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Sudden Cardiac Deaths Down Among NCAA Athletes
TOPLINE:
A new study shows sudden cardiac deaths among collegiate athletes decreased over a recent 20-year period, but risks are still elevated among males, Black players, and basketball players, suggesting more intensive screening among these groups is needed.
METHODOLOGY:
- The study examined incidence and surrounding circumstances of sudden cardiac death (SCD) among student athletes who competed in at least one varsity sport at National Collegiate Athletic Association (NCAA) Division I, II, or III institutions in the 20 years from July 1, 2002, to June 30, 2022.
- Researchers determined causes of death and gathered demographic characteristics using multiple methods, including review of autopsy and other official documents, Internet searches, and contacts to next of kin, coaches, athletic trainers, coroners, medical examiners, scholarship foundations, and physicians involved in the case.
- SCD was defined as sudden unexpected death attributable to a cardiac cause, or a sudden death in a structurally normal heart with no other explanation for death and a history consistent with cardiac-related death that occurred within an hour of symptom onset, or an unwitnessed death occurring within 24 hours of the person being alive.
- Researchers calculated incidence rates over a typical 4-year collegiate career and reported these as athlete-years.
TAKEAWAY:
- The incidence of SCD, which accounted for 13% of the 1102 total deaths during the study period, decreased over time, with a 5-year incidence rate ratio (IRR) of 0.71 (95% CI, 0.61-0.82), while noncardiovascular deaths remained stable.
- IRR for males versus females was 3.79 (95% CI, 2.45-5.88) and for Black versus White athletes was 2.79 (95% CI, 1.98-3.94).
- Basketball and football players were at increased risk of SCD; for example, the incidence rate among Division I Black male basketball athletes was 1:1924 per 4-year athlete-years.
- The most common postmortem finding was autopsy-negative sudden unexplained death, at 19%, followed by idiopathic left ventricular hypertrophy/possible cardiomyopathy (17%) and hypertrophic cardiomyopathy (13%), with no cases of death attributable to COVID-19 myocarditis.
IN PRACTICE:
Although the reason for the decrease in SCD is unknown, “our data suggest that strategies to reduce SCD among competing athletes may be having a positive effect,” wrote the authors. More intensive screening strategies among groups with high SCD incidence may be warranted, they added.
SOURCE:
The study was conducted by Bradley J. Petek, MD, Sports Cardiology Program, Knight Cardiovascular Institute, Oregon Health & Science University, Portland. It was published online November 13 in Circulation and presented at the American Heart Association scientific sessions (abstract 479).
LIMITATIONS:
Some cases of SCD may have been missed as there is no mandatory reporting system in the United States. Approaches to cardiac autopsy and reporting varied significantly. The cause of death was unknown in 16 cases, and postmortem genetic testing was available for only 3% of athletes. As the study didn’t have data on resuscitated sudden cardiac arrest or preparticipation cardiovascular screening practices and findings, definitive conclusions couldn’t be drawn regarding causal factors underlying the decreased incidence of SCD.
DISCLOSURES:
There was no outside funding source. Dr. Petek has reported no relevant financial relationships. Disclosures for the other authors are listed with the article.
A version of this article appeared on Medscape.com.
TOPLINE:
A new study shows sudden cardiac deaths among collegiate athletes decreased over a recent 20-year period, but risks are still elevated among males, Black players, and basketball players, suggesting more intensive screening among these groups is needed.
METHODOLOGY:
- The study examined incidence and surrounding circumstances of sudden cardiac death (SCD) among student athletes who competed in at least one varsity sport at National Collegiate Athletic Association (NCAA) Division I, II, or III institutions in the 20 years from July 1, 2002, to June 30, 2022.
- Researchers determined causes of death and gathered demographic characteristics using multiple methods, including review of autopsy and other official documents, Internet searches, and contacts to next of kin, coaches, athletic trainers, coroners, medical examiners, scholarship foundations, and physicians involved in the case.
- SCD was defined as sudden unexpected death attributable to a cardiac cause, or a sudden death in a structurally normal heart with no other explanation for death and a history consistent with cardiac-related death that occurred within an hour of symptom onset, or an unwitnessed death occurring within 24 hours of the person being alive.
- Researchers calculated incidence rates over a typical 4-year collegiate career and reported these as athlete-years.
TAKEAWAY:
- The incidence of SCD, which accounted for 13% of the 1102 total deaths during the study period, decreased over time, with a 5-year incidence rate ratio (IRR) of 0.71 (95% CI, 0.61-0.82), while noncardiovascular deaths remained stable.
- IRR for males versus females was 3.79 (95% CI, 2.45-5.88) and for Black versus White athletes was 2.79 (95% CI, 1.98-3.94).
- Basketball and football players were at increased risk of SCD; for example, the incidence rate among Division I Black male basketball athletes was 1:1924 per 4-year athlete-years.
- The most common postmortem finding was autopsy-negative sudden unexplained death, at 19%, followed by idiopathic left ventricular hypertrophy/possible cardiomyopathy (17%) and hypertrophic cardiomyopathy (13%), with no cases of death attributable to COVID-19 myocarditis.
IN PRACTICE:
Although the reason for the decrease in SCD is unknown, “our data suggest that strategies to reduce SCD among competing athletes may be having a positive effect,” wrote the authors. More intensive screening strategies among groups with high SCD incidence may be warranted, they added.
SOURCE:
The study was conducted by Bradley J. Petek, MD, Sports Cardiology Program, Knight Cardiovascular Institute, Oregon Health & Science University, Portland. It was published online November 13 in Circulation and presented at the American Heart Association scientific sessions (abstract 479).
LIMITATIONS:
Some cases of SCD may have been missed as there is no mandatory reporting system in the United States. Approaches to cardiac autopsy and reporting varied significantly. The cause of death was unknown in 16 cases, and postmortem genetic testing was available for only 3% of athletes. As the study didn’t have data on resuscitated sudden cardiac arrest or preparticipation cardiovascular screening practices and findings, definitive conclusions couldn’t be drawn regarding causal factors underlying the decreased incidence of SCD.
DISCLOSURES:
There was no outside funding source. Dr. Petek has reported no relevant financial relationships. Disclosures for the other authors are listed with the article.
A version of this article appeared on Medscape.com.
TOPLINE:
A new study shows sudden cardiac deaths among collegiate athletes decreased over a recent 20-year period, but risks are still elevated among males, Black players, and basketball players, suggesting more intensive screening among these groups is needed.
METHODOLOGY:
- The study examined incidence and surrounding circumstances of sudden cardiac death (SCD) among student athletes who competed in at least one varsity sport at National Collegiate Athletic Association (NCAA) Division I, II, or III institutions in the 20 years from July 1, 2002, to June 30, 2022.
- Researchers determined causes of death and gathered demographic characteristics using multiple methods, including review of autopsy and other official documents, Internet searches, and contacts to next of kin, coaches, athletic trainers, coroners, medical examiners, scholarship foundations, and physicians involved in the case.
- SCD was defined as sudden unexpected death attributable to a cardiac cause, or a sudden death in a structurally normal heart with no other explanation for death and a history consistent with cardiac-related death that occurred within an hour of symptom onset, or an unwitnessed death occurring within 24 hours of the person being alive.
- Researchers calculated incidence rates over a typical 4-year collegiate career and reported these as athlete-years.
TAKEAWAY:
- The incidence of SCD, which accounted for 13% of the 1102 total deaths during the study period, decreased over time, with a 5-year incidence rate ratio (IRR) of 0.71 (95% CI, 0.61-0.82), while noncardiovascular deaths remained stable.
- IRR for males versus females was 3.79 (95% CI, 2.45-5.88) and for Black versus White athletes was 2.79 (95% CI, 1.98-3.94).
- Basketball and football players were at increased risk of SCD; for example, the incidence rate among Division I Black male basketball athletes was 1:1924 per 4-year athlete-years.
- The most common postmortem finding was autopsy-negative sudden unexplained death, at 19%, followed by idiopathic left ventricular hypertrophy/possible cardiomyopathy (17%) and hypertrophic cardiomyopathy (13%), with no cases of death attributable to COVID-19 myocarditis.
IN PRACTICE:
Although the reason for the decrease in SCD is unknown, “our data suggest that strategies to reduce SCD among competing athletes may be having a positive effect,” wrote the authors. More intensive screening strategies among groups with high SCD incidence may be warranted, they added.
SOURCE:
The study was conducted by Bradley J. Petek, MD, Sports Cardiology Program, Knight Cardiovascular Institute, Oregon Health & Science University, Portland. It was published online November 13 in Circulation and presented at the American Heart Association scientific sessions (abstract 479).
LIMITATIONS:
Some cases of SCD may have been missed as there is no mandatory reporting system in the United States. Approaches to cardiac autopsy and reporting varied significantly. The cause of death was unknown in 16 cases, and postmortem genetic testing was available for only 3% of athletes. As the study didn’t have data on resuscitated sudden cardiac arrest or preparticipation cardiovascular screening practices and findings, definitive conclusions couldn’t be drawn regarding causal factors underlying the decreased incidence of SCD.
DISCLOSURES:
There was no outside funding source. Dr. Petek has reported no relevant financial relationships. Disclosures for the other authors are listed with the article.
A version of this article appeared on Medscape.com.
‘World’s Healthiest Arteries’ Found to Be the Most Elastic
according to a study presented at the annual scientific sessions of the American Heart Association.
These arteries recently were found to be exceptionally elastic and to age more gradually,The lead researcher, Michael Gurven, PhD, director of the Integrative Anthropological Sciences Unit at the University of California, Santa Barbara, said in an interview that the study “provides additional evidence that lifestyle modifications can improve arterial health.”
An Ancient Lifestyle
The study focused on the Tsimané or Chimane people, an indigenous community in Bolivia that sustains itself through ancestral practices like slash-and-burn agriculture (mainly involving plantains, rice, sweet cassava, and maize), river fishing, hunting neotropical mammals, and gathering seasonal fruits, honey, and nuts. They are inactive only 10% of their daily time and adhere to a low-fat, low-processed carbohydrate diet.
Over the past decade, numerous studies in this community documented a lower prevalence of arterial hypertension, atrial fibrillation, type 2 diabetes, obesity, smoking, sedentary lifestyle, and more recently, minimal cognitive dysfunction and dementia.
In 2017, Dr. Gurven led a cross-sectional study showing that Tsimané individuals over age 40 years had very low coronary artery calcium scores, which are a marker for coronary atherosclerosis. The finding strongly suggests that healthy lifestyle habits genuinely work in cardiovascular prevention. The mechanisms involved and their evolution with age needed further exploration, however.
The new research, led by Dr. Gurven’s student Tianyu Cao, delved into arterial elasticity, particularly in the carotid and femoral arteries, as a measure of potential arterial stiffening and atherosclerosis. The study included around 500 adults of both sexes.
Aging and Arterial Elasticity
The findings revealed that Tsimané arteries are less rigid than those in various urban and sedentary populations that have been studied previously. For instance, the elasticity of large and small arteries in 491 Tsimané individuals (average age: 55.3 years) was 57%-86% higher than that observed in adult men and women in the United States in the Multi-Ethnic Study of Atherosclerosis.
Similarly, the carotid-femoral pulse wave velocity, a direct indicator of arterial stiffness, was determined in 89 Tsimané individuals (average age: 53.1 years, 54% women). The average value was 6.34 m/s, which is approximately 25% lower than the average for a healthy Brazilian population aged 35-74 years.
Dr. Gurven noted that Tsimané arteries remain more elastic for a longer period than in other populations. However, by age 70 years, the arteries also start to harden. “In other words, Tsimané cannot indefinitely delay arterial aging,” he said.
“The minimal and delayed increase in arterial stiffness related to age could contribute to the very low observed levels of coronary atherosclerosis and dementia in the Tsimané,” wrote the researchers.
Pedro Forcada, MD, a cardiologist and professor at the University Austral in Buenos Aires, who was not involved in the study, emphasized the impact of epigenetics on atherosclerosis and accelerated vascular aging. He referred to the SUPERNOVA phenomenon in Europe and Japan, where exceptionally low arterial stiffness characterizes very long-lived individuals.
“This indicates that we must not only understand accelerated vascular aging but also study protective factors. Lifestyle, according to these recent studies, would play a significant role,” he stated.
Dr. Gurven and Dr. Forcada declared no relevant economic conflicts of interest.
This article was translated from the Medscape Spanish edition. A version of this article appeared on Medscape.com.
according to a study presented at the annual scientific sessions of the American Heart Association.
These arteries recently were found to be exceptionally elastic and to age more gradually,The lead researcher, Michael Gurven, PhD, director of the Integrative Anthropological Sciences Unit at the University of California, Santa Barbara, said in an interview that the study “provides additional evidence that lifestyle modifications can improve arterial health.”
An Ancient Lifestyle
The study focused on the Tsimané or Chimane people, an indigenous community in Bolivia that sustains itself through ancestral practices like slash-and-burn agriculture (mainly involving plantains, rice, sweet cassava, and maize), river fishing, hunting neotropical mammals, and gathering seasonal fruits, honey, and nuts. They are inactive only 10% of their daily time and adhere to a low-fat, low-processed carbohydrate diet.
Over the past decade, numerous studies in this community documented a lower prevalence of arterial hypertension, atrial fibrillation, type 2 diabetes, obesity, smoking, sedentary lifestyle, and more recently, minimal cognitive dysfunction and dementia.
In 2017, Dr. Gurven led a cross-sectional study showing that Tsimané individuals over age 40 years had very low coronary artery calcium scores, which are a marker for coronary atherosclerosis. The finding strongly suggests that healthy lifestyle habits genuinely work in cardiovascular prevention. The mechanisms involved and their evolution with age needed further exploration, however.
The new research, led by Dr. Gurven’s student Tianyu Cao, delved into arterial elasticity, particularly in the carotid and femoral arteries, as a measure of potential arterial stiffening and atherosclerosis. The study included around 500 adults of both sexes.
Aging and Arterial Elasticity
The findings revealed that Tsimané arteries are less rigid than those in various urban and sedentary populations that have been studied previously. For instance, the elasticity of large and small arteries in 491 Tsimané individuals (average age: 55.3 years) was 57%-86% higher than that observed in adult men and women in the United States in the Multi-Ethnic Study of Atherosclerosis.
Similarly, the carotid-femoral pulse wave velocity, a direct indicator of arterial stiffness, was determined in 89 Tsimané individuals (average age: 53.1 years, 54% women). The average value was 6.34 m/s, which is approximately 25% lower than the average for a healthy Brazilian population aged 35-74 years.
Dr. Gurven noted that Tsimané arteries remain more elastic for a longer period than in other populations. However, by age 70 years, the arteries also start to harden. “In other words, Tsimané cannot indefinitely delay arterial aging,” he said.
“The minimal and delayed increase in arterial stiffness related to age could contribute to the very low observed levels of coronary atherosclerosis and dementia in the Tsimané,” wrote the researchers.
Pedro Forcada, MD, a cardiologist and professor at the University Austral in Buenos Aires, who was not involved in the study, emphasized the impact of epigenetics on atherosclerosis and accelerated vascular aging. He referred to the SUPERNOVA phenomenon in Europe and Japan, where exceptionally low arterial stiffness characterizes very long-lived individuals.
“This indicates that we must not only understand accelerated vascular aging but also study protective factors. Lifestyle, according to these recent studies, would play a significant role,” he stated.
Dr. Gurven and Dr. Forcada declared no relevant economic conflicts of interest.
This article was translated from the Medscape Spanish edition. A version of this article appeared on Medscape.com.
according to a study presented at the annual scientific sessions of the American Heart Association.
These arteries recently were found to be exceptionally elastic and to age more gradually,The lead researcher, Michael Gurven, PhD, director of the Integrative Anthropological Sciences Unit at the University of California, Santa Barbara, said in an interview that the study “provides additional evidence that lifestyle modifications can improve arterial health.”
An Ancient Lifestyle
The study focused on the Tsimané or Chimane people, an indigenous community in Bolivia that sustains itself through ancestral practices like slash-and-burn agriculture (mainly involving plantains, rice, sweet cassava, and maize), river fishing, hunting neotropical mammals, and gathering seasonal fruits, honey, and nuts. They are inactive only 10% of their daily time and adhere to a low-fat, low-processed carbohydrate diet.
Over the past decade, numerous studies in this community documented a lower prevalence of arterial hypertension, atrial fibrillation, type 2 diabetes, obesity, smoking, sedentary lifestyle, and more recently, minimal cognitive dysfunction and dementia.
In 2017, Dr. Gurven led a cross-sectional study showing that Tsimané individuals over age 40 years had very low coronary artery calcium scores, which are a marker for coronary atherosclerosis. The finding strongly suggests that healthy lifestyle habits genuinely work in cardiovascular prevention. The mechanisms involved and their evolution with age needed further exploration, however.
The new research, led by Dr. Gurven’s student Tianyu Cao, delved into arterial elasticity, particularly in the carotid and femoral arteries, as a measure of potential arterial stiffening and atherosclerosis. The study included around 500 adults of both sexes.
Aging and Arterial Elasticity
The findings revealed that Tsimané arteries are less rigid than those in various urban and sedentary populations that have been studied previously. For instance, the elasticity of large and small arteries in 491 Tsimané individuals (average age: 55.3 years) was 57%-86% higher than that observed in adult men and women in the United States in the Multi-Ethnic Study of Atherosclerosis.
Similarly, the carotid-femoral pulse wave velocity, a direct indicator of arterial stiffness, was determined in 89 Tsimané individuals (average age: 53.1 years, 54% women). The average value was 6.34 m/s, which is approximately 25% lower than the average for a healthy Brazilian population aged 35-74 years.
Dr. Gurven noted that Tsimané arteries remain more elastic for a longer period than in other populations. However, by age 70 years, the arteries also start to harden. “In other words, Tsimané cannot indefinitely delay arterial aging,” he said.
“The minimal and delayed increase in arterial stiffness related to age could contribute to the very low observed levels of coronary atherosclerosis and dementia in the Tsimané,” wrote the researchers.
Pedro Forcada, MD, a cardiologist and professor at the University Austral in Buenos Aires, who was not involved in the study, emphasized the impact of epigenetics on atherosclerosis and accelerated vascular aging. He referred to the SUPERNOVA phenomenon in Europe and Japan, where exceptionally low arterial stiffness characterizes very long-lived individuals.
“This indicates that we must not only understand accelerated vascular aging but also study protective factors. Lifestyle, according to these recent studies, would play a significant role,” he stated.
Dr. Gurven and Dr. Forcada declared no relevant economic conflicts of interest.
This article was translated from the Medscape Spanish edition. A version of this article appeared on Medscape.com.
FROM AHA 2023
AI-Aided Stethoscope Beats PCP in Detecting Valvular HD
, a new study shows.
The results suggest collecting relevant sounds through a stethoscope (auscultation) using AI-powered technology is an important primary care tool to detect VHD, study author Moshe A. Rancier, MD, medical director, Massachusetts General Brigham Community Physicians, Lawrence, Massachusetts, said in an interview.
“Incorporating this AI-assisted device into the primary care exam will help identify patients at risk for VHD earlier and eventually decrease costs in our healthcare system,” he said, because timely detection could avoid emergency room visits and surgeries.
The findings were presented at the annual scientific sessions of the American Heart Association.
VHD Common
Clinically significant VHD, indicating structural damage to heart valves, affects 1 in 10 adults older than 65 years. Patients may be asymptomatic or present to their PCP with an unspecific symptom like fatigue or malaise.
If VHD is undiagnosed and left untreated, patients could develop more severe symptoms, even be at risk for death, and their quality of life is significantly affected, said Dr. Rancier.
Cardiac auscultation, the current point-of-care clinical standard, has relatively low sensitivity for detecting VHD, leaving most patients undiagnosed.
The deep learning–based AI tool uses sound data to detect cardiac murmurs associated with clinically significant VHD. The device used in the study (Eko; Eko Health) is approved by the US Food and Drug Administration and is on the market.
The tool identifies background sounds that might affect the evaluation. “If there’s any noise or breath sounds, it tells me this is not a good heart sound, and asks me to record again,” said Dr. Rancier.
A doctor using the AI-assisted stethoscope carries out the auscultation exam with the sound data captured by a smartphone or tablet and sent to the AI server. “I get an answer in a second as to if there’s a murmur or not,” said Dr. Rancier.
Not only that, but the tool can determine if it’s a systolic or diastolic murmur, he added.
Real-World Population
The study enrolled a “real-world” population of 368 patients, median age 70 years, 61% female, 70% White, and 18% Hispanic without a prior VHD diagnosis or history of murmur, from three primary care clinics in Queens, New York, and Lawrence and Haverhill, Massachusetts.
About 79% of the cohort had hypertension, 68% had dyslipidemia, and 38% had diabetes, “which aligns with the population in the US,” said Dr. Rancier.
Each study participant had a regular exam carried out by Dr. Rancier using a traditional stethoscope to detect murmurs and an exam by a technician with a digital stethoscope that collected phonocardiogram (PCG) data for analysis by AI.
In addition, each patient received an echocardiogram 1-2 weeks later to confirm whether clinically significant VHD was present. An expert panel of cardiologists also reviewed the patient’s PCG recordings to confirm the presence of audible murmurs.
Dr. Rancier and the expert panel were blinded to AI and echocardiogram results.
Researchers calculated performance metrics for both PCP auscultation and the AI in detecting audible VHD.
The study showed that AI improved sensitivity to detect audible VHD by over twofold compared with PCP auscultation (94.1% vs 41.2%), with limited impact on specificity (84.5% vs 95.5%).
Dr. Rancier stressed the importance of sensitivity because clinicians tend to under-detect murmurs. “You don’t want to miss those patients because the consequences of undiagnosed VHD are dire.”
The AI tool identified 22 patients with moderate or greater VHD who were previously undiagnosed, whereas PCPs identified eight previously undiagnosed patients with VHD.
Dr. Rancier sees this tool being used beyond primary care, perhaps by emergency room personnel.
The authors plan to follow study participants and assess outcomes at for 6-12 months. They also aim to include more patients to increase the study’s power.
Expanding the Technology
They are also interested to see whether the technology can determine which valve is affected; for example, whether the issue is aortic stenosis or mitral regurgitation.
A limitation of the study was its small sample size.
Commenting on the findings, Dan Roden, MD, professor of medicine, pharmacology, and biomedical informatics, senior vice president for personalized medicine at Vanderbilt University Medical Center, Nashville, Tennessee, and chair of the American Heart Association Council on Genomic and Precision Medicine, noted that it demonstrated the AI-based stethoscope “did extraordinarily well” in predicting VHD.
“I see this as an emerging technology — using an AI-enabled stethoscope and perhaps combining it with other imaging modalities, like an AI-enabled echocardiogram built into your stethoscope,” said Dr. Roden.
“Use of these new tools to detect the presence of valvular disease, as well as the extent of valvular disease and the extent of other kinds of heart disease, will likely help to transform CVD care.”
The study was funded by Eko Health Inc. Dr. Rancier and Dr. Roden have no relevant conflicts of interest.
A version of this article appeared on Medscape.com.
, a new study shows.
The results suggest collecting relevant sounds through a stethoscope (auscultation) using AI-powered technology is an important primary care tool to detect VHD, study author Moshe A. Rancier, MD, medical director, Massachusetts General Brigham Community Physicians, Lawrence, Massachusetts, said in an interview.
“Incorporating this AI-assisted device into the primary care exam will help identify patients at risk for VHD earlier and eventually decrease costs in our healthcare system,” he said, because timely detection could avoid emergency room visits and surgeries.
The findings were presented at the annual scientific sessions of the American Heart Association.
VHD Common
Clinically significant VHD, indicating structural damage to heart valves, affects 1 in 10 adults older than 65 years. Patients may be asymptomatic or present to their PCP with an unspecific symptom like fatigue or malaise.
If VHD is undiagnosed and left untreated, patients could develop more severe symptoms, even be at risk for death, and their quality of life is significantly affected, said Dr. Rancier.
Cardiac auscultation, the current point-of-care clinical standard, has relatively low sensitivity for detecting VHD, leaving most patients undiagnosed.
The deep learning–based AI tool uses sound data to detect cardiac murmurs associated with clinically significant VHD. The device used in the study (Eko; Eko Health) is approved by the US Food and Drug Administration and is on the market.
The tool identifies background sounds that might affect the evaluation. “If there’s any noise or breath sounds, it tells me this is not a good heart sound, and asks me to record again,” said Dr. Rancier.
A doctor using the AI-assisted stethoscope carries out the auscultation exam with the sound data captured by a smartphone or tablet and sent to the AI server. “I get an answer in a second as to if there’s a murmur or not,” said Dr. Rancier.
Not only that, but the tool can determine if it’s a systolic or diastolic murmur, he added.
Real-World Population
The study enrolled a “real-world” population of 368 patients, median age 70 years, 61% female, 70% White, and 18% Hispanic without a prior VHD diagnosis or history of murmur, from three primary care clinics in Queens, New York, and Lawrence and Haverhill, Massachusetts.
About 79% of the cohort had hypertension, 68% had dyslipidemia, and 38% had diabetes, “which aligns with the population in the US,” said Dr. Rancier.
Each study participant had a regular exam carried out by Dr. Rancier using a traditional stethoscope to detect murmurs and an exam by a technician with a digital stethoscope that collected phonocardiogram (PCG) data for analysis by AI.
In addition, each patient received an echocardiogram 1-2 weeks later to confirm whether clinically significant VHD was present. An expert panel of cardiologists also reviewed the patient’s PCG recordings to confirm the presence of audible murmurs.
Dr. Rancier and the expert panel were blinded to AI and echocardiogram results.
Researchers calculated performance metrics for both PCP auscultation and the AI in detecting audible VHD.
The study showed that AI improved sensitivity to detect audible VHD by over twofold compared with PCP auscultation (94.1% vs 41.2%), with limited impact on specificity (84.5% vs 95.5%).
Dr. Rancier stressed the importance of sensitivity because clinicians tend to under-detect murmurs. “You don’t want to miss those patients because the consequences of undiagnosed VHD are dire.”
The AI tool identified 22 patients with moderate or greater VHD who were previously undiagnosed, whereas PCPs identified eight previously undiagnosed patients with VHD.
Dr. Rancier sees this tool being used beyond primary care, perhaps by emergency room personnel.
The authors plan to follow study participants and assess outcomes at for 6-12 months. They also aim to include more patients to increase the study’s power.
Expanding the Technology
They are also interested to see whether the technology can determine which valve is affected; for example, whether the issue is aortic stenosis or mitral regurgitation.
A limitation of the study was its small sample size.
Commenting on the findings, Dan Roden, MD, professor of medicine, pharmacology, and biomedical informatics, senior vice president for personalized medicine at Vanderbilt University Medical Center, Nashville, Tennessee, and chair of the American Heart Association Council on Genomic and Precision Medicine, noted that it demonstrated the AI-based stethoscope “did extraordinarily well” in predicting VHD.
“I see this as an emerging technology — using an AI-enabled stethoscope and perhaps combining it with other imaging modalities, like an AI-enabled echocardiogram built into your stethoscope,” said Dr. Roden.
“Use of these new tools to detect the presence of valvular disease, as well as the extent of valvular disease and the extent of other kinds of heart disease, will likely help to transform CVD care.”
The study was funded by Eko Health Inc. Dr. Rancier and Dr. Roden have no relevant conflicts of interest.
A version of this article appeared on Medscape.com.
, a new study shows.
The results suggest collecting relevant sounds through a stethoscope (auscultation) using AI-powered technology is an important primary care tool to detect VHD, study author Moshe A. Rancier, MD, medical director, Massachusetts General Brigham Community Physicians, Lawrence, Massachusetts, said in an interview.
“Incorporating this AI-assisted device into the primary care exam will help identify patients at risk for VHD earlier and eventually decrease costs in our healthcare system,” he said, because timely detection could avoid emergency room visits and surgeries.
The findings were presented at the annual scientific sessions of the American Heart Association.
VHD Common
Clinically significant VHD, indicating structural damage to heart valves, affects 1 in 10 adults older than 65 years. Patients may be asymptomatic or present to their PCP with an unspecific symptom like fatigue or malaise.
If VHD is undiagnosed and left untreated, patients could develop more severe symptoms, even be at risk for death, and their quality of life is significantly affected, said Dr. Rancier.
Cardiac auscultation, the current point-of-care clinical standard, has relatively low sensitivity for detecting VHD, leaving most patients undiagnosed.
The deep learning–based AI tool uses sound data to detect cardiac murmurs associated with clinically significant VHD. The device used in the study (Eko; Eko Health) is approved by the US Food and Drug Administration and is on the market.
The tool identifies background sounds that might affect the evaluation. “If there’s any noise or breath sounds, it tells me this is not a good heart sound, and asks me to record again,” said Dr. Rancier.
A doctor using the AI-assisted stethoscope carries out the auscultation exam with the sound data captured by a smartphone or tablet and sent to the AI server. “I get an answer in a second as to if there’s a murmur or not,” said Dr. Rancier.
Not only that, but the tool can determine if it’s a systolic or diastolic murmur, he added.
Real-World Population
The study enrolled a “real-world” population of 368 patients, median age 70 years, 61% female, 70% White, and 18% Hispanic without a prior VHD diagnosis or history of murmur, from three primary care clinics in Queens, New York, and Lawrence and Haverhill, Massachusetts.
About 79% of the cohort had hypertension, 68% had dyslipidemia, and 38% had diabetes, “which aligns with the population in the US,” said Dr. Rancier.
Each study participant had a regular exam carried out by Dr. Rancier using a traditional stethoscope to detect murmurs and an exam by a technician with a digital stethoscope that collected phonocardiogram (PCG) data for analysis by AI.
In addition, each patient received an echocardiogram 1-2 weeks later to confirm whether clinically significant VHD was present. An expert panel of cardiologists also reviewed the patient’s PCG recordings to confirm the presence of audible murmurs.
Dr. Rancier and the expert panel were blinded to AI and echocardiogram results.
Researchers calculated performance metrics for both PCP auscultation and the AI in detecting audible VHD.
The study showed that AI improved sensitivity to detect audible VHD by over twofold compared with PCP auscultation (94.1% vs 41.2%), with limited impact on specificity (84.5% vs 95.5%).
Dr. Rancier stressed the importance of sensitivity because clinicians tend to under-detect murmurs. “You don’t want to miss those patients because the consequences of undiagnosed VHD are dire.”
The AI tool identified 22 patients with moderate or greater VHD who were previously undiagnosed, whereas PCPs identified eight previously undiagnosed patients with VHD.
Dr. Rancier sees this tool being used beyond primary care, perhaps by emergency room personnel.
The authors plan to follow study participants and assess outcomes at for 6-12 months. They also aim to include more patients to increase the study’s power.
Expanding the Technology
They are also interested to see whether the technology can determine which valve is affected; for example, whether the issue is aortic stenosis or mitral regurgitation.
A limitation of the study was its small sample size.
Commenting on the findings, Dan Roden, MD, professor of medicine, pharmacology, and biomedical informatics, senior vice president for personalized medicine at Vanderbilt University Medical Center, Nashville, Tennessee, and chair of the American Heart Association Council on Genomic and Precision Medicine, noted that it demonstrated the AI-based stethoscope “did extraordinarily well” in predicting VHD.
“I see this as an emerging technology — using an AI-enabled stethoscope and perhaps combining it with other imaging modalities, like an AI-enabled echocardiogram built into your stethoscope,” said Dr. Roden.
“Use of these new tools to detect the presence of valvular disease, as well as the extent of valvular disease and the extent of other kinds of heart disease, will likely help to transform CVD care.”
The study was funded by Eko Health Inc. Dr. Rancier and Dr. Roden have no relevant conflicts of interest.
A version of this article appeared on Medscape.com.
FROM AHA 2023
New PCSK9 inhibitor allows 3-month treatment intervals
PHILADELPHIA – An investigational PCSK9 inhibitor that can be injected every 1-3 months as add-on therapy for patients with stubbornly high low-density lipoprotein (LDL) cholesterol has demonstrated cholesterol lowering for up to a year, in a clinical trial.
The results are from the phase 3 Recaticimab Add-On Therapy in Patients With Non-Familial Hypercholesterolemia and Mixed Hyperlipidemia (REMAIN-2) trial.
“It’s a new antibody that has a long half-life so each treatment can be prolonged,” investigator Xin Du, MD, professor of cardiology at Beijing Anzhen Hospital and the Capital Medical University, said in an interview. “Previous drugs like alirocumab and evolocumab have to be given every 2 weeks or every 4 weeks, and this new drug can be given even every 12 weeks, so it can get a very strong effect of LDL cholesterol lowering even when given every 3 months.”
Recaticimab has demonstrated a half-life of 18.6 to 27.4 days vs. 11 to 17 days for alirocumab and evolocumab, she said.
“Currently a high proportion of patients prescribed the PCSK9 inhibitors withdraw from therapy,” Dr. Du said. “After 36 months, only half of them are still on that therapy.”
Dr. Du presented the trial results at the annual scientific sessions of the American Heart Association.
Trial design and results
REMAIN-2 randomly assigned 692 patients to one of three recaticimab dosing arms vs. placebo: 150 mg/kg every 4 weeks; 300 mg/kg every 8 weeks; and 450 mg/kg every 12 weeks. The study was conducted from June 2021 to March 2023. The average age of the participants was 56 years and 64% were men. A high percentage of patients, 87% to 93.5%, completed the study across all groups. All participants had high LDL-C levels despite statin therapy: ≥ 70 mg/dL for those with cardiovascular disease and ≥ 100 mg/dL for those without.
Recaticimab enhanced LDL-C reduction by 53.4% to 62% vs. placebo at 24 weeks with a similar effect across all dosing regimens, Dr. Du said. That level of reduction was sustained out to 48 weeks, she said, at 48.4% to 64%.
At week 24, 86% to 94.5% of all patients across the three dosing arms achieved their LDL-C goal. The treatment had a positive impact on other lipid levels as well, Dr. Du said. Levels of non-HDL-C declined 55% to 47%. Apolipoprotein B (ApoB) levels fell 53% to 42% and lipoprotein (a), or Lp(a) readings declined 39.5% to 29%. The placebo arms had no change or small increases in non-HDL-C and ApoB levels and modest reductions in Lp(a).
The trial demonstrated acceptable safety and tolerability of recaticimab, Dr. Du said. At 48 weeks, the rates of injection site reactions were 3.9% in the treatment arms vs. 1.3% in the placebo arms. Common adverse events with a frequency ≥ 5% in patients receiving recaticimab were upper respiratory tract infection, hyperuricemia, urinary tract infection, increased blood creatine phosphokinase – a marker of damage to the heart – COVID-19 infection, and increased alanine transferase and aspartate transferase, both of which are markers of liver damage.
Larger, longer studies needed
Longer-term studies of recaticimab are still needed to determine its ability produce durable LDL-C reduction in a cost-effective manner, said discussant Stephen Nicholls, MD, director of Victorian Heart Institute and professor at Monash University in Australia. “It is important to note that these are still relatively short studies and the short treatment period cannot exclude the formation of neutralizing antibodies that have undermined development of other humanized antibodies,” he told attendees.
The every-12-week dosing, Dr. Nicholls said in an interview, “provides a dosing regimen that may be palatable to many patients.”
Besides the potential for the development of antibodies, Dr. Nicholls foresaw potential challenges with recaticimab. “The reality will lie in longer-term data,” he said. “If they can achieve durable lipid lowering without such neutralizing antibodies that would be very good.”
Dr. Nicholls added, “There’s a lot going on in the PCSK9 inhibitor space and the challenge for any new therapeutic, including this one, is where will it fit in given the space is getting crowded. So, data is important and clinical uptake will be equally important.”
Dr. Du disclosed relationships with Sanofi, AstraZeneca and Bayer. Dr. Nicholls disclosed relationships with AstraZeneca, Akcea, Amarin, Amgen, Anthera, Boehringer Ingelheim, Cerenis, CSL Behring, Eli Lilly, Esperion, Novartis, LipoScience, The Medicines Company, Merck, New Amsterdam Pharma, Omthera, Resverlogix, InfraReDx, Roche, Sanofi-Regeneron, Takeda, Vaxxinity, and Seqirus.
PHILADELPHIA – An investigational PCSK9 inhibitor that can be injected every 1-3 months as add-on therapy for patients with stubbornly high low-density lipoprotein (LDL) cholesterol has demonstrated cholesterol lowering for up to a year, in a clinical trial.
The results are from the phase 3 Recaticimab Add-On Therapy in Patients With Non-Familial Hypercholesterolemia and Mixed Hyperlipidemia (REMAIN-2) trial.
“It’s a new antibody that has a long half-life so each treatment can be prolonged,” investigator Xin Du, MD, professor of cardiology at Beijing Anzhen Hospital and the Capital Medical University, said in an interview. “Previous drugs like alirocumab and evolocumab have to be given every 2 weeks or every 4 weeks, and this new drug can be given even every 12 weeks, so it can get a very strong effect of LDL cholesterol lowering even when given every 3 months.”
Recaticimab has demonstrated a half-life of 18.6 to 27.4 days vs. 11 to 17 days for alirocumab and evolocumab, she said.
“Currently a high proportion of patients prescribed the PCSK9 inhibitors withdraw from therapy,” Dr. Du said. “After 36 months, only half of them are still on that therapy.”
Dr. Du presented the trial results at the annual scientific sessions of the American Heart Association.
Trial design and results
REMAIN-2 randomly assigned 692 patients to one of three recaticimab dosing arms vs. placebo: 150 mg/kg every 4 weeks; 300 mg/kg every 8 weeks; and 450 mg/kg every 12 weeks. The study was conducted from June 2021 to March 2023. The average age of the participants was 56 years and 64% were men. A high percentage of patients, 87% to 93.5%, completed the study across all groups. All participants had high LDL-C levels despite statin therapy: ≥ 70 mg/dL for those with cardiovascular disease and ≥ 100 mg/dL for those without.
Recaticimab enhanced LDL-C reduction by 53.4% to 62% vs. placebo at 24 weeks with a similar effect across all dosing regimens, Dr. Du said. That level of reduction was sustained out to 48 weeks, she said, at 48.4% to 64%.
At week 24, 86% to 94.5% of all patients across the three dosing arms achieved their LDL-C goal. The treatment had a positive impact on other lipid levels as well, Dr. Du said. Levels of non-HDL-C declined 55% to 47%. Apolipoprotein B (ApoB) levels fell 53% to 42% and lipoprotein (a), or Lp(a) readings declined 39.5% to 29%. The placebo arms had no change or small increases in non-HDL-C and ApoB levels and modest reductions in Lp(a).
The trial demonstrated acceptable safety and tolerability of recaticimab, Dr. Du said. At 48 weeks, the rates of injection site reactions were 3.9% in the treatment arms vs. 1.3% in the placebo arms. Common adverse events with a frequency ≥ 5% in patients receiving recaticimab were upper respiratory tract infection, hyperuricemia, urinary tract infection, increased blood creatine phosphokinase – a marker of damage to the heart – COVID-19 infection, and increased alanine transferase and aspartate transferase, both of which are markers of liver damage.
Larger, longer studies needed
Longer-term studies of recaticimab are still needed to determine its ability produce durable LDL-C reduction in a cost-effective manner, said discussant Stephen Nicholls, MD, director of Victorian Heart Institute and professor at Monash University in Australia. “It is important to note that these are still relatively short studies and the short treatment period cannot exclude the formation of neutralizing antibodies that have undermined development of other humanized antibodies,” he told attendees.
The every-12-week dosing, Dr. Nicholls said in an interview, “provides a dosing regimen that may be palatable to many patients.”
Besides the potential for the development of antibodies, Dr. Nicholls foresaw potential challenges with recaticimab. “The reality will lie in longer-term data,” he said. “If they can achieve durable lipid lowering without such neutralizing antibodies that would be very good.”
Dr. Nicholls added, “There’s a lot going on in the PCSK9 inhibitor space and the challenge for any new therapeutic, including this one, is where will it fit in given the space is getting crowded. So, data is important and clinical uptake will be equally important.”
Dr. Du disclosed relationships with Sanofi, AstraZeneca and Bayer. Dr. Nicholls disclosed relationships with AstraZeneca, Akcea, Amarin, Amgen, Anthera, Boehringer Ingelheim, Cerenis, CSL Behring, Eli Lilly, Esperion, Novartis, LipoScience, The Medicines Company, Merck, New Amsterdam Pharma, Omthera, Resverlogix, InfraReDx, Roche, Sanofi-Regeneron, Takeda, Vaxxinity, and Seqirus.
PHILADELPHIA – An investigational PCSK9 inhibitor that can be injected every 1-3 months as add-on therapy for patients with stubbornly high low-density lipoprotein (LDL) cholesterol has demonstrated cholesterol lowering for up to a year, in a clinical trial.
The results are from the phase 3 Recaticimab Add-On Therapy in Patients With Non-Familial Hypercholesterolemia and Mixed Hyperlipidemia (REMAIN-2) trial.
“It’s a new antibody that has a long half-life so each treatment can be prolonged,” investigator Xin Du, MD, professor of cardiology at Beijing Anzhen Hospital and the Capital Medical University, said in an interview. “Previous drugs like alirocumab and evolocumab have to be given every 2 weeks or every 4 weeks, and this new drug can be given even every 12 weeks, so it can get a very strong effect of LDL cholesterol lowering even when given every 3 months.”
Recaticimab has demonstrated a half-life of 18.6 to 27.4 days vs. 11 to 17 days for alirocumab and evolocumab, she said.
“Currently a high proportion of patients prescribed the PCSK9 inhibitors withdraw from therapy,” Dr. Du said. “After 36 months, only half of them are still on that therapy.”
Dr. Du presented the trial results at the annual scientific sessions of the American Heart Association.
Trial design and results
REMAIN-2 randomly assigned 692 patients to one of three recaticimab dosing arms vs. placebo: 150 mg/kg every 4 weeks; 300 mg/kg every 8 weeks; and 450 mg/kg every 12 weeks. The study was conducted from June 2021 to March 2023. The average age of the participants was 56 years and 64% were men. A high percentage of patients, 87% to 93.5%, completed the study across all groups. All participants had high LDL-C levels despite statin therapy: ≥ 70 mg/dL for those with cardiovascular disease and ≥ 100 mg/dL for those without.
Recaticimab enhanced LDL-C reduction by 53.4% to 62% vs. placebo at 24 weeks with a similar effect across all dosing regimens, Dr. Du said. That level of reduction was sustained out to 48 weeks, she said, at 48.4% to 64%.
At week 24, 86% to 94.5% of all patients across the three dosing arms achieved their LDL-C goal. The treatment had a positive impact on other lipid levels as well, Dr. Du said. Levels of non-HDL-C declined 55% to 47%. Apolipoprotein B (ApoB) levels fell 53% to 42% and lipoprotein (a), or Lp(a) readings declined 39.5% to 29%. The placebo arms had no change or small increases in non-HDL-C and ApoB levels and modest reductions in Lp(a).
The trial demonstrated acceptable safety and tolerability of recaticimab, Dr. Du said. At 48 weeks, the rates of injection site reactions were 3.9% in the treatment arms vs. 1.3% in the placebo arms. Common adverse events with a frequency ≥ 5% in patients receiving recaticimab were upper respiratory tract infection, hyperuricemia, urinary tract infection, increased blood creatine phosphokinase – a marker of damage to the heart – COVID-19 infection, and increased alanine transferase and aspartate transferase, both of which are markers of liver damage.
Larger, longer studies needed
Longer-term studies of recaticimab are still needed to determine its ability produce durable LDL-C reduction in a cost-effective manner, said discussant Stephen Nicholls, MD, director of Victorian Heart Institute and professor at Monash University in Australia. “It is important to note that these are still relatively short studies and the short treatment period cannot exclude the formation of neutralizing antibodies that have undermined development of other humanized antibodies,” he told attendees.
The every-12-week dosing, Dr. Nicholls said in an interview, “provides a dosing regimen that may be palatable to many patients.”
Besides the potential for the development of antibodies, Dr. Nicholls foresaw potential challenges with recaticimab. “The reality will lie in longer-term data,” he said. “If they can achieve durable lipid lowering without such neutralizing antibodies that would be very good.”
Dr. Nicholls added, “There’s a lot going on in the PCSK9 inhibitor space and the challenge for any new therapeutic, including this one, is where will it fit in given the space is getting crowded. So, data is important and clinical uptake will be equally important.”
Dr. Du disclosed relationships with Sanofi, AstraZeneca and Bayer. Dr. Nicholls disclosed relationships with AstraZeneca, Akcea, Amarin, Amgen, Anthera, Boehringer Ingelheim, Cerenis, CSL Behring, Eli Lilly, Esperion, Novartis, LipoScience, The Medicines Company, Merck, New Amsterdam Pharma, Omthera, Resverlogix, InfraReDx, Roche, Sanofi-Regeneron, Takeda, Vaxxinity, and Seqirus.
AT AHA 2023
Cardiologists, patients can talk drug costs
PHILADELPHIA – A carefully tailored program in which physicians talked with heart failure (HF) patients about the cost of their medications improved medication adherence and the likelihood that patients get the medications they’re prescribed, results of a pilot study show.
The POCKET-COST-HF trial integrated information about patient-specific out-of-pocket (OOP) drug costs into clinical encounters between cardiologists and patients with heart failure with reduced ejection fraction (HFrEF) at six clinic sites in two different health systems. Neil W. Dickert, MD, PhD, primary investigator of the trial, said OOP costs for HFrEF patients with Medicare Part D prescription drug coverage can run upwards of $2,600 a year for four-drug therapy. Dr. Dickert is a cardiologist at Emory University in Atlanta.
“The primary outcome for the study was whether patients and clinicians essentially talked about the cost of medications,” Dr. Dickert said in an interview.
The trial, which Dr. Dickert presented at the annual scientific sessions of the American Heart Association, was designed to evaluate the effect of patient-specific OOP costs in the shared decision-making about heart failure medications, Dr. Dickert said.
The primary outcome was cost-informed decision-making, achieved in 68% of the intervention group encounters and 49% of control encounters (P = .021).
Fewer in-pharmacy adjustments
“We saw some really interesting signals of potential benefits in the space of actual decisions,” he said. “There were fewer, for example, contingency plans made in the intervention arm versus the control arm, and what that means is physicians were less likely to write a prescription and leave the decision about whether or not it’s worth it to the patient when they get to the pharmacy.”
The study intervention was a checklist of 19 heart failure medications that included OOP cost, ranging from minimal costs for generics such as diuretics and beta blockers to $617 for dapagliflozin. The checklist was based on an electronic medical records HF medications checklist. Researchers obtained drug cost estimates from TailorMed, a financial navigation company.
Six clinic sites within two health systems, one in Georgia, the other in Colorado, participated in the study. Each cluster had 40 or so patients (n = 247) randomized to the intervention or control. About two-thirds were White, a quarter were Black and 4% and 2.5% in the control and intervention group were Hispanic/LatinX. Income ranges were similar across both arms.
For the study intervention, patients got a call from the clinic 2-3 weeks before their scheduled visit to obtain verbal consent to participate and their OOP costs for drugs. The visit itself, where patients randomized to the intervention received the checklist, was audio recorded. After the visit, patients took a follow-up telephone survey, then the clinic staff did an electronic health record 3 months after the visit.
Getting the patient drug price information was not easy, Dr. Dickert said. “It required a fair amount of work and a big list to get that information that we could then populate the checklist for people,” he said. “It was a behind-the-scenes thing that is not necessarily scalable as done.”
Dr. Dickert acknowledged an increasing emphasis on price transparency in medicine, but the trade-offs are unknown. “Depending upon how that’s carried out, that can have different implications,” he said. “I’m a believer that if we think good communication has the ability to enhance medical decision-making, it also means that either bad information or bad communication can undermine.
“So, I think it’s really important to study these interventions and to do them in rigorous ways where we can really get a sense of what kind of impact they have on patients and clinicians.”
Study strengths and limitations
Discussant Dhruv Kazi, MD, director of the cardiac critical care unit at Beth Israel Deaconess Medical Center and associate professor at Harvard Medical School, both in Boston, said in an interview that this study fulfills an important function in investigating how OOP costs influence medication adherence in HFrEF patients.
“The total cost of drugs has often been a focus of policy discussions,” he said. “We talk about, how do we reduce drug costs?” He noted the Inflation Reduction Act will bring some of these drug costs down.
“On the flip side,” he added, “as a community we pay less attention to out-of-pocket costs because we assume those are not in our control, yet what the patient cares about is not the total cost of the drug, but, ‘What am I going to pay this month, and what am I going to pay cumulatively over the course of the year? Can I even afford this drug?”
POCKET-COST-HF provided a sound basis for making that investigation, he said, adding that its multisite design and mixed-methods approach – patient contact before and after visits and recording of encounters – are strengths. “Just looking at the logistics involved in pulling off something like this, the study investigators deserve to be congratulated,” he said.
One limitation, Dr. Kazi said, is its exclusion of non–English speakers. Adding them in, along with testing the intervention in community, rural, and primary care settings, are future goals for the intervention, he said. Within the trial itself, examining the cost-effectiveness of the intervention would be laudable, Dr. Kazi said.
The Agency for Healthcare Research and Quality funded the trial. Dr. Dickert disclosed relationships with Abiomed. Dr. Kazi has no relevant relationships to disclose.
PHILADELPHIA – A carefully tailored program in which physicians talked with heart failure (HF) patients about the cost of their medications improved medication adherence and the likelihood that patients get the medications they’re prescribed, results of a pilot study show.
The POCKET-COST-HF trial integrated information about patient-specific out-of-pocket (OOP) drug costs into clinical encounters between cardiologists and patients with heart failure with reduced ejection fraction (HFrEF) at six clinic sites in two different health systems. Neil W. Dickert, MD, PhD, primary investigator of the trial, said OOP costs for HFrEF patients with Medicare Part D prescription drug coverage can run upwards of $2,600 a year for four-drug therapy. Dr. Dickert is a cardiologist at Emory University in Atlanta.
“The primary outcome for the study was whether patients and clinicians essentially talked about the cost of medications,” Dr. Dickert said in an interview.
The trial, which Dr. Dickert presented at the annual scientific sessions of the American Heart Association, was designed to evaluate the effect of patient-specific OOP costs in the shared decision-making about heart failure medications, Dr. Dickert said.
The primary outcome was cost-informed decision-making, achieved in 68% of the intervention group encounters and 49% of control encounters (P = .021).
Fewer in-pharmacy adjustments
“We saw some really interesting signals of potential benefits in the space of actual decisions,” he said. “There were fewer, for example, contingency plans made in the intervention arm versus the control arm, and what that means is physicians were less likely to write a prescription and leave the decision about whether or not it’s worth it to the patient when they get to the pharmacy.”
The study intervention was a checklist of 19 heart failure medications that included OOP cost, ranging from minimal costs for generics such as diuretics and beta blockers to $617 for dapagliflozin. The checklist was based on an electronic medical records HF medications checklist. Researchers obtained drug cost estimates from TailorMed, a financial navigation company.
Six clinic sites within two health systems, one in Georgia, the other in Colorado, participated in the study. Each cluster had 40 or so patients (n = 247) randomized to the intervention or control. About two-thirds were White, a quarter were Black and 4% and 2.5% in the control and intervention group were Hispanic/LatinX. Income ranges were similar across both arms.
For the study intervention, patients got a call from the clinic 2-3 weeks before their scheduled visit to obtain verbal consent to participate and their OOP costs for drugs. The visit itself, where patients randomized to the intervention received the checklist, was audio recorded. After the visit, patients took a follow-up telephone survey, then the clinic staff did an electronic health record 3 months after the visit.
Getting the patient drug price information was not easy, Dr. Dickert said. “It required a fair amount of work and a big list to get that information that we could then populate the checklist for people,” he said. “It was a behind-the-scenes thing that is not necessarily scalable as done.”
Dr. Dickert acknowledged an increasing emphasis on price transparency in medicine, but the trade-offs are unknown. “Depending upon how that’s carried out, that can have different implications,” he said. “I’m a believer that if we think good communication has the ability to enhance medical decision-making, it also means that either bad information or bad communication can undermine.
“So, I think it’s really important to study these interventions and to do them in rigorous ways where we can really get a sense of what kind of impact they have on patients and clinicians.”
Study strengths and limitations
Discussant Dhruv Kazi, MD, director of the cardiac critical care unit at Beth Israel Deaconess Medical Center and associate professor at Harvard Medical School, both in Boston, said in an interview that this study fulfills an important function in investigating how OOP costs influence medication adherence in HFrEF patients.
“The total cost of drugs has often been a focus of policy discussions,” he said. “We talk about, how do we reduce drug costs?” He noted the Inflation Reduction Act will bring some of these drug costs down.
“On the flip side,” he added, “as a community we pay less attention to out-of-pocket costs because we assume those are not in our control, yet what the patient cares about is not the total cost of the drug, but, ‘What am I going to pay this month, and what am I going to pay cumulatively over the course of the year? Can I even afford this drug?”
POCKET-COST-HF provided a sound basis for making that investigation, he said, adding that its multisite design and mixed-methods approach – patient contact before and after visits and recording of encounters – are strengths. “Just looking at the logistics involved in pulling off something like this, the study investigators deserve to be congratulated,” he said.
One limitation, Dr. Kazi said, is its exclusion of non–English speakers. Adding them in, along with testing the intervention in community, rural, and primary care settings, are future goals for the intervention, he said. Within the trial itself, examining the cost-effectiveness of the intervention would be laudable, Dr. Kazi said.
The Agency for Healthcare Research and Quality funded the trial. Dr. Dickert disclosed relationships with Abiomed. Dr. Kazi has no relevant relationships to disclose.
PHILADELPHIA – A carefully tailored program in which physicians talked with heart failure (HF) patients about the cost of their medications improved medication adherence and the likelihood that patients get the medications they’re prescribed, results of a pilot study show.
The POCKET-COST-HF trial integrated information about patient-specific out-of-pocket (OOP) drug costs into clinical encounters between cardiologists and patients with heart failure with reduced ejection fraction (HFrEF) at six clinic sites in two different health systems. Neil W. Dickert, MD, PhD, primary investigator of the trial, said OOP costs for HFrEF patients with Medicare Part D prescription drug coverage can run upwards of $2,600 a year for four-drug therapy. Dr. Dickert is a cardiologist at Emory University in Atlanta.
“The primary outcome for the study was whether patients and clinicians essentially talked about the cost of medications,” Dr. Dickert said in an interview.
The trial, which Dr. Dickert presented at the annual scientific sessions of the American Heart Association, was designed to evaluate the effect of patient-specific OOP costs in the shared decision-making about heart failure medications, Dr. Dickert said.
The primary outcome was cost-informed decision-making, achieved in 68% of the intervention group encounters and 49% of control encounters (P = .021).
Fewer in-pharmacy adjustments
“We saw some really interesting signals of potential benefits in the space of actual decisions,” he said. “There were fewer, for example, contingency plans made in the intervention arm versus the control arm, and what that means is physicians were less likely to write a prescription and leave the decision about whether or not it’s worth it to the patient when they get to the pharmacy.”
The study intervention was a checklist of 19 heart failure medications that included OOP cost, ranging from minimal costs for generics such as diuretics and beta blockers to $617 for dapagliflozin. The checklist was based on an electronic medical records HF medications checklist. Researchers obtained drug cost estimates from TailorMed, a financial navigation company.
Six clinic sites within two health systems, one in Georgia, the other in Colorado, participated in the study. Each cluster had 40 or so patients (n = 247) randomized to the intervention or control. About two-thirds were White, a quarter were Black and 4% and 2.5% in the control and intervention group were Hispanic/LatinX. Income ranges were similar across both arms.
For the study intervention, patients got a call from the clinic 2-3 weeks before their scheduled visit to obtain verbal consent to participate and their OOP costs for drugs. The visit itself, where patients randomized to the intervention received the checklist, was audio recorded. After the visit, patients took a follow-up telephone survey, then the clinic staff did an electronic health record 3 months after the visit.
Getting the patient drug price information was not easy, Dr. Dickert said. “It required a fair amount of work and a big list to get that information that we could then populate the checklist for people,” he said. “It was a behind-the-scenes thing that is not necessarily scalable as done.”
Dr. Dickert acknowledged an increasing emphasis on price transparency in medicine, but the trade-offs are unknown. “Depending upon how that’s carried out, that can have different implications,” he said. “I’m a believer that if we think good communication has the ability to enhance medical decision-making, it also means that either bad information or bad communication can undermine.
“So, I think it’s really important to study these interventions and to do them in rigorous ways where we can really get a sense of what kind of impact they have on patients and clinicians.”
Study strengths and limitations
Discussant Dhruv Kazi, MD, director of the cardiac critical care unit at Beth Israel Deaconess Medical Center and associate professor at Harvard Medical School, both in Boston, said in an interview that this study fulfills an important function in investigating how OOP costs influence medication adherence in HFrEF patients.
“The total cost of drugs has often been a focus of policy discussions,” he said. “We talk about, how do we reduce drug costs?” He noted the Inflation Reduction Act will bring some of these drug costs down.
“On the flip side,” he added, “as a community we pay less attention to out-of-pocket costs because we assume those are not in our control, yet what the patient cares about is not the total cost of the drug, but, ‘What am I going to pay this month, and what am I going to pay cumulatively over the course of the year? Can I even afford this drug?”
POCKET-COST-HF provided a sound basis for making that investigation, he said, adding that its multisite design and mixed-methods approach – patient contact before and after visits and recording of encounters – are strengths. “Just looking at the logistics involved in pulling off something like this, the study investigators deserve to be congratulated,” he said.
One limitation, Dr. Kazi said, is its exclusion of non–English speakers. Adding them in, along with testing the intervention in community, rural, and primary care settings, are future goals for the intervention, he said. Within the trial itself, examining the cost-effectiveness of the intervention would be laudable, Dr. Kazi said.
The Agency for Healthcare Research and Quality funded the trial. Dr. Dickert disclosed relationships with Abiomed. Dr. Kazi has no relevant relationships to disclose.
AT AHA 2023
Single injection reduces blood pressure for 6 months: KARDIA-1
with what appeared to be an encouraging side-effect profile, in the phase 2 dose-ranging KARDIA-1 study.
“Our study demonstrates that either quarterly or biannual doses of zilebesiran can effectively and safely lower blood pressure in patients with uncontrolled hypertension,” said senior study investigator George Bakris, MD.
“Based on these results, zilebesiran has the potential to improve medication adherence, which will, in turn, reduce cardiovascular risk in people with hypertension,” added Dr. Bakris, who is professor of medicine and director of the Comprehensive Hypertension Center at the University of Chicago Medicine.
The KARDIA-1 study was presented at the American Heart Association scientific sessions.
Dr. Bakris noted that uncontrolled hypertension is a leading cause of morbidity and mortality, and despite availability of effective antihypertensives, many adults with hypertension are untreated, and up to 80% have uncontrolled disease, both globally and in the United States.
Zilebesiran is a subcutaneous RNA interference therapeutic that binds with high affinity to the hepatic asialoglycoprotein receptor, bringing about a reduction in the synthesis of angiotensinogen, the sole precursor of all angiotensin peptides. It is hoped that its hepatocyte-targeted delivery may allow extrahepatic angiotensinogen expression to be preserved, which could limit off-target effects in the kidney and other tissues.
The KARDIA-1 trial investigated the safety and efficacy of different doses of zilebesiran in patients with mild to moderate hypertension (systolic BP of 135-160 mm Hg), who are untreated or on stable therapy with up to two antihypertensive medications.
The study included 394 such patients (average baseline systolic BP was 142 mm Hg) who were randomly assigned to receive one of four different zilebesiran doses (150 mg, 300 mg, or 600 mg once every 6 months or 300 mg once every 2 months) or a placebo. The final analysis included 377 patients (56% men, 25% Black).
Results showed sustained reductions in serum angiotensinogen (between 88% and 98%) over the 6-month follow-up period.
Ambulatory systolic BP measured over 24 hours was significantly decreased with all zilebesiran regimens, with a mean reduction from baseline to month 6 of around 10 mm Hg in the three top doses studied and by around 14 mm Hg compared with placebo.
Patients receiving zilebesiran were more likely to achieve 24-hour average systolic BP measurements of 130 mm Hg or less at 6 months.
In addition, participants in all four zilebesiran groups consistently experienced significantly greater reductions in both daytime and nighttime systolic BP.
There were four nonserious adverse reactions leading to discontinuation in the zilebesiran groups: two instances of orthostatic hypotension, one of BP elevation, and one of injection site reaction.
Most hyperkalemia adverse events, which occurred in 6% of patients, were mild, did not require intervention, and generally resolved with repeat measurement; none were associated with acute kidney injury or led to study drug discontinuation. The incidence of hypotension events was low, and no clinically relevant changes in renal or hepatic function were observed, Dr. Bakris reported.
There was one death caused by cardiopulmonary arrest in a patient receiving zilebesiran 300 mg every 3 months, but this was not classified as drug related.
Zilebesiran is being further evaluated as an add-on therapy for treatment of hypertension in the ongoing KARDIA-2 phase 2 study.
Moderator of an AHA press conference at which the study was discussed, Sandra Taler, MD, professor of medicine at the Mayo Clinic, Rochester, Minn., said that “to have an injectable medicine that gives long-term blood pressure lowering is extremely exciting.”
Dr. Taler raised the point that some patients may not return for subsequent doses, but added that with subcutaneous dosing, administration at home may be a possibility.
Also commenting at the press conference, Keith Ferdinand, MD, professor of clinical medicine at Tulane University, New Orleans, said that this study “suggests we can now target the first step in the renin-angiotensin system – angiotensinogen – which then appears to lead to robust and continued blood pressure lowering for up to 6 months, which should improve adherence.”
Noting that only 50% of patients continue to take antihypertensive drugs after 1 year, Dr. Ferdinand added: “If we can increase adherence, we will increase efficacy and perhaps protect against some of the target organ damage.”
Designated discussant of the KARDIA-1 study at the AHA late-breaking clinical trial session, Anna Dominiczak, MD, University of Glasgow, noted that hypertension affects one in three adults worldwide, but only around 20% of people have it under control.
“An increase in the number of patients effectively treated for hypertension to levels observed in high-performing countries could prevent 76 million deaths, 120 million strokes, 79 million heart attacks, and 17 million cases of heart failure between now and 2050,” she said.
Dr. Bakris has received consulting fees from Alnylam Pharmaceuticals.
A version of this article first appeared on Medscape.com.
with what appeared to be an encouraging side-effect profile, in the phase 2 dose-ranging KARDIA-1 study.
“Our study demonstrates that either quarterly or biannual doses of zilebesiran can effectively and safely lower blood pressure in patients with uncontrolled hypertension,” said senior study investigator George Bakris, MD.
“Based on these results, zilebesiran has the potential to improve medication adherence, which will, in turn, reduce cardiovascular risk in people with hypertension,” added Dr. Bakris, who is professor of medicine and director of the Comprehensive Hypertension Center at the University of Chicago Medicine.
The KARDIA-1 study was presented at the American Heart Association scientific sessions.
Dr. Bakris noted that uncontrolled hypertension is a leading cause of morbidity and mortality, and despite availability of effective antihypertensives, many adults with hypertension are untreated, and up to 80% have uncontrolled disease, both globally and in the United States.
Zilebesiran is a subcutaneous RNA interference therapeutic that binds with high affinity to the hepatic asialoglycoprotein receptor, bringing about a reduction in the synthesis of angiotensinogen, the sole precursor of all angiotensin peptides. It is hoped that its hepatocyte-targeted delivery may allow extrahepatic angiotensinogen expression to be preserved, which could limit off-target effects in the kidney and other tissues.
The KARDIA-1 trial investigated the safety and efficacy of different doses of zilebesiran in patients with mild to moderate hypertension (systolic BP of 135-160 mm Hg), who are untreated or on stable therapy with up to two antihypertensive medications.
The study included 394 such patients (average baseline systolic BP was 142 mm Hg) who were randomly assigned to receive one of four different zilebesiran doses (150 mg, 300 mg, or 600 mg once every 6 months or 300 mg once every 2 months) or a placebo. The final analysis included 377 patients (56% men, 25% Black).
Results showed sustained reductions in serum angiotensinogen (between 88% and 98%) over the 6-month follow-up period.
Ambulatory systolic BP measured over 24 hours was significantly decreased with all zilebesiran regimens, with a mean reduction from baseline to month 6 of around 10 mm Hg in the three top doses studied and by around 14 mm Hg compared with placebo.
Patients receiving zilebesiran were more likely to achieve 24-hour average systolic BP measurements of 130 mm Hg or less at 6 months.
In addition, participants in all four zilebesiran groups consistently experienced significantly greater reductions in both daytime and nighttime systolic BP.
There were four nonserious adverse reactions leading to discontinuation in the zilebesiran groups: two instances of orthostatic hypotension, one of BP elevation, and one of injection site reaction.
Most hyperkalemia adverse events, which occurred in 6% of patients, were mild, did not require intervention, and generally resolved with repeat measurement; none were associated with acute kidney injury or led to study drug discontinuation. The incidence of hypotension events was low, and no clinically relevant changes in renal or hepatic function were observed, Dr. Bakris reported.
There was one death caused by cardiopulmonary arrest in a patient receiving zilebesiran 300 mg every 3 months, but this was not classified as drug related.
Zilebesiran is being further evaluated as an add-on therapy for treatment of hypertension in the ongoing KARDIA-2 phase 2 study.
Moderator of an AHA press conference at which the study was discussed, Sandra Taler, MD, professor of medicine at the Mayo Clinic, Rochester, Minn., said that “to have an injectable medicine that gives long-term blood pressure lowering is extremely exciting.”
Dr. Taler raised the point that some patients may not return for subsequent doses, but added that with subcutaneous dosing, administration at home may be a possibility.
Also commenting at the press conference, Keith Ferdinand, MD, professor of clinical medicine at Tulane University, New Orleans, said that this study “suggests we can now target the first step in the renin-angiotensin system – angiotensinogen – which then appears to lead to robust and continued blood pressure lowering for up to 6 months, which should improve adherence.”
Noting that only 50% of patients continue to take antihypertensive drugs after 1 year, Dr. Ferdinand added: “If we can increase adherence, we will increase efficacy and perhaps protect against some of the target organ damage.”
Designated discussant of the KARDIA-1 study at the AHA late-breaking clinical trial session, Anna Dominiczak, MD, University of Glasgow, noted that hypertension affects one in three adults worldwide, but only around 20% of people have it under control.
“An increase in the number of patients effectively treated for hypertension to levels observed in high-performing countries could prevent 76 million deaths, 120 million strokes, 79 million heart attacks, and 17 million cases of heart failure between now and 2050,” she said.
Dr. Bakris has received consulting fees from Alnylam Pharmaceuticals.
A version of this article first appeared on Medscape.com.
with what appeared to be an encouraging side-effect profile, in the phase 2 dose-ranging KARDIA-1 study.
“Our study demonstrates that either quarterly or biannual doses of zilebesiran can effectively and safely lower blood pressure in patients with uncontrolled hypertension,” said senior study investigator George Bakris, MD.
“Based on these results, zilebesiran has the potential to improve medication adherence, which will, in turn, reduce cardiovascular risk in people with hypertension,” added Dr. Bakris, who is professor of medicine and director of the Comprehensive Hypertension Center at the University of Chicago Medicine.
The KARDIA-1 study was presented at the American Heart Association scientific sessions.
Dr. Bakris noted that uncontrolled hypertension is a leading cause of morbidity and mortality, and despite availability of effective antihypertensives, many adults with hypertension are untreated, and up to 80% have uncontrolled disease, both globally and in the United States.
Zilebesiran is a subcutaneous RNA interference therapeutic that binds with high affinity to the hepatic asialoglycoprotein receptor, bringing about a reduction in the synthesis of angiotensinogen, the sole precursor of all angiotensin peptides. It is hoped that its hepatocyte-targeted delivery may allow extrahepatic angiotensinogen expression to be preserved, which could limit off-target effects in the kidney and other tissues.
The KARDIA-1 trial investigated the safety and efficacy of different doses of zilebesiran in patients with mild to moderate hypertension (systolic BP of 135-160 mm Hg), who are untreated or on stable therapy with up to two antihypertensive medications.
The study included 394 such patients (average baseline systolic BP was 142 mm Hg) who were randomly assigned to receive one of four different zilebesiran doses (150 mg, 300 mg, or 600 mg once every 6 months or 300 mg once every 2 months) or a placebo. The final analysis included 377 patients (56% men, 25% Black).
Results showed sustained reductions in serum angiotensinogen (between 88% and 98%) over the 6-month follow-up period.
Ambulatory systolic BP measured over 24 hours was significantly decreased with all zilebesiran regimens, with a mean reduction from baseline to month 6 of around 10 mm Hg in the three top doses studied and by around 14 mm Hg compared with placebo.
Patients receiving zilebesiran were more likely to achieve 24-hour average systolic BP measurements of 130 mm Hg or less at 6 months.
In addition, participants in all four zilebesiran groups consistently experienced significantly greater reductions in both daytime and nighttime systolic BP.
There were four nonserious adverse reactions leading to discontinuation in the zilebesiran groups: two instances of orthostatic hypotension, one of BP elevation, and one of injection site reaction.
Most hyperkalemia adverse events, which occurred in 6% of patients, were mild, did not require intervention, and generally resolved with repeat measurement; none were associated with acute kidney injury or led to study drug discontinuation. The incidence of hypotension events was low, and no clinically relevant changes in renal or hepatic function were observed, Dr. Bakris reported.
There was one death caused by cardiopulmonary arrest in a patient receiving zilebesiran 300 mg every 3 months, but this was not classified as drug related.
Zilebesiran is being further evaluated as an add-on therapy for treatment of hypertension in the ongoing KARDIA-2 phase 2 study.
Moderator of an AHA press conference at which the study was discussed, Sandra Taler, MD, professor of medicine at the Mayo Clinic, Rochester, Minn., said that “to have an injectable medicine that gives long-term blood pressure lowering is extremely exciting.”
Dr. Taler raised the point that some patients may not return for subsequent doses, but added that with subcutaneous dosing, administration at home may be a possibility.
Also commenting at the press conference, Keith Ferdinand, MD, professor of clinical medicine at Tulane University, New Orleans, said that this study “suggests we can now target the first step in the renin-angiotensin system – angiotensinogen – which then appears to lead to robust and continued blood pressure lowering for up to 6 months, which should improve adherence.”
Noting that only 50% of patients continue to take antihypertensive drugs after 1 year, Dr. Ferdinand added: “If we can increase adherence, we will increase efficacy and perhaps protect against some of the target organ damage.”
Designated discussant of the KARDIA-1 study at the AHA late-breaking clinical trial session, Anna Dominiczak, MD, University of Glasgow, noted that hypertension affects one in three adults worldwide, but only around 20% of people have it under control.
“An increase in the number of patients effectively treated for hypertension to levels observed in high-performing countries could prevent 76 million deaths, 120 million strokes, 79 million heart attacks, and 17 million cases of heart failure between now and 2050,” she said.
Dr. Bakris has received consulting fees from Alnylam Pharmaceuticals.
A version of this article first appeared on Medscape.com.
FROM AHA 2023
Alternative antirejection regimen is efficacious in pediatric heart transplant
Study challenges everolimus boxed warning
according to the first phase 3 trial to compare antirejection strategies in the pediatric setting.
Even though MMF and tacrolimus have never been evaluated for pediatric cardiac transplant in a controlled trial, this combination is widely considered a standard based on adult data, said Christopher Almond, MD, a professor of pediatric cardiology at Stanford (Calif.) Medicine.
Everolimus has not been widely used in an antirejection regimen in children following heart transplant in part because of a boxed warning. The warning was added to labeling when this agent was associated with increased infection and increased mortality in adults if given within 3 months of transplant.
In this non-inferiority trial, called TEAMMATE, patients were randomized to the MMF-based or everolimus-based regimen 6 months after transplant.
Everolimus- vs. MMF-based antirejection
The study enrolled 210 children and adolescents 21 years of age or younger. The control arm treatment consisted of MMF (660 mg/m2 every 12 hours) plus standard dose of tacrolimus (initially 7-10 ng/mL followed at 6 months by 5-8 ng/mL).
In the experimental arm, patients received everolimus (3-8 ng/mL) plus a low dose of tacrolimus (initially 3-5 ng/mL followed at 6 months by 2.5-4.5 ng/mL).
The primary endpoint was score on the major adverse transplant event (MATE-6) tool. Based on gradations of severity, this assigns values for cardiac allograft vasculopathy (CAV), chronic kidney disease (CKD), acute cellular rejection (ACR), antibody-mediated rejection, infection, and posttransplant lymphoproliferative disorder (PTLD).
Thirty months after randomization, the MATE-6 scores were 1.96 in the everolimus group and 2.18 in the MMF group, which conferred the everolimus-based regimen with a numerical but not a significant advantage over the MMF-based regimen. For the goal of noninferiority, the everolimus regimen “met the prespecified safety criterion for success,” Dr. Almond said.
Numerical advantage for everolimus on efficacy
The primary efficacy endpoint was the MATE-3 score, which is limited to CAV, CKD, and ACR. Again, the mean score on this metric (0.93 vs. 1.25) was lower on the everolimus-based regimen but not significantly different.
Looking at specific events in the MATE-6 score, the everolimus-based regimen was associated with lower numerical rates of CAV and CKD, but a higher rate of PTLD, Dr. Almond reported.
On the MATE-3 efficacy analysis, the everolimus-based regimen was again associated with lower numerical rates of CAV and CKD but higher rates of ACR.
In terms of adverse events, including those involving the gastrointestinal tract, blood cells, proteinuria, and interstitial lung disease, most did not differ markedly even if many were numerically more common in the MMF-based arm. The exception was aphthous stomatitis, which was more common on everolimus (32% vs. 7%; P < .001). There were more discontinuations for an adverse event in the MMF arm (21% vs. 12%; P < .001).
Other differences included a lower proportion of patients in the everolimus arm with anti-HLA antibodies (17% vs. 30%; P < .05). Total cholesterol levels at the end of the study were lower but not significantly different in the MMF group, while the higher median glomerular filtration rate was higher on everolimus, and this did reach statistical significance (P < .05).
Infection rates overall were similar, but cytomegalovirus (CMV) infection was more common on the MMF-based regimen. The 30% lower rate of CMV infection in the everolimus proved to be potentially clinically meaningful when it was considered in the context of MATE-3. When these two endpoints were combined (MATE-3 and CMV infection as a prespecified secondary endpoint, the difference was statistically significant (P = .03) in favor of the everolimus-based regimen,
Study supports safety of everolimus regimen
The take-home message is that the everolimus-based regimen, which “is safe in children and young adults when initiated at 6 months after transplant,” can be considered as an alternative to MFF, Dr. Almond concluded.
However, one of the coauthors of the study, Joseph Rossano, MD, chief of the division of cardiology, Children’s Hospital of Philadelphia, suggested a stronger message.
“These data provide compelling reasons to consider initiation of the combination of everolimus and tacrolimus at 6 months post transplant in pediatric heart transplant recipients,” Dr. Rossano said.
Even though the everolimus-based regimen met the terms of noninferiority overall, patients who received this combination rather than the MMF-based regimen “were less likely to have the combined endpoints of vasculopathy, CKD, rejection and CMV infection. Additionally, they were less likely to make donor specific antibodies,” he said.
He also said that this study challenges the current boxed warning for everolimus. He pointed out that the warning, based on early use of everolimus in adults, does not appear to be an issue for children treated at 6 months.
Early mortality based on infection “was not observed in our study,” he said.
The AHA-invited discussant, Antonio G. Cabrera, MD, division chief of pediatric cardiology, University of Utah, Salt Lake City, drew the same conclusions. Based on the study, the everolimus-based regimen can only be described as noninferior to the MMF-based regimen, but Dr. Cabrera listed the same relative advantages as Dr. Rossano, including better kidney function.
Overall, either regimen might be more appealing based on several variables, but Dr. Cabrera said these data suggest everolimus-based treatment “should be considered” as one of two evidence-based options,
Dr. Almond reported no potential financial conflicts of interest. Dr. Rossano reports financial relationships with Abiomed, Bayer, Cytokinetics, Merck, and Myokardia. Dr. Cabrera reported no potential financial conflicts of interest.
Study challenges everolimus boxed warning
Study challenges everolimus boxed warning
according to the first phase 3 trial to compare antirejection strategies in the pediatric setting.
Even though MMF and tacrolimus have never been evaluated for pediatric cardiac transplant in a controlled trial, this combination is widely considered a standard based on adult data, said Christopher Almond, MD, a professor of pediatric cardiology at Stanford (Calif.) Medicine.
Everolimus has not been widely used in an antirejection regimen in children following heart transplant in part because of a boxed warning. The warning was added to labeling when this agent was associated with increased infection and increased mortality in adults if given within 3 months of transplant.
In this non-inferiority trial, called TEAMMATE, patients were randomized to the MMF-based or everolimus-based regimen 6 months after transplant.
Everolimus- vs. MMF-based antirejection
The study enrolled 210 children and adolescents 21 years of age or younger. The control arm treatment consisted of MMF (660 mg/m2 every 12 hours) plus standard dose of tacrolimus (initially 7-10 ng/mL followed at 6 months by 5-8 ng/mL).
In the experimental arm, patients received everolimus (3-8 ng/mL) plus a low dose of tacrolimus (initially 3-5 ng/mL followed at 6 months by 2.5-4.5 ng/mL).
The primary endpoint was score on the major adverse transplant event (MATE-6) tool. Based on gradations of severity, this assigns values for cardiac allograft vasculopathy (CAV), chronic kidney disease (CKD), acute cellular rejection (ACR), antibody-mediated rejection, infection, and posttransplant lymphoproliferative disorder (PTLD).
Thirty months after randomization, the MATE-6 scores were 1.96 in the everolimus group and 2.18 in the MMF group, which conferred the everolimus-based regimen with a numerical but not a significant advantage over the MMF-based regimen. For the goal of noninferiority, the everolimus regimen “met the prespecified safety criterion for success,” Dr. Almond said.
Numerical advantage for everolimus on efficacy
The primary efficacy endpoint was the MATE-3 score, which is limited to CAV, CKD, and ACR. Again, the mean score on this metric (0.93 vs. 1.25) was lower on the everolimus-based regimen but not significantly different.
Looking at specific events in the MATE-6 score, the everolimus-based regimen was associated with lower numerical rates of CAV and CKD, but a higher rate of PTLD, Dr. Almond reported.
On the MATE-3 efficacy analysis, the everolimus-based regimen was again associated with lower numerical rates of CAV and CKD but higher rates of ACR.
In terms of adverse events, including those involving the gastrointestinal tract, blood cells, proteinuria, and interstitial lung disease, most did not differ markedly even if many were numerically more common in the MMF-based arm. The exception was aphthous stomatitis, which was more common on everolimus (32% vs. 7%; P < .001). There were more discontinuations for an adverse event in the MMF arm (21% vs. 12%; P < .001).
Other differences included a lower proportion of patients in the everolimus arm with anti-HLA antibodies (17% vs. 30%; P < .05). Total cholesterol levels at the end of the study were lower but not significantly different in the MMF group, while the higher median glomerular filtration rate was higher on everolimus, and this did reach statistical significance (P < .05).
Infection rates overall were similar, but cytomegalovirus (CMV) infection was more common on the MMF-based regimen. The 30% lower rate of CMV infection in the everolimus proved to be potentially clinically meaningful when it was considered in the context of MATE-3. When these two endpoints were combined (MATE-3 and CMV infection as a prespecified secondary endpoint, the difference was statistically significant (P = .03) in favor of the everolimus-based regimen,
Study supports safety of everolimus regimen
The take-home message is that the everolimus-based regimen, which “is safe in children and young adults when initiated at 6 months after transplant,” can be considered as an alternative to MFF, Dr. Almond concluded.
However, one of the coauthors of the study, Joseph Rossano, MD, chief of the division of cardiology, Children’s Hospital of Philadelphia, suggested a stronger message.
“These data provide compelling reasons to consider initiation of the combination of everolimus and tacrolimus at 6 months post transplant in pediatric heart transplant recipients,” Dr. Rossano said.
Even though the everolimus-based regimen met the terms of noninferiority overall, patients who received this combination rather than the MMF-based regimen “were less likely to have the combined endpoints of vasculopathy, CKD, rejection and CMV infection. Additionally, they were less likely to make donor specific antibodies,” he said.
He also said that this study challenges the current boxed warning for everolimus. He pointed out that the warning, based on early use of everolimus in adults, does not appear to be an issue for children treated at 6 months.
Early mortality based on infection “was not observed in our study,” he said.
The AHA-invited discussant, Antonio G. Cabrera, MD, division chief of pediatric cardiology, University of Utah, Salt Lake City, drew the same conclusions. Based on the study, the everolimus-based regimen can only be described as noninferior to the MMF-based regimen, but Dr. Cabrera listed the same relative advantages as Dr. Rossano, including better kidney function.
Overall, either regimen might be more appealing based on several variables, but Dr. Cabrera said these data suggest everolimus-based treatment “should be considered” as one of two evidence-based options,
Dr. Almond reported no potential financial conflicts of interest. Dr. Rossano reports financial relationships with Abiomed, Bayer, Cytokinetics, Merck, and Myokardia. Dr. Cabrera reported no potential financial conflicts of interest.
according to the first phase 3 trial to compare antirejection strategies in the pediatric setting.
Even though MMF and tacrolimus have never been evaluated for pediatric cardiac transplant in a controlled trial, this combination is widely considered a standard based on adult data, said Christopher Almond, MD, a professor of pediatric cardiology at Stanford (Calif.) Medicine.
Everolimus has not been widely used in an antirejection regimen in children following heart transplant in part because of a boxed warning. The warning was added to labeling when this agent was associated with increased infection and increased mortality in adults if given within 3 months of transplant.
In this non-inferiority trial, called TEAMMATE, patients were randomized to the MMF-based or everolimus-based regimen 6 months after transplant.
Everolimus- vs. MMF-based antirejection
The study enrolled 210 children and adolescents 21 years of age or younger. The control arm treatment consisted of MMF (660 mg/m2 every 12 hours) plus standard dose of tacrolimus (initially 7-10 ng/mL followed at 6 months by 5-8 ng/mL).
In the experimental arm, patients received everolimus (3-8 ng/mL) plus a low dose of tacrolimus (initially 3-5 ng/mL followed at 6 months by 2.5-4.5 ng/mL).
The primary endpoint was score on the major adverse transplant event (MATE-6) tool. Based on gradations of severity, this assigns values for cardiac allograft vasculopathy (CAV), chronic kidney disease (CKD), acute cellular rejection (ACR), antibody-mediated rejection, infection, and posttransplant lymphoproliferative disorder (PTLD).
Thirty months after randomization, the MATE-6 scores were 1.96 in the everolimus group and 2.18 in the MMF group, which conferred the everolimus-based regimen with a numerical but not a significant advantage over the MMF-based regimen. For the goal of noninferiority, the everolimus regimen “met the prespecified safety criterion for success,” Dr. Almond said.
Numerical advantage for everolimus on efficacy
The primary efficacy endpoint was the MATE-3 score, which is limited to CAV, CKD, and ACR. Again, the mean score on this metric (0.93 vs. 1.25) was lower on the everolimus-based regimen but not significantly different.
Looking at specific events in the MATE-6 score, the everolimus-based regimen was associated with lower numerical rates of CAV and CKD, but a higher rate of PTLD, Dr. Almond reported.
On the MATE-3 efficacy analysis, the everolimus-based regimen was again associated with lower numerical rates of CAV and CKD but higher rates of ACR.
In terms of adverse events, including those involving the gastrointestinal tract, blood cells, proteinuria, and interstitial lung disease, most did not differ markedly even if many were numerically more common in the MMF-based arm. The exception was aphthous stomatitis, which was more common on everolimus (32% vs. 7%; P < .001). There were more discontinuations for an adverse event in the MMF arm (21% vs. 12%; P < .001).
Other differences included a lower proportion of patients in the everolimus arm with anti-HLA antibodies (17% vs. 30%; P < .05). Total cholesterol levels at the end of the study were lower but not significantly different in the MMF group, while the higher median glomerular filtration rate was higher on everolimus, and this did reach statistical significance (P < .05).
Infection rates overall were similar, but cytomegalovirus (CMV) infection was more common on the MMF-based regimen. The 30% lower rate of CMV infection in the everolimus proved to be potentially clinically meaningful when it was considered in the context of MATE-3. When these two endpoints were combined (MATE-3 and CMV infection as a prespecified secondary endpoint, the difference was statistically significant (P = .03) in favor of the everolimus-based regimen,
Study supports safety of everolimus regimen
The take-home message is that the everolimus-based regimen, which “is safe in children and young adults when initiated at 6 months after transplant,” can be considered as an alternative to MFF, Dr. Almond concluded.
However, one of the coauthors of the study, Joseph Rossano, MD, chief of the division of cardiology, Children’s Hospital of Philadelphia, suggested a stronger message.
“These data provide compelling reasons to consider initiation of the combination of everolimus and tacrolimus at 6 months post transplant in pediatric heart transplant recipients,” Dr. Rossano said.
Even though the everolimus-based regimen met the terms of noninferiority overall, patients who received this combination rather than the MMF-based regimen “were less likely to have the combined endpoints of vasculopathy, CKD, rejection and CMV infection. Additionally, they were less likely to make donor specific antibodies,” he said.
He also said that this study challenges the current boxed warning for everolimus. He pointed out that the warning, based on early use of everolimus in adults, does not appear to be an issue for children treated at 6 months.
Early mortality based on infection “was not observed in our study,” he said.
The AHA-invited discussant, Antonio G. Cabrera, MD, division chief of pediatric cardiology, University of Utah, Salt Lake City, drew the same conclusions. Based on the study, the everolimus-based regimen can only be described as noninferior to the MMF-based regimen, but Dr. Cabrera listed the same relative advantages as Dr. Rossano, including better kidney function.
Overall, either regimen might be more appealing based on several variables, but Dr. Cabrera said these data suggest everolimus-based treatment “should be considered” as one of two evidence-based options,
Dr. Almond reported no potential financial conflicts of interest. Dr. Rossano reports financial relationships with Abiomed, Bayer, Cytokinetics, Merck, and Myokardia. Dr. Cabrera reported no potential financial conflicts of interest.
FROM AHA 2023
Smartphone app detects voice quality changes indicating worsening heart failure
Worsening heart failure is accompanied by a build-up of fluid in the lungs. An AI smartphone app that picks up changes in a heart failure patient’s voice quality caused by this fluid accumulation and then alerts the physician about them – nearly 3 weeks before that ongoing decompensation would necessitate hospitalization and/or lead the physician to urgently introduce intravenous diuretics – is getting experts to sit up and take notice.
“In this incredibly prevalent waxing and waning condition, finding ways to identify worsening heart failure to prevent hospitalization and progressive disease is incredibly important,” observed American Heart Association (AHA)-appointed discussant David Ouyang, MD, assistant professor, Smidt Heart Institute, Division of Artificial Intelligence in Medicine, Cedars Sinai, Los Angeles. “Heart failure remains among the most common causes of hospitalization for older adults in the United States.
“The other standout feature is that we all use our cell phones on a daily basis,” Dr. Ouyang said at a late-breaking trial press briefing at the AHA 2023 annual meeting where results of the HearO Community Study were presented. “The ability to capture data from routine speech (patients speak five sentences into their phones every morning) is remarkable ... The HearO® technology was able to detect a substantial proportion of worsening heart failure events, with an average per individual of only three false positives over the course of a year. And, adherence to the study protocol was 81%. That’s higher than in many other kinds of routine patient monitoring studies,” he added.
Accumulating fluid changes speech
(e.g., pharynx, velum, tongue, and vocal folds). In the Israeli study, investigators enrolled 416 adults (75% were male, average age was 68 years) whose New York Heart Association (NYHA) 2-3 heart failure with either reduced or preserved ejection fraction was stable but placed them at-risk for heart failure events. The study goal was to analyze their speech data using the HearO® system to refine and test its ability to detect impending heart failure deterioration. Patients recorded five sentences in their native language (Hebrew, Russian, Arabic, or English) into the smartphone app daily. In a training phase of the study, distinct speech measures from 263 participants were used to develop the AI algorithm. Then, the algorithm was used in the remaining 153 participants to validate the tool’s effectiveness. In its ultimate form, once a deviation from the patient’s predefined baseline is detected, the app will generate a notice and send it to the health care practitioners.
Lead study author William T. Abraham, MD, FAHA, professor of medicine, physiology, and cell biology; and a College of Medicine Distinguished Professor in the division of cardiovascular medicine at The Ohio State University in Columbus, reported that between Mar. 27, 2018, and Nov. 30, 2021, subjects in the training phase made recordings on 83% of days. They were followed for up to 44 months. The test group made recordings on 81% of days between Feb. 1, 2020, and Apr. 30, 2023, and were followed for up to 31 months. Heart failure events were defined as hospitalization or outpatient intravenous diuretic treatment for worsening heart failure.
In the training phase, the app accurately predicted 44 of 58 heart failure events (76%) and 81% of first events (n = 35) on average 24 days before hospitalization or need for intravenous fluids. In the validation phase, the app was 71% accurate in detecting 10 of 14 heart failure events and 77% of first events (n = 10) on average 26 days in advance of events. In both periods, the app generated about 3 unnecessary alerts per patient year.
Dr. Abraham concluded, “This technology has the potential to improve patient outcomes, keeping patients well and out of the hospital, through the implementation of proactive, outpatient care in response to voice changes.”
The HearO® technology is being evaluated in an ongoing pivotal trial in the United State4s, Dr. Abraham said. The study is limited, he added, by the small number of patients and heart failure events, particularly in the test group.
“We continue to struggle with the burden of heart failure morbidity,” observed AHA press briefing moderator (and past AHA president) Clyde Yancy, MD, Magerstadt Professor at Northwestern University, Chicago. “So any tool that we can utilize and further refine that helps us address the need for hospitalization becomes very important. The idea that speech evaluation might give us sufficient early warning to forestall any admissions – and consider the cost savings attributable to that – is a very credible goal that we should continue to follow.” He pointed out that the technology enables assessments in the home environment for older patients who are less mobile.
In response to a press briefing question about the potential for physicians to be trained to hear early subtle voice changes on their own, Dr. Abraham stated, “I guess that is unknown, but the important difference is the system’s ability to take data in every day from patients and then process it automatically with AI.”
Joining in, Dr. Yancy said, “You know, this is interesting because even if you saw a patient once a month, which is an incredible frequency for any practice, there’s still 353 days that you haven’t seen the patient.” He noted that the AHA had just announced a multi-million dollar program to more deeply understand telemanagement. “So I think this is here to stay,” Dr. Yancy said.
Dr. Ouyang posed a further question. “Like with most AI recognition tools, we can now identify individuals at risk. How do we get from that step of identifying those at risk to improving their outcomes? This has been a critical question about heart failure, remote management, and remote monitoring, and I think it is a critical question for many of our AI tools.”
Dr. Abraham disclosed that he has received personal fees from Cordio Medical. Dr. Ouyang said that he had no disclosures relevant to this presentation.
Worsening heart failure is accompanied by a build-up of fluid in the lungs. An AI smartphone app that picks up changes in a heart failure patient’s voice quality caused by this fluid accumulation and then alerts the physician about them – nearly 3 weeks before that ongoing decompensation would necessitate hospitalization and/or lead the physician to urgently introduce intravenous diuretics – is getting experts to sit up and take notice.
“In this incredibly prevalent waxing and waning condition, finding ways to identify worsening heart failure to prevent hospitalization and progressive disease is incredibly important,” observed American Heart Association (AHA)-appointed discussant David Ouyang, MD, assistant professor, Smidt Heart Institute, Division of Artificial Intelligence in Medicine, Cedars Sinai, Los Angeles. “Heart failure remains among the most common causes of hospitalization for older adults in the United States.
“The other standout feature is that we all use our cell phones on a daily basis,” Dr. Ouyang said at a late-breaking trial press briefing at the AHA 2023 annual meeting where results of the HearO Community Study were presented. “The ability to capture data from routine speech (patients speak five sentences into their phones every morning) is remarkable ... The HearO® technology was able to detect a substantial proportion of worsening heart failure events, with an average per individual of only three false positives over the course of a year. And, adherence to the study protocol was 81%. That’s higher than in many other kinds of routine patient monitoring studies,” he added.
Accumulating fluid changes speech
(e.g., pharynx, velum, tongue, and vocal folds). In the Israeli study, investigators enrolled 416 adults (75% were male, average age was 68 years) whose New York Heart Association (NYHA) 2-3 heart failure with either reduced or preserved ejection fraction was stable but placed them at-risk for heart failure events. The study goal was to analyze their speech data using the HearO® system to refine and test its ability to detect impending heart failure deterioration. Patients recorded five sentences in their native language (Hebrew, Russian, Arabic, or English) into the smartphone app daily. In a training phase of the study, distinct speech measures from 263 participants were used to develop the AI algorithm. Then, the algorithm was used in the remaining 153 participants to validate the tool’s effectiveness. In its ultimate form, once a deviation from the patient’s predefined baseline is detected, the app will generate a notice and send it to the health care practitioners.
Lead study author William T. Abraham, MD, FAHA, professor of medicine, physiology, and cell biology; and a College of Medicine Distinguished Professor in the division of cardiovascular medicine at The Ohio State University in Columbus, reported that between Mar. 27, 2018, and Nov. 30, 2021, subjects in the training phase made recordings on 83% of days. They were followed for up to 44 months. The test group made recordings on 81% of days between Feb. 1, 2020, and Apr. 30, 2023, and were followed for up to 31 months. Heart failure events were defined as hospitalization or outpatient intravenous diuretic treatment for worsening heart failure.
In the training phase, the app accurately predicted 44 of 58 heart failure events (76%) and 81% of first events (n = 35) on average 24 days before hospitalization or need for intravenous fluids. In the validation phase, the app was 71% accurate in detecting 10 of 14 heart failure events and 77% of first events (n = 10) on average 26 days in advance of events. In both periods, the app generated about 3 unnecessary alerts per patient year.
Dr. Abraham concluded, “This technology has the potential to improve patient outcomes, keeping patients well and out of the hospital, through the implementation of proactive, outpatient care in response to voice changes.”
The HearO® technology is being evaluated in an ongoing pivotal trial in the United State4s, Dr. Abraham said. The study is limited, he added, by the small number of patients and heart failure events, particularly in the test group.
“We continue to struggle with the burden of heart failure morbidity,” observed AHA press briefing moderator (and past AHA president) Clyde Yancy, MD, Magerstadt Professor at Northwestern University, Chicago. “So any tool that we can utilize and further refine that helps us address the need for hospitalization becomes very important. The idea that speech evaluation might give us sufficient early warning to forestall any admissions – and consider the cost savings attributable to that – is a very credible goal that we should continue to follow.” He pointed out that the technology enables assessments in the home environment for older patients who are less mobile.
In response to a press briefing question about the potential for physicians to be trained to hear early subtle voice changes on their own, Dr. Abraham stated, “I guess that is unknown, but the important difference is the system’s ability to take data in every day from patients and then process it automatically with AI.”
Joining in, Dr. Yancy said, “You know, this is interesting because even if you saw a patient once a month, which is an incredible frequency for any practice, there’s still 353 days that you haven’t seen the patient.” He noted that the AHA had just announced a multi-million dollar program to more deeply understand telemanagement. “So I think this is here to stay,” Dr. Yancy said.
Dr. Ouyang posed a further question. “Like with most AI recognition tools, we can now identify individuals at risk. How do we get from that step of identifying those at risk to improving their outcomes? This has been a critical question about heart failure, remote management, and remote monitoring, and I think it is a critical question for many of our AI tools.”
Dr. Abraham disclosed that he has received personal fees from Cordio Medical. Dr. Ouyang said that he had no disclosures relevant to this presentation.
Worsening heart failure is accompanied by a build-up of fluid in the lungs. An AI smartphone app that picks up changes in a heart failure patient’s voice quality caused by this fluid accumulation and then alerts the physician about them – nearly 3 weeks before that ongoing decompensation would necessitate hospitalization and/or lead the physician to urgently introduce intravenous diuretics – is getting experts to sit up and take notice.
“In this incredibly prevalent waxing and waning condition, finding ways to identify worsening heart failure to prevent hospitalization and progressive disease is incredibly important,” observed American Heart Association (AHA)-appointed discussant David Ouyang, MD, assistant professor, Smidt Heart Institute, Division of Artificial Intelligence in Medicine, Cedars Sinai, Los Angeles. “Heart failure remains among the most common causes of hospitalization for older adults in the United States.
“The other standout feature is that we all use our cell phones on a daily basis,” Dr. Ouyang said at a late-breaking trial press briefing at the AHA 2023 annual meeting where results of the HearO Community Study were presented. “The ability to capture data from routine speech (patients speak five sentences into their phones every morning) is remarkable ... The HearO® technology was able to detect a substantial proportion of worsening heart failure events, with an average per individual of only three false positives over the course of a year. And, adherence to the study protocol was 81%. That’s higher than in many other kinds of routine patient monitoring studies,” he added.
Accumulating fluid changes speech
(e.g., pharynx, velum, tongue, and vocal folds). In the Israeli study, investigators enrolled 416 adults (75% were male, average age was 68 years) whose New York Heart Association (NYHA) 2-3 heart failure with either reduced or preserved ejection fraction was stable but placed them at-risk for heart failure events. The study goal was to analyze their speech data using the HearO® system to refine and test its ability to detect impending heart failure deterioration. Patients recorded five sentences in their native language (Hebrew, Russian, Arabic, or English) into the smartphone app daily. In a training phase of the study, distinct speech measures from 263 participants were used to develop the AI algorithm. Then, the algorithm was used in the remaining 153 participants to validate the tool’s effectiveness. In its ultimate form, once a deviation from the patient’s predefined baseline is detected, the app will generate a notice and send it to the health care practitioners.
Lead study author William T. Abraham, MD, FAHA, professor of medicine, physiology, and cell biology; and a College of Medicine Distinguished Professor in the division of cardiovascular medicine at The Ohio State University in Columbus, reported that between Mar. 27, 2018, and Nov. 30, 2021, subjects in the training phase made recordings on 83% of days. They were followed for up to 44 months. The test group made recordings on 81% of days between Feb. 1, 2020, and Apr. 30, 2023, and were followed for up to 31 months. Heart failure events were defined as hospitalization or outpatient intravenous diuretic treatment for worsening heart failure.
In the training phase, the app accurately predicted 44 of 58 heart failure events (76%) and 81% of first events (n = 35) on average 24 days before hospitalization or need for intravenous fluids. In the validation phase, the app was 71% accurate in detecting 10 of 14 heart failure events and 77% of first events (n = 10) on average 26 days in advance of events. In both periods, the app generated about 3 unnecessary alerts per patient year.
Dr. Abraham concluded, “This technology has the potential to improve patient outcomes, keeping patients well and out of the hospital, through the implementation of proactive, outpatient care in response to voice changes.”
The HearO® technology is being evaluated in an ongoing pivotal trial in the United State4s, Dr. Abraham said. The study is limited, he added, by the small number of patients and heart failure events, particularly in the test group.
“We continue to struggle with the burden of heart failure morbidity,” observed AHA press briefing moderator (and past AHA president) Clyde Yancy, MD, Magerstadt Professor at Northwestern University, Chicago. “So any tool that we can utilize and further refine that helps us address the need for hospitalization becomes very important. The idea that speech evaluation might give us sufficient early warning to forestall any admissions – and consider the cost savings attributable to that – is a very credible goal that we should continue to follow.” He pointed out that the technology enables assessments in the home environment for older patients who are less mobile.
In response to a press briefing question about the potential for physicians to be trained to hear early subtle voice changes on their own, Dr. Abraham stated, “I guess that is unknown, but the important difference is the system’s ability to take data in every day from patients and then process it automatically with AI.”
Joining in, Dr. Yancy said, “You know, this is interesting because even if you saw a patient once a month, which is an incredible frequency for any practice, there’s still 353 days that you haven’t seen the patient.” He noted that the AHA had just announced a multi-million dollar program to more deeply understand telemanagement. “So I think this is here to stay,” Dr. Yancy said.
Dr. Ouyang posed a further question. “Like with most AI recognition tools, we can now identify individuals at risk. How do we get from that step of identifying those at risk to improving their outcomes? This has been a critical question about heart failure, remote management, and remote monitoring, and I think it is a critical question for many of our AI tools.”
Dr. Abraham disclosed that he has received personal fees from Cordio Medical. Dr. Ouyang said that he had no disclosures relevant to this presentation.
FROM AHA 2023
Promising first results with DNA editing to lower LDL
PHILADELPHIA –
While one of four patients in the highest-dose groups had a myocardial infarction the day after getting the treatment, investigators have enough confidence to go forward with the next phase of study.
“The HEART-1trial demonstrated the first human proof of concept for in vivo DNA-based editing,” said Andrew Bellinger, MD, PhD, chief scientific officer of Verve Therapeutics, the company developing the treatment. “We saw dose-dependent–based reductions in LDL and the PCSK9 protein.”
The HEART-1 study was a phase 1b trial of VERVE-101, a CRISPR-based gene editing mechanism designed to inactivate the liver gene PCSK9, which contributes to raising cholesterol. “Human genetics suggest that turning off the cholesterol-raising gene PCSK9 in the liver will durably reduce LDL cholesterol,” Dr. Bellinger said in presenting the results at the annual scientific sessions of the American Heart Association.
Lipid nanoparticle
VERVE-101 is designed to be a single-course treatment to specifically treat HeFH, Dr. Bellinger said. He explained how the therapy, given by intravenous infusion, differs from adeno-associated virus vectors that have dominated gene therapy platforms.
“It’s a lipid nanoparticle encapsulating two RNA nanoparticles that are taken up by hepatocytes in the liver from the blood by the LDL receptor,” he explained. “Then the A-to-G–based editor protein and the guide mRNA protein together find the PCSK9 gene in the liver.” That single DNA-base change in one position of the PCSK9 gene is able to turn off PCSK9 production in those liver cells.
Dr. Bellinger presented interim results of the first 10 patients treated in the open-label, single ascending dose study. The patients were male and female, ages 18-75, with HeFH, established atherosclerotic cardiovascular disease and uncontrolled hypercholesterolemia despite being on maximally tolerated lipid-lowering therapy.
They received four different doses: Three patients each received 0.1, 0.3, and 0.45 mg/kg; and one patient received 0.6 mg/kg.
Reductions in blood PCSK9 levels were measured across all dosing groups at 4 weeks, but they were most pronounced in the two highest groups, Dr. Bellinger said. Two patients in the 0.45-mg/kg group had reductions of 59% and 84%. The sole patient in the 0.6-mg/kg arm had a reduction of 47%.
Regarding the 84% reduction in one individual, Dr. Bellinger said, “Roughly 85% of PCSK9 comes from the liver. These data suggest that we have successfully made a single base pair change in both copies of the PCSK9 gene in nearly every hepatocyte in the liver of this individual.”
Those benefits carried over to LDL cholesterol measures, with the highest-dose patients registering 39%, 48% and 55% reductions.
Safety outcomes
Two patients had serious cardiovascular (CV) events. One in the 0.3-mg/kg arm died from cardiac arrest 5 weeks after receiving the infusion. A patient in the 0.45-mg/kg arm had a myocardial infarction a day after getting the infusion and then nonsustained ventricular tachycardia (NSVT) 4 weeks later. Dr. Bellinger said an independent review panel determined that the CV events were in line with outcomes for high-risk patients and weren’t directly related to treatment.
He added, “Increased liver transaminases were seen in patients treated in the higher-dose cohorts. It’s transient, asymptomatic, and it resolved quickly.”
The next step involves pursuing only the 0.45- and 0.6-mg/kg doses in the next dose-escalation phase and enrolling an expansion cohort in 2024, Dr. Bellinger said, with a plan to initiate a randomized, placebo-controlled phase 2 trial in 2025.
First, do no harm
Karol Watson, MD, PhD, a women’s cardiovascular disease specialist at UCLA, said the promise of gene therapy was “revolutionary,” but that proving safety was critical going forward.
“You’re changing the genome forever,” she said. “Safety is going to be of the utmost importance especially because there are currently safe and efficacious strategies available for lipid lowering. This is a strategy that could be revolutionary, but we have to make sure that it’s safe.”
She pointed to a multinational study from earlier this year that warned about pathogenic consequences from CRISPR-based gene editing. “There are concerns about gene editing,” Dr. Watson said. “This was a whole-genome analysis showing atypical nonhomologous on-target effects of genome editing. Of course this is a very different strategy from what we heard today, but, again, we have to know that this is safe.”
Despite the small sample size from the two highest-dose groups in the study, Dr. Watson said the investigators have reason for going forward. “I think the preclinical data supports moving forward, but the next studies will have to be scrutinized carefully,” she said. “This is a preventive therapy; the first tenet is to do no harm.”
Dr. Bellinger is an employee of Verve Therapeutics, which sponsored the trial. Dr. Watson disclosed relationships with Boehringer-Ingelheim, Amgen, Lilly and Novartis.
PHILADELPHIA –
While one of four patients in the highest-dose groups had a myocardial infarction the day after getting the treatment, investigators have enough confidence to go forward with the next phase of study.
“The HEART-1trial demonstrated the first human proof of concept for in vivo DNA-based editing,” said Andrew Bellinger, MD, PhD, chief scientific officer of Verve Therapeutics, the company developing the treatment. “We saw dose-dependent–based reductions in LDL and the PCSK9 protein.”
The HEART-1 study was a phase 1b trial of VERVE-101, a CRISPR-based gene editing mechanism designed to inactivate the liver gene PCSK9, which contributes to raising cholesterol. “Human genetics suggest that turning off the cholesterol-raising gene PCSK9 in the liver will durably reduce LDL cholesterol,” Dr. Bellinger said in presenting the results at the annual scientific sessions of the American Heart Association.
Lipid nanoparticle
VERVE-101 is designed to be a single-course treatment to specifically treat HeFH, Dr. Bellinger said. He explained how the therapy, given by intravenous infusion, differs from adeno-associated virus vectors that have dominated gene therapy platforms.
“It’s a lipid nanoparticle encapsulating two RNA nanoparticles that are taken up by hepatocytes in the liver from the blood by the LDL receptor,” he explained. “Then the A-to-G–based editor protein and the guide mRNA protein together find the PCSK9 gene in the liver.” That single DNA-base change in one position of the PCSK9 gene is able to turn off PCSK9 production in those liver cells.
Dr. Bellinger presented interim results of the first 10 patients treated in the open-label, single ascending dose study. The patients were male and female, ages 18-75, with HeFH, established atherosclerotic cardiovascular disease and uncontrolled hypercholesterolemia despite being on maximally tolerated lipid-lowering therapy.
They received four different doses: Three patients each received 0.1, 0.3, and 0.45 mg/kg; and one patient received 0.6 mg/kg.
Reductions in blood PCSK9 levels were measured across all dosing groups at 4 weeks, but they were most pronounced in the two highest groups, Dr. Bellinger said. Two patients in the 0.45-mg/kg group had reductions of 59% and 84%. The sole patient in the 0.6-mg/kg arm had a reduction of 47%.
Regarding the 84% reduction in one individual, Dr. Bellinger said, “Roughly 85% of PCSK9 comes from the liver. These data suggest that we have successfully made a single base pair change in both copies of the PCSK9 gene in nearly every hepatocyte in the liver of this individual.”
Those benefits carried over to LDL cholesterol measures, with the highest-dose patients registering 39%, 48% and 55% reductions.
Safety outcomes
Two patients had serious cardiovascular (CV) events. One in the 0.3-mg/kg arm died from cardiac arrest 5 weeks after receiving the infusion. A patient in the 0.45-mg/kg arm had a myocardial infarction a day after getting the infusion and then nonsustained ventricular tachycardia (NSVT) 4 weeks later. Dr. Bellinger said an independent review panel determined that the CV events were in line with outcomes for high-risk patients and weren’t directly related to treatment.
He added, “Increased liver transaminases were seen in patients treated in the higher-dose cohorts. It’s transient, asymptomatic, and it resolved quickly.”
The next step involves pursuing only the 0.45- and 0.6-mg/kg doses in the next dose-escalation phase and enrolling an expansion cohort in 2024, Dr. Bellinger said, with a plan to initiate a randomized, placebo-controlled phase 2 trial in 2025.
First, do no harm
Karol Watson, MD, PhD, a women’s cardiovascular disease specialist at UCLA, said the promise of gene therapy was “revolutionary,” but that proving safety was critical going forward.
“You’re changing the genome forever,” she said. “Safety is going to be of the utmost importance especially because there are currently safe and efficacious strategies available for lipid lowering. This is a strategy that could be revolutionary, but we have to make sure that it’s safe.”
She pointed to a multinational study from earlier this year that warned about pathogenic consequences from CRISPR-based gene editing. “There are concerns about gene editing,” Dr. Watson said. “This was a whole-genome analysis showing atypical nonhomologous on-target effects of genome editing. Of course this is a very different strategy from what we heard today, but, again, we have to know that this is safe.”
Despite the small sample size from the two highest-dose groups in the study, Dr. Watson said the investigators have reason for going forward. “I think the preclinical data supports moving forward, but the next studies will have to be scrutinized carefully,” she said. “This is a preventive therapy; the first tenet is to do no harm.”
Dr. Bellinger is an employee of Verve Therapeutics, which sponsored the trial. Dr. Watson disclosed relationships with Boehringer-Ingelheim, Amgen, Lilly and Novartis.
PHILADELPHIA –
While one of four patients in the highest-dose groups had a myocardial infarction the day after getting the treatment, investigators have enough confidence to go forward with the next phase of study.
“The HEART-1trial demonstrated the first human proof of concept for in vivo DNA-based editing,” said Andrew Bellinger, MD, PhD, chief scientific officer of Verve Therapeutics, the company developing the treatment. “We saw dose-dependent–based reductions in LDL and the PCSK9 protein.”
The HEART-1 study was a phase 1b trial of VERVE-101, a CRISPR-based gene editing mechanism designed to inactivate the liver gene PCSK9, which contributes to raising cholesterol. “Human genetics suggest that turning off the cholesterol-raising gene PCSK9 in the liver will durably reduce LDL cholesterol,” Dr. Bellinger said in presenting the results at the annual scientific sessions of the American Heart Association.
Lipid nanoparticle
VERVE-101 is designed to be a single-course treatment to specifically treat HeFH, Dr. Bellinger said. He explained how the therapy, given by intravenous infusion, differs from adeno-associated virus vectors that have dominated gene therapy platforms.
“It’s a lipid nanoparticle encapsulating two RNA nanoparticles that are taken up by hepatocytes in the liver from the blood by the LDL receptor,” he explained. “Then the A-to-G–based editor protein and the guide mRNA protein together find the PCSK9 gene in the liver.” That single DNA-base change in one position of the PCSK9 gene is able to turn off PCSK9 production in those liver cells.
Dr. Bellinger presented interim results of the first 10 patients treated in the open-label, single ascending dose study. The patients were male and female, ages 18-75, with HeFH, established atherosclerotic cardiovascular disease and uncontrolled hypercholesterolemia despite being on maximally tolerated lipid-lowering therapy.
They received four different doses: Three patients each received 0.1, 0.3, and 0.45 mg/kg; and one patient received 0.6 mg/kg.
Reductions in blood PCSK9 levels were measured across all dosing groups at 4 weeks, but they were most pronounced in the two highest groups, Dr. Bellinger said. Two patients in the 0.45-mg/kg group had reductions of 59% and 84%. The sole patient in the 0.6-mg/kg arm had a reduction of 47%.
Regarding the 84% reduction in one individual, Dr. Bellinger said, “Roughly 85% of PCSK9 comes from the liver. These data suggest that we have successfully made a single base pair change in both copies of the PCSK9 gene in nearly every hepatocyte in the liver of this individual.”
Those benefits carried over to LDL cholesterol measures, with the highest-dose patients registering 39%, 48% and 55% reductions.
Safety outcomes
Two patients had serious cardiovascular (CV) events. One in the 0.3-mg/kg arm died from cardiac arrest 5 weeks after receiving the infusion. A patient in the 0.45-mg/kg arm had a myocardial infarction a day after getting the infusion and then nonsustained ventricular tachycardia (NSVT) 4 weeks later. Dr. Bellinger said an independent review panel determined that the CV events were in line with outcomes for high-risk patients and weren’t directly related to treatment.
He added, “Increased liver transaminases were seen in patients treated in the higher-dose cohorts. It’s transient, asymptomatic, and it resolved quickly.”
The next step involves pursuing only the 0.45- and 0.6-mg/kg doses in the next dose-escalation phase and enrolling an expansion cohort in 2024, Dr. Bellinger said, with a plan to initiate a randomized, placebo-controlled phase 2 trial in 2025.
First, do no harm
Karol Watson, MD, PhD, a women’s cardiovascular disease specialist at UCLA, said the promise of gene therapy was “revolutionary,” but that proving safety was critical going forward.
“You’re changing the genome forever,” she said. “Safety is going to be of the utmost importance especially because there are currently safe and efficacious strategies available for lipid lowering. This is a strategy that could be revolutionary, but we have to make sure that it’s safe.”
She pointed to a multinational study from earlier this year that warned about pathogenic consequences from CRISPR-based gene editing. “There are concerns about gene editing,” Dr. Watson said. “This was a whole-genome analysis showing atypical nonhomologous on-target effects of genome editing. Of course this is a very different strategy from what we heard today, but, again, we have to know that this is safe.”
Despite the small sample size from the two highest-dose groups in the study, Dr. Watson said the investigators have reason for going forward. “I think the preclinical data supports moving forward, but the next studies will have to be scrutinized carefully,” she said. “This is a preventive therapy; the first tenet is to do no harm.”
Dr. Bellinger is an employee of Verve Therapeutics, which sponsored the trial. Dr. Watson disclosed relationships with Boehringer-Ingelheim, Amgen, Lilly and Novartis.
AT AHA 2023
AI-ECG gets STEMI patients to cath lab sooner
PHILADELPHIA – An artificial intelligence platform that sends alerts based on electrocardiography results enabled cardiologists and emergency department physicians at a major hospital in Taiwan to move patients with ST-elevation myocardial infarction (STEMI) into the catheterization laboratory 9 minutes sooner than the conventional protocol that did not use AI.
“This is the first randomized clinical trial to demonstrate the reduction of electrocardiography to coronary cath lab activation time" from 52.3 to 43.3 minutes (P = .003), Chin Sheng Lin, MD, PhD, director of cardiology at the National Defense Medical Center Tri-Service General Hospital in Taipei City, said in presenting the results at the American Heart Association scientific sessions.
Dr. Lin reported results from the Artificial Intelligence Enabled Rapid Identify of ST-Elevation Myocardial Infarction Using Electrocardiogram (ARISE) trial. The trial included 43,994 patients who came to the hospital’s emergency and inpatient departments with at least one ECG but no history of coronary angiography (CAG) in the previous 3 days between May 2022 and April 2023.
They were randomly assigned by date to either AI-ECG for rapid identification and triage of STEMI or standard care. Overall, 145 patients were finally diagnosed with STEMI based on CAG, 77 in the intervention group and 68 in the control group. All patients were seen by one of 20 cardiologists who participated in the study.
Dr. Lin and his group developed an AI algorithm that captures the ECG readout in the emergency department, analyzes the data and then sends a high-risk alarm to the front-line physician and on-duty cardiologist to activate the primary percutaneous coronary intervention (PCI).
Trial results
The differentiation between groups was even more pronounced in ED patients during regular working hours, Dr. Lin said, at 61.6 minutes for the intervention group vs. 33.1 minutes for controls (P = .001).*
He noted that the AI group showed a trend towards fewer cases of clinically suspected STEMI but not getting CAG, 6.5% vs. 15.8%, for an odds ratio of 0.37 (95% confidence interval, 0.14-0.94).
The AI-ECG model also demonstrated a high diagnostic accuracy. “With this AI-ECG system, because it has a very high accuracy and a high positive predictive variable that reach 88%, we can send a message to the on-duty cardiologists and also the emergency room physician and they can send the patients to receive the operation or the PCI as soon as possible,” Dr. Lin said in an interview.
The time differential is critical, Dr. Lin said. “For the patient with acute myocardial infarction, 1 minute is critical, because the patients can die within minutes,” he said. “If we can save 9 minutes I think we can save more lives, but it needs a larger study to evaluate that.”
Dr. Lin acknowledged a few limitations with the trial, among them its single-center nature, relatively small sample size of STEMI patients and the short-term of follow-up. Future study should involve multiple centers along with a prehospital, emergency medical services AI-ECG model.
‘Novel’ for an AI trial
“This is an incredible application of an AI technology in a real-world problem,” said Brahmajee K. Nallamothu, MD, MPH, an interventional cardiologist at the University of Michigan, Ann Arbor, who did not participate in the study. “What I really love about this study is it’s actually a clinical problem that has large implications, particularly for under-resourced areas.”
Using a randomized clinical trial to evaluate the AI platform is “very, very novel,” he said, and called the time improvement “enormous.” Referencing Dr. Lin’s next steps for studying the AI-ECG platform, Dr. Nallamothu said, “if we could push this up even earlier to paramedics and EMTs and prehospital systems, there would be a lot of excitement there.”
He noted the sensitivity analysis resulted in a rate of 88.8% along with the positive predictive value of 88%. “Missing 1 out of 10 ST-elevation MIs in my eyes can still be considered a big deal, so we need to know if this is happening in particular types of patients, for example women versus men, or other groups.”
However, some investigations reported false activation rates as high as 33%, he said. “So, to say that, the positive predictive value is at 88% is really exciting and I think it can make a real inroads,” Dr. Nallamothu said.
Dr. Lin and Dr. Nallamothu have no relevant disclosures.
*Correction, 11/20/23: An earlier version of this article misstated in both trial arms the time to coronary catheterization lab activation.
PHILADELPHIA – An artificial intelligence platform that sends alerts based on electrocardiography results enabled cardiologists and emergency department physicians at a major hospital in Taiwan to move patients with ST-elevation myocardial infarction (STEMI) into the catheterization laboratory 9 minutes sooner than the conventional protocol that did not use AI.
“This is the first randomized clinical trial to demonstrate the reduction of electrocardiography to coronary cath lab activation time" from 52.3 to 43.3 minutes (P = .003), Chin Sheng Lin, MD, PhD, director of cardiology at the National Defense Medical Center Tri-Service General Hospital in Taipei City, said in presenting the results at the American Heart Association scientific sessions.
Dr. Lin reported results from the Artificial Intelligence Enabled Rapid Identify of ST-Elevation Myocardial Infarction Using Electrocardiogram (ARISE) trial. The trial included 43,994 patients who came to the hospital’s emergency and inpatient departments with at least one ECG but no history of coronary angiography (CAG) in the previous 3 days between May 2022 and April 2023.
They were randomly assigned by date to either AI-ECG for rapid identification and triage of STEMI or standard care. Overall, 145 patients were finally diagnosed with STEMI based on CAG, 77 in the intervention group and 68 in the control group. All patients were seen by one of 20 cardiologists who participated in the study.
Dr. Lin and his group developed an AI algorithm that captures the ECG readout in the emergency department, analyzes the data and then sends a high-risk alarm to the front-line physician and on-duty cardiologist to activate the primary percutaneous coronary intervention (PCI).
Trial results
The differentiation between groups was even more pronounced in ED patients during regular working hours, Dr. Lin said, at 61.6 minutes for the intervention group vs. 33.1 minutes for controls (P = .001).*
He noted that the AI group showed a trend towards fewer cases of clinically suspected STEMI but not getting CAG, 6.5% vs. 15.8%, for an odds ratio of 0.37 (95% confidence interval, 0.14-0.94).
The AI-ECG model also demonstrated a high diagnostic accuracy. “With this AI-ECG system, because it has a very high accuracy and a high positive predictive variable that reach 88%, we can send a message to the on-duty cardiologists and also the emergency room physician and they can send the patients to receive the operation or the PCI as soon as possible,” Dr. Lin said in an interview.
The time differential is critical, Dr. Lin said. “For the patient with acute myocardial infarction, 1 minute is critical, because the patients can die within minutes,” he said. “If we can save 9 minutes I think we can save more lives, but it needs a larger study to evaluate that.”
Dr. Lin acknowledged a few limitations with the trial, among them its single-center nature, relatively small sample size of STEMI patients and the short-term of follow-up. Future study should involve multiple centers along with a prehospital, emergency medical services AI-ECG model.
‘Novel’ for an AI trial
“This is an incredible application of an AI technology in a real-world problem,” said Brahmajee K. Nallamothu, MD, MPH, an interventional cardiologist at the University of Michigan, Ann Arbor, who did not participate in the study. “What I really love about this study is it’s actually a clinical problem that has large implications, particularly for under-resourced areas.”
Using a randomized clinical trial to evaluate the AI platform is “very, very novel,” he said, and called the time improvement “enormous.” Referencing Dr. Lin’s next steps for studying the AI-ECG platform, Dr. Nallamothu said, “if we could push this up even earlier to paramedics and EMTs and prehospital systems, there would be a lot of excitement there.”
He noted the sensitivity analysis resulted in a rate of 88.8% along with the positive predictive value of 88%. “Missing 1 out of 10 ST-elevation MIs in my eyes can still be considered a big deal, so we need to know if this is happening in particular types of patients, for example women versus men, or other groups.”
However, some investigations reported false activation rates as high as 33%, he said. “So, to say that, the positive predictive value is at 88% is really exciting and I think it can make a real inroads,” Dr. Nallamothu said.
Dr. Lin and Dr. Nallamothu have no relevant disclosures.
*Correction, 11/20/23: An earlier version of this article misstated in both trial arms the time to coronary catheterization lab activation.
PHILADELPHIA – An artificial intelligence platform that sends alerts based on electrocardiography results enabled cardiologists and emergency department physicians at a major hospital in Taiwan to move patients with ST-elevation myocardial infarction (STEMI) into the catheterization laboratory 9 minutes sooner than the conventional protocol that did not use AI.
“This is the first randomized clinical trial to demonstrate the reduction of electrocardiography to coronary cath lab activation time" from 52.3 to 43.3 minutes (P = .003), Chin Sheng Lin, MD, PhD, director of cardiology at the National Defense Medical Center Tri-Service General Hospital in Taipei City, said in presenting the results at the American Heart Association scientific sessions.
Dr. Lin reported results from the Artificial Intelligence Enabled Rapid Identify of ST-Elevation Myocardial Infarction Using Electrocardiogram (ARISE) trial. The trial included 43,994 patients who came to the hospital’s emergency and inpatient departments with at least one ECG but no history of coronary angiography (CAG) in the previous 3 days between May 2022 and April 2023.
They were randomly assigned by date to either AI-ECG for rapid identification and triage of STEMI or standard care. Overall, 145 patients were finally diagnosed with STEMI based on CAG, 77 in the intervention group and 68 in the control group. All patients were seen by one of 20 cardiologists who participated in the study.
Dr. Lin and his group developed an AI algorithm that captures the ECG readout in the emergency department, analyzes the data and then sends a high-risk alarm to the front-line physician and on-duty cardiologist to activate the primary percutaneous coronary intervention (PCI).
Trial results
The differentiation between groups was even more pronounced in ED patients during regular working hours, Dr. Lin said, at 61.6 minutes for the intervention group vs. 33.1 minutes for controls (P = .001).*
He noted that the AI group showed a trend towards fewer cases of clinically suspected STEMI but not getting CAG, 6.5% vs. 15.8%, for an odds ratio of 0.37 (95% confidence interval, 0.14-0.94).
The AI-ECG model also demonstrated a high diagnostic accuracy. “With this AI-ECG system, because it has a very high accuracy and a high positive predictive variable that reach 88%, we can send a message to the on-duty cardiologists and also the emergency room physician and they can send the patients to receive the operation or the PCI as soon as possible,” Dr. Lin said in an interview.
The time differential is critical, Dr. Lin said. “For the patient with acute myocardial infarction, 1 minute is critical, because the patients can die within minutes,” he said. “If we can save 9 minutes I think we can save more lives, but it needs a larger study to evaluate that.”
Dr. Lin acknowledged a few limitations with the trial, among them its single-center nature, relatively small sample size of STEMI patients and the short-term of follow-up. Future study should involve multiple centers along with a prehospital, emergency medical services AI-ECG model.
‘Novel’ for an AI trial
“This is an incredible application of an AI technology in a real-world problem,” said Brahmajee K. Nallamothu, MD, MPH, an interventional cardiologist at the University of Michigan, Ann Arbor, who did not participate in the study. “What I really love about this study is it’s actually a clinical problem that has large implications, particularly for under-resourced areas.”
Using a randomized clinical trial to evaluate the AI platform is “very, very novel,” he said, and called the time improvement “enormous.” Referencing Dr. Lin’s next steps for studying the AI-ECG platform, Dr. Nallamothu said, “if we could push this up even earlier to paramedics and EMTs and prehospital systems, there would be a lot of excitement there.”
He noted the sensitivity analysis resulted in a rate of 88.8% along with the positive predictive value of 88%. “Missing 1 out of 10 ST-elevation MIs in my eyes can still be considered a big deal, so we need to know if this is happening in particular types of patients, for example women versus men, or other groups.”
However, some investigations reported false activation rates as high as 33%, he said. “So, to say that, the positive predictive value is at 88% is really exciting and I think it can make a real inroads,” Dr. Nallamothu said.
Dr. Lin and Dr. Nallamothu have no relevant disclosures.
*Correction, 11/20/23: An earlier version of this article misstated in both trial arms the time to coronary catheterization lab activation.
AT AHA 2023