses. I don’t even think it’s necessarily relegated to trainees. It’s a great way to think about any kind of lapses, just as hospitals think about medical errors.”

He said the next step is presenting the framework at various medical schools for feedback and research to see whether the framework improves processes.

Potential criticism, he said, might come from those who say such a construct avoids punishing students who make errors.

“There will always be people who say we’re pandering to medical students whenever we worry about the learning environment,” he said. “There are old-school purists who say when people screw up you should punish them.”

But he adds healthcare broadly has moved past that thinking.

“People recognized 20 years ago or more from the standpoint of improving healthcare systems and safety that is a bad strategy. You’ll never get error-free humans working in your system, and what you have to do is consider how the system is functioning and think about ways to optimize the system so people can be their best within it.”

Wasserman and Treadway have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Some instances of unprofessional behavior by medical trainees are universally deemed egregious and worthy of discipline — for example, looking up a friend’s medical data after HIPAA training.

Conversely, some professionalism lapses may be widely thought of as a teaching and consoling moment, such as the human error involved in forgetting a scheduled repositioning of a patient.

But between the extremes is a vast gray area. To deal with those cases appropriately, Jason Wasserman, PhD, and colleagues propose a new framework by which to judge each infraction.

The framework draws from “just culture” concepts used to evaluate medical errors, Wasserman, associate professor of biomedical science at Oakland University William Beaumont School of Medicine in Rochester, Michigan, told Medscape Medical News. Such an approach takes into account the environment in which the error was made, the knowledge and intent of the person making the error, and the severity and consequences of the infraction so that trainees and institutions can learn from mistakes.

“Trainees by definition are not going to fully get it,” he explained. “By definition they’re not going to fully achieve professional expectations. So how can we respond to the things we need to respond to, but do it in a way that’s educational?”

Wasserman and coauthors’ framework for remediation, which they published February 20 in The New England Journal of Medicine, takes into account several questions: Was the expectation clear? Were there factors beyond the trainees› control? What were the trainees› intentions and did they understand the consequences? Did the person genuinely believe the action was inconsequential?

An example requiring discipline, the authors say, would be using a crib sheet during an exam. In that case the intent is clear, there is no defensible belief that the action is inconsequential, and there is a clear understanding the action is wrong.

But a response of “affirm, support, and advise” is more appropriate, for example, when a student’s alarm doesn’t go off after a power outage and they miss a mandatory meeting.

Wasserman points out that this framework won’t cover all situations.

“This is not an algorithm for answering your questions about what to do,” he said. “It’s an architecture for clarifying the discussion about that. It can really tease out all the threads that need to be considered to best respond to and correct the professionalism lapse, but do it in a way that is developmentally appropriate.”
 

A Core Competency

For two decades, professionalism has been considered a core competency of medical education. In 1999, the Accreditation Council for Graduate Medical Education and the American Board of Medical Specialties formalized it as such. In 2013, the Association of American Medical Colleges formally required related professionalism competencies.

However, identifying lapses has operated largely on an “I-know-it-when-I-see-it” basis, leading to widely varying remediation practices judged by a small number of faculty members or administrators.

The ideas outlined by Wasserman and colleagues are “a terrific application of the ‘just-culture’ framework,” according to Nicole Treadway, MD, a first-year primary care resident at Emory School of Medicine in Atlanta, Georgia.

At Emory, discussions of professionalism start from day 1 of medical school and the subject is revisited throughout training in small groups, Treadway told Medscape Medical News.

But, she said, as the authors point out, definitions of unprofessionalism are not always clear and the examples the authors put forward help put lapses in context.

The framework also allows for looking at mistakes in light of the stress trainees encounter and the greater chance of making a professionalism error in those situations, she noted.

In her own work, she says, because she is juggling both inpatient and outpatient care, she is finding it is easy to get behind on correspondence or communicating lab results or having follow-up conversations.

Those delays could be seen as lapses in professionalism, but under this framework, there may be system solutions or training opportunities to consider.

“We do need this organizational architecture, and I think it could serve us well in really helping us identify and appropriately respond to what we see regarding professionalism,” she said.

Framework Helps Standardize Thinking

She said having a universal framework also helps because while standards of professionalism are easier to monitor in a single medical school, when students scatter to other hospitals for clinical training, those hospitals may have different professionalism standards.

Wasserman agrees, saying, “This could be easily adopted in any environment where people deal with professionalism lapses. I don’t even think it’s necessarily relegated to trainees. It’s a great way to think about any kind of lapses, just as hospitals think about medical errors.”

He said the next step is presenting the framework at various medical schools for feedback and research to see whether the framework improves processes.

Potential criticism, he said, might come from those who say such a construct avoids punishing students who make errors.

“There will always be people who say we’re pandering to medical students whenever we worry about the learning environment,” he said. “There are old-school purists who say when people screw up you should punish them.”

But he adds healthcare broadly has moved past that thinking.

“People recognized 20 years ago or more from the standpoint of improving healthcare systems and safety that is a bad strategy. You’ll never get error-free humans working in your system, and what you have to do is consider how the system is functioning and think about ways to optimize the system so people can be their best within it.”

Wasserman and Treadway have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

Some instances of unprofessional behavior by medical trainees are universally deemed egregious and worthy of discipline — for example, looking up a friend’s medical data after HIPAA training.

Conversely, some professionalism lapses may be widely thought of as a teaching and consoling moment, such as the human error involved in forgetting a scheduled repositioning of a patient.

But between the extremes is a vast gray area. To deal with those cases appropriately, Jason Wasserman, PhD, and colleagues propose a new framework by which to judge each infraction.

The framework draws from “just culture” concepts used to evaluate medical errors, Wasserman, associate professor of biomedical science at Oakland University William Beaumont School of Medicine in Rochester, Michigan, told Medscape Medical News. Such an approach takes into account the environment in which the error was made, the knowledge and intent of the person making the error, and the severity and consequences of the infraction so that trainees and institutions can learn from mistakes.

“Trainees by definition are not going to fully get it,” he explained. “By definition they’re not going to fully achieve professional expectations. So how can we respond to the things we need to respond to, but do it in a way that’s educational?”

Wasserman and coauthors’ framework for remediation, which they published February 20 in The New England Journal of Medicine, takes into account several questions: Was the expectation clear? Were there factors beyond the trainees› control? What were the trainees› intentions and did they understand the consequences? Did the person genuinely believe the action was inconsequential?

An example requiring discipline, the authors say, would be using a crib sheet during an exam. In that case the intent is clear, there is no defensible belief that the action is inconsequential, and there is a clear understanding the action is wrong.

But a response of “affirm, support, and advise” is more appropriate, for example, when a student’s alarm doesn’t go off after a power outage and they miss a mandatory meeting.

Wasserman points out that this framework won’t cover all situations.

“This is not an algorithm for answering your questions about what to do,” he said. “It’s an architecture for clarifying the discussion about that. It can really tease out all the threads that need to be considered to best respond to and correct the professionalism lapse, but do it in a way that is developmentally appropriate.”
 

A Core Competency

For two decades, professionalism has been considered a core competency of medical education. In 1999, the Accreditation Council for Graduate Medical Education and the American Board of Medical Specialties formalized it as such. In 2013, the Association of American Medical Colleges formally required related professionalism competencies.

However, identifying lapses has operated largely on an “I-know-it-when-I-see-it” basis, leading to widely varying remediation practices judged by a small number of faculty members or administrators.

The ideas outlined by Wasserman and colleagues are “a terrific application of the ‘just-culture’ framework,” according to Nicole Treadway, MD, a first-year primary care resident at Emory School of Medicine in Atlanta, Georgia.

At Emory, discussions of professionalism start from day 1 of medical school and the subject is revisited throughout training in small groups, Treadway told Medscape Medical News.

But, she said, as the authors point out, definitions of unprofessionalism are not always clear and the examples the authors put forward help put lapses in context.

The framework also allows for looking at mistakes in light of the stress trainees encounter and the greater chance of making a professionalism error in those situations, she noted.

In her own work, she says, because she is juggling both inpatient and outpatient care, she is finding it is easy to get behind on correspondence or communicating lab results or having follow-up conversations.

Those delays could be seen as lapses in professionalism, but under this framework, there may be system solutions or training opportunities to consider.

“We do need this organizational architecture, and I think it could serve us well in really helping us identify and appropriately respond to what we see regarding professionalism,” she said.

Framework Helps Standardize Thinking

She said having a universal framework also helps because while standards of professionalism are easier to monitor in a single medical school, when students scatter to other hospitals for clinical training, those hospitals may have different professionalism standards.

Wasserman agrees, saying, “This could be easily adopted in any environment where people deal with professionalism lapses. I don’t even think it’s necessarily relegated to trainees. It’s a great way to think about any kind of lapses, just as hospitals think about medical errors.”

He said the next step is presenting the framework at various medical schools for feedback and research to see whether the framework improves processes.

Potential criticism, he said, might come from those who say such a construct avoids punishing students who make errors.

“There will always be people who say we’re pandering to medical students whenever we worry about the learning environment,” he said. “There are old-school purists who say when people screw up you should punish them.”

But he adds healthcare broadly has moved past that thinking.

“People recognized 20 years ago or more from the standpoint of improving healthcare systems and safety that is a bad strategy. You’ll never get error-free humans working in your system, and what you have to do is consider how the system is functioning and think about ways to optimize the system so people can be their best within it.”

Wasserman and Treadway have disclosed no relevant financial relationships.

This article first appeared on Medscape.com.

NATIONAL HARBOR, MD. – Acute kidney injury (AKI), a potentially modifiable risk factor in some cases, predicts increased mortality within the first year after transcatheter aortic valve transplantation (TAVR), according to an analysis of a U.S. registry presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

“After adjustment, there are higher rates of all-cause mortality regardless of the severity of AKI,” reported Howard M. Julien, MD, of the University of Pennsylvania, Philadelphia.

Relative to the absence of AKI (stage 0), the hazard ratio for death at 1 year was more than threefold greater (HR, 3.26), even for those with stage 1 AKI. When unadjusted for covariates, it remained more than twice as high (HR, 2.67; P less than .001), Dr. Julien reported.

For stage 3 AKI, the unadjusted risk was more than nine times higher and remained roughly seven times greater after adjustment (HR, 7.04; P less than .001). Stage 2 AKI was linked with an adjusted risk of about the same magnitude.

Drawn from the National Cardiovascular TAVR Registry, which is maintained jointly by the Society of Thoracic Surgeons and the American College of Cardiology, data were analyzed on more than 100,000 TAVRs performed during 2012-2018. A subset of TAVRs performed between January 2016 and June 2018 served as a source of trends in what Dr. Julien described as the “modern era” of this procedure.

The incidence of AKI overall was about 10%, but rates were higher at the earliest time point in the analysis and fell modestly over the study period for all three stages. In a logistic regression analysis, the factors associated with the greatest odds ratio of developing AKI in patients following TAVR were conversion to open heart surgery (OR, 10.84, P less than .001), nonfemoral access (OR, 2.33; P less than .001), anemia (OR, 1.90; P less than .001), general versus moderate sedation (OR, 1.62; P less than .001), diabetes (OR, 1.61; P less than .001), and cardiogenic shock within 24 hours (OR, 1.60; P less than .023).

Other factors with a significant but lower relative risk association with AKI included a high contrast volume (OR, 1.004; P less than .001), use of a self-expanding valve (HR, 1.22; P = .009), severe lung disease (OR, 1.21; P = .043) and prior peripheral artery disease (HR, 1.20; P = .043).

“The message from these data is that there appears to be a cluster of patients who are unstable at the time of their procedure and are more likely to develop the most severe forms of AKI,” Dr. Julien reported.

The higher rate of AKI in patients who have diabetes is “not surprising,” but several of the factors associated with AKI are potentially modifiable. This includes choices in regard to sedation and arterial access. The value of modifying the amount of contrast is less clear, because the volume of contrast was no longer significant after an adjustment with multivariate analysis.

In fact, all of these factors require validation. Dr. Julien warned that neither the cause of AKI nor its temporal relationship to TAVR could be consistently determined from the registry data. In addition, retrospective analyses always include the potential for unrecognized residual confounders.

Still, these data are useful for drawing attention to the fact that AKI is a common complication of TAVR and one that is associated with adverse outcomes, including reduced survival at 1 year.

“The factors taken from these data might be useful to help identify patients who are at risk of the most severe forms of AKI and, hopefully, lead to prevention strategies that take these characteristics into consideration,” Dr. Julien said.

Dr. Julien reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Acute kidney injury (AKI), a potentially modifiable risk factor in some cases, predicts increased mortality within the first year after transcatheter aortic valve transplantation (TAVR), according to an analysis of a U.S. registry presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

“After adjustment, there are higher rates of all-cause mortality regardless of the severity of AKI,” reported Howard M. Julien, MD, of the University of Pennsylvania, Philadelphia.

Relative to the absence of AKI (stage 0), the hazard ratio for death at 1 year was more than threefold greater (HR, 3.26), even for those with stage 1 AKI. When unadjusted for covariates, it remained more than twice as high (HR, 2.67; P less than .001), Dr. Julien reported.

For stage 3 AKI, the unadjusted risk was more than nine times higher and remained roughly seven times greater after adjustment (HR, 7.04; P less than .001). Stage 2 AKI was linked with an adjusted risk of about the same magnitude.

Drawn from the National Cardiovascular TAVR Registry, which is maintained jointly by the Society of Thoracic Surgeons and the American College of Cardiology, data were analyzed on more than 100,000 TAVRs performed during 2012-2018. A subset of TAVRs performed between January 2016 and June 2018 served as a source of trends in what Dr. Julien described as the “modern era” of this procedure.

The incidence of AKI overall was about 10%, but rates were higher at the earliest time point in the analysis and fell modestly over the study period for all three stages. In a logistic regression analysis, the factors associated with the greatest odds ratio of developing AKI in patients following TAVR were conversion to open heart surgery (OR, 10.84, P less than .001), nonfemoral access (OR, 2.33; P less than .001), anemia (OR, 1.90; P less than .001), general versus moderate sedation (OR, 1.62; P less than .001), diabetes (OR, 1.61; P less than .001), and cardiogenic shock within 24 hours (OR, 1.60; P less than .023).

Other factors with a significant but lower relative risk association with AKI included a high contrast volume (OR, 1.004; P less than .001), use of a self-expanding valve (HR, 1.22; P = .009), severe lung disease (OR, 1.21; P = .043) and prior peripheral artery disease (HR, 1.20; P = .043).

“The message from these data is that there appears to be a cluster of patients who are unstable at the time of their procedure and are more likely to develop the most severe forms of AKI,” Dr. Julien reported.

The higher rate of AKI in patients who have diabetes is “not surprising,” but several of the factors associated with AKI are potentially modifiable. This includes choices in regard to sedation and arterial access. The value of modifying the amount of contrast is less clear, because the volume of contrast was no longer significant after an adjustment with multivariate analysis.

In fact, all of these factors require validation. Dr. Julien warned that neither the cause of AKI nor its temporal relationship to TAVR could be consistently determined from the registry data. In addition, retrospective analyses always include the potential for unrecognized residual confounders.

Still, these data are useful for drawing attention to the fact that AKI is a common complication of TAVR and one that is associated with adverse outcomes, including reduced survival at 1 year.

“The factors taken from these data might be useful to help identify patients who are at risk of the most severe forms of AKI and, hopefully, lead to prevention strategies that take these characteristics into consideration,” Dr. Julien said.

Dr. Julien reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Acute kidney injury (AKI), a potentially modifiable risk factor in some cases, predicts increased mortality within the first year after transcatheter aortic valve transplantation (TAVR), according to an analysis of a U.S. registry presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

“After adjustment, there are higher rates of all-cause mortality regardless of the severity of AKI,” reported Howard M. Julien, MD, of the University of Pennsylvania, Philadelphia.

Relative to the absence of AKI (stage 0), the hazard ratio for death at 1 year was more than threefold greater (HR, 3.26), even for those with stage 1 AKI. When unadjusted for covariates, it remained more than twice as high (HR, 2.67; P less than .001), Dr. Julien reported.

For stage 3 AKI, the unadjusted risk was more than nine times higher and remained roughly seven times greater after adjustment (HR, 7.04; P less than .001). Stage 2 AKI was linked with an adjusted risk of about the same magnitude.

Drawn from the National Cardiovascular TAVR Registry, which is maintained jointly by the Society of Thoracic Surgeons and the American College of Cardiology, data were analyzed on more than 100,000 TAVRs performed during 2012-2018. A subset of TAVRs performed between January 2016 and June 2018 served as a source of trends in what Dr. Julien described as the “modern era” of this procedure.

The incidence of AKI overall was about 10%, but rates were higher at the earliest time point in the analysis and fell modestly over the study period for all three stages. In a logistic regression analysis, the factors associated with the greatest odds ratio of developing AKI in patients following TAVR were conversion to open heart surgery (OR, 10.84, P less than .001), nonfemoral access (OR, 2.33; P less than .001), anemia (OR, 1.90; P less than .001), general versus moderate sedation (OR, 1.62; P less than .001), diabetes (OR, 1.61; P less than .001), and cardiogenic shock within 24 hours (OR, 1.60; P less than .023).

Other factors with a significant but lower relative risk association with AKI included a high contrast volume (OR, 1.004; P less than .001), use of a self-expanding valve (HR, 1.22; P = .009), severe lung disease (OR, 1.21; P = .043) and prior peripheral artery disease (HR, 1.20; P = .043).

“The message from these data is that there appears to be a cluster of patients who are unstable at the time of their procedure and are more likely to develop the most severe forms of AKI,” Dr. Julien reported.

The higher rate of AKI in patients who have diabetes is “not surprising,” but several of the factors associated with AKI are potentially modifiable. This includes choices in regard to sedation and arterial access. The value of modifying the amount of contrast is less clear, because the volume of contrast was no longer significant after an adjustment with multivariate analysis.

In fact, all of these factors require validation. Dr. Julien warned that neither the cause of AKI nor its temporal relationship to TAVR could be consistently determined from the registry data. In addition, retrospective analyses always include the potential for unrecognized residual confounders.

Still, these data are useful for drawing attention to the fact that AKI is a common complication of TAVR and one that is associated with adverse outcomes, including reduced survival at 1 year.

“The factors taken from these data might be useful to help identify patients who are at risk of the most severe forms of AKI and, hopefully, lead to prevention strategies that take these characteristics into consideration,” Dr. Julien said.

Dr. Julien reported no potential financial conflicts of interest.

Blood pressure (BP) measurement is an essential component of the physical examination. The information gleaned through this simple but vitally important assessment provides a basis for critical decisions about diagnosis, prognosis, and therapy in a variety of health care settings. In the emergency department, it helps guide resuscitation efforts; in the intensive care unit, it helps to identify the deteriorating patient and guide vasopressor drug titration; in the ambulatory office setting, it helps to identify hypertension and the need for antihypertensive therapy.

In the office setting, inaccurate BP measurement can have profound effects. An overestimation by only 5 mm Hg would result in an erroneous diagnosis and unnecessary treatment of hypertension for about 27 million patients—entailing medication costs, potential adverse effects, and psychologic issues associated with this diagnosis. Conversely, underestimation by 5 mm Hg would miss about 21 million patients who actually have hypertension.¹

Why accurate BP measurement matters so much

About 75 million adults in the United States have high BP,² which costs the nation $46 billion annually in health care services, antihypertensive medications, and missed days of work.³ Among US adults ages 20 or older, the age-­adjusted prevalence of hypertension is estimated to be 34%, equivalent to 85.7 million adults.⁴

Defining hypertension. For the general population, the Eighth Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure ­(JNC-8) defines hypertension as a BP of 140/90 mm Hg or higher in adults younger than 60 and a BP of 150/90 mm Hg or higher in adults ages 60 or older. For patients with comorbid hypertension and diabetes, JNC-8 recommends pharmacologic treatment when BP is 140/90 mm Hg or higher, regardless of age.⁵

Accurate measurement of BP provides the rational basis for the management of hypertension, which in turn may decrease the risk for stroke, congestive heart failure, and other cardiovascular diseases. Several investigators^6-8 have observed that differences in interarm systolic BP are associated with an increased risk for peripheral vascular disease, stroke, and other cardiovascular problems.

Multiple factors impact accuracy; some might surprise you

A number of factors may influence the accuracy of BP measurement in the office; these are generally classified as related to the patient, the observer, the technique or procedure, or the equipment used. A recent systematic review by Kallioinen et al⁹ empirically evaluated 29 potential sources of inaccuracy in the measurement of adult resting BP. Among them were

Patient-related: Recent meal or alcohol intake; recent caffeine or nicotine use; full bladder distention; cold exposure; white-coat effect. Given the simplicity of assessing for these influences, it is worthwhile for office staff to ask patients, prior to the recommended 3 to 5 minutes of rest before BP measurement, if they were rushing to make their appointment, need to void their bladder, or have consumed food or drink or used tobacco within the past 30 minutes.

Continue to: Observer-related...

Observer-related: Hearing deficit; terminal digit bias (ie, preference for rounding BP reading to a specific end digit, eg, 0); measurement of diastolic BP at Korotkoff phase IV rather than phase V.

Procedure-related: Patient’s body position (eg, standing vs supine; legs crossed at knee; unsupported back or arm; arm lower than heart level); incorrect size or placement of cuff; talking during measurement (the content of conversation may influence results); and reliance on a single BP measurement.

Equipment-related: Device model bias; device calibration error.

The USPSTF, the UK’s National Institute for Health and Clinical Excellence, and other groups endorse ambulatory BP monitoring as the optimal method for BP measurement.

As reported by Kallioinen et al⁹, the magnitude of these potential errors ranges from small to large in both the positive and negative direction for both systolic and diastolic BP, and several sources of error are potentially bidirectional. For example, talking during BP measurement may result in an increase in systolic BP of 4 to 19 mm Hg and in diastolic BP of 5 to 14.3 mm Hg; measurement of diastolic BP at Korotkoff phase IV rather than phase V significantly increases diastolic BP by 12.5 mm Hg; and recent alcohol intake can affect systolic BP by –23.6 to +24 mm Hg and diastolic BP by –14 to +16 mm Hg. Overall, the researchers found significant directional effects for 27 of the 29 potential sources of error, ranging from a mean –24 mm Hg to +33 mm Hg error for estimating systolic BP and a mean –14 mm Hg to +23 mm Hg for estimating diastolic BP.⁹

Careful adherence to guidelines ensures accurate BP measurement

Adequate training and standardized procedures can target and mitigate many of the identified sources of error; accordingly, all clinical staff responsible for obtaining a patient’s BP measurement should be trained not only in the correct method for accurate measurement but also in the identification of factors that may introduce errors.

Continue to: The American Heart Association...

The American Heart Association (AHA) recommends that BP be measured in both arms at the initial evaluation, with the higher measurement used for monitoring BP. The AHA also recommends obtaining at least 2 readings at least 1 minute apart and averaging them as the patient’s BP.¹⁰ Other research recommends using a fully automated sphygmomanometer to take multiple readings with the patient resting quietly alone in either the exam room or the waiting room¹¹ as an effective and efficient method for accurate BP averaging.

The 2 principal noninvasive methods of BP measurement are the manual auscultatory technique and the oscillatory technique. Because of its simplicity and relative degree of accuracy (when correctly performed), the auscultatory measurement remains common in everyday medical practice. Remarkably, it is one of only a few techniques for clinical examination of patients that has remained relatively unchanged since it was introduced by the Russian physician and scientist Nikolai Sergeevich Korotkoff in 1905.¹² However, accurate performance of the auscultatory method requires adequate training and experience.

In contrast, automated oscillometric BP measurement is easily performed and requires minimal training. However, it is important to note that any condition altering oscillation amplitude or regularity (eg, arterial wall stiffness or cardiac arrhythmia) will produce erroneous results, and the reading must be confirmed by auscultatory measurement.^{13, 14}

Auscultatory methods of BP ­measurement

The mainstay of clinical BP measurement has been auscultatory methods to detect the Korotkoff sounds, using a stethoscope and either mercury, aneroid, or “hybrid” sphygmomanometers. Traditionally, the mercury device was the “gold standard,” but the widespread ban of mercury in health care settings has now all but eliminated its use.

Aneroid gauge sphygmomanometers have a metallic spring and a metal membrane that flexes elastically to translate pressure signals from the cuff and operate a needle in the gauge. Owing to their complexity, these devices require regular recalibration, since inaccurate results may occur anytime the needle does not rest on 0 before use.

Contine to: The newer hybrid sphygmomanometers...

The newer hybrid sphygmomanometers have an electronic transducer in place of a mercury column; BP measurement is performed in the same fashion as with a mercury device, using a stethoscope and auscultation for the Korotkoff sounds.

Variations in technique for BP measurement can result in significantly different readings. In 2005, the AHA published recommendations for BP monitoring to increase the accuracy of in-clinic measurements.¹⁰ Recommendations for accurate BP measurement include:

Patient preparation. The patient should be seated in a chair with his or her back supported, legs uncrossed, and feet flat on the floor. The patient’s bare arm should be supported such that the midpoint of the upper arm is at heart level. An appropriately sized cuff (ie, bladder encircles 80% of the arm for an adult or 100% of the arm for a child younger than 13 years) should be secured around the bare upper arm and the bladder centered over the brachial artery, with the lower edge of the cuff about 2 cm above the antecubital fossa.¹⁰

Technique. The cuff is inflated while palpating the radial artery to the approximate systolic pressure (ie, the point at which the radial pulse is no longer palpated). The bell of the stethoscope is placed just proximal and medial to the antecubital fossa and the cuff is inflated another 20 to 30 mm Hg above the point at which the radial pulse is no longer felt. The cuff is deflated at a rate of about 2 mm Hg per second.¹⁰

BP recording. The systolic BP is recorded at the appearance of the Korotkoff sounds (phase I) for an auscultatory measurement. The diastolic BP is recorded at the disappearance of the Korotkoff sounds (phase V) in adults and at the muffling of sounds (phase IV) in children for an auscultatory measurement.¹⁰

Continue to: Oscillometric methods of BP measurement

Oscillometric methods of BP measurement

The auscultatory methods of BP measurement are gradually being replaced by oscillometric techniques that are better suited to automated methods of measurement. When oscillations of pressure in the gradually deflating bladder cuff are sensed and recorded, the point of maximal oscillation corresponds to the mean intra-arterial pressure.¹⁵ The oscillations sensed are vibrations in the arterial wall that are detected and transduced to an electric signal, producing a digital readout, and correspond approximately to the systolic pressure and continue below the diastolic pressure. The actual systolic and diastolic pressures are indirectly estimated according to a proprietary, empirically derived algorithm that differs from 1 manufacturer to another.

In older patients or those with diabetes who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure.

Validated oscillometric techniques have been successfully used in ambulatory BP monitors, which record pressure at regular intervals (typically 20 to 30 minutes) over a 24-hour period while patients perform normal daily activities, including sleep. The US Preventive Services Task Force¹⁶, the UK’s National Institute for Health and Clinical Excellence¹⁷, the European Society of Hypertension¹⁸, and the Canadian Hypertension Education Program¹⁹ collectively endorse ambulatory BP monitoring as the optimal method for BP measurement.

The oscillometric method has also been used for automated office BP measurement, which averages multiple BP readings recorded with a fully automated device while the patient rests alone in a quiet room in clinic. Compared with conventional auscultatory office BP measurement, this method has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect.^20-22

There are some limitations to oscillometric methods. The amplitude of oscillations is influenced by factors other than BP, notably, arterial wall stiffness. Therefore, in older patients¹³ or those with diabetes¹⁴ who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure. In contrast, acutely ill patients, particularly those with hypovolemia and more compliant arterial walls, may have significant underestimation of BP by oscillometric techniques.²³ In patients with peripheral arterial disease, calcified leg vessels can affect the diagnostic accuracy of oscillometric measurement of the ankle-brachial index (ABI).²⁴ A meta-analysis reported that in patients with atrial fibrillation, oscillometric measurement accurately assesses systolic BP but not diastolic BP, and therefore it may be inappropriate for office measurement of BP in these patients.²⁵ Other studies have reported that atrial fibrillation does not significantly affect the accuracy of oscillometric BP measurement if 3 repeated measurements are performed.^26,27

If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy.

Moreover, the algorithms used in these devices are proprietary trade secrets that can be modified by the manufacturer at any time without notice. Therefore, different devices—and even different models from the same manufacturer—may function differently. Only devices calibrated using a validated protocol should be used.^10,28 There are currently 4 unique protocols for validation of BP devices, although an international collaborative group recently published recommendations for a universal protocol for validation of BP measurement devices.²⁹

Continue to: The takeaway

Accurate office BP measurement is essential for patient evaluation and provides the basis for critical decisions about diagnosis, prognosis, and treatment of hypertensive disease. It is imperative to control for factors that may introduce error in BP determination by using a standard protocol and calibrated BP measurement equipment.

Both manual auscultatory and oscillometric methods of measurement are appropriate for office assessment, but oscillometric evaluation is inappropriate for patients with severe atherosclerotic disease, peripheral arterial disease (for ABI), or small arm circumference. If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy. Automated oscillometric BP assessment that records multiple measurements in the quietly resting patient has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect. Ambulatory oscillometric BP monitoring has been widely endorsed as the optimal method for BP measurement.

CORRESPONDENCE
Darrell R. Over, MD, MSc, FAAFP, 1601 West 40th Street, Pine Bluff, AR 71603; OverDarrellR@uams.edu

Blood pressure (BP) measurement is an essential component of the physical examination. The information gleaned through this simple but vitally important assessment provides a basis for critical decisions about diagnosis, prognosis, and therapy in a variety of health care settings. In the emergency department, it helps guide resuscitation efforts; in the intensive care unit, it helps to identify the deteriorating patient and guide vasopressor drug titration; in the ambulatory office setting, it helps to identify hypertension and the need for antihypertensive therapy.

In the office setting, inaccurate BP measurement can have profound effects. An overestimation by only 5 mm Hg would result in an erroneous diagnosis and unnecessary treatment of hypertension for about 27 million patients—entailing medication costs, potential adverse effects, and psychologic issues associated with this diagnosis. Conversely, underestimation by 5 mm Hg would miss about 21 million patients who actually have hypertension.¹

Why accurate BP measurement matters so much

About 75 million adults in the United States have high BP,² which costs the nation $46 billion annually in health care services, antihypertensive medications, and missed days of work.³ Among US adults ages 20 or older, the age-­adjusted prevalence of hypertension is estimated to be 34%, equivalent to 85.7 million adults.⁴

Defining hypertension. For the general population, the Eighth Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure ­(JNC-8) defines hypertension as a BP of 140/90 mm Hg or higher in adults younger than 60 and a BP of 150/90 mm Hg or higher in adults ages 60 or older. For patients with comorbid hypertension and diabetes, JNC-8 recommends pharmacologic treatment when BP is 140/90 mm Hg or higher, regardless of age.⁵

Accurate measurement of BP provides the rational basis for the management of hypertension, which in turn may decrease the risk for stroke, congestive heart failure, and other cardiovascular diseases. Several investigators^6-8 have observed that differences in interarm systolic BP are associated with an increased risk for peripheral vascular disease, stroke, and other cardiovascular problems.

Multiple factors impact accuracy; some might surprise you

A number of factors may influence the accuracy of BP measurement in the office; these are generally classified as related to the patient, the observer, the technique or procedure, or the equipment used. A recent systematic review by Kallioinen et al⁹ empirically evaluated 29 potential sources of inaccuracy in the measurement of adult resting BP. Among them were

Patient-related: Recent meal or alcohol intake; recent caffeine or nicotine use; full bladder distention; cold exposure; white-coat effect. Given the simplicity of assessing for these influences, it is worthwhile for office staff to ask patients, prior to the recommended 3 to 5 minutes of rest before BP measurement, if they were rushing to make their appointment, need to void their bladder, or have consumed food or drink or used tobacco within the past 30 minutes.

Continue to: Observer-related...

Observer-related: Hearing deficit; terminal digit bias (ie, preference for rounding BP reading to a specific end digit, eg, 0); measurement of diastolic BP at Korotkoff phase IV rather than phase V.

Procedure-related: Patient’s body position (eg, standing vs supine; legs crossed at knee; unsupported back or arm; arm lower than heart level); incorrect size or placement of cuff; talking during measurement (the content of conversation may influence results); and reliance on a single BP measurement.

Equipment-related: Device model bias; device calibration error.

The USPSTF, the UK’s National Institute for Health and Clinical Excellence, and other groups endorse ambulatory BP monitoring as the optimal method for BP measurement.

As reported by Kallioinen et al⁹, the magnitude of these potential errors ranges from small to large in both the positive and negative direction for both systolic and diastolic BP, and several sources of error are potentially bidirectional. For example, talking during BP measurement may result in an increase in systolic BP of 4 to 19 mm Hg and in diastolic BP of 5 to 14.3 mm Hg; measurement of diastolic BP at Korotkoff phase IV rather than phase V significantly increases diastolic BP by 12.5 mm Hg; and recent alcohol intake can affect systolic BP by –23.6 to +24 mm Hg and diastolic BP by –14 to +16 mm Hg. Overall, the researchers found significant directional effects for 27 of the 29 potential sources of error, ranging from a mean –24 mm Hg to +33 mm Hg error for estimating systolic BP and a mean –14 mm Hg to +23 mm Hg for estimating diastolic BP.⁹

Careful adherence to guidelines ensures accurate BP measurement

Adequate training and standardized procedures can target and mitigate many of the identified sources of error; accordingly, all clinical staff responsible for obtaining a patient’s BP measurement should be trained not only in the correct method for accurate measurement but also in the identification of factors that may introduce errors.

Continue to: The American Heart Association...

The American Heart Association (AHA) recommends that BP be measured in both arms at the initial evaluation, with the higher measurement used for monitoring BP. The AHA also recommends obtaining at least 2 readings at least 1 minute apart and averaging them as the patient’s BP.¹⁰ Other research recommends using a fully automated sphygmomanometer to take multiple readings with the patient resting quietly alone in either the exam room or the waiting room¹¹ as an effective and efficient method for accurate BP averaging.

The 2 principal noninvasive methods of BP measurement are the manual auscultatory technique and the oscillatory technique. Because of its simplicity and relative degree of accuracy (when correctly performed), the auscultatory measurement remains common in everyday medical practice. Remarkably, it is one of only a few techniques for clinical examination of patients that has remained relatively unchanged since it was introduced by the Russian physician and scientist Nikolai Sergeevich Korotkoff in 1905.¹² However, accurate performance of the auscultatory method requires adequate training and experience.

In contrast, automated oscillometric BP measurement is easily performed and requires minimal training. However, it is important to note that any condition altering oscillation amplitude or regularity (eg, arterial wall stiffness or cardiac arrhythmia) will produce erroneous results, and the reading must be confirmed by auscultatory measurement.^{13, 14}

Auscultatory methods of BP ­measurement

The mainstay of clinical BP measurement has been auscultatory methods to detect the Korotkoff sounds, using a stethoscope and either mercury, aneroid, or “hybrid” sphygmomanometers. Traditionally, the mercury device was the “gold standard,” but the widespread ban of mercury in health care settings has now all but eliminated its use.

Aneroid gauge sphygmomanometers have a metallic spring and a metal membrane that flexes elastically to translate pressure signals from the cuff and operate a needle in the gauge. Owing to their complexity, these devices require regular recalibration, since inaccurate results may occur anytime the needle does not rest on 0 before use.

Contine to: The newer hybrid sphygmomanometers...

The newer hybrid sphygmomanometers have an electronic transducer in place of a mercury column; BP measurement is performed in the same fashion as with a mercury device, using a stethoscope and auscultation for the Korotkoff sounds.

Variations in technique for BP measurement can result in significantly different readings. In 2005, the AHA published recommendations for BP monitoring to increase the accuracy of in-clinic measurements.¹⁰ Recommendations for accurate BP measurement include:

Patient preparation. The patient should be seated in a chair with his or her back supported, legs uncrossed, and feet flat on the floor. The patient’s bare arm should be supported such that the midpoint of the upper arm is at heart level. An appropriately sized cuff (ie, bladder encircles 80% of the arm for an adult or 100% of the arm for a child younger than 13 years) should be secured around the bare upper arm and the bladder centered over the brachial artery, with the lower edge of the cuff about 2 cm above the antecubital fossa.¹⁰

Technique. The cuff is inflated while palpating the radial artery to the approximate systolic pressure (ie, the point at which the radial pulse is no longer palpated). The bell of the stethoscope is placed just proximal and medial to the antecubital fossa and the cuff is inflated another 20 to 30 mm Hg above the point at which the radial pulse is no longer felt. The cuff is deflated at a rate of about 2 mm Hg per second.¹⁰

BP recording. The systolic BP is recorded at the appearance of the Korotkoff sounds (phase I) for an auscultatory measurement. The diastolic BP is recorded at the disappearance of the Korotkoff sounds (phase V) in adults and at the muffling of sounds (phase IV) in children for an auscultatory measurement.¹⁰

Continue to: Oscillometric methods of BP measurement

Oscillometric methods of BP measurement

The auscultatory methods of BP measurement are gradually being replaced by oscillometric techniques that are better suited to automated methods of measurement. When oscillations of pressure in the gradually deflating bladder cuff are sensed and recorded, the point of maximal oscillation corresponds to the mean intra-arterial pressure.¹⁵ The oscillations sensed are vibrations in the arterial wall that are detected and transduced to an electric signal, producing a digital readout, and correspond approximately to the systolic pressure and continue below the diastolic pressure. The actual systolic and diastolic pressures are indirectly estimated according to a proprietary, empirically derived algorithm that differs from 1 manufacturer to another.

In older patients or those with diabetes who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure.

Validated oscillometric techniques have been successfully used in ambulatory BP monitors, which record pressure at regular intervals (typically 20 to 30 minutes) over a 24-hour period while patients perform normal daily activities, including sleep. The US Preventive Services Task Force¹⁶, the UK’s National Institute for Health and Clinical Excellence¹⁷, the European Society of Hypertension¹⁸, and the Canadian Hypertension Education Program¹⁹ collectively endorse ambulatory BP monitoring as the optimal method for BP measurement.

The oscillometric method has also been used for automated office BP measurement, which averages multiple BP readings recorded with a fully automated device while the patient rests alone in a quiet room in clinic. Compared with conventional auscultatory office BP measurement, this method has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect.^20-22

There are some limitations to oscillometric methods. The amplitude of oscillations is influenced by factors other than BP, notably, arterial wall stiffness. Therefore, in older patients¹³ or those with diabetes¹⁴ who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure. In contrast, acutely ill patients, particularly those with hypovolemia and more compliant arterial walls, may have significant underestimation of BP by oscillometric techniques.²³ In patients with peripheral arterial disease, calcified leg vessels can affect the diagnostic accuracy of oscillometric measurement of the ankle-brachial index (ABI).²⁴ A meta-analysis reported that in patients with atrial fibrillation, oscillometric measurement accurately assesses systolic BP but not diastolic BP, and therefore it may be inappropriate for office measurement of BP in these patients.²⁵ Other studies have reported that atrial fibrillation does not significantly affect the accuracy of oscillometric BP measurement if 3 repeated measurements are performed.^26,27

If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy.

Moreover, the algorithms used in these devices are proprietary trade secrets that can be modified by the manufacturer at any time without notice. Therefore, different devices—and even different models from the same manufacturer—may function differently. Only devices calibrated using a validated protocol should be used.^10,28 There are currently 4 unique protocols for validation of BP devices, although an international collaborative group recently published recommendations for a universal protocol for validation of BP measurement devices.²⁹

Continue to: The takeaway

Accurate office BP measurement is essential for patient evaluation and provides the basis for critical decisions about diagnosis, prognosis, and treatment of hypertensive disease. It is imperative to control for factors that may introduce error in BP determination by using a standard protocol and calibrated BP measurement equipment.

Both manual auscultatory and oscillometric methods of measurement are appropriate for office assessment, but oscillometric evaluation is inappropriate for patients with severe atherosclerotic disease, peripheral arterial disease (for ABI), or small arm circumference. If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy. Automated oscillometric BP assessment that records multiple measurements in the quietly resting patient has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect. Ambulatory oscillometric BP monitoring has been widely endorsed as the optimal method for BP measurement.

CORRESPONDENCE
Darrell R. Over, MD, MSc, FAAFP, 1601 West 40th Street, Pine Bluff, AR 71603; OverDarrellR@uams.edu

Blood pressure (BP) measurement is an essential component of the physical examination. The information gleaned through this simple but vitally important assessment provides a basis for critical decisions about diagnosis, prognosis, and therapy in a variety of health care settings. In the emergency department, it helps guide resuscitation efforts; in the intensive care unit, it helps to identify the deteriorating patient and guide vasopressor drug titration; in the ambulatory office setting, it helps to identify hypertension and the need for antihypertensive therapy.

In the office setting, inaccurate BP measurement can have profound effects. An overestimation by only 5 mm Hg would result in an erroneous diagnosis and unnecessary treatment of hypertension for about 27 million patients—entailing medication costs, potential adverse effects, and psychologic issues associated with this diagnosis. Conversely, underestimation by 5 mm Hg would miss about 21 million patients who actually have hypertension.¹

Why accurate BP measurement matters so much

About 75 million adults in the United States have high BP,² which costs the nation $46 billion annually in health care services, antihypertensive medications, and missed days of work.³ Among US adults ages 20 or older, the age-­adjusted prevalence of hypertension is estimated to be 34%, equivalent to 85.7 million adults.⁴

Defining hypertension. For the general population, the Eighth Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure ­(JNC-8) defines hypertension as a BP of 140/90 mm Hg or higher in adults younger than 60 and a BP of 150/90 mm Hg or higher in adults ages 60 or older. For patients with comorbid hypertension and diabetes, JNC-8 recommends pharmacologic treatment when BP is 140/90 mm Hg or higher, regardless of age.⁵

Accurate measurement of BP provides the rational basis for the management of hypertension, which in turn may decrease the risk for stroke, congestive heart failure, and other cardiovascular diseases. Several investigators^6-8 have observed that differences in interarm systolic BP are associated with an increased risk for peripheral vascular disease, stroke, and other cardiovascular problems.

Multiple factors impact accuracy; some might surprise you

A number of factors may influence the accuracy of BP measurement in the office; these are generally classified as related to the patient, the observer, the technique or procedure, or the equipment used. A recent systematic review by Kallioinen et al⁹ empirically evaluated 29 potential sources of inaccuracy in the measurement of adult resting BP. Among them were

Patient-related: Recent meal or alcohol intake; recent caffeine or nicotine use; full bladder distention; cold exposure; white-coat effect. Given the simplicity of assessing for these influences, it is worthwhile for office staff to ask patients, prior to the recommended 3 to 5 minutes of rest before BP measurement, if they were rushing to make their appointment, need to void their bladder, or have consumed food or drink or used tobacco within the past 30 minutes.

Continue to: Observer-related...

Observer-related: Hearing deficit; terminal digit bias (ie, preference for rounding BP reading to a specific end digit, eg, 0); measurement of diastolic BP at Korotkoff phase IV rather than phase V.

Procedure-related: Patient’s body position (eg, standing vs supine; legs crossed at knee; unsupported back or arm; arm lower than heart level); incorrect size or placement of cuff; talking during measurement (the content of conversation may influence results); and reliance on a single BP measurement.

Equipment-related: Device model bias; device calibration error.

The USPSTF, the UK’s National Institute for Health and Clinical Excellence, and other groups endorse ambulatory BP monitoring as the optimal method for BP measurement.

As reported by Kallioinen et al⁹, the magnitude of these potential errors ranges from small to large in both the positive and negative direction for both systolic and diastolic BP, and several sources of error are potentially bidirectional. For example, talking during BP measurement may result in an increase in systolic BP of 4 to 19 mm Hg and in diastolic BP of 5 to 14.3 mm Hg; measurement of diastolic BP at Korotkoff phase IV rather than phase V significantly increases diastolic BP by 12.5 mm Hg; and recent alcohol intake can affect systolic BP by –23.6 to +24 mm Hg and diastolic BP by –14 to +16 mm Hg. Overall, the researchers found significant directional effects for 27 of the 29 potential sources of error, ranging from a mean –24 mm Hg to +33 mm Hg error for estimating systolic BP and a mean –14 mm Hg to +23 mm Hg for estimating diastolic BP.⁹

Careful adherence to guidelines ensures accurate BP measurement

Adequate training and standardized procedures can target and mitigate many of the identified sources of error; accordingly, all clinical staff responsible for obtaining a patient’s BP measurement should be trained not only in the correct method for accurate measurement but also in the identification of factors that may introduce errors.

Continue to: The American Heart Association...

The American Heart Association (AHA) recommends that BP be measured in both arms at the initial evaluation, with the higher measurement used for monitoring BP. The AHA also recommends obtaining at least 2 readings at least 1 minute apart and averaging them as the patient’s BP.¹⁰ Other research recommends using a fully automated sphygmomanometer to take multiple readings with the patient resting quietly alone in either the exam room or the waiting room¹¹ as an effective and efficient method for accurate BP averaging.

The 2 principal noninvasive methods of BP measurement are the manual auscultatory technique and the oscillatory technique. Because of its simplicity and relative degree of accuracy (when correctly performed), the auscultatory measurement remains common in everyday medical practice. Remarkably, it is one of only a few techniques for clinical examination of patients that has remained relatively unchanged since it was introduced by the Russian physician and scientist Nikolai Sergeevich Korotkoff in 1905.¹² However, accurate performance of the auscultatory method requires adequate training and experience.

In contrast, automated oscillometric BP measurement is easily performed and requires minimal training. However, it is important to note that any condition altering oscillation amplitude or regularity (eg, arterial wall stiffness or cardiac arrhythmia) will produce erroneous results, and the reading must be confirmed by auscultatory measurement.^{13, 14}

Auscultatory methods of BP ­measurement

The mainstay of clinical BP measurement has been auscultatory methods to detect the Korotkoff sounds, using a stethoscope and either mercury, aneroid, or “hybrid” sphygmomanometers. Traditionally, the mercury device was the “gold standard,” but the widespread ban of mercury in health care settings has now all but eliminated its use.

Aneroid gauge sphygmomanometers have a metallic spring and a metal membrane that flexes elastically to translate pressure signals from the cuff and operate a needle in the gauge. Owing to their complexity, these devices require regular recalibration, since inaccurate results may occur anytime the needle does not rest on 0 before use.

Contine to: The newer hybrid sphygmomanometers...

The newer hybrid sphygmomanometers have an electronic transducer in place of a mercury column; BP measurement is performed in the same fashion as with a mercury device, using a stethoscope and auscultation for the Korotkoff sounds.

Variations in technique for BP measurement can result in significantly different readings. In 2005, the AHA published recommendations for BP monitoring to increase the accuracy of in-clinic measurements.¹⁰ Recommendations for accurate BP measurement include:

Patient preparation. The patient should be seated in a chair with his or her back supported, legs uncrossed, and feet flat on the floor. The patient’s bare arm should be supported such that the midpoint of the upper arm is at heart level. An appropriately sized cuff (ie, bladder encircles 80% of the arm for an adult or 100% of the arm for a child younger than 13 years) should be secured around the bare upper arm and the bladder centered over the brachial artery, with the lower edge of the cuff about 2 cm above the antecubital fossa.¹⁰

Technique. The cuff is inflated while palpating the radial artery to the approximate systolic pressure (ie, the point at which the radial pulse is no longer palpated). The bell of the stethoscope is placed just proximal and medial to the antecubital fossa and the cuff is inflated another 20 to 30 mm Hg above the point at which the radial pulse is no longer felt. The cuff is deflated at a rate of about 2 mm Hg per second.¹⁰

BP recording. The systolic BP is recorded at the appearance of the Korotkoff sounds (phase I) for an auscultatory measurement. The diastolic BP is recorded at the disappearance of the Korotkoff sounds (phase V) in adults and at the muffling of sounds (phase IV) in children for an auscultatory measurement.¹⁰

Continue to: Oscillometric methods of BP measurement

Oscillometric methods of BP measurement

The auscultatory methods of BP measurement are gradually being replaced by oscillometric techniques that are better suited to automated methods of measurement. When oscillations of pressure in the gradually deflating bladder cuff are sensed and recorded, the point of maximal oscillation corresponds to the mean intra-arterial pressure.¹⁵ The oscillations sensed are vibrations in the arterial wall that are detected and transduced to an electric signal, producing a digital readout, and correspond approximately to the systolic pressure and continue below the diastolic pressure. The actual systolic and diastolic pressures are indirectly estimated according to a proprietary, empirically derived algorithm that differs from 1 manufacturer to another.

In older patients or those with diabetes who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure.

Validated oscillometric techniques have been successfully used in ambulatory BP monitors, which record pressure at regular intervals (typically 20 to 30 minutes) over a 24-hour period while patients perform normal daily activities, including sleep. The US Preventive Services Task Force¹⁶, the UK’s National Institute for Health and Clinical Excellence¹⁷, the European Society of Hypertension¹⁸, and the Canadian Hypertension Education Program¹⁹ collectively endorse ambulatory BP monitoring as the optimal method for BP measurement.

The oscillometric method has also been used for automated office BP measurement, which averages multiple BP readings recorded with a fully automated device while the patient rests alone in a quiet room in clinic. Compared with conventional auscultatory office BP measurement, this method has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect.^20-22

There are some limitations to oscillometric methods. The amplitude of oscillations is influenced by factors other than BP, notably, arterial wall stiffness. Therefore, in older patients¹³ or those with diabetes¹⁴ who have reduced arterial wall elasticity, oscillometric BP measurements overestimate systolic pressure and underestimate diastolic pressure. In contrast, acutely ill patients, particularly those with hypovolemia and more compliant arterial walls, may have significant underestimation of BP by oscillometric techniques.²³ In patients with peripheral arterial disease, calcified leg vessels can affect the diagnostic accuracy of oscillometric measurement of the ankle-brachial index (ABI).²⁴ A meta-analysis reported that in patients with atrial fibrillation, oscillometric measurement accurately assesses systolic BP but not diastolic BP, and therefore it may be inappropriate for office measurement of BP in these patients.²⁵ Other studies have reported that atrial fibrillation does not significantly affect the accuracy of oscillometric BP measurement if 3 repeated measurements are performed.^26,27

If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy.

Moreover, the algorithms used in these devices are proprietary trade secrets that can be modified by the manufacturer at any time without notice. Therefore, different devices—and even different models from the same manufacturer—may function differently. Only devices calibrated using a validated protocol should be used.^10,28 There are currently 4 unique protocols for validation of BP devices, although an international collaborative group recently published recommendations for a universal protocol for validation of BP measurement devices.²⁹

Continue to: The takeaway

Accurate office BP measurement is essential for patient evaluation and provides the basis for critical decisions about diagnosis, prognosis, and treatment of hypertensive disease. It is imperative to control for factors that may introduce error in BP determination by using a standard protocol and calibrated BP measurement equipment.

Both manual auscultatory and oscillometric methods of measurement are appropriate for office assessment, but oscillometric evaluation is inappropriate for patients with severe atherosclerotic disease, peripheral arterial disease (for ABI), or small arm circumference. If oscillometric BP measurement is performed in patients with atrial fibrillation, at least 3 repeated measurements should be done to improve accuracy. Automated oscillometric BP assessment that records multiple measurements in the quietly resting patient has been promoted to provide a more standardized BP measurement by reducing observer error and the “white coat” effect. Ambulatory oscillometric BP monitoring has been widely endorsed as the optimal method for BP measurement.

CORRESPONDENCE
Darrell R. Over, MD, MSc, FAAFP, 1601 West 40th Street, Pine Bluff, AR 71603; OverDarrellR@uams.edu

WEST PALM BEACH, FLA. – The incidence rate of many cardiovascular events is more than doubled in patients with multiple sclerosis (MS), compared with matched controls without MS, according to a study presented at ACTRIMS Forum 2020. The risk of a major adverse cardiac event (MACE) – that is, a first myocardial infarction, stroke, or cardiac arrest – is approximately twofold higher. Venous thromboembolism and peripheral vascular disease also occur at notably increased rates, reported Rebecca Persson, MPH, and colleagues at the meeting held by the Americas Committee for Treatment and Research in Multiple Sclerosis. Ms. Persson is an epidemiologist at the Boston Collaborative Drug Surveillance Program in Lexington, Mass.

Vascular comorbidities are more prevalent in patients with MS than in the general population, but few studies have reported on the incidence of cardiovascular disease after MS diagnosis. To describe rates of incident cardiovascular disease after MS diagnosis and compare them with rates in a matched population without MS, the researchers analyzed data from a U.S. Department of Defense database.

The study included a cohort of 6,406 patients with MS diagnosed and treated during Jan. 2004–Aug. 2017 who had at least one prescription for an MS disease-modifying treatment.

A cohort of 66,281 patients without MS were matched to the patients with MS 10:1 based on age, sex, geographic region, and cohort entry date. The researchers excluded patients with a history of cardiovascular disease or select comorbidities such as dyslipidemia, atrial fibrillation, or a disorder related to peripheral vascular disease. They also excluded patients with a history of treated hypertension or treated type 2 diabetes, defined as diagnosis and treatment within 90 days of each other.

Researchers considered a patient to have a cardiovascular disease outcome – including MI, stroke, cardiac arrest, heart failure, angina or unspecified ischemic heart disease, transient ischemic attack or unspecified cerebrovascular disease, venous thromboembolism, peripheral vascular disease, pericardial disease, bradycardia or heart block, or arrhythmia other than atrial fibrillation or atrial flutter – if the disease was recorded five or more times.

The researchers followed patients from cohort entry until study outcome (separate for each outcome), loss of eligibility, death, or end of data collection. Ms. Persson and colleagues calculated incidence rates (IRs) using the Byar method and incidence rate ratios (IRRs) using Poisson regression for each outcome.

The median age at MS diagnosis or at the matched date was 38 years, and 71% were female. The median duration of record after patients entered the cohort was 7.2 years for patients with MS and 5.3 years for patients without MS.

The IRs of all cardiovascular disease types, with the exception of bradycardia or heart block, were higher for patients with MS, compared with non-MS patients, the researchers reported. Many cardiovascular disease outcomes had IRRs greater than 2. “The incidence of MI was higher among MS patients than among non-MS patients,” the researchers said (IR, 12.4 vs. 5.9 per 10,000 person-years; IRR, 2.11).

“Risk of MACE and risk of stroke were higher among MS patients than among non-MS patients,” the researchers said. Relative risks also were higher among women than among men (2.47 vs. 1.55 for MACE, and 2.19 vs. 1.71 for stroke). When the investigators performed a sensitivity analysis to address the possibility that physicians might misdiagnosis MS symptoms as stroke, the rate of stroke was attenuated among patients with MS, but remained elevated relative to the rate among patients without MS (IRR, 1.63).

The IR of venous thromboembolism was more than 2 times higher among patients with MS than among non-MS patients (38.4 vs. 15.1 per 10,000 person-years; IRR, 2.54), as was the risk of peripheral vascular disease (14.9 vs. 6.0 per 10,000 person-years; IRR, 2.49). The relative risk of peripheral vascular disease was higher in women than men, and the risk in patients with MS increased after age 40 years.

The study was funded by a grant from Celgene, a subsidiary of Bristol-Myers Squibb. Four of Ms. Persson’s coauthors are employees of BMS, and one works for a company that has a business relationship with Celgene.

jremaly@mdedge.com

SOURCE: Persson R et al. ACTRIMS Forum 2020. Abstract P082.

WEST PALM BEACH, FLA. – The incidence rate of many cardiovascular events is more than doubled in patients with multiple sclerosis (MS), compared with matched controls without MS, according to a study presented at ACTRIMS Forum 2020. The risk of a major adverse cardiac event (MACE) – that is, a first myocardial infarction, stroke, or cardiac arrest – is approximately twofold higher. Venous thromboembolism and peripheral vascular disease also occur at notably increased rates, reported Rebecca Persson, MPH, and colleagues at the meeting held by the Americas Committee for Treatment and Research in Multiple Sclerosis. Ms. Persson is an epidemiologist at the Boston Collaborative Drug Surveillance Program in Lexington, Mass.

Vascular comorbidities are more prevalent in patients with MS than in the general population, but few studies have reported on the incidence of cardiovascular disease after MS diagnosis. To describe rates of incident cardiovascular disease after MS diagnosis and compare them with rates in a matched population without MS, the researchers analyzed data from a U.S. Department of Defense database.

The study included a cohort of 6,406 patients with MS diagnosed and treated during Jan. 2004–Aug. 2017 who had at least one prescription for an MS disease-modifying treatment.

A cohort of 66,281 patients without MS were matched to the patients with MS 10:1 based on age, sex, geographic region, and cohort entry date. The researchers excluded patients with a history of cardiovascular disease or select comorbidities such as dyslipidemia, atrial fibrillation, or a disorder related to peripheral vascular disease. They also excluded patients with a history of treated hypertension or treated type 2 diabetes, defined as diagnosis and treatment within 90 days of each other.

Researchers considered a patient to have a cardiovascular disease outcome – including MI, stroke, cardiac arrest, heart failure, angina or unspecified ischemic heart disease, transient ischemic attack or unspecified cerebrovascular disease, venous thromboembolism, peripheral vascular disease, pericardial disease, bradycardia or heart block, or arrhythmia other than atrial fibrillation or atrial flutter – if the disease was recorded five or more times.

The researchers followed patients from cohort entry until study outcome (separate for each outcome), loss of eligibility, death, or end of data collection. Ms. Persson and colleagues calculated incidence rates (IRs) using the Byar method and incidence rate ratios (IRRs) using Poisson regression for each outcome.

The median age at MS diagnosis or at the matched date was 38 years, and 71% were female. The median duration of record after patients entered the cohort was 7.2 years for patients with MS and 5.3 years for patients without MS.

The IRs of all cardiovascular disease types, with the exception of bradycardia or heart block, were higher for patients with MS, compared with non-MS patients, the researchers reported. Many cardiovascular disease outcomes had IRRs greater than 2. “The incidence of MI was higher among MS patients than among non-MS patients,” the researchers said (IR, 12.4 vs. 5.9 per 10,000 person-years; IRR, 2.11).

“Risk of MACE and risk of stroke were higher among MS patients than among non-MS patients,” the researchers said. Relative risks also were higher among women than among men (2.47 vs. 1.55 for MACE, and 2.19 vs. 1.71 for stroke). When the investigators performed a sensitivity analysis to address the possibility that physicians might misdiagnosis MS symptoms as stroke, the rate of stroke was attenuated among patients with MS, but remained elevated relative to the rate among patients without MS (IRR, 1.63).

The IR of venous thromboembolism was more than 2 times higher among patients with MS than among non-MS patients (38.4 vs. 15.1 per 10,000 person-years; IRR, 2.54), as was the risk of peripheral vascular disease (14.9 vs. 6.0 per 10,000 person-years; IRR, 2.49). The relative risk of peripheral vascular disease was higher in women than men, and the risk in patients with MS increased after age 40 years.

The study was funded by a grant from Celgene, a subsidiary of Bristol-Myers Squibb. Four of Ms. Persson’s coauthors are employees of BMS, and one works for a company that has a business relationship with Celgene.

jremaly@mdedge.com

SOURCE: Persson R et al. ACTRIMS Forum 2020. Abstract P082.

WEST PALM BEACH, FLA. – The incidence rate of many cardiovascular events is more than doubled in patients with multiple sclerosis (MS), compared with matched controls without MS, according to a study presented at ACTRIMS Forum 2020. The risk of a major adverse cardiac event (MACE) – that is, a first myocardial infarction, stroke, or cardiac arrest – is approximately twofold higher. Venous thromboembolism and peripheral vascular disease also occur at notably increased rates, reported Rebecca Persson, MPH, and colleagues at the meeting held by the Americas Committee for Treatment and Research in Multiple Sclerosis. Ms. Persson is an epidemiologist at the Boston Collaborative Drug Surveillance Program in Lexington, Mass.

Vascular comorbidities are more prevalent in patients with MS than in the general population, but few studies have reported on the incidence of cardiovascular disease after MS diagnosis. To describe rates of incident cardiovascular disease after MS diagnosis and compare them with rates in a matched population without MS, the researchers analyzed data from a U.S. Department of Defense database.

The study included a cohort of 6,406 patients with MS diagnosed and treated during Jan. 2004–Aug. 2017 who had at least one prescription for an MS disease-modifying treatment.

A cohort of 66,281 patients without MS were matched to the patients with MS 10:1 based on age, sex, geographic region, and cohort entry date. The researchers excluded patients with a history of cardiovascular disease or select comorbidities such as dyslipidemia, atrial fibrillation, or a disorder related to peripheral vascular disease. They also excluded patients with a history of treated hypertension or treated type 2 diabetes, defined as diagnosis and treatment within 90 days of each other.

Researchers considered a patient to have a cardiovascular disease outcome – including MI, stroke, cardiac arrest, heart failure, angina or unspecified ischemic heart disease, transient ischemic attack or unspecified cerebrovascular disease, venous thromboembolism, peripheral vascular disease, pericardial disease, bradycardia or heart block, or arrhythmia other than atrial fibrillation or atrial flutter – if the disease was recorded five or more times.

The researchers followed patients from cohort entry until study outcome (separate for each outcome), loss of eligibility, death, or end of data collection. Ms. Persson and colleagues calculated incidence rates (IRs) using the Byar method and incidence rate ratios (IRRs) using Poisson regression for each outcome.

The median age at MS diagnosis or at the matched date was 38 years, and 71% were female. The median duration of record after patients entered the cohort was 7.2 years for patients with MS and 5.3 years for patients without MS.

The IRs of all cardiovascular disease types, with the exception of bradycardia or heart block, were higher for patients with MS, compared with non-MS patients, the researchers reported. Many cardiovascular disease outcomes had IRRs greater than 2. “The incidence of MI was higher among MS patients than among non-MS patients,” the researchers said (IR, 12.4 vs. 5.9 per 10,000 person-years; IRR, 2.11).

“Risk of MACE and risk of stroke were higher among MS patients than among non-MS patients,” the researchers said. Relative risks also were higher among women than among men (2.47 vs. 1.55 for MACE, and 2.19 vs. 1.71 for stroke). When the investigators performed a sensitivity analysis to address the possibility that physicians might misdiagnosis MS symptoms as stroke, the rate of stroke was attenuated among patients with MS, but remained elevated relative to the rate among patients without MS (IRR, 1.63).

The IR of venous thromboembolism was more than 2 times higher among patients with MS than among non-MS patients (38.4 vs. 15.1 per 10,000 person-years; IRR, 2.54), as was the risk of peripheral vascular disease (14.9 vs. 6.0 per 10,000 person-years; IRR, 2.49). The relative risk of peripheral vascular disease was higher in women than men, and the risk in patients with MS increased after age 40 years.

The study was funded by a grant from Celgene, a subsidiary of Bristol-Myers Squibb. Four of Ms. Persson’s coauthors are employees of BMS, and one works for a company that has a business relationship with Celgene.

jremaly@mdedge.com

SOURCE: Persson R et al. ACTRIMS Forum 2020. Abstract P082.

NATIONAL HARBOR, MD. – Following a percutaneous intervention with a second-generation drug-eluting stent, a judicious interruption of antiplatelet therapy for noncardiac surgery does not increase risk of net adverse clinical events, according to a large dataset presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Drawn from a multicenter registry in South Korea, it is likely that those in whom antiplatelet therapy was stopped during the perioperative period were at a lower relative risk, but the data remain reassuring, according to Jung-Sun Kim, MD, PhD, professor of medicine at Yonsei University, Seoul, South Korea.

In the registry of patients with a second-generation drug-eluting stent (DES) undergoing noncardiac surgery, “antiplatelet therapy was discontinued in almost half of the patients,” Dr. Kim reported. When these patients were compared with those who did not discontinue antiplatelet therapy, the data, called an “exploratory analysis,” suggested “no increased risk” of a composite of major adverse cardiac events (MACE) or major bleeding.

The retrospective analysis involved 3,582 percutaneous intervention (PCI) patients who had received a second-generation DES and subsequently underwent noncardiac surgery. In 1,750 of these patients, antiplatelet therapy was temporarily discontinued. The remaining 1,832 remained on some form of antiplatelet treatment, whether aspirin, a P2Y12 inhibitor, or dual-antiplatelet therapy.

There were no significant differences in crude rates between groups in rates at 30 days of a composite endpoint of MACE, major bleeding as defined by the International Society on Thrombosis and Haemostasis, or net adverse clinical events (NACE), a composite of adverse events that included MACE and major bleeding.

Relative risks for antiplatelet discontinuation remained generally low even after multiple stratifications performed to explore different variables, including the types of antiplatelet therapy being taken at the time of discontinuation, the types of noncardiac surgery performed, and the duration of discontinuation.

Of these variables, the interval of discontinuation appeared to be most relevant. Antiplatelet discontinuation of 3 days or less appeared to be associated with a higher risk of bleeding, although the difference did not reach significance. Discontinuations of 9 days or more were associated with increased risk of MACE, and this difference did reach statistical significance (hazard ratio, 3.38; 95% confidence interval, 1.36-8.38).

“Discontinuation of antiplatelet therapy for a period of 4-8 days appears to be optimal,” Dr. Kim said.

In general, risk of MACE, major bleeding, or NACE could not be linked to type of surgery, with the exception of intra-abdominal surgery. For this procedure, there appeared to be a lower risk of MACE in those who discontinued relative to those who remained on antiplatelet therapy, Dr. Kim reported.

Importantly, because of the fact that the decision to stop antiplatelet treatment was made by treating physicians, the characteristics of those who discontinued or remained on antiplatelet therapy differed meaningfully. Specifically, those in the discontinuation group were younger and were less likely to have additional risks for thrombotic events such as diabetes or chronic kidney disease. In those who discontinued antiplatelets, the average time since PCI was 23 months versus 16 months in the continuation group.

In addition, “more of the patients underwent higher-risk surgeries in the discontinuation group,” Dr. Kim added.

Relative rates of MACE and NACE remained similar even after risk adjustment, but Dr. Kim advised that the data should be “interpreted cautiously” because of the retrospective nature of the analysis.

A panel of experts invited to comment on the presentation agreed. These data were considered reassuring for clinicians considering an interruption of antiplatelet therapy following PCI with a second-generation DES, but there was uncertainty about their value for defining which patients are the best candidates.

The decision to discontinue antiplatelet drugs for noncardiac surgery is an important and common dilemma, but these data might be best characterized as “a testament to Korean cardiologists making good decisions,” said David J. Moliterno, MD, chairman of the department of medicine at University of Kentucky Health Care, Lexington.

Dr. Kim reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Following a percutaneous intervention with a second-generation drug-eluting stent, a judicious interruption of antiplatelet therapy for noncardiac surgery does not increase risk of net adverse clinical events, according to a large dataset presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Drawn from a multicenter registry in South Korea, it is likely that those in whom antiplatelet therapy was stopped during the perioperative period were at a lower relative risk, but the data remain reassuring, according to Jung-Sun Kim, MD, PhD, professor of medicine at Yonsei University, Seoul, South Korea.

In the registry of patients with a second-generation drug-eluting stent (DES) undergoing noncardiac surgery, “antiplatelet therapy was discontinued in almost half of the patients,” Dr. Kim reported. When these patients were compared with those who did not discontinue antiplatelet therapy, the data, called an “exploratory analysis,” suggested “no increased risk” of a composite of major adverse cardiac events (MACE) or major bleeding.

The retrospective analysis involved 3,582 percutaneous intervention (PCI) patients who had received a second-generation DES and subsequently underwent noncardiac surgery. In 1,750 of these patients, antiplatelet therapy was temporarily discontinued. The remaining 1,832 remained on some form of antiplatelet treatment, whether aspirin, a P2Y12 inhibitor, or dual-antiplatelet therapy.

There were no significant differences in crude rates between groups in rates at 30 days of a composite endpoint of MACE, major bleeding as defined by the International Society on Thrombosis and Haemostasis, or net adverse clinical events (NACE), a composite of adverse events that included MACE and major bleeding.

Relative risks for antiplatelet discontinuation remained generally low even after multiple stratifications performed to explore different variables, including the types of antiplatelet therapy being taken at the time of discontinuation, the types of noncardiac surgery performed, and the duration of discontinuation.

Of these variables, the interval of discontinuation appeared to be most relevant. Antiplatelet discontinuation of 3 days or less appeared to be associated with a higher risk of bleeding, although the difference did not reach significance. Discontinuations of 9 days or more were associated with increased risk of MACE, and this difference did reach statistical significance (hazard ratio, 3.38; 95% confidence interval, 1.36-8.38).

“Discontinuation of antiplatelet therapy for a period of 4-8 days appears to be optimal,” Dr. Kim said.

In general, risk of MACE, major bleeding, or NACE could not be linked to type of surgery, with the exception of intra-abdominal surgery. For this procedure, there appeared to be a lower risk of MACE in those who discontinued relative to those who remained on antiplatelet therapy, Dr. Kim reported.

Importantly, because of the fact that the decision to stop antiplatelet treatment was made by treating physicians, the characteristics of those who discontinued or remained on antiplatelet therapy differed meaningfully. Specifically, those in the discontinuation group were younger and were less likely to have additional risks for thrombotic events such as diabetes or chronic kidney disease. In those who discontinued antiplatelets, the average time since PCI was 23 months versus 16 months in the continuation group.

In addition, “more of the patients underwent higher-risk surgeries in the discontinuation group,” Dr. Kim added.

Relative rates of MACE and NACE remained similar even after risk adjustment, but Dr. Kim advised that the data should be “interpreted cautiously” because of the retrospective nature of the analysis.

A panel of experts invited to comment on the presentation agreed. These data were considered reassuring for clinicians considering an interruption of antiplatelet therapy following PCI with a second-generation DES, but there was uncertainty about their value for defining which patients are the best candidates.

The decision to discontinue antiplatelet drugs for noncardiac surgery is an important and common dilemma, but these data might be best characterized as “a testament to Korean cardiologists making good decisions,” said David J. Moliterno, MD, chairman of the department of medicine at University of Kentucky Health Care, Lexington.

Dr. Kim reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Following a percutaneous intervention with a second-generation drug-eluting stent, a judicious interruption of antiplatelet therapy for noncardiac surgery does not increase risk of net adverse clinical events, according to a large dataset presented at CRT 2020 sponsored by MedStar Heart & Vascular Institute.

Ted Bosworth/MDedge News

Drawn from a multicenter registry in South Korea, it is likely that those in whom antiplatelet therapy was stopped during the perioperative period were at a lower relative risk, but the data remain reassuring, according to Jung-Sun Kim, MD, PhD, professor of medicine at Yonsei University, Seoul, South Korea.

In the registry of patients with a second-generation drug-eluting stent (DES) undergoing noncardiac surgery, “antiplatelet therapy was discontinued in almost half of the patients,” Dr. Kim reported. When these patients were compared with those who did not discontinue antiplatelet therapy, the data, called an “exploratory analysis,” suggested “no increased risk” of a composite of major adverse cardiac events (MACE) or major bleeding.

The retrospective analysis involved 3,582 percutaneous intervention (PCI) patients who had received a second-generation DES and subsequently underwent noncardiac surgery. In 1,750 of these patients, antiplatelet therapy was temporarily discontinued. The remaining 1,832 remained on some form of antiplatelet treatment, whether aspirin, a P2Y12 inhibitor, or dual-antiplatelet therapy.

There were no significant differences in crude rates between groups in rates at 30 days of a composite endpoint of MACE, major bleeding as defined by the International Society on Thrombosis and Haemostasis, or net adverse clinical events (NACE), a composite of adverse events that included MACE and major bleeding.

Relative risks for antiplatelet discontinuation remained generally low even after multiple stratifications performed to explore different variables, including the types of antiplatelet therapy being taken at the time of discontinuation, the types of noncardiac surgery performed, and the duration of discontinuation.

Of these variables, the interval of discontinuation appeared to be most relevant. Antiplatelet discontinuation of 3 days or less appeared to be associated with a higher risk of bleeding, although the difference did not reach significance. Discontinuations of 9 days or more were associated with increased risk of MACE, and this difference did reach statistical significance (hazard ratio, 3.38; 95% confidence interval, 1.36-8.38).

“Discontinuation of antiplatelet therapy for a period of 4-8 days appears to be optimal,” Dr. Kim said.

In general, risk of MACE, major bleeding, or NACE could not be linked to type of surgery, with the exception of intra-abdominal surgery. For this procedure, there appeared to be a lower risk of MACE in those who discontinued relative to those who remained on antiplatelet therapy, Dr. Kim reported.

Importantly, because of the fact that the decision to stop antiplatelet treatment was made by treating physicians, the characteristics of those who discontinued or remained on antiplatelet therapy differed meaningfully. Specifically, those in the discontinuation group were younger and were less likely to have additional risks for thrombotic events such as diabetes or chronic kidney disease. In those who discontinued antiplatelets, the average time since PCI was 23 months versus 16 months in the continuation group.

In addition, “more of the patients underwent higher-risk surgeries in the discontinuation group,” Dr. Kim added.

Relative rates of MACE and NACE remained similar even after risk adjustment, but Dr. Kim advised that the data should be “interpreted cautiously” because of the retrospective nature of the analysis.

A panel of experts invited to comment on the presentation agreed. These data were considered reassuring for clinicians considering an interruption of antiplatelet therapy following PCI with a second-generation DES, but there was uncertainty about their value for defining which patients are the best candidates.

The decision to discontinue antiplatelet drugs for noncardiac surgery is an important and common dilemma, but these data might be best characterized as “a testament to Korean cardiologists making good decisions,” said David J. Moliterno, MD, chairman of the department of medicine at University of Kentucky Health Care, Lexington.

Dr. Kim reported no potential financial conflicts of interest.

LOS ANGELES – In a subanalysis of the TST (Treat Stroke to Target) trial, restricting analysis to only French participants followed for an average of 5 years demonstrated an even more robust potential to reduce recurrent stroke and other major cardiovascular events by treating patients to an LDL target of below 70 mg/dL. Treating LDL to a mean of 66 mg/dL versus 96 mg/dL was associated with a 26% relative risk reduction for the composite endpoint of ischemic stroke, MI, new symptoms requiring urgent coronary or carotid revascularization, and vascular death in an adjusted analysis.

“The results are similar to the main paper but even more spectacular, with no increase in hemorrhagic stroke whatsoever, and positive results on any stroke,” study investigator Pierre Amarenco, MD, professor and chair of the department of neurology and Stroke Centre, Bichat University Hospital, Paris, said.

Dr. Amarenco presented the findings as a late-breaking abstract at the International Stroke Conference sponsored by the American Heart Association. The trial was published simultaneously in the journal Stroke.

In the full TST trial population, risk was reduced by 22% with more-aggressive LDL-lowering treatment, compared with the more lax 90-110 mg/dL target.

The TST cohort included both French and Korean participants. Dr. Amarenco and colleagues focused on the French population in the current study because the group was larger (2,148 vs. 742 Korean participants) and had a longer follow-up, an average of 5.3 years compared to 2.0 years among Korean patients. The initial study had shown “very significant results in the French patients and no apparent effect in Korean patients,” he said. The longer duration of treatment in the French cohort could have contributed to the greater risk reduction, said Dr. Amarenco.

A 2017 European Atherosclerosis Society Consensus Panel statement noted that exposure time to lipid-lowering drugs correlates with outcomes. The European Stroke Organization and the American Heart Association/American Stroke Association guidelines each recommend intensive statin treatment to lower serum lipids following an ischemic stroke of atherosclerotic origin or after a transient ischemic attack (TIA). However, the current researchers noted that the recommendations do not specify specific target numbers.

“Therefore, there is uncertainty about the target levels of LDL cholesterol,” he said.
 

Aiming at different targets

To learn more, Dr. Amarenco and colleagues randomly assigned 1,073 of the French patients to a target LDL treatment group of 70 mg/dL and another 1,075 to a target range of 90-110 mg/dL. They enrolled participants at 61 sites in France. Mean age was 67 years. All participants had experienced an ischemic stroke within 3 months or a TIA within 15 days of baseline. They presented either with a modified Rankin Scale poststroke score of 0-3 or a TIA that included at least arm and leg motor deficit or speech disturbance that lasted more than 10 minutes.

Investigators could use any type and any dose of statin to reach the respective targets. Statins could be prescribed as monotherapy or in combination with ezetimibe (Zetia) or other agents. The baseline mean LDL cholesterol level was 137 mg/dL in the lower target group and 138 mg/dL in the higher target group, respectively (3.5 mmol/L in both groups). Dr. Amarenco and colleagues measured LDL cholesterol levels at 3 weeks postrandomization and then every 6 months.

A smaller proportion of the lower LDL cholesterol target group experienced the adverse composite outcome, 9.6%, compared with 12.9% of the higher LDL cholesterol target group. This translated to a hazard ratio of 0.73 (95% confidence interval, 0.57-0.94; P = .015). The absolute risk reduction was 3.3% with a number needed to treat of 30.

An analysis adjusted for covariates showed a hazard ratio of 0.74 (95% CI, 0.57-0.95; P = .019).

Cerebral infarction and acute cerebral artery revascularization were reduced by 27% (HR, 0.73; 95% CI, 0.54-0.99; P = .046). Cerebral infarction or intracranial hemorrhage (all strokes) were reduced by 28% (HR, 0.72; 95% CI, 0.54-0.98; P = .023). In this case, there was an absolute risk reduction of 2.9% and a number needed to treat of 34.

In contrast, MI or urgent coronary revascularization following new symptoms were not significantly reduced (HR, 0.66; 95% CI, 0.67-1.20; P = .18). The investigators also reported nonsignificant results regarding vascular death (HR, 0.76; 95% CI, 0.44-1.32; P = .32] and all deaths (HR, 1.0; 95% CI, 0.74-1.35; P = .99).

Dr. Amarenco and colleagues also tracked adverse events. They found intracranial hemorrhage occurred in 13 (1.2%) patients assigned an LDL cholesterol below 70 mg/dL and in 11 (1%) patients assigned an LDL cholesterol of 100 ± 10 mg/dL. In this analysis, the hazard ratio was 1.17 (95% CI, 0.53-2.62; P = .70), and the absolute difference was 0.2%.

The investigators also reported that 10.3% of the lower LDL target group vs 13.6% of the higher LDL target group experienced either the primary outcome or intracranial hemorrhage. This translated to a 25% relative risk reduction (HR, 0.75; 95% CI, 0.58-0.96; P = .021), an absolute risk reduction of 3.3% and a number needed to treat of 30.
 

Avoiding one in four events

Assessing the French participants in the TST trial showed that targeting LDL below 70 mg/dL for more than 5 years avoided more than one in four subsequent major cardiovascular events among adults who experienced a recent ischemic stroke or TIA.

Furthermore, more intense LDL lowering also avoided more than one in four recurrent cerebral infarctions or urgent carotid revascularizations following a TIA, as well as one in four recurrent cerebral infarctions or hemorrhages (all strokes), compared with the higher LDL target.

“This was obtained without increasing the risk of intracranial hemorrhage with a number needed to treat of 30,” the researchers noted. “In the context of all randomized clinical trials with statin and other lipid-lowering drugs, there is no reason to think that Asian patients do not benefit from statin treatment and from a lower target LDL cholesterol,” the researchers added.

Therefore, they plan to continue assessing the 742 Korean participants until they reach a median of 5 years of follow-up.

Clinically validating results

“My feeling is that these data are highly supportive of a practice that many of us have been using for years without this level of evidence,” Mitchell S.V. Elkind, MD, said when asked to comment on the study.

Prior secondary analyses of studies, including research into patients with intracranial atherosclerosis, demonstrated benefit from treating to this lower LDL cholesterol target. “These studies were suggestive enough that many of us were treating patients aggressively with statins,” added Dr. Elkind, professor of neurology and epidemiology and chief of the division of neurology clinical outcomes research and population sciences at Columbia University in New York.

“But this really confirms that [fact] with clinical trial evidence,” said Dr. Elkind, “and I think will be very useful to us as clinicians.”

The results could be used to counsel patients about the potential benefits of statin therapy or to motivate primary care providers to treat patients more aggressively, said Dr. Elkind, who will begin his term as president of the American Heart Association/American Stroke Association in July.

This study was supported by a grant from the French Ministry of Health and from SOS-Attaque Cérébrale Association, with unrestricted grants from Pfizer, AstraZeneca, and Merck for French sites and from Pfizer for South Korean sites.

Dr. Amarenco receives research grant support and consulting fees from Pfizer, Merck, and AstraZeneca. Elkind had has disclosed no relevant financial relationships.

A version of this article originally appeared on Medscape.com.

SOURCE: Amarenko P et al. ISC 2020. Late-breaking abstract 9.

LOS ANGELES – In a subanalysis of the TST (Treat Stroke to Target) trial, restricting analysis to only French participants followed for an average of 5 years demonstrated an even more robust potential to reduce recurrent stroke and other major cardiovascular events by treating patients to an LDL target of below 70 mg/dL. Treating LDL to a mean of 66 mg/dL versus 96 mg/dL was associated with a 26% relative risk reduction for the composite endpoint of ischemic stroke, MI, new symptoms requiring urgent coronary or carotid revascularization, and vascular death in an adjusted analysis.

“The results are similar to the main paper but even more spectacular, with no increase in hemorrhagic stroke whatsoever, and positive results on any stroke,” study investigator Pierre Amarenco, MD, professor and chair of the department of neurology and Stroke Centre, Bichat University Hospital, Paris, said.

Dr. Amarenco presented the findings as a late-breaking abstract at the International Stroke Conference sponsored by the American Heart Association. The trial was published simultaneously in the journal Stroke.

In the full TST trial population, risk was reduced by 22% with more-aggressive LDL-lowering treatment, compared with the more lax 90-110 mg/dL target.

The TST cohort included both French and Korean participants. Dr. Amarenco and colleagues focused on the French population in the current study because the group was larger (2,148 vs. 742 Korean participants) and had a longer follow-up, an average of 5.3 years compared to 2.0 years among Korean patients. The initial study had shown “very significant results in the French patients and no apparent effect in Korean patients,” he said. The longer duration of treatment in the French cohort could have contributed to the greater risk reduction, said Dr. Amarenco.

A 2017 European Atherosclerosis Society Consensus Panel statement noted that exposure time to lipid-lowering drugs correlates with outcomes. The European Stroke Organization and the American Heart Association/American Stroke Association guidelines each recommend intensive statin treatment to lower serum lipids following an ischemic stroke of atherosclerotic origin or after a transient ischemic attack (TIA). However, the current researchers noted that the recommendations do not specify specific target numbers.

“Therefore, there is uncertainty about the target levels of LDL cholesterol,” he said.
 

Aiming at different targets

To learn more, Dr. Amarenco and colleagues randomly assigned 1,073 of the French patients to a target LDL treatment group of 70 mg/dL and another 1,075 to a target range of 90-110 mg/dL. They enrolled participants at 61 sites in France. Mean age was 67 years. All participants had experienced an ischemic stroke within 3 months or a TIA within 15 days of baseline. They presented either with a modified Rankin Scale poststroke score of 0-3 or a TIA that included at least arm and leg motor deficit or speech disturbance that lasted more than 10 minutes.

Investigators could use any type and any dose of statin to reach the respective targets. Statins could be prescribed as monotherapy or in combination with ezetimibe (Zetia) or other agents. The baseline mean LDL cholesterol level was 137 mg/dL in the lower target group and 138 mg/dL in the higher target group, respectively (3.5 mmol/L in both groups). Dr. Amarenco and colleagues measured LDL cholesterol levels at 3 weeks postrandomization and then every 6 months.

A smaller proportion of the lower LDL cholesterol target group experienced the adverse composite outcome, 9.6%, compared with 12.9% of the higher LDL cholesterol target group. This translated to a hazard ratio of 0.73 (95% confidence interval, 0.57-0.94; P = .015). The absolute risk reduction was 3.3% with a number needed to treat of 30.

An analysis adjusted for covariates showed a hazard ratio of 0.74 (95% CI, 0.57-0.95; P = .019).

Cerebral infarction and acute cerebral artery revascularization were reduced by 27% (HR, 0.73; 95% CI, 0.54-0.99; P = .046). Cerebral infarction or intracranial hemorrhage (all strokes) were reduced by 28% (HR, 0.72; 95% CI, 0.54-0.98; P = .023). In this case, there was an absolute risk reduction of 2.9% and a number needed to treat of 34.

In contrast, MI or urgent coronary revascularization following new symptoms were not significantly reduced (HR, 0.66; 95% CI, 0.67-1.20; P = .18). The investigators also reported nonsignificant results regarding vascular death (HR, 0.76; 95% CI, 0.44-1.32; P = .32] and all deaths (HR, 1.0; 95% CI, 0.74-1.35; P = .99).

Dr. Amarenco and colleagues also tracked adverse events. They found intracranial hemorrhage occurred in 13 (1.2%) patients assigned an LDL cholesterol below 70 mg/dL and in 11 (1%) patients assigned an LDL cholesterol of 100 ± 10 mg/dL. In this analysis, the hazard ratio was 1.17 (95% CI, 0.53-2.62; P = .70), and the absolute difference was 0.2%.

The investigators also reported that 10.3% of the lower LDL target group vs 13.6% of the higher LDL target group experienced either the primary outcome or intracranial hemorrhage. This translated to a 25% relative risk reduction (HR, 0.75; 95% CI, 0.58-0.96; P = .021), an absolute risk reduction of 3.3% and a number needed to treat of 30.
 

Avoiding one in four events

Assessing the French participants in the TST trial showed that targeting LDL below 70 mg/dL for more than 5 years avoided more than one in four subsequent major cardiovascular events among adults who experienced a recent ischemic stroke or TIA.

Furthermore, more intense LDL lowering also avoided more than one in four recurrent cerebral infarctions or urgent carotid revascularizations following a TIA, as well as one in four recurrent cerebral infarctions or hemorrhages (all strokes), compared with the higher LDL target.

“This was obtained without increasing the risk of intracranial hemorrhage with a number needed to treat of 30,” the researchers noted. “In the context of all randomized clinical trials with statin and other lipid-lowering drugs, there is no reason to think that Asian patients do not benefit from statin treatment and from a lower target LDL cholesterol,” the researchers added.

Therefore, they plan to continue assessing the 742 Korean participants until they reach a median of 5 years of follow-up.

Clinically validating results

“My feeling is that these data are highly supportive of a practice that many of us have been using for years without this level of evidence,” Mitchell S.V. Elkind, MD, said when asked to comment on the study.

Prior secondary analyses of studies, including research into patients with intracranial atherosclerosis, demonstrated benefit from treating to this lower LDL cholesterol target. “These studies were suggestive enough that many of us were treating patients aggressively with statins,” added Dr. Elkind, professor of neurology and epidemiology and chief of the division of neurology clinical outcomes research and population sciences at Columbia University in New York.

“But this really confirms that [fact] with clinical trial evidence,” said Dr. Elkind, “and I think will be very useful to us as clinicians.”

The results could be used to counsel patients about the potential benefits of statin therapy or to motivate primary care providers to treat patients more aggressively, said Dr. Elkind, who will begin his term as president of the American Heart Association/American Stroke Association in July.

This study was supported by a grant from the French Ministry of Health and from SOS-Attaque Cérébrale Association, with unrestricted grants from Pfizer, AstraZeneca, and Merck for French sites and from Pfizer for South Korean sites.

Dr. Amarenco receives research grant support and consulting fees from Pfizer, Merck, and AstraZeneca. Elkind had has disclosed no relevant financial relationships.

A version of this article originally appeared on Medscape.com.

SOURCE: Amarenko P et al. ISC 2020. Late-breaking abstract 9.

LOS ANGELES – In a subanalysis of the TST (Treat Stroke to Target) trial, restricting analysis to only French participants followed for an average of 5 years demonstrated an even more robust potential to reduce recurrent stroke and other major cardiovascular events by treating patients to an LDL target of below 70 mg/dL. Treating LDL to a mean of 66 mg/dL versus 96 mg/dL was associated with a 26% relative risk reduction for the composite endpoint of ischemic stroke, MI, new symptoms requiring urgent coronary or carotid revascularization, and vascular death in an adjusted analysis.

“The results are similar to the main paper but even more spectacular, with no increase in hemorrhagic stroke whatsoever, and positive results on any stroke,” study investigator Pierre Amarenco, MD, professor and chair of the department of neurology and Stroke Centre, Bichat University Hospital, Paris, said.

Dr. Amarenco presented the findings as a late-breaking abstract at the International Stroke Conference sponsored by the American Heart Association. The trial was published simultaneously in the journal Stroke.

In the full TST trial population, risk was reduced by 22% with more-aggressive LDL-lowering treatment, compared with the more lax 90-110 mg/dL target.

The TST cohort included both French and Korean participants. Dr. Amarenco and colleagues focused on the French population in the current study because the group was larger (2,148 vs. 742 Korean participants) and had a longer follow-up, an average of 5.3 years compared to 2.0 years among Korean patients. The initial study had shown “very significant results in the French patients and no apparent effect in Korean patients,” he said. The longer duration of treatment in the French cohort could have contributed to the greater risk reduction, said Dr. Amarenco.

A 2017 European Atherosclerosis Society Consensus Panel statement noted that exposure time to lipid-lowering drugs correlates with outcomes. The European Stroke Organization and the American Heart Association/American Stroke Association guidelines each recommend intensive statin treatment to lower serum lipids following an ischemic stroke of atherosclerotic origin or after a transient ischemic attack (TIA). However, the current researchers noted that the recommendations do not specify specific target numbers.

“Therefore, there is uncertainty about the target levels of LDL cholesterol,” he said.
 

Aiming at different targets

To learn more, Dr. Amarenco and colleagues randomly assigned 1,073 of the French patients to a target LDL treatment group of 70 mg/dL and another 1,075 to a target range of 90-110 mg/dL. They enrolled participants at 61 sites in France. Mean age was 67 years. All participants had experienced an ischemic stroke within 3 months or a TIA within 15 days of baseline. They presented either with a modified Rankin Scale poststroke score of 0-3 or a TIA that included at least arm and leg motor deficit or speech disturbance that lasted more than 10 minutes.

Investigators could use any type and any dose of statin to reach the respective targets. Statins could be prescribed as monotherapy or in combination with ezetimibe (Zetia) or other agents. The baseline mean LDL cholesterol level was 137 mg/dL in the lower target group and 138 mg/dL in the higher target group, respectively (3.5 mmol/L in both groups). Dr. Amarenco and colleagues measured LDL cholesterol levels at 3 weeks postrandomization and then every 6 months.

A smaller proportion of the lower LDL cholesterol target group experienced the adverse composite outcome, 9.6%, compared with 12.9% of the higher LDL cholesterol target group. This translated to a hazard ratio of 0.73 (95% confidence interval, 0.57-0.94; P = .015). The absolute risk reduction was 3.3% with a number needed to treat of 30.

An analysis adjusted for covariates showed a hazard ratio of 0.74 (95% CI, 0.57-0.95; P = .019).

Cerebral infarction and acute cerebral artery revascularization were reduced by 27% (HR, 0.73; 95% CI, 0.54-0.99; P = .046). Cerebral infarction or intracranial hemorrhage (all strokes) were reduced by 28% (HR, 0.72; 95% CI, 0.54-0.98; P = .023). In this case, there was an absolute risk reduction of 2.9% and a number needed to treat of 34.

In contrast, MI or urgent coronary revascularization following new symptoms were not significantly reduced (HR, 0.66; 95% CI, 0.67-1.20; P = .18). The investigators also reported nonsignificant results regarding vascular death (HR, 0.76; 95% CI, 0.44-1.32; P = .32] and all deaths (HR, 1.0; 95% CI, 0.74-1.35; P = .99).

Dr. Amarenco and colleagues also tracked adverse events. They found intracranial hemorrhage occurred in 13 (1.2%) patients assigned an LDL cholesterol below 70 mg/dL and in 11 (1%) patients assigned an LDL cholesterol of 100 ± 10 mg/dL. In this analysis, the hazard ratio was 1.17 (95% CI, 0.53-2.62; P = .70), and the absolute difference was 0.2%.

The investigators also reported that 10.3% of the lower LDL target group vs 13.6% of the higher LDL target group experienced either the primary outcome or intracranial hemorrhage. This translated to a 25% relative risk reduction (HR, 0.75; 95% CI, 0.58-0.96; P = .021), an absolute risk reduction of 3.3% and a number needed to treat of 30.
 

Avoiding one in four events

Assessing the French participants in the TST trial showed that targeting LDL below 70 mg/dL for more than 5 years avoided more than one in four subsequent major cardiovascular events among adults who experienced a recent ischemic stroke or TIA.

Furthermore, more intense LDL lowering also avoided more than one in four recurrent cerebral infarctions or urgent carotid revascularizations following a TIA, as well as one in four recurrent cerebral infarctions or hemorrhages (all strokes), compared with the higher LDL target.

“This was obtained without increasing the risk of intracranial hemorrhage with a number needed to treat of 30,” the researchers noted. “In the context of all randomized clinical trials with statin and other lipid-lowering drugs, there is no reason to think that Asian patients do not benefit from statin treatment and from a lower target LDL cholesterol,” the researchers added.

Therefore, they plan to continue assessing the 742 Korean participants until they reach a median of 5 years of follow-up.

Clinically validating results

“My feeling is that these data are highly supportive of a practice that many of us have been using for years without this level of evidence,” Mitchell S.V. Elkind, MD, said when asked to comment on the study.

Prior secondary analyses of studies, including research into patients with intracranial atherosclerosis, demonstrated benefit from treating to this lower LDL cholesterol target. “These studies were suggestive enough that many of us were treating patients aggressively with statins,” added Dr. Elkind, professor of neurology and epidemiology and chief of the division of neurology clinical outcomes research and population sciences at Columbia University in New York.

“But this really confirms that [fact] with clinical trial evidence,” said Dr. Elkind, “and I think will be very useful to us as clinicians.”

The results could be used to counsel patients about the potential benefits of statin therapy or to motivate primary care providers to treat patients more aggressively, said Dr. Elkind, who will begin his term as president of the American Heart Association/American Stroke Association in July.

This study was supported by a grant from the French Ministry of Health and from SOS-Attaque Cérébrale Association, with unrestricted grants from Pfizer, AstraZeneca, and Merck for French sites and from Pfizer for South Korean sites.

Dr. Amarenco receives research grant support and consulting fees from Pfizer, Merck, and AstraZeneca. Elkind had has disclosed no relevant financial relationships.

A version of this article originally appeared on Medscape.com.

SOURCE: Amarenko P et al. ISC 2020. Late-breaking abstract 9.

NATIONAL HARBOR, MD. – Researchers have created an artificial intelligence algorithm that can evaluate a 10-second ECG recording of a person in normal sinus rhythm and tell with a sensitivity and specificity of almost 80% whether or not that person ever had atrial fibrillation episodes some time in the past or will have a first arrhythmia episode in the near future.

Mitchel L. Zoler/MDedge News

Although this algorithm – derived from and then validated with a dataset of nearly 650,000 ECG recordings from more than 180,000 patients – still needs prospective validation, it offers the prospect for a potential revolution in screening for atrial fibrillation (AFib), Paul A. Friedman, MD, cautioned at the annual International AF Symposium. If initial clinical findings are confirmed, it would show that a 10-second, 12-lead ECG recording can provide the same screening scope as what otherwise takes weeks of ambulatory ECG recording with a Holter monitor or an implanted device, explained Dr. Friedman, professor of medicine and chair of the department of cardiovascular medicine at the Mayo Clinic in Rochester, Minn.

This finding “could have important implications for atrial fibrillation screening and for the management of patients with unexplained stroke,” Dr. Friedman and his associates noted in the published report of their study (Lancet. 2019 Sep 7;394[10201]:861-7). “We’re still working to define the window of ECG” recording time that provides the optimal assessment for a history of asymptomatic AFib, but the “possibilities this opens are huge,” Dr. Friedman said in his talk at the symposium. This work sprang from the premise that “subtle signatures” in a brief, apparently normal sinus rhythm ECG tracing can harbor reliable clues about AFib history or an imminent episode.

The 2019 report by Dr. Friedman and associates documented that in the validation phase of their study, the trained artificial intelligence (AI) program identified patients with a history of AFib or an impending arrhythmia event from a single, 10-second ECG that to the naked eye seemed to show normal sinus rhythm with a sensitivity of 79.0%, a specificity of 79.5%, and an accuracy of 79.4%. It also showed an area under a receiver operating characteristic curve of 0.87, meaning that screening for AFib by this method compared favorably with the area-under-the-curve (AUC) results tallied by several widely accepted screening tools, including Pap smears for cervical cancer (AUC of 0.70), mammograms for breast cancer (AUC of 0.85), and CHA2DS2-VASc scoring for estimating stroke risk in AFib patients (AUC of 0.57-0.72), Dr. Friedman said.

The researchers developed the AI algorithm with more than 450,000 10-second ECG tracings collected from roughly 126,000 patients who underwent at least one ECG recording as part of their routine care at the Mayo Clinic during 1993-2017. The goal was for the program to find and validate recurring characteristics in the ECG that consistently linked with a history of or an impending AFib episode and that did not appear in ECG recordings from people without any AFib history. The program this effort produced then underwent further adjustment with the use of more than 64,340 ECGs from an additional 18,116 patients, and then the final product underwent validation testing with a further 130,802 ECGs collected from an additional 36,280 people, the study phase that resulted in the reported sensitivity and specificity estimates.

It’s currently unclear to Dr. Friedman and associates what specific features the program uses to classify patients. It’s an important question, but if the results are reproducible and reliable, this uncertainty shouldn’t slow clinical adoption, he said in an interview.

While “this particular algorithm needs prospective vetting,” a similar algorithm developed by Dr. Friedman and the same research team that uses a 10-second ECG to identify patients with a left ventricular ejection fraction of 35% or less is further advanced in development, and a device that uses this algorithm will soon receive Food and Drug Administration review under a fast track designation that the agency approved in late 2019.

The researchers developed this algorithm for estimating left ventricular function using a strategy similar to their development of a tool for diagnosing AFib (Nat Med. 2019 Jan 7;25[1]:70-4), and results from 100 patients prospectively studied with this approach to ECG analysis and reported at the American Heart Association scientific sessions in November 2019 showed that the algorithm identified substantial left ventricular dysfunction with an AUC of 0.906 (Circulation. 2019 Nov 19;140[suppl 1]:A13447). The same team of investigators has developed an AI algorithm that can calculate a person’s physiologic age based on the ECG recording (Circ Arrhythm Electrophysiol. 2019 Sep;12[9]: 10.1161/CIRCEP.119.007284).

The study received no commercial funding, and Dr. Friedman and coauthors had no relevant disclosures. The Mayo Clinic has licensed a related artificial intelligence algorithm to EKO, and Dr. Friedman may benefit financially from this arrangement.

mzoler@mdedge.com

NATIONAL HARBOR, MD. – Researchers have created an artificial intelligence algorithm that can evaluate a 10-second ECG recording of a person in normal sinus rhythm and tell with a sensitivity and specificity of almost 80% whether or not that person ever had atrial fibrillation episodes some time in the past or will have a first arrhythmia episode in the near future.

Mitchel L. Zoler/MDedge News

Although this algorithm – derived from and then validated with a dataset of nearly 650,000 ECG recordings from more than 180,000 patients – still needs prospective validation, it offers the prospect for a potential revolution in screening for atrial fibrillation (AFib), Paul A. Friedman, MD, cautioned at the annual International AF Symposium. If initial clinical findings are confirmed, it would show that a 10-second, 12-lead ECG recording can provide the same screening scope as what otherwise takes weeks of ambulatory ECG recording with a Holter monitor or an implanted device, explained Dr. Friedman, professor of medicine and chair of the department of cardiovascular medicine at the Mayo Clinic in Rochester, Minn.

This finding “could have important implications for atrial fibrillation screening and for the management of patients with unexplained stroke,” Dr. Friedman and his associates noted in the published report of their study (Lancet. 2019 Sep 7;394[10201]:861-7). “We’re still working to define the window of ECG” recording time that provides the optimal assessment for a history of asymptomatic AFib, but the “possibilities this opens are huge,” Dr. Friedman said in his talk at the symposium. This work sprang from the premise that “subtle signatures” in a brief, apparently normal sinus rhythm ECG tracing can harbor reliable clues about AFib history or an imminent episode.

The 2019 report by Dr. Friedman and associates documented that in the validation phase of their study, the trained artificial intelligence (AI) program identified patients with a history of AFib or an impending arrhythmia event from a single, 10-second ECG that to the naked eye seemed to show normal sinus rhythm with a sensitivity of 79.0%, a specificity of 79.5%, and an accuracy of 79.4%. It also showed an area under a receiver operating characteristic curve of 0.87, meaning that screening for AFib by this method compared favorably with the area-under-the-curve (AUC) results tallied by several widely accepted screening tools, including Pap smears for cervical cancer (AUC of 0.70), mammograms for breast cancer (AUC of 0.85), and CHA2DS2-VASc scoring for estimating stroke risk in AFib patients (AUC of 0.57-0.72), Dr. Friedman said.

The researchers developed the AI algorithm with more than 450,000 10-second ECG tracings collected from roughly 126,000 patients who underwent at least one ECG recording as part of their routine care at the Mayo Clinic during 1993-2017. The goal was for the program to find and validate recurring characteristics in the ECG that consistently linked with a history of or an impending AFib episode and that did not appear in ECG recordings from people without any AFib history. The program this effort produced then underwent further adjustment with the use of more than 64,340 ECGs from an additional 18,116 patients, and then the final product underwent validation testing with a further 130,802 ECGs collected from an additional 36,280 people, the study phase that resulted in the reported sensitivity and specificity estimates.

It’s currently unclear to Dr. Friedman and associates what specific features the program uses to classify patients. It’s an important question, but if the results are reproducible and reliable, this uncertainty shouldn’t slow clinical adoption, he said in an interview.

While “this particular algorithm needs prospective vetting,” a similar algorithm developed by Dr. Friedman and the same research team that uses a 10-second ECG to identify patients with a left ventricular ejection fraction of 35% or less is further advanced in development, and a device that uses this algorithm will soon receive Food and Drug Administration review under a fast track designation that the agency approved in late 2019.

The researchers developed this algorithm for estimating left ventricular function using a strategy similar to their development of a tool for diagnosing AFib (Nat Med. 2019 Jan 7;25[1]:70-4), and results from 100 patients prospectively studied with this approach to ECG analysis and reported at the American Heart Association scientific sessions in November 2019 showed that the algorithm identified substantial left ventricular dysfunction with an AUC of 0.906 (Circulation. 2019 Nov 19;140[suppl 1]:A13447). The same team of investigators has developed an AI algorithm that can calculate a person’s physiologic age based on the ECG recording (Circ Arrhythm Electrophysiol. 2019 Sep;12[9]: 10.1161/CIRCEP.119.007284).

The study received no commercial funding, and Dr. Friedman and coauthors had no relevant disclosures. The Mayo Clinic has licensed a related artificial intelligence algorithm to EKO, and Dr. Friedman may benefit financially from this arrangement.

mzoler@mdedge.com

NATIONAL HARBOR, MD. – Researchers have created an artificial intelligence algorithm that can evaluate a 10-second ECG recording of a person in normal sinus rhythm and tell with a sensitivity and specificity of almost 80% whether or not that person ever had atrial fibrillation episodes some time in the past or will have a first arrhythmia episode in the near future.

Mitchel L. Zoler/MDedge News

Although this algorithm – derived from and then validated with a dataset of nearly 650,000 ECG recordings from more than 180,000 patients – still needs prospective validation, it offers the prospect for a potential revolution in screening for atrial fibrillation (AFib), Paul A. Friedman, MD, cautioned at the annual International AF Symposium. If initial clinical findings are confirmed, it would show that a 10-second, 12-lead ECG recording can provide the same screening scope as what otherwise takes weeks of ambulatory ECG recording with a Holter monitor or an implanted device, explained Dr. Friedman, professor of medicine and chair of the department of cardiovascular medicine at the Mayo Clinic in Rochester, Minn.

This finding “could have important implications for atrial fibrillation screening and for the management of patients with unexplained stroke,” Dr. Friedman and his associates noted in the published report of their study (Lancet. 2019 Sep 7;394[10201]:861-7). “We’re still working to define the window of ECG” recording time that provides the optimal assessment for a history of asymptomatic AFib, but the “possibilities this opens are huge,” Dr. Friedman said in his talk at the symposium. This work sprang from the premise that “subtle signatures” in a brief, apparently normal sinus rhythm ECG tracing can harbor reliable clues about AFib history or an imminent episode.

The 2019 report by Dr. Friedman and associates documented that in the validation phase of their study, the trained artificial intelligence (AI) program identified patients with a history of AFib or an impending arrhythmia event from a single, 10-second ECG that to the naked eye seemed to show normal sinus rhythm with a sensitivity of 79.0%, a specificity of 79.5%, and an accuracy of 79.4%. It also showed an area under a receiver operating characteristic curve of 0.87, meaning that screening for AFib by this method compared favorably with the area-under-the-curve (AUC) results tallied by several widely accepted screening tools, including Pap smears for cervical cancer (AUC of 0.70), mammograms for breast cancer (AUC of 0.85), and CHA2DS2-VASc scoring for estimating stroke risk in AFib patients (AUC of 0.57-0.72), Dr. Friedman said.

The researchers developed the AI algorithm with more than 450,000 10-second ECG tracings collected from roughly 126,000 patients who underwent at least one ECG recording as part of their routine care at the Mayo Clinic during 1993-2017. The goal was for the program to find and validate recurring characteristics in the ECG that consistently linked with a history of or an impending AFib episode and that did not appear in ECG recordings from people without any AFib history. The program this effort produced then underwent further adjustment with the use of more than 64,340 ECGs from an additional 18,116 patients, and then the final product underwent validation testing with a further 130,802 ECGs collected from an additional 36,280 people, the study phase that resulted in the reported sensitivity and specificity estimates.

It’s currently unclear to Dr. Friedman and associates what specific features the program uses to classify patients. It’s an important question, but if the results are reproducible and reliable, this uncertainty shouldn’t slow clinical adoption, he said in an interview.

While “this particular algorithm needs prospective vetting,” a similar algorithm developed by Dr. Friedman and the same research team that uses a 10-second ECG to identify patients with a left ventricular ejection fraction of 35% or less is further advanced in development, and a device that uses this algorithm will soon receive Food and Drug Administration review under a fast track designation that the agency approved in late 2019.

The researchers developed this algorithm for estimating left ventricular function using a strategy similar to their development of a tool for diagnosing AFib (Nat Med. 2019 Jan 7;25[1]:70-4), and results from 100 patients prospectively studied with this approach to ECG analysis and reported at the American Heart Association scientific sessions in November 2019 showed that the algorithm identified substantial left ventricular dysfunction with an AUC of 0.906 (Circulation. 2019 Nov 19;140[suppl 1]:A13447). The same team of investigators has developed an AI algorithm that can calculate a person’s physiologic age based on the ECG recording (Circ Arrhythm Electrophysiol. 2019 Sep;12[9]: 10.1161/CIRCEP.119.007284).

The study received no commercial funding, and Dr. Friedman and coauthors had no relevant disclosures. The Mayo Clinic has licensed a related artificial intelligence algorithm to EKO, and Dr. Friedman may benefit financially from this arrangement.

mzoler@mdedge.com

NATIONAL HARBOR, MD. – Just a month before results from the first of several new pivotal trials with a renal denervation device are to be presented, a Food and Drug Administration medical officer speaking at CRT 2020 sponsored by MedStar Heart & Vascular Institute explained which data will most attract the scrutiny of regulators.

Ted Bosworth/MDedge News

“The FDA is very interested in these devices. We recognize that there is a clinical need, but a reasonable benefit-to-risk relationship has to be established,” said Meir Shinnar, MD, PhD, who works in the division of cardiac devices in the FDA’s Office of Device Evaluation.

The field of renal denervation is expected to heat up again if the results of the SPYRAL HTN OFF MED pivotal trial, planned as a late-breaking presentation at the annual meeting of the American College of Cardiology in March 2020, are positive. However, long-term safety will remain a concern, and positive results will not diminish the rigor with which the relative safety and efficacy of other devices in late stages of clinical testing are evaluated.

“The safety profile is unique to the device design and the procedural technique,” Dr. Shinnar said. For example, vascular injury from the energy employed for denervation, whether radiofrequency or another modality, is an important theoretical risk. A minor initial injury might have no immediate consequences but pose major risks if it leads to altered kidney function over time.

“Most of the follow-up data we have now [with renal denervation devices] is about 1-3 years, but I think long-term safety requires a minimum of 5 years of safety data,” Dr. Shinnar said. “We do not expect all that data to be available at the time of approval, but postmarketing studies will be needed.”

Almost 6 years after the SYMPLICITY HTN-3 trial failed to show a significant reduction in blood pressure among patients with resistant hypertension treated with renal denervation rather than a sham procedure (N Engl J Med 2014;370:1393-401), this treatment is again considered promising. The surprising SYMPLICITY HTN-3 result led to several revisions in technique based on the suspicion that denervation was inadequate.

However, the basic principles remain unchanged. For renal denervation, SPYRAL HTN OFF MED, like the SYMPLICITY HTN 3 study, is employing the Symplicity (Medtronic) device, which has been approved in 50 countries but not in the United States, Canada, or Japan.

SPYRAL HTN OFF MED is designed to provide a very straightforward test of efficacy. Unlike SYMPLICITY HTN-3, which permitted patients to remain on their antihypertensive medications, patients in SPYRAL HTN OFF MED will be tested in the absence of drug therapy (a trial with adjunctive antihypertensive drugs, SPYRAL HTN ON MED, is ongoing). This is a design feature that is relevant to regulatory evaluation.

Although not speaking about the SPYRAL HTN OFF MED trial specifically, Dr. Shinnar noted that “the bar is considered to be higher for a first-line indication than when a device is used as an adjunctive to drug therapy.”

Whether used with or without medications, devices are not likely to receive approval without showing a durable benefit. Dr. Shinnar, citing the surgical studies in which blood pressure control was lost 1-2 years after denervation, said 12 months is now considered a “preferred” length of follow-up to confirm efficacy.

If renal denervation moves forward as a result of the new wave of phase 3 trials, there will still be many unanswered questions, according to Dr. Shinnar, who noted that the FDA convened an advisory committee in December 2018 to gather expert opinion about meaningful safety as well as efficacy endpoints for this modality. One will be determining which populations, defined by age, gender, or phenotype, most benefit.

It also remains unclear whether the first approval will create a standard to which subsequent devices should be compared, according to Dr. Shinnar. Although the FDA recognizes blood pressure reductions as an acceptable endpoint, he believes that documentation of the impact on clinical events will be sought in postmarketing analyses.

“All of the denervation modalities involve class 3 devices that require significant data,” Dr. Shinnar cautioned.

Even if the SPYRAL HTN OFF MED trial is positive on the basis of efficacy, it does not guarantee regulatory approval. Dr. Shinnar described a multifaceted approach to defining an acceptable risk-to-benefit ratio from approved devices, and warned that several points regarding the evaluation of renal denervation devices by the FDA are still being debated internally.

Dr. Shinnar reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Just a month before results from the first of several new pivotal trials with a renal denervation device are to be presented, a Food and Drug Administration medical officer speaking at CRT 2020 sponsored by MedStar Heart & Vascular Institute explained which data will most attract the scrutiny of regulators.

Ted Bosworth/MDedge News

“The FDA is very interested in these devices. We recognize that there is a clinical need, but a reasonable benefit-to-risk relationship has to be established,” said Meir Shinnar, MD, PhD, who works in the division of cardiac devices in the FDA’s Office of Device Evaluation.

The field of renal denervation is expected to heat up again if the results of the SPYRAL HTN OFF MED pivotal trial, planned as a late-breaking presentation at the annual meeting of the American College of Cardiology in March 2020, are positive. However, long-term safety will remain a concern, and positive results will not diminish the rigor with which the relative safety and efficacy of other devices in late stages of clinical testing are evaluated.

“The safety profile is unique to the device design and the procedural technique,” Dr. Shinnar said. For example, vascular injury from the energy employed for denervation, whether radiofrequency or another modality, is an important theoretical risk. A minor initial injury might have no immediate consequences but pose major risks if it leads to altered kidney function over time.

“Most of the follow-up data we have now [with renal denervation devices] is about 1-3 years, but I think long-term safety requires a minimum of 5 years of safety data,” Dr. Shinnar said. “We do not expect all that data to be available at the time of approval, but postmarketing studies will be needed.”

Almost 6 years after the SYMPLICITY HTN-3 trial failed to show a significant reduction in blood pressure among patients with resistant hypertension treated with renal denervation rather than a sham procedure (N Engl J Med 2014;370:1393-401), this treatment is again considered promising. The surprising SYMPLICITY HTN-3 result led to several revisions in technique based on the suspicion that denervation was inadequate.

However, the basic principles remain unchanged. For renal denervation, SPYRAL HTN OFF MED, like the SYMPLICITY HTN 3 study, is employing the Symplicity (Medtronic) device, which has been approved in 50 countries but not in the United States, Canada, or Japan.

SPYRAL HTN OFF MED is designed to provide a very straightforward test of efficacy. Unlike SYMPLICITY HTN-3, which permitted patients to remain on their antihypertensive medications, patients in SPYRAL HTN OFF MED will be tested in the absence of drug therapy (a trial with adjunctive antihypertensive drugs, SPYRAL HTN ON MED, is ongoing). This is a design feature that is relevant to regulatory evaluation.

Although not speaking about the SPYRAL HTN OFF MED trial specifically, Dr. Shinnar noted that “the bar is considered to be higher for a first-line indication than when a device is used as an adjunctive to drug therapy.”

Whether used with or without medications, devices are not likely to receive approval without showing a durable benefit. Dr. Shinnar, citing the surgical studies in which blood pressure control was lost 1-2 years after denervation, said 12 months is now considered a “preferred” length of follow-up to confirm efficacy.

If renal denervation moves forward as a result of the new wave of phase 3 trials, there will still be many unanswered questions, according to Dr. Shinnar, who noted that the FDA convened an advisory committee in December 2018 to gather expert opinion about meaningful safety as well as efficacy endpoints for this modality. One will be determining which populations, defined by age, gender, or phenotype, most benefit.

It also remains unclear whether the first approval will create a standard to which subsequent devices should be compared, according to Dr. Shinnar. Although the FDA recognizes blood pressure reductions as an acceptable endpoint, he believes that documentation of the impact on clinical events will be sought in postmarketing analyses.

“All of the denervation modalities involve class 3 devices that require significant data,” Dr. Shinnar cautioned.

Even if the SPYRAL HTN OFF MED trial is positive on the basis of efficacy, it does not guarantee regulatory approval. Dr. Shinnar described a multifaceted approach to defining an acceptable risk-to-benefit ratio from approved devices, and warned that several points regarding the evaluation of renal denervation devices by the FDA are still being debated internally.

Dr. Shinnar reported no potential financial conflicts of interest.

NATIONAL HARBOR, MD. – Just a month before results from the first of several new pivotal trials with a renal denervation device are to be presented, a Food and Drug Administration medical officer speaking at CRT 2020 sponsored by MedStar Heart & Vascular Institute explained which data will most attract the scrutiny of regulators.

Ted Bosworth/MDedge News

“The FDA is very interested in these devices. We recognize that there is a clinical need, but a reasonable benefit-to-risk relationship has to be established,” said Meir Shinnar, MD, PhD, who works in the division of cardiac devices in the FDA’s Office of Device Evaluation.

The field of renal denervation is expected to heat up again if the results of the SPYRAL HTN OFF MED pivotal trial, planned as a late-breaking presentation at the annual meeting of the American College of Cardiology in March 2020, are positive. However, long-term safety will remain a concern, and positive results will not diminish the rigor with which the relative safety and efficacy of other devices in late stages of clinical testing are evaluated.

“The safety profile is unique to the device design and the procedural technique,” Dr. Shinnar said. For example, vascular injury from the energy employed for denervation, whether radiofrequency or another modality, is an important theoretical risk. A minor initial injury might have no immediate consequences but pose major risks if it leads to altered kidney function over time.

“Most of the follow-up data we have now [with renal denervation devices] is about 1-3 years, but I think long-term safety requires a minimum of 5 years of safety data,” Dr. Shinnar said. “We do not expect all that data to be available at the time of approval, but postmarketing studies will be needed.”

Almost 6 years after the SYMPLICITY HTN-3 trial failed to show a significant reduction in blood pressure among patients with resistant hypertension treated with renal denervation rather than a sham procedure (N Engl J Med 2014;370:1393-401), this treatment is again considered promising. The surprising SYMPLICITY HTN-3 result led to several revisions in technique based on the suspicion that denervation was inadequate.

However, the basic principles remain unchanged. For renal denervation, SPYRAL HTN OFF MED, like the SYMPLICITY HTN 3 study, is employing the Symplicity (Medtronic) device, which has been approved in 50 countries but not in the United States, Canada, or Japan.

SPYRAL HTN OFF MED is designed to provide a very straightforward test of efficacy. Unlike SYMPLICITY HTN-3, which permitted patients to remain on their antihypertensive medications, patients in SPYRAL HTN OFF MED will be tested in the absence of drug therapy (a trial with adjunctive antihypertensive drugs, SPYRAL HTN ON MED, is ongoing). This is a design feature that is relevant to regulatory evaluation.

Although not speaking about the SPYRAL HTN OFF MED trial specifically, Dr. Shinnar noted that “the bar is considered to be higher for a first-line indication than when a device is used as an adjunctive to drug therapy.”

Whether used with or without medications, devices are not likely to receive approval without showing a durable benefit. Dr. Shinnar, citing the surgical studies in which blood pressure control was lost 1-2 years after denervation, said 12 months is now considered a “preferred” length of follow-up to confirm efficacy.

If renal denervation moves forward as a result of the new wave of phase 3 trials, there will still be many unanswered questions, according to Dr. Shinnar, who noted that the FDA convened an advisory committee in December 2018 to gather expert opinion about meaningful safety as well as efficacy endpoints for this modality. One will be determining which populations, defined by age, gender, or phenotype, most benefit.

It also remains unclear whether the first approval will create a standard to which subsequent devices should be compared, according to Dr. Shinnar. Although the FDA recognizes blood pressure reductions as an acceptable endpoint, he believes that documentation of the impact on clinical events will be sought in postmarketing analyses.

“All of the denervation modalities involve class 3 devices that require significant data,” Dr. Shinnar cautioned.

Even if the SPYRAL HTN OFF MED trial is positive on the basis of efficacy, it does not guarantee regulatory approval. Dr. Shinnar described a multifaceted approach to defining an acceptable risk-to-benefit ratio from approved devices, and warned that several points regarding the evaluation of renal denervation devices by the FDA are still being debated internally.

Dr. Shinnar reported no potential financial conflicts of interest.

LOS ANGELES – Endovascular therapy significantly improved functional outcomes and reduced mortality at 90 days, compared with standard thrombolysis alone, new evidence from a large, prospective registry study suggests.

Participants who received both interventions were almost five times more likely to be able to walk independently at 90 days compared with those who received thrombolysis alone.

Despite multiple trials supporting the potential benefits of endovascular therapy for anterior stroke, little prospective research addresses outcomes associated with an ischemic stroke caused by a posterior basilar artery occlusion (BAO).

“Basilar artery occlusion is the ‘orphan’ of the large vessel occlusions,” Raul Gomes Nogueira, MD, PhD, said here at a late-breaking abstract session at the International Stroke Conference sponsored by the American Heart Association.

“They account for about 5% of the large vessel occlusions – but have the most dismal prognosis.” Severe disability and mortality rates associated with BAO, for example, reach an estimated 68% to 78%, he said.

The results, from the EVT for Acute Basilar Artery Occlusion Study (BASILAR), were also simultaneously published in JAMA Neurology.

Prior studies in this patient population are generally single-center, retrospective studies and “the numbers tend to be small,” said Nogueira, who is affiliated with the Marcus Stroke and Neuroscience Center, Grady Memorial Hospital, Emory University School of Medicine in Atlanta, Georgia.

Nogueira and colleagues studied 829 consecutive adults who presented with an acute, symptomatic BAO. They examined a nationwide prospective registry study of people with radiologically confirmed BAO in 47 comprehensive stroke centers across 15 provinces in China.

The median age was 65 years and 74% were men. A total 182 participants received thrombolysis therapy within 6 hours of estimated BAO onset. The 647 people in the dual intervention group also received endovascular therapy within 24 hours.

Standard medical treatment included intravenous rt-PA or urokinase, antiplatelet drugs and systematic anticoagulation alone or in combination. Endovascular therapy included mechanical thrombectomy with stent retrievers and/or thromboaspiration, balloon angioplasty, stenting, intra-arterial thrombolysis, or a combination of these interventions.

Interestingly, participants were not randomly assigned, in part because of the favorable outcomes associated with endovascular therapy. “The high number of patients who received [the dual intervention] may suggest the existence of a lack of equipoise among participating centers,” the researchers note.

Key Efficacy Endpoints

A significantly higher proportion of people in the dual treatment group achieved the primary outcome, functional improvement at 90 days, at 32%, compared with 9.3% in the thrombolysis-only group. This endpoint was defined as a modified Rankin Scale (mRS) score of 3 or less, which reflects an ability to walk independently. The difference was statistically significant (P < .001).

The absolute difference between groups was 22.7% (95% confidence interval, 17.1%-28.2%) with an adjusted odds ratio of 4.70 (95% CI, 2.53-8.75; P < .001) in favor of dual intervention.

The number needed to treat for one additional patient to be able to walk unassisted was 4.4.

Other outcomes, including differences in National Institutes of Health Stroke Scale scores from baseline to 5 to 7 days or discharge, as well as propensity score matching and subgroup analyses, likewise supported the superiority of using both interventions.
 

Safety Outcomes

Nogueira and colleagues also assessed safety. They found that symptomatic intracerebral hemorrhage (ICH) occurred in 45 patients, or 7.1% of the endovascular treatment group. In contrast, only one patient, or 0.5%, of the standard medical treatment alone cohort experienced an ICH. This difference was statistically significant (P < .001).

Mortality at 90 days was significantly lower in the endovascular therapy plus medical therapy group, 46.2%, compared with 71.4% in the standard medical treatment alone group (P < .001).

The absolute difference in mortality was 25.2% (95% CI, 17.6%-2.8%) favoring dual treatment, with an adjusted odds ratio of 2.93 (95% CI, 1.95-4.40; P < .001).

Rates of other serious adverse events during the 90-day follow-up period were similar in the two study groups, Nogueira said.

He acknowledged that the nonrandomized design was a limitation of the registry study, adding that “sometimes in life it’s important to acknowledge the best of what can be done. It’s very hard when you have access to thrombectomy to randomize people.”

However, other researchers have attempted or are enrolling people with BAO into trials that randomly assign them to endovascular therapy and standard medical treatment or medical treatment alone.

The BEST trial in China, for example, randomly assigned 131 patients to these groups but was stopped early in September 2017. “The BEST trial was terminated prematurely because of loss of equipoise that led to a high crossover rate and drop in valid recruitment,” the current researchers note.

“The other two trials…are facing the challenge of whether they will achieve their inclusion target,” they add, “because a growing number of stroke centers are unwilling to randomize patients to standard medical treatment alone after the many positive results of trials for endovascular treatment in patients with anterior-circulation stroke.”

The BAOCHE trial from China, for example, is ongoing with approximately 110 patients enrolled so far.

Investigators for the Basilar Artery International Cooperation Study (BASICS) in the Netherlands just completed enrollment of their 300th and final patient in December 2019.

“We are hopeful BASICS trial will shed additional light,” Nogueira said. The results are expected to be presented at the European Stroke Organization Conference in Vienna in May 2020.
 

More Guidance From MRI?

“With the advent of the stent retrievers and successful recanalization, we know there can be better outcomes for patients. And we know the morbidity and mortality of the basilar artery occlusions are so poor that we tend to want to be aggressive in these cases,” session comoderator Shlee S. Song, MD, director of the Comprehensive Stroke Center and associate professor of neurology at Cedars-Sinai Medical Center in Los Angeles, California, told Medscape Medical News when asked to comment on the study.

“I agree that we’ve lost equipoise in this cohort – that we really cannot do a randomized trial anymore. You know if you don’t do anything, 90% of the time there will be a poor outcome,” she added.

This is an important study for showing how BAO patients fare after endovascular treatment, Song said.

One unanswered question from the study is if any of the centers in China used magnetic resonance imaging to help determine the most appropriate candidates for endovascular treatment of these posterior circulation strokes, which is a common practice in the United States, she said.

The study was supported by the National Science Fund for Distinguished Young Scholars, Chongqing Major Disease Prevention and Control Technology Research Project, Army Medical University Clinical Medical Research Talent Training Program, and Major Clinical Innovation Technology Project of the Second Affiliated Hospital of the Army Military Medical University. Sing had no relevant disclosures. Nogueira’s financial disclosures include working as a consultant for Stryker Neurovascular; as a principal investigator on the Imperative trial and the PROST trial; as a steering committee member for Biogen for the CHARM trial; as an advisory board member for Cerenovus/Neuravi, Phenox, Anaconda, Genentech, Biogen, Prolong Pharmaceuticals and Brainomix; and as an advisory board member with stock options for Viz.ai, Corindus Vascular Robotics, Vesalio, Ceretrieve, Astrocyte Pharmaceuticals, and Cerebrotech.

This article first appeared on Medscape.com.

SOURCE: Nogueira RG et al. ISC 2020. Late-breaking abstract 17.

LOS ANGELES – Endovascular therapy significantly improved functional outcomes and reduced mortality at 90 days, compared with standard thrombolysis alone, new evidence from a large, prospective registry study suggests.

Participants who received both interventions were almost five times more likely to be able to walk independently at 90 days compared with those who received thrombolysis alone.

Despite multiple trials supporting the potential benefits of endovascular therapy for anterior stroke, little prospective research addresses outcomes associated with an ischemic stroke caused by a posterior basilar artery occlusion (BAO).

“Basilar artery occlusion is the ‘orphan’ of the large vessel occlusions,” Raul Gomes Nogueira, MD, PhD, said here at a late-breaking abstract session at the International Stroke Conference sponsored by the American Heart Association.

“They account for about 5% of the large vessel occlusions – but have the most dismal prognosis.” Severe disability and mortality rates associated with BAO, for example, reach an estimated 68% to 78%, he said.

The results, from the EVT for Acute Basilar Artery Occlusion Study (BASILAR), were also simultaneously published in JAMA Neurology.

Prior studies in this patient population are generally single-center, retrospective studies and “the numbers tend to be small,” said Nogueira, who is affiliated with the Marcus Stroke and Neuroscience Center, Grady Memorial Hospital, Emory University School of Medicine in Atlanta, Georgia.

Nogueira and colleagues studied 829 consecutive adults who presented with an acute, symptomatic BAO. They examined a nationwide prospective registry study of people with radiologically confirmed BAO in 47 comprehensive stroke centers across 15 provinces in China.

The median age was 65 years and 74% were men. A total 182 participants received thrombolysis therapy within 6 hours of estimated BAO onset. The 647 people in the dual intervention group also received endovascular therapy within 24 hours.

Standard medical treatment included intravenous rt-PA or urokinase, antiplatelet drugs and systematic anticoagulation alone or in combination. Endovascular therapy included mechanical thrombectomy with stent retrievers and/or thromboaspiration, balloon angioplasty, stenting, intra-arterial thrombolysis, or a combination of these interventions.

Interestingly, participants were not randomly assigned, in part because of the favorable outcomes associated with endovascular therapy. “The high number of patients who received [the dual intervention] may suggest the existence of a lack of equipoise among participating centers,” the researchers note.

Key Efficacy Endpoints

A significantly higher proportion of people in the dual treatment group achieved the primary outcome, functional improvement at 90 days, at 32%, compared with 9.3% in the thrombolysis-only group. This endpoint was defined as a modified Rankin Scale (mRS) score of 3 or less, which reflects an ability to walk independently. The difference was statistically significant (P < .001).

The absolute difference between groups was 22.7% (95% confidence interval, 17.1%-28.2%) with an adjusted odds ratio of 4.70 (95% CI, 2.53-8.75; P < .001) in favor of dual intervention.

The number needed to treat for one additional patient to be able to walk unassisted was 4.4.

Other outcomes, including differences in National Institutes of Health Stroke Scale scores from baseline to 5 to 7 days or discharge, as well as propensity score matching and subgroup analyses, likewise supported the superiority of using both interventions.
 

Safety Outcomes

Nogueira and colleagues also assessed safety. They found that symptomatic intracerebral hemorrhage (ICH) occurred in 45 patients, or 7.1% of the endovascular treatment group. In contrast, only one patient, or 0.5%, of the standard medical treatment alone cohort experienced an ICH. This difference was statistically significant (P < .001).

Mortality at 90 days was significantly lower in the endovascular therapy plus medical therapy group, 46.2%, compared with 71.4% in the standard medical treatment alone group (P < .001).

The absolute difference in mortality was 25.2% (95% CI, 17.6%-2.8%) favoring dual treatment, with an adjusted odds ratio of 2.93 (95% CI, 1.95-4.40; P < .001).

Rates of other serious adverse events during the 90-day follow-up period were similar in the two study groups, Nogueira said.

He acknowledged that the nonrandomized design was a limitation of the registry study, adding that “sometimes in life it’s important to acknowledge the best of what can be done. It’s very hard when you have access to thrombectomy to randomize people.”

However, other researchers have attempted or are enrolling people with BAO into trials that randomly assign them to endovascular therapy and standard medical treatment or medical treatment alone.

The BEST trial in China, for example, randomly assigned 131 patients to these groups but was stopped early in September 2017. “The BEST trial was terminated prematurely because of loss of equipoise that led to a high crossover rate and drop in valid recruitment,” the current researchers note.

“The other two trials…are facing the challenge of whether they will achieve their inclusion target,” they add, “because a growing number of stroke centers are unwilling to randomize patients to standard medical treatment alone after the many positive results of trials for endovascular treatment in patients with anterior-circulation stroke.”

The BAOCHE trial from China, for example, is ongoing with approximately 110 patients enrolled so far.

Investigators for the Basilar Artery International Cooperation Study (BASICS) in the Netherlands just completed enrollment of their 300th and final patient in December 2019.

“We are hopeful BASICS trial will shed additional light,” Nogueira said. The results are expected to be presented at the European Stroke Organization Conference in Vienna in May 2020.
 

More Guidance From MRI?

“With the advent of the stent retrievers and successful recanalization, we know there can be better outcomes for patients. And we know the morbidity and mortality of the basilar artery occlusions are so poor that we tend to want to be aggressive in these cases,” session comoderator Shlee S. Song, MD, director of the Comprehensive Stroke Center and associate professor of neurology at Cedars-Sinai Medical Center in Los Angeles, California, told Medscape Medical News when asked to comment on the study.

“I agree that we’ve lost equipoise in this cohort – that we really cannot do a randomized trial anymore. You know if you don’t do anything, 90% of the time there will be a poor outcome,” she added.

This is an important study for showing how BAO patients fare after endovascular treatment, Song said.

One unanswered question from the study is if any of the centers in China used magnetic resonance imaging to help determine the most appropriate candidates for endovascular treatment of these posterior circulation strokes, which is a common practice in the United States, she said.

The study was supported by the National Science Fund for Distinguished Young Scholars, Chongqing Major Disease Prevention and Control Technology Research Project, Army Medical University Clinical Medical Research Talent Training Program, and Major Clinical Innovation Technology Project of the Second Affiliated Hospital of the Army Military Medical University. Sing had no relevant disclosures. Nogueira’s financial disclosures include working as a consultant for Stryker Neurovascular; as a principal investigator on the Imperative trial and the PROST trial; as a steering committee member for Biogen for the CHARM trial; as an advisory board member for Cerenovus/Neuravi, Phenox, Anaconda, Genentech, Biogen, Prolong Pharmaceuticals and Brainomix; and as an advisory board member with stock options for Viz.ai, Corindus Vascular Robotics, Vesalio, Ceretrieve, Astrocyte Pharmaceuticals, and Cerebrotech.

This article first appeared on Medscape.com.

SOURCE: Nogueira RG et al. ISC 2020. Late-breaking abstract 17.

LOS ANGELES – Endovascular therapy significantly improved functional outcomes and reduced mortality at 90 days, compared with standard thrombolysis alone, new evidence from a large, prospective registry study suggests.

Participants who received both interventions were almost five times more likely to be able to walk independently at 90 days compared with those who received thrombolysis alone.

Despite multiple trials supporting the potential benefits of endovascular therapy for anterior stroke, little prospective research addresses outcomes associated with an ischemic stroke caused by a posterior basilar artery occlusion (BAO).

“Basilar artery occlusion is the ‘orphan’ of the large vessel occlusions,” Raul Gomes Nogueira, MD, PhD, said here at a late-breaking abstract session at the International Stroke Conference sponsored by the American Heart Association.

“They account for about 5% of the large vessel occlusions – but have the most dismal prognosis.” Severe disability and mortality rates associated with BAO, for example, reach an estimated 68% to 78%, he said.

The results, from the EVT for Acute Basilar Artery Occlusion Study (BASILAR), were also simultaneously published in JAMA Neurology.

Prior studies in this patient population are generally single-center, retrospective studies and “the numbers tend to be small,” said Nogueira, who is affiliated with the Marcus Stroke and Neuroscience Center, Grady Memorial Hospital, Emory University School of Medicine in Atlanta, Georgia.

Nogueira and colleagues studied 829 consecutive adults who presented with an acute, symptomatic BAO. They examined a nationwide prospective registry study of people with radiologically confirmed BAO in 47 comprehensive stroke centers across 15 provinces in China.

The median age was 65 years and 74% were men. A total 182 participants received thrombolysis therapy within 6 hours of estimated BAO onset. The 647 people in the dual intervention group also received endovascular therapy within 24 hours.

Standard medical treatment included intravenous rt-PA or urokinase, antiplatelet drugs and systematic anticoagulation alone or in combination. Endovascular therapy included mechanical thrombectomy with stent retrievers and/or thromboaspiration, balloon angioplasty, stenting, intra-arterial thrombolysis, or a combination of these interventions.

Interestingly, participants were not randomly assigned, in part because of the favorable outcomes associated with endovascular therapy. “The high number of patients who received [the dual intervention] may suggest the existence of a lack of equipoise among participating centers,” the researchers note.

Key Efficacy Endpoints

A significantly higher proportion of people in the dual treatment group achieved the primary outcome, functional improvement at 90 days, at 32%, compared with 9.3% in the thrombolysis-only group. This endpoint was defined as a modified Rankin Scale (mRS) score of 3 or less, which reflects an ability to walk independently. The difference was statistically significant (P < .001).

The absolute difference between groups was 22.7% (95% confidence interval, 17.1%-28.2%) with an adjusted odds ratio of 4.70 (95% CI, 2.53-8.75; P < .001) in favor of dual intervention.

The number needed to treat for one additional patient to be able to walk unassisted was 4.4.

Other outcomes, including differences in National Institutes of Health Stroke Scale scores from baseline to 5 to 7 days or discharge, as well as propensity score matching and subgroup analyses, likewise supported the superiority of using both interventions.
 

Safety Outcomes

Nogueira and colleagues also assessed safety. They found that symptomatic intracerebral hemorrhage (ICH) occurred in 45 patients, or 7.1% of the endovascular treatment group. In contrast, only one patient, or 0.5%, of the standard medical treatment alone cohort experienced an ICH. This difference was statistically significant (P < .001).

Mortality at 90 days was significantly lower in the endovascular therapy plus medical therapy group, 46.2%, compared with 71.4% in the standard medical treatment alone group (P < .001).

The absolute difference in mortality was 25.2% (95% CI, 17.6%-2.8%) favoring dual treatment, with an adjusted odds ratio of 2.93 (95% CI, 1.95-4.40; P < .001).

Rates of other serious adverse events during the 90-day follow-up period were similar in the two study groups, Nogueira said.

He acknowledged that the nonrandomized design was a limitation of the registry study, adding that “sometimes in life it’s important to acknowledge the best of what can be done. It’s very hard when you have access to thrombectomy to randomize people.”

However, other researchers have attempted or are enrolling people with BAO into trials that randomly assign them to endovascular therapy and standard medical treatment or medical treatment alone.

The BEST trial in China, for example, randomly assigned 131 patients to these groups but was stopped early in September 2017. “The BEST trial was terminated prematurely because of loss of equipoise that led to a high crossover rate and drop in valid recruitment,” the current researchers note.

“The other two trials…are facing the challenge of whether they will achieve their inclusion target,” they add, “because a growing number of stroke centers are unwilling to randomize patients to standard medical treatment alone after the many positive results of trials for endovascular treatment in patients with anterior-circulation stroke.”

The BAOCHE trial from China, for example, is ongoing with approximately 110 patients enrolled so far.

Investigators for the Basilar Artery International Cooperation Study (BASICS) in the Netherlands just completed enrollment of their 300th and final patient in December 2019.

“We are hopeful BASICS trial will shed additional light,” Nogueira said. The results are expected to be presented at the European Stroke Organization Conference in Vienna in May 2020.
 

More Guidance From MRI?

“With the advent of the stent retrievers and successful recanalization, we know there can be better outcomes for patients. And we know the morbidity and mortality of the basilar artery occlusions are so poor that we tend to want to be aggressive in these cases,” session comoderator Shlee S. Song, MD, director of the Comprehensive Stroke Center and associate professor of neurology at Cedars-Sinai Medical Center in Los Angeles, California, told Medscape Medical News when asked to comment on the study.

“I agree that we’ve lost equipoise in this cohort – that we really cannot do a randomized trial anymore. You know if you don’t do anything, 90% of the time there will be a poor outcome,” she added.

This is an important study for showing how BAO patients fare after endovascular treatment, Song said.

One unanswered question from the study is if any of the centers in China used magnetic resonance imaging to help determine the most appropriate candidates for endovascular treatment of these posterior circulation strokes, which is a common practice in the United States, she said.

The study was supported by the National Science Fund for Distinguished Young Scholars, Chongqing Major Disease Prevention and Control Technology Research Project, Army Medical University Clinical Medical Research Talent Training Program, and Major Clinical Innovation Technology Project of the Second Affiliated Hospital of the Army Military Medical University. Sing had no relevant disclosures. Nogueira’s financial disclosures include working as a consultant for Stryker Neurovascular; as a principal investigator on the Imperative trial and the PROST trial; as a steering committee member for Biogen for the CHARM trial; as an advisory board member for Cerenovus/Neuravi, Phenox, Anaconda, Genentech, Biogen, Prolong Pharmaceuticals and Brainomix; and as an advisory board member with stock options for Viz.ai, Corindus Vascular Robotics, Vesalio, Ceretrieve, Astrocyte Pharmaceuticals, and Cerebrotech.

This article first appeared on Medscape.com.

SOURCE: Nogueira RG et al. ISC 2020. Late-breaking abstract 17.

The US Food and Drug Administration (FDA) has additionally approved dulaglutide (Trulicity) for reducing the risk of major adverse cardiovascular events (MACE) in adults with type 2 diabetes with and without established cardiovascular disease (CVD) or multiple CV risk factors, the company has announced.

Dulaglutide is a once-weekly injectable glucagonlike peptide-1 (GLP-1) receptor agonist first approved in the United States in 2014 for the treatment of type 2 diabetes.

It is now the first and only type 2 diabetes medicine approved to reduce the risk of CV events for both primary and secondary prevention populations. The European Medicines Agency approved a similar indication for dulaglutide last fall.

The new US indication is based on results of the CV outcomes trial for dulaglutide, known as REWIND, which was the longest-running CV outcomes trial in the GLP-1 agonist class.

Chair of the REWIND study, Hertzel Gerstein, MD, professor of medicine at McMaster University and Hamilton Health Sciences, Ontario, Canada, said in a Lilly statement that the trial included a “broad population of people living with type 2 diabetes, reflective of those in the general population. We therefore assessed the effect of Trulicity in people with established CVD as well as those with multiple CV risk factors.”

“Globally, over 415 million people have type 2 diabetes, which is itself a CV risk factor. However, only about one third have established CVD, which is why this new indication, and the supporting evidence, is important for the millions of people in the United States living with diabetes,” he added.

Other GLP-1 agonists have been granted approvals for additional reduction of CV events in patients with type 2 diabetes, but only for secondary prevention.

Most recently the FDA expanded the indication for once-weekly semaglutide to include reducing the risk for MACE, including CV death, nonfatal myocardial infarction, or nonfatal stroke, in adults with type 2 diabetes who have established CVD.
 

Additional approval based on REWIND trial

The REWIND trial included primarily people with type 2 diabetes without established CVD. The full study results were presented at the 2019 American Diabetes Association Scientific Sessions.

REWIND showed a significant reduction in risk of MACE – a composite endpoint of nonfatal myocardial infarction, nonfatal stroke, or CV death – which occurred in 12.0% of patients in the dulaglutide group, compared with 13.4% of patients in the placebo group, for a risk reduction of 0.88 (95% confidence interval, 0.79-0.99; P = .026), which was consistent across subgroups.

All three components of the MACE primary endpoint showed a reduction with dulaglutide, compared with placebo, including CV death (hazard ratio, 0.91; 95% CI, 0.78-1.06) and nonfatal MI (HR, 0.96; 95% CI, 0.79-1.16), with the strongest and only significant effect seen in nonfatal stroke (HR, 0.76; 95% CI, 0.61-0.95).

No difference was seen between groups in hospital admissions for heart failure.

Dulaglutide was also found to modestly reduce weight by around 1.5 kg (P = .0001) and systolic blood pressure by 1.7 mm Hg (P = .0001).

The safety profile of dulaglutide in REWIND was consistent with other members of the GLP-1 agonist class, with gastrointestinal events being the most common adverse event leading to discontinuation.

Sherry Martin, MD, Lilly’s vice president, medical affairs, noted in the company statement: “For the first time, health care providers can prescribe a diabetes medicine proven to significantly reduce the risk of experiencing a CV event for people with type 2 diabetes with and without established CVD.”

“Trulicity can help people achieve their A_1C goals and protect them from experiencing a CV event with a once-weekly, easy-to-use treatment option,” added Martin.

This article first appeared on Medscape.com.

The US Food and Drug Administration (FDA) has additionally approved dulaglutide (Trulicity) for reducing the risk of major adverse cardiovascular events (MACE) in adults with type 2 diabetes with and without established cardiovascular disease (CVD) or multiple CV risk factors, the company has announced.

Dulaglutide is a once-weekly injectable glucagonlike peptide-1 (GLP-1) receptor agonist first approved in the United States in 2014 for the treatment of type 2 diabetes.

It is now the first and only type 2 diabetes medicine approved to reduce the risk of CV events for both primary and secondary prevention populations. The European Medicines Agency approved a similar indication for dulaglutide last fall.

The new US indication is based on results of the CV outcomes trial for dulaglutide, known as REWIND, which was the longest-running CV outcomes trial in the GLP-1 agonist class.

Chair of the REWIND study, Hertzel Gerstein, MD, professor of medicine at McMaster University and Hamilton Health Sciences, Ontario, Canada, said in a Lilly statement that the trial included a “broad population of people living with type 2 diabetes, reflective of those in the general population. We therefore assessed the effect of Trulicity in people with established CVD as well as those with multiple CV risk factors.”

“Globally, over 415 million people have type 2 diabetes, which is itself a CV risk factor. However, only about one third have established CVD, which is why this new indication, and the supporting evidence, is important for the millions of people in the United States living with diabetes,” he added.

Other GLP-1 agonists have been granted approvals for additional reduction of CV events in patients with type 2 diabetes, but only for secondary prevention.

Most recently the FDA expanded the indication for once-weekly semaglutide to include reducing the risk for MACE, including CV death, nonfatal myocardial infarction, or nonfatal stroke, in adults with type 2 diabetes who have established CVD.
 

Additional approval based on REWIND trial

The REWIND trial included primarily people with type 2 diabetes without established CVD. The full study results were presented at the 2019 American Diabetes Association Scientific Sessions.

REWIND showed a significant reduction in risk of MACE – a composite endpoint of nonfatal myocardial infarction, nonfatal stroke, or CV death – which occurred in 12.0% of patients in the dulaglutide group, compared with 13.4% of patients in the placebo group, for a risk reduction of 0.88 (95% confidence interval, 0.79-0.99; P = .026), which was consistent across subgroups.

All three components of the MACE primary endpoint showed a reduction with dulaglutide, compared with placebo, including CV death (hazard ratio, 0.91; 95% CI, 0.78-1.06) and nonfatal MI (HR, 0.96; 95% CI, 0.79-1.16), with the strongest and only significant effect seen in nonfatal stroke (HR, 0.76; 95% CI, 0.61-0.95).

No difference was seen between groups in hospital admissions for heart failure.

Dulaglutide was also found to modestly reduce weight by around 1.5 kg (P = .0001) and systolic blood pressure by 1.7 mm Hg (P = .0001).

The safety profile of dulaglutide in REWIND was consistent with other members of the GLP-1 agonist class, with gastrointestinal events being the most common adverse event leading to discontinuation.

Sherry Martin, MD, Lilly’s vice president, medical affairs, noted in the company statement: “For the first time, health care providers can prescribe a diabetes medicine proven to significantly reduce the risk of experiencing a CV event for people with type 2 diabetes with and without established CVD.”

“Trulicity can help people achieve their A_1C goals and protect them from experiencing a CV event with a once-weekly, easy-to-use treatment option,” added Martin.

This article first appeared on Medscape.com.

The US Food and Drug Administration (FDA) has additionally approved dulaglutide (Trulicity) for reducing the risk of major adverse cardiovascular events (MACE) in adults with type 2 diabetes with and without established cardiovascular disease (CVD) or multiple CV risk factors, the company has announced.

Dulaglutide is a once-weekly injectable glucagonlike peptide-1 (GLP-1) receptor agonist first approved in the United States in 2014 for the treatment of type 2 diabetes.

It is now the first and only type 2 diabetes medicine approved to reduce the risk of CV events for both primary and secondary prevention populations. The European Medicines Agency approved a similar indication for dulaglutide last fall.

The new US indication is based on results of the CV outcomes trial for dulaglutide, known as REWIND, which was the longest-running CV outcomes trial in the GLP-1 agonist class.

Chair of the REWIND study, Hertzel Gerstein, MD, professor of medicine at McMaster University and Hamilton Health Sciences, Ontario, Canada, said in a Lilly statement that the trial included a “broad population of people living with type 2 diabetes, reflective of those in the general population. We therefore assessed the effect of Trulicity in people with established CVD as well as those with multiple CV risk factors.”

“Globally, over 415 million people have type 2 diabetes, which is itself a CV risk factor. However, only about one third have established CVD, which is why this new indication, and the supporting evidence, is important for the millions of people in the United States living with diabetes,” he added.

Other GLP-1 agonists have been granted approvals for additional reduction of CV events in patients with type 2 diabetes, but only for secondary prevention.

Most recently the FDA expanded the indication for once-weekly semaglutide to include reducing the risk for MACE, including CV death, nonfatal myocardial infarction, or nonfatal stroke, in adults with type 2 diabetes who have established CVD.
 

Additional approval based on REWIND trial

The REWIND trial included primarily people with type 2 diabetes without established CVD. The full study results were presented at the 2019 American Diabetes Association Scientific Sessions.

REWIND showed a significant reduction in risk of MACE – a composite endpoint of nonfatal myocardial infarction, nonfatal stroke, or CV death – which occurred in 12.0% of patients in the dulaglutide group, compared with 13.4% of patients in the placebo group, for a risk reduction of 0.88 (95% confidence interval, 0.79-0.99; P = .026), which was consistent across subgroups.

All three components of the MACE primary endpoint showed a reduction with dulaglutide, compared with placebo, including CV death (hazard ratio, 0.91; 95% CI, 0.78-1.06) and nonfatal MI (HR, 0.96; 95% CI, 0.79-1.16), with the strongest and only significant effect seen in nonfatal stroke (HR, 0.76; 95% CI, 0.61-0.95).

No difference was seen between groups in hospital admissions for heart failure.

Dulaglutide was also found to modestly reduce weight by around 1.5 kg (P = .0001) and systolic blood pressure by 1.7 mm Hg (P = .0001).

The safety profile of dulaglutide in REWIND was consistent with other members of the GLP-1 agonist class, with gastrointestinal events being the most common adverse event leading to discontinuation.

Sherry Martin, MD, Lilly’s vice president, medical affairs, noted in the company statement: “For the first time, health care providers can prescribe a diabetes medicine proven to significantly reduce the risk of experiencing a CV event for people with type 2 diabetes with and without established CVD.”

“Trulicity can help people achieve their A_1C goals and protect them from experiencing a CV event with a once-weekly, easy-to-use treatment option,” added Martin.

This article first appeared on Medscape.com.