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Two FDA clearances add diabetes technology options
Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.
On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.
The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.
The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.
Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.
On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.
Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.
The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.
The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.
“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.
A version of this article first appeared on Medscape.com.
Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.
On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.
The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.
The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.
Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.
On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.
Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.
The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.
The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.
“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.
A version of this article first appeared on Medscape.com.
Two diabetes management devices that aid in the precision of insulin delivery have been recently cleared by the Food and Drug Administration.
On March 2, the FDA cleared the Android version of Bigfoot Biomedical’s Unity Mobile App for use with its system of smart pen caps that are compatible with different disposable insulin pens for administering both long-acting and rapid-acting insulin.
The system, which has been compatible with iOS devices since May 2021, is “the first and only FDA-cleared smart injection system that turns CGM [continuous glucose monitoring] data into dosing recommendations displayed right on the pen cap for people using multiple daily [insulin] injection therapy,” according to a company statement.
The Bigfoot app allows users to input and review provider treatment recommendations, displays current glucose ranges, and delivers real-time alerts.
Once it is commercially launched, the Android phone application will be available via the Google Play Store. “Given that 41% of U.S. smartphone users choose Android devices, this clearance enables expanded access to a large group of people with diabetes,” the company said.
On March 6, the FDA cleared the Abbott FreeStyle Libre 2 and FreeStyle Libre 3 devices as “integrated” CGM sensors. This means that they can now be used as components in automated insulin delivery systems, along with insulin pumps and connectivity software.
Abbott is working with insulin pump manufacturers Insulet and Tandem in the United States for integration with the FreeStyle Libre versions 2 and 3. Outside the United States, the Libre 3 is already authorized to work with mylife Loop from Ypsomed and CamDiab in Germany. Further launches are expected in the United Kingdom, Switzerland, and the Netherlands later this year.
The modified FreeStyle Libre 2 and FreeStyle Libre 3 sensors have been cleared for use by patients as young as age 2 years and for up to 15 days, in contrast to the previous versions, which were available for patients as young as 4 years for use up to 14 days. The FDA has cleared all Libre sensors – 2 and 3, current and future versions – for use by pregnant women with any type of diabetes.
The modified sensors will be available in the United States later this year and will eventually replace the Libre sensors in current use, the company said in a statement.
“The FreeStyle Libre portfolio is still the most affordable CGM on the market,” an Abbott representative said in an interview.
A version of this article first appeared on Medscape.com.
Heart-healthy actions promote longer, disease-free life
Adults who follow a heart-healthy lifestyle are more likely to live longer and to be free of chronic health conditions, based on data from a pair of related studies from the United States and United Kingdom involving nearly 200,000 individuals.
The studies, presented at the Epidemiology and Prevention/Lifestyle and Cardiometabolic Health meeting in Boston, assessed the impact of cardiovascular health on life expectancy and freedom from chronic diseases. Cardiovascular health (CVH) was based on the Life’s Essential 8 (LE8) score, a composite of health metrics released by the American Heart Association in 2022. The LE8 was developed to guide research and assessment of cardiovascular health, and includes diet, physical activity, tobacco/nicotine exposure, sleep, body mass index, non-HDL cholesterol, blood glucose, and blood pressure.
In one study, Xuan Wang, MD, a postdoctoral fellow and biostatistician in the department of epidemiology at Tulane University, New Orleans, and colleagues reviewed data from 136,599 adults in the United Kingdom Biobank who were free of cardiovascular disease, diabetes, cancer, and dementia at baseline, and for whom complete LE8 data were available.
CVH was classified as poor, intermediate, and ideal, defined as LE8 scores of less than 50, 50 to 80, and 80 or higher, respectively.
The goal of the study was to examine the role of CVH based on LE8 scores on the percentage of life expectancy free of chronic diseases.
Men and women with ideal CVH averaged 5.2 years and 6.3 years more of total life expectancy at age 50 years, compared with those with poor CVH. Out of total life expectancy, the percentage of life expectancy free of chronic diseases was 75.9% and 83.4% for men and women, respectively, compared with 64.9% and 69.4%, respectively, for men and women with poor CVH.
The researchers also found that disparities in the percentage of disease-free years for both men and women were reduced in the high CVH groups.
The findings were limited by several factors including the use of only CVD, diabetes, cancer, and dementia in the definition of “disease-free life expectancy,” the researchers noted in a press release accompanying the study. Other limitations include the lack of data on e-cigarettes, and the homogeneous White study population. More research is needed in diverse populations who experience a stronger impact from negative social determinants of health, they said.
In a second study, Hao Ma, MD, and colleagues reviewed data from 23,003 adults who participated in the National Health and Nutrition Examination Survey (NHANES) between 2005 and 2018 with mortality linked to the National Death Index through Dec. 31, 2019. The goal of the second study was to examine the association between CVH based on LE8 scores and life expectancy.
Over a median follow-up of 7.8 years, deaths occurred in 772 men and 587 women, said Dr. Ma, a postdoctoral fellow and biostatistician in epidemiology at Tulane University and coauthor on Dr. Wang’s study.
The estimated life expectancies at age 50 years for men with poor, intermediate, and ideal cardiovascular health based on the LE8 were 25.5 years, 31.2 years, and 33.1 years, respectively.
For women, the corresponding life expectancies for women at age 50 with poor, intermediate, and ideal CVH were 29.5 years, 34.2 years, and 38.4 years, respectively.
Men and women had similar gains in life expectancy from adhering to a heart-healthy lifestyle as defined by the LE8 score that reduced their risk of death from cardiovascular disease (41.8% and 44.1%, respectively).
Associations of cardiovascular health and life expectancy were similar for non-Hispanic Whites and non-Hispanic Blacks, but not among people of Mexican heritage, and more research is needed in diverse populations, the researchers wrote.
The study was limited by several factors including potential changes in cardiovascular health during the follow-up period, and by the limited analysis of racial and ethnic groups to non-Hispanic white, non-Hispanic Black, and people of Mexican heritage because of small sample sizes for other racial/ethnic groups, the researchers noted in a press release accompanying the study.
The message for clinicians and their patients is that adherence to cardiovascular health as defined by the LE8 will help not only extend life, but enhance quality of life, Dr. Xang and Dr. Ma said in an interview. “If your overall CVH score is low, we might be able to focus on one element first and improve them one by one,” they said. Sedentary lifestyle and an unhealthy diet are barriers to improving LE8 metrics that can be addressed, they added.
More research is needed to examine the effects of LE8 on high-risk patients, the researchers told this news organization. “No studies have yet focused on these patients with chronic diseases. We suspect that LE8 will play a role even in these high-risk groups,” they said. Further studies should include diverse populations and evaluations of the association between CVH change and health outcomes, they added.
“Overall, we see this 7.5-year difference [in life expectancy] going from poor to high cardiovascular health,” said Donald M. Lloyd-Jones, MD, of Northwestern University, Chicago, in a video accompanying the presentation of the study findings. The impact on life expectancy is yet another reason to motivate people to improve their cardiovascular health, said Dr. Lloyd-Jones, immediate past president of the American Heart Association and lead author on the writing group for Life’s Essential 8. “The earlier we do this, the better, and the greater the gains in life expectancy we’re likely to see in the U.S. population,” he said.
People maintaining high cardiovascular health into midlife are avoiding not only cardiovascular disease, but other chronic diseases of aging, Dr. Lloyd-Jones added. These conditions are delayed until much later in the lifespan, which allows people to enjoy better quality of life for more of their remaining years, he said.
The meeting was sponsored by the American Heart Association.
Both studies were supported by the National Heart, Lung, and Blood Institute and the National Institute of Diabetes and Digestive and Kidney Diseases, part of the National Institutes of Health; the Fogarty International Center; and the Tulane Research Centers of Excellence Awards. The researchers had no financial conflicts to disclose.
Adults who follow a heart-healthy lifestyle are more likely to live longer and to be free of chronic health conditions, based on data from a pair of related studies from the United States and United Kingdom involving nearly 200,000 individuals.
The studies, presented at the Epidemiology and Prevention/Lifestyle and Cardiometabolic Health meeting in Boston, assessed the impact of cardiovascular health on life expectancy and freedom from chronic diseases. Cardiovascular health (CVH) was based on the Life’s Essential 8 (LE8) score, a composite of health metrics released by the American Heart Association in 2022. The LE8 was developed to guide research and assessment of cardiovascular health, and includes diet, physical activity, tobacco/nicotine exposure, sleep, body mass index, non-HDL cholesterol, blood glucose, and blood pressure.
In one study, Xuan Wang, MD, a postdoctoral fellow and biostatistician in the department of epidemiology at Tulane University, New Orleans, and colleagues reviewed data from 136,599 adults in the United Kingdom Biobank who were free of cardiovascular disease, diabetes, cancer, and dementia at baseline, and for whom complete LE8 data were available.
CVH was classified as poor, intermediate, and ideal, defined as LE8 scores of less than 50, 50 to 80, and 80 or higher, respectively.
The goal of the study was to examine the role of CVH based on LE8 scores on the percentage of life expectancy free of chronic diseases.
Men and women with ideal CVH averaged 5.2 years and 6.3 years more of total life expectancy at age 50 years, compared with those with poor CVH. Out of total life expectancy, the percentage of life expectancy free of chronic diseases was 75.9% and 83.4% for men and women, respectively, compared with 64.9% and 69.4%, respectively, for men and women with poor CVH.
The researchers also found that disparities in the percentage of disease-free years for both men and women were reduced in the high CVH groups.
The findings were limited by several factors including the use of only CVD, diabetes, cancer, and dementia in the definition of “disease-free life expectancy,” the researchers noted in a press release accompanying the study. Other limitations include the lack of data on e-cigarettes, and the homogeneous White study population. More research is needed in diverse populations who experience a stronger impact from negative social determinants of health, they said.
In a second study, Hao Ma, MD, and colleagues reviewed data from 23,003 adults who participated in the National Health and Nutrition Examination Survey (NHANES) between 2005 and 2018 with mortality linked to the National Death Index through Dec. 31, 2019. The goal of the second study was to examine the association between CVH based on LE8 scores and life expectancy.
Over a median follow-up of 7.8 years, deaths occurred in 772 men and 587 women, said Dr. Ma, a postdoctoral fellow and biostatistician in epidemiology at Tulane University and coauthor on Dr. Wang’s study.
The estimated life expectancies at age 50 years for men with poor, intermediate, and ideal cardiovascular health based on the LE8 were 25.5 years, 31.2 years, and 33.1 years, respectively.
For women, the corresponding life expectancies for women at age 50 with poor, intermediate, and ideal CVH were 29.5 years, 34.2 years, and 38.4 years, respectively.
Men and women had similar gains in life expectancy from adhering to a heart-healthy lifestyle as defined by the LE8 score that reduced their risk of death from cardiovascular disease (41.8% and 44.1%, respectively).
Associations of cardiovascular health and life expectancy were similar for non-Hispanic Whites and non-Hispanic Blacks, but not among people of Mexican heritage, and more research is needed in diverse populations, the researchers wrote.
The study was limited by several factors including potential changes in cardiovascular health during the follow-up period, and by the limited analysis of racial and ethnic groups to non-Hispanic white, non-Hispanic Black, and people of Mexican heritage because of small sample sizes for other racial/ethnic groups, the researchers noted in a press release accompanying the study.
The message for clinicians and their patients is that adherence to cardiovascular health as defined by the LE8 will help not only extend life, but enhance quality of life, Dr. Xang and Dr. Ma said in an interview. “If your overall CVH score is low, we might be able to focus on one element first and improve them one by one,” they said. Sedentary lifestyle and an unhealthy diet are barriers to improving LE8 metrics that can be addressed, they added.
More research is needed to examine the effects of LE8 on high-risk patients, the researchers told this news organization. “No studies have yet focused on these patients with chronic diseases. We suspect that LE8 will play a role even in these high-risk groups,” they said. Further studies should include diverse populations and evaluations of the association between CVH change and health outcomes, they added.
“Overall, we see this 7.5-year difference [in life expectancy] going from poor to high cardiovascular health,” said Donald M. Lloyd-Jones, MD, of Northwestern University, Chicago, in a video accompanying the presentation of the study findings. The impact on life expectancy is yet another reason to motivate people to improve their cardiovascular health, said Dr. Lloyd-Jones, immediate past president of the American Heart Association and lead author on the writing group for Life’s Essential 8. “The earlier we do this, the better, and the greater the gains in life expectancy we’re likely to see in the U.S. population,” he said.
People maintaining high cardiovascular health into midlife are avoiding not only cardiovascular disease, but other chronic diseases of aging, Dr. Lloyd-Jones added. These conditions are delayed until much later in the lifespan, which allows people to enjoy better quality of life for more of their remaining years, he said.
The meeting was sponsored by the American Heart Association.
Both studies were supported by the National Heart, Lung, and Blood Institute and the National Institute of Diabetes and Digestive and Kidney Diseases, part of the National Institutes of Health; the Fogarty International Center; and the Tulane Research Centers of Excellence Awards. The researchers had no financial conflicts to disclose.
Adults who follow a heart-healthy lifestyle are more likely to live longer and to be free of chronic health conditions, based on data from a pair of related studies from the United States and United Kingdom involving nearly 200,000 individuals.
The studies, presented at the Epidemiology and Prevention/Lifestyle and Cardiometabolic Health meeting in Boston, assessed the impact of cardiovascular health on life expectancy and freedom from chronic diseases. Cardiovascular health (CVH) was based on the Life’s Essential 8 (LE8) score, a composite of health metrics released by the American Heart Association in 2022. The LE8 was developed to guide research and assessment of cardiovascular health, and includes diet, physical activity, tobacco/nicotine exposure, sleep, body mass index, non-HDL cholesterol, blood glucose, and blood pressure.
In one study, Xuan Wang, MD, a postdoctoral fellow and biostatistician in the department of epidemiology at Tulane University, New Orleans, and colleagues reviewed data from 136,599 adults in the United Kingdom Biobank who were free of cardiovascular disease, diabetes, cancer, and dementia at baseline, and for whom complete LE8 data were available.
CVH was classified as poor, intermediate, and ideal, defined as LE8 scores of less than 50, 50 to 80, and 80 or higher, respectively.
The goal of the study was to examine the role of CVH based on LE8 scores on the percentage of life expectancy free of chronic diseases.
Men and women with ideal CVH averaged 5.2 years and 6.3 years more of total life expectancy at age 50 years, compared with those with poor CVH. Out of total life expectancy, the percentage of life expectancy free of chronic diseases was 75.9% and 83.4% for men and women, respectively, compared with 64.9% and 69.4%, respectively, for men and women with poor CVH.
The researchers also found that disparities in the percentage of disease-free years for both men and women were reduced in the high CVH groups.
The findings were limited by several factors including the use of only CVD, diabetes, cancer, and dementia in the definition of “disease-free life expectancy,” the researchers noted in a press release accompanying the study. Other limitations include the lack of data on e-cigarettes, and the homogeneous White study population. More research is needed in diverse populations who experience a stronger impact from negative social determinants of health, they said.
In a second study, Hao Ma, MD, and colleagues reviewed data from 23,003 adults who participated in the National Health and Nutrition Examination Survey (NHANES) between 2005 and 2018 with mortality linked to the National Death Index through Dec. 31, 2019. The goal of the second study was to examine the association between CVH based on LE8 scores and life expectancy.
Over a median follow-up of 7.8 years, deaths occurred in 772 men and 587 women, said Dr. Ma, a postdoctoral fellow and biostatistician in epidemiology at Tulane University and coauthor on Dr. Wang’s study.
The estimated life expectancies at age 50 years for men with poor, intermediate, and ideal cardiovascular health based on the LE8 were 25.5 years, 31.2 years, and 33.1 years, respectively.
For women, the corresponding life expectancies for women at age 50 with poor, intermediate, and ideal CVH were 29.5 years, 34.2 years, and 38.4 years, respectively.
Men and women had similar gains in life expectancy from adhering to a heart-healthy lifestyle as defined by the LE8 score that reduced their risk of death from cardiovascular disease (41.8% and 44.1%, respectively).
Associations of cardiovascular health and life expectancy were similar for non-Hispanic Whites and non-Hispanic Blacks, but not among people of Mexican heritage, and more research is needed in diverse populations, the researchers wrote.
The study was limited by several factors including potential changes in cardiovascular health during the follow-up period, and by the limited analysis of racial and ethnic groups to non-Hispanic white, non-Hispanic Black, and people of Mexican heritage because of small sample sizes for other racial/ethnic groups, the researchers noted in a press release accompanying the study.
The message for clinicians and their patients is that adherence to cardiovascular health as defined by the LE8 will help not only extend life, but enhance quality of life, Dr. Xang and Dr. Ma said in an interview. “If your overall CVH score is low, we might be able to focus on one element first and improve them one by one,” they said. Sedentary lifestyle and an unhealthy diet are barriers to improving LE8 metrics that can be addressed, they added.
More research is needed to examine the effects of LE8 on high-risk patients, the researchers told this news organization. “No studies have yet focused on these patients with chronic diseases. We suspect that LE8 will play a role even in these high-risk groups,” they said. Further studies should include diverse populations and evaluations of the association between CVH change and health outcomes, they added.
“Overall, we see this 7.5-year difference [in life expectancy] going from poor to high cardiovascular health,” said Donald M. Lloyd-Jones, MD, of Northwestern University, Chicago, in a video accompanying the presentation of the study findings. The impact on life expectancy is yet another reason to motivate people to improve their cardiovascular health, said Dr. Lloyd-Jones, immediate past president of the American Heart Association and lead author on the writing group for Life’s Essential 8. “The earlier we do this, the better, and the greater the gains in life expectancy we’re likely to see in the U.S. population,” he said.
People maintaining high cardiovascular health into midlife are avoiding not only cardiovascular disease, but other chronic diseases of aging, Dr. Lloyd-Jones added. These conditions are delayed until much later in the lifespan, which allows people to enjoy better quality of life for more of their remaining years, he said.
The meeting was sponsored by the American Heart Association.
Both studies were supported by the National Heart, Lung, and Blood Institute and the National Institute of Diabetes and Digestive and Kidney Diseases, part of the National Institutes of Health; the Fogarty International Center; and the Tulane Research Centers of Excellence Awards. The researchers had no financial conflicts to disclose.
FROM EPI/LIFESTYLE 2023
High CV risk factor burden in young adults a ‘smoldering’ crisis
New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.
In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.
Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.
The findings are “extremely concerning. We’re witnessing a smoldering public health crisis. The onset of these risk factors earlier in life is associated with a higher lifetime risk of heart disease and potentially life-threatening,” Dr. Wadhera added.
The study was presented March 5 at the joint scientific sessions of the American College of Cardiology and the World Heart Federation and was simultaneously published in JAMA.
The burden of CV risk factors among young adults is “unacceptably high and increasing,” write the co-authors of a JAMA editorial.
“The time is now for aggressive preventive measures in young adults. Without immediate action there will continue to be a rise in heart disease and the burden it places on patients, families, and communities,” say Norrina Allen, PhD, and John Wilkins, MD, with Northwestern University, Chicago.
Preventing a tsunami of heart disease
The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.
Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.
Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).
Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.
The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).
“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.
“Even in the lipid control, while it did get a little bit better, it’s still only around 30%-40%. So, I think we have ways to go as a society,” Dr. Berger noted.
Double down on screening
Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”
“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.
Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”
As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”
“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.
“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.
In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”
The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.
In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.
Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.
The findings are “extremely concerning. We’re witnessing a smoldering public health crisis. The onset of these risk factors earlier in life is associated with a higher lifetime risk of heart disease and potentially life-threatening,” Dr. Wadhera added.
The study was presented March 5 at the joint scientific sessions of the American College of Cardiology and the World Heart Federation and was simultaneously published in JAMA.
The burden of CV risk factors among young adults is “unacceptably high and increasing,” write the co-authors of a JAMA editorial.
“The time is now for aggressive preventive measures in young adults. Without immediate action there will continue to be a rise in heart disease and the burden it places on patients, families, and communities,” say Norrina Allen, PhD, and John Wilkins, MD, with Northwestern University, Chicago.
Preventing a tsunami of heart disease
The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.
Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.
Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).
Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.
The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).
“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.
“Even in the lipid control, while it did get a little bit better, it’s still only around 30%-40%. So, I think we have ways to go as a society,” Dr. Berger noted.
Double down on screening
Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”
“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.
Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”
As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”
“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.
“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.
In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”
The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
New data show a high and rising burden of most cardiovascular (CV) risk factors among young adults aged 20-44 years in the United States.
In this age group, over the past 10 years, there has been an increase in the prevalence of diabetes and obesity, no improvement in the prevalence of hypertension, and a decrease in the prevalence of hyperlipidemia.
Yet medical treatment rates for CV risk factors are “surprisingly” low among young adults, study investigator Rishi Wadhera, MD, with Beth Israel Deaconess Medical Center and Harvard Medical School, both in Boston, told this news organization.
The findings are “extremely concerning. We’re witnessing a smoldering public health crisis. The onset of these risk factors earlier in life is associated with a higher lifetime risk of heart disease and potentially life-threatening,” Dr. Wadhera added.
The study was presented March 5 at the joint scientific sessions of the American College of Cardiology and the World Heart Federation and was simultaneously published in JAMA.
The burden of CV risk factors among young adults is “unacceptably high and increasing,” write the co-authors of a JAMA editorial.
“The time is now for aggressive preventive measures in young adults. Without immediate action there will continue to be a rise in heart disease and the burden it places on patients, families, and communities,” say Norrina Allen, PhD, and John Wilkins, MD, with Northwestern University, Chicago.
Preventing a tsunami of heart disease
The findings stem from a cross-sectional study of 12,294 U.S. adults aged 20-44 years (mean age, 32; 51% women) who participated in National Health and Nutrition Examination Survey (NHANES) cycles for 2009-2010 to 2017-2020.
Overall, the prevalence of hypertension was 9.3% in 2009-2010 and increased to 11.5% in 2017-2020. The prevalence of diabetes rose from 3.0% to 4.1%, and the prevalence of obesity rose from 32.7% to 40.9%. The prevalence of hyperlipidemia decreased from 40.5% to 36.1%.
Black adults consistently had high rates of hypertension during the study period – 16.2% in 2009-2010 and 20.1% in 2017-2020 – and significant increases in hypertension occurred among Mexican American adults (from 6.5% to 9.5%) and other Hispanic adults (from 4.4% to 10.5%), while Mexican American adults had a significant uptick in diabetes (from 4.3% to 7.5%).
Equally concerning, said Dr. Wadhera, is the fact that only about 55% of young adults with hypertension were receiving antihypertensive medication, and just 1 in 2 young adults with diabetes were receiving treatment. “These low rates were driven, in part, by many young adults not being aware of their diagnosis,” he noted.
The NHANES data also show that the percentage of young adults who were treated for hypertension and who achieved blood pressure control did not change significantly over the study period (65.0% in 2009-2010 and 74.8% in 2017-2020). Blood sugar control among young adults being treated for diabetes remained suboptimal throughout the study period (45.5% in 2009-2010 and 56.6% in 2017-2020).
“The fact that blood pressure control and glycemic control are so poor is really worrisome,” Jeffrey Berger, MD, director of the Center for the Prevention of Cardiovascular Disease at NYU Langone Heart, who wasn’t involved in the study, told this news organization.
“Even in the lipid control, while it did get a little bit better, it’s still only around 30%-40%. So, I think we have ways to go as a society,” Dr. Berger noted.
Double down on screening
Dr. Wadhera said “we need to double down on efforts to screen for and treat cardiovascular risk factors like high blood pressure and diabetes in young adults. We need to intensify clinical and public health interventions focused on primordial and primary prevention in young adults now so that we can avoid a tsunami of cardiovascular disease in the long term.”
“It’s critically important that young adults speak with their health care provider about whether – and when – they should undergo screening for high blood pressure, diabetes, and high cholesterol,” Dr. Wadhera added.
Dr. Berger said one problem is that younger people often have a “superman or superwoman” view and don’t comprehend that they are at risk for some of these conditions. Studies such as this “reinforce the idea that it’s never too young to be checked out.”
As a cardiologist who specializes in cardiovascular prevention, Dr. Berger said he sometimes hears patients say things like, “I don’t ever want to need a cardiologist,” or “I hope I never need a cardiologist.”
“My response is, ‘There are many different types of cardiologists,’ and I think it would really be helpful for many people to see a prevention-focused cardiologist way before they have problems,” he said in an interview.
“As a system, medicine has become very good at treating patients with different diseases. I think we need to get better in terms of preventing some of these problems,” Dr. Berger added.
In their editorial, Dr. Allen and Dr. Wilkins say the “foundation of cardiovascular health begins early in life. These worsening trends in risk factors highlight the importance of focusing on prevention in adolescence and young adulthood in order to promote cardiovascular health across the lifetime.”
The study was funded by a grant from the National Heart, Lung, and Blood Institute. Dr. Wadhera has served as a consultant for Abbott and CVS Health. Dr. Wilkins has received personal fees from 3M. Dr. Berger has disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ACC 2023
COORDINATEd effort boosts optimal therapy in patients with T2D and ASCVD
NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.
Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.
“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.
“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.
The goal is getting patients on triple therapy
The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.
Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.
Simultaneously with her report, the findings also appeared online in JAMA.
At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.
At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.
Effective interventions and the need for a champion
The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:
- Analysis of the barriers to evidence-based care at each clinic.
- Development of local interdisciplinary care pathways to address the identified barriers.
- Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
- Education of the clinic staff, including provision of educational materials.
- Auditing of clinic performance using specified metrics and feedback on the findings.
Clinics in the usual care group were given current clinical practice guidelines.
The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.
Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.
“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.
Research advances often don’t translate into management changes
“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.
“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.
“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”
The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.
The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.
COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.
NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.
Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.
“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.
“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.
The goal is getting patients on triple therapy
The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.
Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.
Simultaneously with her report, the findings also appeared online in JAMA.
At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.
At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.
Effective interventions and the need for a champion
The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:
- Analysis of the barriers to evidence-based care at each clinic.
- Development of local interdisciplinary care pathways to address the identified barriers.
- Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
- Education of the clinic staff, including provision of educational materials.
- Auditing of clinic performance using specified metrics and feedback on the findings.
Clinics in the usual care group were given current clinical practice guidelines.
The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.
Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.
“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.
Research advances often don’t translate into management changes
“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.
“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.
“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”
The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.
The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.
COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.
NEW ORLEANS – Twenty cardiology clinics successfully intensified the medical care they gave patients with type 2 diabetes (T2D) and atherosclerotic cardiovascular disease (ASCVD) after receiving a simple and scalable investigational intervention that gave the clinics’ staffs guidance on best prescribing practices and implementation and also provided quality-improvement feedback.
Within a year, these clinics quadrupled optimal medical management of these patients, compared with control clinics, in a randomized trial involving a total of 43 clinics and 1,049 patients.
“This multifaceted intervention is effective in increasing the prescription of evidence-based therapies in adults with T2D and ASCVD,” Neha J. Pagidipati, MD, said at the joint scientific sessions of the American College of Cardiology and the World Heart Federation.
“The next step is to scale this intervention across cardiology practices” interested in improving the quality of care they deliver to these patients, added Dr. Pagidipati, a cardiologist specializing in cardiometabolic disease prevention at Duke University in Durham, N.C.
The goal is getting patients on triple therapy
The primary outcome of the COORDINATE-Diabetes trial was the change in the number of patients with T2D and ASCVD who received prescriptions for agents from three recommended medication classes and at recommended dosages: a high-intensity statin, a renin-angiotensin system inhibitor (RASi), and at least one agent from either of two classes that have both cardiovascular-protective and antihyperglycemic effects: the sodium-glucose cotransporter 2 (SGLT2) inhibitors, or the glucagonlike peptide 1 (GLP-1)–receptor agonists.
Among the 457 patients treated at the 20 cardiology clinics who received the quality-improvement intervention, 37.9% were on the promoted triple therapy after 12 months, compared with 14.5% of the 588 patients treated at the 23 clinics that continued with their usual care approach. This 23.4–percentage point increase in triple-class prescribing at recommended dosages represented a significant 4.4-fold increase in the goal prescribing endpoint after adjustment for possible confounders, Dr. Pagidipati reported.
Simultaneously with her report, the findings also appeared online in JAMA.
At baseline, 41%-50% of the patients were on both a high-intensity statin and a RASi, with a total of about 58%-67% on a high-intensity statin and about 70%-75% on a RASi. Fewer than 1% of patients were on SGLT2 inhibitors or GLP-1–receptor agonists at baseline. By design, no patient could be on all three categories of medication at baseline.
At their last follow-up visit (after 12 months for 97% of patients, or after 6 months for the remainder) 71% of the patients at practices that received the intervention were on a high-intensity statin, 81% were taking a RASi, and 60% were on an SGLT2 inhibitor or GLP-1–receptor agonist. Among the control patients, 58% were on a high-intensity statin, 68% on a RASi, and 36% were on one of the antihyperglycemic agents.
Effective interventions and the need for a champion
The clinics randomized to the active arm received instruction from a three-member team, either from an in-person or virtual one-time visit, on an intervention comprising several initiatives:
- Analysis of the barriers to evidence-based care at each clinic.
- Development of local interdisciplinary care pathways to address the identified barriers.
- Facilitation of care coordination among clinicians – particularly among cardiology, endocrinology, and primary care clinicians.
- Education of the clinic staff, including provision of educational materials.
- Auditing of clinic performance using specified metrics and feedback on the findings.
Clinics in the usual care group were given current clinical practice guidelines.
The investigational intervention was, by design, “low-tech and designed to be scalable,” explained Dr. Pagidipati, and once the COVID pandemic started the intervention team shifted to a virtual consultation with participating practices that was mostly front-loaded, followed by monthly phone calls to give clinics feedback on their progress.
Among the most helpful aspects of the intervention was involving the entire clinic staff, including pharmacists, nurses, and advanced care practitioners; boosting familiarity with the relevant medications and their appropriate use; and advice on navigating insurance-coverage barriers such as prior authorizations.
“What was most critical was having a local champion who took on making this effort an important part” of what the clinic was trying to do, she explained. “All it takes is passion, and the tenacity of a bulldog,” Dr. Pagidipati said.
Research advances often don’t translate into management changes
“We don’t do a great job of translating findings from trials to patient care, so any method we can use to improve that will improve practice,” commented Kristen B. Campbell, PharmD, a clinical pharmacist at Duke who was not involved in the study.
“Although the trial was not powered to look at patient outcomes, we think that patients will benefit” because all the recommended medication uses have been proven to help patients in prior trials, Dr. Campbell noted.
“A particular strength of this study was its simple design. All the interventions are low-tech and scalable.”
The low level of use of guideline-directed medical therapy in American adults with type 2 diabetes and atherosclerotic cardiovascular disease is “incredible,” said Christopher B. Granger, MD, a senior investigator on the study and a cardiologist and professor at Duke.
The researchers who ran the study are now focused on evaluating which cardiology clinics and patients had the most success from the intervention and are using that information to further refine implementation. They are also planning to encourage cardiology practices as well as other relevant medical groups to incorporate the intervention and implementation model used in the trial. The intervention program is detailed and available at no charge on the COORDINATE-Diabetes website.
COORDINATE-Diabetes received funding from Boehringer Ingelheim and Eli Lilly. Dr. Pagidipati has received personal fees from Boehringer Ingelheim, Lilly, AstraZeneca, Novartis, Novo Nordisk, Merck, and CRISPR Therapeutics, and she has received research grants from Amgen, Novartis, Novo Nordisk, and Eggland’s Best. Dr. Campbell had no disclosures. Dr. Granger has received personal fees and research funding from numerous companies.
AT ACC 2023
Biomarkers linked to elevated T2D MACE risk in DECLARE-TIMI 58
The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.
“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”
Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
Study results
The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.
The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).
Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.
Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).
“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”
Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
Results clarify which patients will benefit
This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.
“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”
The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”
He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.
Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.
Dr. Budoff has no relevant disclosures.
The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.
“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”
Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
Study results
The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.
The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).
Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.
Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).
“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”
Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
Results clarify which patients will benefit
This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.
“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”
The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”
He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.
Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.
Dr. Budoff has no relevant disclosures.
The researchers found that N-terminal pro-B-type natriuretic peptide (NT-proBNP) and high-sensitivity cardiac troponin T (hsTnT) levels helped identify a subset of T2D patients at higher risk of major adverse cardiovascular events who would benefit most from dapagliflozin.
“We’ve shown previously that these two biomarkers are very robust risk indicators for cardiovascular death and heart failure events,” senior study author David A. Morrow, MD, of Harvard University, Boston, said in an interview. “In this study, we now show that the two biomarkers also yield important prognostic information for MACE [major adverse cardiovascular events].”
Although NT-proBNP is typically measured to diagnose heart failure, and hsTnT to diagnose acute MI, Dr. Morrow pointed out that this analysis demonstrated the potential for using the two tests to evaluate risks in T2D patients.
Study results
The secondary analysis included 14,565 patients in the DECLARE-TIMI 58 trial. The patients had T2D and multiple risk factors for atherosclerotic cardiovascular disease (about 60%) or established ASCVD (about 40%). All patients had available blood samples and the data were collected from May 2013 to September 2018. The primary outcome was MACE, a composite of MI, ischemic stroke, and cardiovascular death. The results were reported online in JAMA Cardiology.
The analysis found that higher baseline concentrations of NT-proBNP increased MACE risks by 62% (95% confidence interval, 1.49-1.76) and hsTnT elevated those risks by 59% (95% CI, 1.46-1.74).
Among placebo patients, when divided into risk quartiles, those in the highest quartile had significantly higher risk with both elevated NT-proBNP and hsTnT, compared with those with low concentrations. For example, patients with established ASCVD had a 22.9% risk vs. 9.5% with elevated NT-proBNP (P < .001) and a 24.2% vs. 7.2% risk with elevated hsTnT (P < .001). The gap was similar for patients with multiple risk factors.
Dr. Morrow noted that the main DECLARE-TIMI 58 trial showed that dapagliflozin reduced the rates of cardiovascular death or hospitalization for heart failure in patients with T2D, when compared to placebo, but didn’t reach statistical significance for MACE (N Engl J Med. 2019;380:347-57).
“We have previously shown that among patients with T2D who have high risk indicators, such as prior MI or long-standing diabetes, dapagliflozin also appeared to reduce MACE,” Dr. Morrow said. “In this study, we find that these two widely available biomarkers also identify a high-risk group who may have even more potential benefits from treatment with an SGLT2i.”
Dr. Morrow noted that the study design – a nested prospective biomarker study within a randomized, double-blind, placebo-controlled clinical trial – “is a particular strength.”
Results clarify which patients will benefit
This secondary analysis of DECLARE-TIMI 58 brings more clarity to the types of T2D patients who will get the most cardiovascular benefits from dapagliflozin, said Matthew J. Budoff, MD, professor of medicine at University of California, Los Angeles, and Endowed Chair of Preventive Cardiology at the Lundquist Institute in Torrance, Calif.
“The big picture is, we’ve known for some time from epidemiologic studies that these biomarkers, when they’re elevated, mean that the patient is at higher risk of having a cardiovascular event,” he said, “but I think what it helps us with is in knowing in whom to use dapagliflozin for prevention of ASCVD. The effect in the DECLARE-TIMI 58 trial was quite modest, but if you can subgroup it, in these high-risk people there’s a more profound effect. It helps in risk stratification because the absolute benefit is larger.”
The specific biomarkers, NT-proBNP and hsTnT, “haven’t been explored very much in clinical trials,” Dr. Budoff said, “so I do think that it’s nice that in a randomized trial it plays out the way we might expect.”
He added that “for many clinicians this is novel, because I don’t think they were aware of the biomarker data, so I think that this does add some clinical benefit in that context.” The findings also strengthen the case to get T2D patients with higher ASCVD risk onto SGLT2 inhibitors if they’re not already, he said.
Dr. Morrow disclosed relationships with AstraZeneca, Roche Diagnostics, Abbott Laboratories, Anthos Therapeutics, ARCA Biopharma, Merck, Novartis, Pfizer, Regeneron, Siemens, and InCarda outside the reported work.
Dr. Budoff has no relevant disclosures.
FROM JAMA CARDIOLOGY
Lilly cuts insulin price by 70%, caps out-of-pocket cost
Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.
“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.
The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.
The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.
Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.
Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.
Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”
On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”
#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.
Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.
“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.
“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”
And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.
“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”
Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.
A version of this article first appeared on Medscape.com.
Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.
“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.
The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.
The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.
Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.
Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.
Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”
On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”
#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.
Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.
“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.
“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”
And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.
“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”
Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.
A version of this article first appeared on Medscape.com.
Eli Lilly will cut prices for most of its insulins in the United States by 70% and cap out-of-pocket costs for insulin at $35 per month, the company announced on March 1.
“Lilly is taking these actions to make it easier to access Lilly insulin and help Americans who may have difficulty navigating a complex healthcare system that may keep them from getting affordable insulin,” the company said in a statement.
The $35 price cap is effective immediately at participating retail pharmacies for people with commercial insurance. Those without insurance can go to InsulinAffordability.com and download the Lilly Insulin Value Program savings card to receive Lilly insulins for $35 per month.
The company says it will cut the list price of its nonbranded Insulin Lispro Injection 100 units/mL to $25 a vial, effective May 1, 2023. The list price of the branded Humalog (insulin lispro injection) 100 units/mL will be cut by 70%, effective in the fourth quarter of 2023.
Lilly is among the three main companies that manufacture insulin, along with Novo Nordisk and Sanofi, that have come under fire over the cost of insulin in the US. Studies have shown that up to 25% of people with type 1 diabetes ration insulin because of costs, putting their health and often their lives in jeopardy.
Prices in the United States are around 10 times higher than in other countries. California is the latest state to say it plans to sue these big three companies over the high price of insulin and has announced plans to make its own cheaper versions.
Asked at a telephone press briefing if the lawsuit prompted the company’s move, Lilly chair and CEO David A. Ricks said: “Of course there are complaints against the industry and the company. We see those as completely unfounded. However, we can probably all agree that patients should have a consistent and lower-cost experience at the pharmacy counter, and that’s what today’s announcement is about. We’re doing this completely voluntarily because it’s time and it’s the right thing to do.”
On hearing the company announcement, Laura Nally, MD, a pediatric endocrinologist living with type 1 diabetes, @drnallypants, tweeted: “YES. After years of advocacy, the list price of Lispro/Humalog is now similar to what it was in the late 1990s. Cheers to all the #pwd [people with diabetes] who have advocated through #insulin4all! But we still have work to do to improve access to other diabetes medications & supplies.”
#insulin4all is a worldwide campaign to ensure that people with type 1 diabetes have access to affordable insulin and other supplies needed to manage the condition, such as glucose strips. It is supported, among others, by the advocacy group T1International.
Also giving his reaction to the Lilly announcement, Chuck Henderson, CEO of the American Diabetes Association, said: “We applaud Eli Lilly for taking the important step to limit cost-sharing for its insulin, and we encourage other insulin manufacturers to do the same.
“While we have been able to help achieve significant progress on the issue of insulin affordability, including Medicare’s new out-of-pocket cost cap on insulin, state copay caps, and patient assistance developments from insulin manufacturers, we know that our work is not done,” he added.
“ADA will work to ensure that Eli Lilly’s patient assistance program is benefiting patients as intended and continue the fight so that everyone who needs insulin has access.”
And Endocrine Society chief medical officer Robert Lash, MD, said: “Lilly’s move to apply a $35/month cap for people with private insurance will be a significant improvement for adults and children with diabetes who use Lilly’s products.
“We encourage all insulin manufacturers to join in the effort to reduce out-of-pocket costs for people who need insulin.”
Lilly will also launch a new insulin biosimilar, Rezvoglar (insulin glargine-aglr) injection, which is similar to and interchangeable with insulin glargine (Lantus). The cost will by $92 for a five pack of KwikPens, a 78% discount, compared with the cost of Lantus, beginning April 1, 2023.
A version of this article first appeared on Medscape.com.
Insomnia, short sleep linked to greater risk for MI
Insomnia – difficulty falling or staying asleep – was associated with a 69% greater risk of having a myocardial infarction than among adults without insomnia, according to new research.
Those who slept 5 or fewer hours per night had the highest risk for MI, and those with both diabetes and insomnia had double the risk for MI, compared with patients without these comorbidities.
The findings are from a meta-analysis of studies in more than 1 million patients, almost all without prior MI who were, on average, in their early 50s and followed for 9 years.
Yomna E. Dean, a medical student at Alexandria (Egypt) University, reported these results in a press briefing, and the study was simultaneously published in Clinical Cardiology. It will be presented at the upcoming at the annual scientific sessions of the American College of Cardiology.
“Insomnia and ]at least] 5 hours of sleep are highly associated with increased incidence of MI, an association comparable to that of other MI risk factors and as such, it should be considered as a risk factor for MI and to be incorporated into MI prevention guidelines,” the researchers concluded.
“We believe that [insomnia] should be screened and patients should be educated about the importance of sleep because nowadays insomnia is no longer a disease – sleep deprivation could also be a life choice,” Ms, Dean told a press conference prior to the meeting.
“Clinicians must educate the patients about the importance of sleep in maintaining a healthy heart and encourage proper sleep hygiene,” Ms. Dean reiterated in an email. “And if a patient still has insomnia, other methods should be considered such as cognitive-behavior[al] therapy for insomnia [CBT-I].”
Adds to growing evidence
This study does not allow any conclusion about whether treating insomnia will reduce heart attack risk, Jennifer L. Martin, PhD, president of the American Academy of Sleep Medicine, noted in a comment. Nor does it report the diversity of study participants, since insomnia is also a health equity issue, she noted, and insomnia symptoms and comorbidities were self-reported.
However, this analysis “adds to the growing evidence that poor quality or insufficient sleep is associated with poor health,” said Dr. Martin, professor of medicine at the University of California, Los Angeles, who was not involved with this research.
The study reinforces the recommendation from the American Heart Association, which includes “Get Healthy Sleep” as one of “Life’s Essential 8” for heart health, Dr. Martin noted.
“Particularly in primary care where disease prevention and health promotion are important, clinicians should be asking all patients about their sleep – just like they ask about diet and exercise – as a key aspect of maintaining heart health,” she said.
Advice about basic sleep hygiene advice is a first step, she noted.
When improved sleep hygiene is not enough to address chronic insomnia, the AASM’s clinical practice guidelines and the guidelines of the Department of Veterans Affairs/Department of Defense, recommend first-line treatment with CBT-I, typically offered by a sleep specialist or mental health clinician.
Similarly, the American College of Physicians suggests that sleeping pills should be reserved for short-term use in patients who may not benefit sufficiently from CBT-I.
Sleeping too little, too much, equally harmful
“Studies have found that insomnia and subsequent sleep deprivation puts the body under stress,” Ms. Dean said. “This triggers cortisol release which could accelerate atherosclerosis,” and increase risk of MI.
For this analysis, the researchers identified nine observational studies, published from 1998 to 2019, with data on incident MI in adults who had insomnia.
The diagnosis of insomnia was based on ICD diagnostic codes or on the DSM‐5, which defines insomnia as the presence of any of the following three symptoms: difficulty initiating sleep, difficulty maintaining sleep, or early morning awakening with inability to return to sleep. Patients with sleep apnea were excluded.
The studies were in populations in China, Germany, Norway, Taiwan, United Kingdom, and United States, in 1.1 million adults aged 18 and older. The patients had a mean age of 52 years and 13% had insomnia.
During follow-up, 2,406 of 153,881 patients with insomnia, and 12,398 of 1,030,375 patients without insomnia had an MI.
In the pooled analysis, patients with insomnia had a significantly increased risk of MI (relative risk, 1.69; P < .00001), after adjusting for age, gender, diabetes, hypertension, high cholesterol, and smoking.
Sleeping 5 hours or less was associated with a greater risk for MI than sleeping 6 hours, or 7-8 hours, but sleeping 9 hours or more was just as harmful.
Patients who had difficulty initiating and maintaining sleep – two symptoms of insomnia – had a 13% increased risk for MI compared with other patients (RR, 1.13; P = .003).
However, patients who had nonrestorative sleep and daytime dysfunction despite adequate sleep – which is common – did not have an increased risk of MI, compared with other patients (RR, 1.06; P = .46).
Women with insomnia had a 2.24-fold greater risk for MI than other women, whereas men with insomnia had a 2.03-fold greater risk for MI than other men.
Patients with insomnia had a greater risk for MI than those without insomnia in subgroups based on patients’ age (< 65 and > 65), follow up duration (≤ 5 years and > 5 years), and comorbidities (diabetes, hypertension, and hyperlipidemia).
The authors reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Insomnia – difficulty falling or staying asleep – was associated with a 69% greater risk of having a myocardial infarction than among adults without insomnia, according to new research.
Those who slept 5 or fewer hours per night had the highest risk for MI, and those with both diabetes and insomnia had double the risk for MI, compared with patients without these comorbidities.
The findings are from a meta-analysis of studies in more than 1 million patients, almost all without prior MI who were, on average, in their early 50s and followed for 9 years.
Yomna E. Dean, a medical student at Alexandria (Egypt) University, reported these results in a press briefing, and the study was simultaneously published in Clinical Cardiology. It will be presented at the upcoming at the annual scientific sessions of the American College of Cardiology.
“Insomnia and ]at least] 5 hours of sleep are highly associated with increased incidence of MI, an association comparable to that of other MI risk factors and as such, it should be considered as a risk factor for MI and to be incorporated into MI prevention guidelines,” the researchers concluded.
“We believe that [insomnia] should be screened and patients should be educated about the importance of sleep because nowadays insomnia is no longer a disease – sleep deprivation could also be a life choice,” Ms, Dean told a press conference prior to the meeting.
“Clinicians must educate the patients about the importance of sleep in maintaining a healthy heart and encourage proper sleep hygiene,” Ms. Dean reiterated in an email. “And if a patient still has insomnia, other methods should be considered such as cognitive-behavior[al] therapy for insomnia [CBT-I].”
Adds to growing evidence
This study does not allow any conclusion about whether treating insomnia will reduce heart attack risk, Jennifer L. Martin, PhD, president of the American Academy of Sleep Medicine, noted in a comment. Nor does it report the diversity of study participants, since insomnia is also a health equity issue, she noted, and insomnia symptoms and comorbidities were self-reported.
However, this analysis “adds to the growing evidence that poor quality or insufficient sleep is associated with poor health,” said Dr. Martin, professor of medicine at the University of California, Los Angeles, who was not involved with this research.
The study reinforces the recommendation from the American Heart Association, which includes “Get Healthy Sleep” as one of “Life’s Essential 8” for heart health, Dr. Martin noted.
“Particularly in primary care where disease prevention and health promotion are important, clinicians should be asking all patients about their sleep – just like they ask about diet and exercise – as a key aspect of maintaining heart health,” she said.
Advice about basic sleep hygiene advice is a first step, she noted.
When improved sleep hygiene is not enough to address chronic insomnia, the AASM’s clinical practice guidelines and the guidelines of the Department of Veterans Affairs/Department of Defense, recommend first-line treatment with CBT-I, typically offered by a sleep specialist or mental health clinician.
Similarly, the American College of Physicians suggests that sleeping pills should be reserved for short-term use in patients who may not benefit sufficiently from CBT-I.
Sleeping too little, too much, equally harmful
“Studies have found that insomnia and subsequent sleep deprivation puts the body under stress,” Ms. Dean said. “This triggers cortisol release which could accelerate atherosclerosis,” and increase risk of MI.
For this analysis, the researchers identified nine observational studies, published from 1998 to 2019, with data on incident MI in adults who had insomnia.
The diagnosis of insomnia was based on ICD diagnostic codes or on the DSM‐5, which defines insomnia as the presence of any of the following three symptoms: difficulty initiating sleep, difficulty maintaining sleep, or early morning awakening with inability to return to sleep. Patients with sleep apnea were excluded.
The studies were in populations in China, Germany, Norway, Taiwan, United Kingdom, and United States, in 1.1 million adults aged 18 and older. The patients had a mean age of 52 years and 13% had insomnia.
During follow-up, 2,406 of 153,881 patients with insomnia, and 12,398 of 1,030,375 patients without insomnia had an MI.
In the pooled analysis, patients with insomnia had a significantly increased risk of MI (relative risk, 1.69; P < .00001), after adjusting for age, gender, diabetes, hypertension, high cholesterol, and smoking.
Sleeping 5 hours or less was associated with a greater risk for MI than sleeping 6 hours, or 7-8 hours, but sleeping 9 hours or more was just as harmful.
Patients who had difficulty initiating and maintaining sleep – two symptoms of insomnia – had a 13% increased risk for MI compared with other patients (RR, 1.13; P = .003).
However, patients who had nonrestorative sleep and daytime dysfunction despite adequate sleep – which is common – did not have an increased risk of MI, compared with other patients (RR, 1.06; P = .46).
Women with insomnia had a 2.24-fold greater risk for MI than other women, whereas men with insomnia had a 2.03-fold greater risk for MI than other men.
Patients with insomnia had a greater risk for MI than those without insomnia in subgroups based on patients’ age (< 65 and > 65), follow up duration (≤ 5 years and > 5 years), and comorbidities (diabetes, hypertension, and hyperlipidemia).
The authors reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Insomnia – difficulty falling or staying asleep – was associated with a 69% greater risk of having a myocardial infarction than among adults without insomnia, according to new research.
Those who slept 5 or fewer hours per night had the highest risk for MI, and those with both diabetes and insomnia had double the risk for MI, compared with patients without these comorbidities.
The findings are from a meta-analysis of studies in more than 1 million patients, almost all without prior MI who were, on average, in their early 50s and followed for 9 years.
Yomna E. Dean, a medical student at Alexandria (Egypt) University, reported these results in a press briefing, and the study was simultaneously published in Clinical Cardiology. It will be presented at the upcoming at the annual scientific sessions of the American College of Cardiology.
“Insomnia and ]at least] 5 hours of sleep are highly associated with increased incidence of MI, an association comparable to that of other MI risk factors and as such, it should be considered as a risk factor for MI and to be incorporated into MI prevention guidelines,” the researchers concluded.
“We believe that [insomnia] should be screened and patients should be educated about the importance of sleep because nowadays insomnia is no longer a disease – sleep deprivation could also be a life choice,” Ms, Dean told a press conference prior to the meeting.
“Clinicians must educate the patients about the importance of sleep in maintaining a healthy heart and encourage proper sleep hygiene,” Ms. Dean reiterated in an email. “And if a patient still has insomnia, other methods should be considered such as cognitive-behavior[al] therapy for insomnia [CBT-I].”
Adds to growing evidence
This study does not allow any conclusion about whether treating insomnia will reduce heart attack risk, Jennifer L. Martin, PhD, president of the American Academy of Sleep Medicine, noted in a comment. Nor does it report the diversity of study participants, since insomnia is also a health equity issue, she noted, and insomnia symptoms and comorbidities were self-reported.
However, this analysis “adds to the growing evidence that poor quality or insufficient sleep is associated with poor health,” said Dr. Martin, professor of medicine at the University of California, Los Angeles, who was not involved with this research.
The study reinforces the recommendation from the American Heart Association, which includes “Get Healthy Sleep” as one of “Life’s Essential 8” for heart health, Dr. Martin noted.
“Particularly in primary care where disease prevention and health promotion are important, clinicians should be asking all patients about their sleep – just like they ask about diet and exercise – as a key aspect of maintaining heart health,” she said.
Advice about basic sleep hygiene advice is a first step, she noted.
When improved sleep hygiene is not enough to address chronic insomnia, the AASM’s clinical practice guidelines and the guidelines of the Department of Veterans Affairs/Department of Defense, recommend first-line treatment with CBT-I, typically offered by a sleep specialist or mental health clinician.
Similarly, the American College of Physicians suggests that sleeping pills should be reserved for short-term use in patients who may not benefit sufficiently from CBT-I.
Sleeping too little, too much, equally harmful
“Studies have found that insomnia and subsequent sleep deprivation puts the body under stress,” Ms. Dean said. “This triggers cortisol release which could accelerate atherosclerosis,” and increase risk of MI.
For this analysis, the researchers identified nine observational studies, published from 1998 to 2019, with data on incident MI in adults who had insomnia.
The diagnosis of insomnia was based on ICD diagnostic codes or on the DSM‐5, which defines insomnia as the presence of any of the following three symptoms: difficulty initiating sleep, difficulty maintaining sleep, or early morning awakening with inability to return to sleep. Patients with sleep apnea were excluded.
The studies were in populations in China, Germany, Norway, Taiwan, United Kingdom, and United States, in 1.1 million adults aged 18 and older. The patients had a mean age of 52 years and 13% had insomnia.
During follow-up, 2,406 of 153,881 patients with insomnia, and 12,398 of 1,030,375 patients without insomnia had an MI.
In the pooled analysis, patients with insomnia had a significantly increased risk of MI (relative risk, 1.69; P < .00001), after adjusting for age, gender, diabetes, hypertension, high cholesterol, and smoking.
Sleeping 5 hours or less was associated with a greater risk for MI than sleeping 6 hours, or 7-8 hours, but sleeping 9 hours or more was just as harmful.
Patients who had difficulty initiating and maintaining sleep – two symptoms of insomnia – had a 13% increased risk for MI compared with other patients (RR, 1.13; P = .003).
However, patients who had nonrestorative sleep and daytime dysfunction despite adequate sleep – which is common – did not have an increased risk of MI, compared with other patients (RR, 1.06; P = .46).
Women with insomnia had a 2.24-fold greater risk for MI than other women, whereas men with insomnia had a 2.03-fold greater risk for MI than other men.
Patients with insomnia had a greater risk for MI than those without insomnia in subgroups based on patients’ age (< 65 and > 65), follow up duration (≤ 5 years and > 5 years), and comorbidities (diabetes, hypertension, and hyperlipidemia).
The authors reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ACC 2023
Fewer than 10% of eligible type 2 diabetes patients get new, pricey drugs
Fewer than 10% of American adults with type 2 diabetes who qualified for treatment with newer agents – such as an SGLT2 inhibitor or GLP-1 agonist – actually received treatment with at least one drug from drug class in 2017-2020, based on a new analysis of just over a thousand adults who participated in a representative, biannual survey and self-reported a diabetes diagnosis.
The cost of these agents, and their uncertain cost-effectiveness at current prices, is likely a key driver of the low usage rate, say the authors of a brief report published in Annals of Internal Medicine.
“Clinical studies have shown that both GLP-1 [glucagonlike peptide–1] receptor agonists and SGLT2 [sodium-glucose cotransporter 2] inhibitors yield additional clinical benefits, compared with older treatments in reducing body weight and progression of cardiovascular disease and chronic kidney disease,” write Shichao Tang, PhD, from the U.S. Centers for Disease Control and Prevention, Atlanta, and colleagues.
“However, these medications come at a substantially higher cost,” they stress.
Dr. Tang explained in an interview that the new study “points to prior studies about the high cost of these medications as a potential barrier to use, but more research is needed to understand cost-effectiveness and any potential barriers to use, including cost.”
The work “did not include research into cost-effectiveness or why the percentage of people already using these medications was low,” he emphasized.
Dr. Tang and colleagues used data collected by the U.S. National Health and Nutrition Examination Survey during two 2-year cycles between 2017 and 2020 that included 1,417 people who self-identified a diagnosis of diabetes.
Excluding those who likely had type 1 diabetes and those with incomplete data left 1,330 survey participants, including 1,133 (85%) who fit criteria for the treatment of type 2 diabetes with an agent from one of the two studied classes, as recommended in 2022 by a panel representing the American Diabetes Association and the European Association for the Study of Diabetes.
Among these 1,133 people – who represent more than 22 million American adults with type 2 diabetes who fit the 2022 criteria – a scant 3.7% were actually taking a GLP-1 agonist and 5.3% were taking an SGLT2 inhibitor.
“While it’s important to note that our data predate the 2022 recommendations, these drugs were offered as second-line therapy for patients with certain diabetes-related complications in 2017-2020” and hence provide potentially useful insights, noted Dr. Tang, a health economist with the CDC National Center for Chronic Disease Prevention and Health Promotion.
Based on retail prices listed on a United States–based website, a 30-day supply of an oral SGLT2 inhibitor can cost about $550-$600 per month, while common subcutaneously injected GLP-1 receptor agonists can run from a few hundred dollars for a daily injection or close to $1,000 for a formulation administered weekly.
“Cost-effectiveness was not formally considered in the current guideline, but an assessment of cost-effectiveness may assist better targeting of interventions to achieve the greatest effect at a sustainable cost,” the researchers conclude.
The study received no commercial funding. None of the authors had relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Fewer than 10% of American adults with type 2 diabetes who qualified for treatment with newer agents – such as an SGLT2 inhibitor or GLP-1 agonist – actually received treatment with at least one drug from drug class in 2017-2020, based on a new analysis of just over a thousand adults who participated in a representative, biannual survey and self-reported a diabetes diagnosis.
The cost of these agents, and their uncertain cost-effectiveness at current prices, is likely a key driver of the low usage rate, say the authors of a brief report published in Annals of Internal Medicine.
“Clinical studies have shown that both GLP-1 [glucagonlike peptide–1] receptor agonists and SGLT2 [sodium-glucose cotransporter 2] inhibitors yield additional clinical benefits, compared with older treatments in reducing body weight and progression of cardiovascular disease and chronic kidney disease,” write Shichao Tang, PhD, from the U.S. Centers for Disease Control and Prevention, Atlanta, and colleagues.
“However, these medications come at a substantially higher cost,” they stress.
Dr. Tang explained in an interview that the new study “points to prior studies about the high cost of these medications as a potential barrier to use, but more research is needed to understand cost-effectiveness and any potential barriers to use, including cost.”
The work “did not include research into cost-effectiveness or why the percentage of people already using these medications was low,” he emphasized.
Dr. Tang and colleagues used data collected by the U.S. National Health and Nutrition Examination Survey during two 2-year cycles between 2017 and 2020 that included 1,417 people who self-identified a diagnosis of diabetes.
Excluding those who likely had type 1 diabetes and those with incomplete data left 1,330 survey participants, including 1,133 (85%) who fit criteria for the treatment of type 2 diabetes with an agent from one of the two studied classes, as recommended in 2022 by a panel representing the American Diabetes Association and the European Association for the Study of Diabetes.
Among these 1,133 people – who represent more than 22 million American adults with type 2 diabetes who fit the 2022 criteria – a scant 3.7% were actually taking a GLP-1 agonist and 5.3% were taking an SGLT2 inhibitor.
“While it’s important to note that our data predate the 2022 recommendations, these drugs were offered as second-line therapy for patients with certain diabetes-related complications in 2017-2020” and hence provide potentially useful insights, noted Dr. Tang, a health economist with the CDC National Center for Chronic Disease Prevention and Health Promotion.
Based on retail prices listed on a United States–based website, a 30-day supply of an oral SGLT2 inhibitor can cost about $550-$600 per month, while common subcutaneously injected GLP-1 receptor agonists can run from a few hundred dollars for a daily injection or close to $1,000 for a formulation administered weekly.
“Cost-effectiveness was not formally considered in the current guideline, but an assessment of cost-effectiveness may assist better targeting of interventions to achieve the greatest effect at a sustainable cost,” the researchers conclude.
The study received no commercial funding. None of the authors had relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Fewer than 10% of American adults with type 2 diabetes who qualified for treatment with newer agents – such as an SGLT2 inhibitor or GLP-1 agonist – actually received treatment with at least one drug from drug class in 2017-2020, based on a new analysis of just over a thousand adults who participated in a representative, biannual survey and self-reported a diabetes diagnosis.
The cost of these agents, and their uncertain cost-effectiveness at current prices, is likely a key driver of the low usage rate, say the authors of a brief report published in Annals of Internal Medicine.
“Clinical studies have shown that both GLP-1 [glucagonlike peptide–1] receptor agonists and SGLT2 [sodium-glucose cotransporter 2] inhibitors yield additional clinical benefits, compared with older treatments in reducing body weight and progression of cardiovascular disease and chronic kidney disease,” write Shichao Tang, PhD, from the U.S. Centers for Disease Control and Prevention, Atlanta, and colleagues.
“However, these medications come at a substantially higher cost,” they stress.
Dr. Tang explained in an interview that the new study “points to prior studies about the high cost of these medications as a potential barrier to use, but more research is needed to understand cost-effectiveness and any potential barriers to use, including cost.”
The work “did not include research into cost-effectiveness or why the percentage of people already using these medications was low,” he emphasized.
Dr. Tang and colleagues used data collected by the U.S. National Health and Nutrition Examination Survey during two 2-year cycles between 2017 and 2020 that included 1,417 people who self-identified a diagnosis of diabetes.
Excluding those who likely had type 1 diabetes and those with incomplete data left 1,330 survey participants, including 1,133 (85%) who fit criteria for the treatment of type 2 diabetes with an agent from one of the two studied classes, as recommended in 2022 by a panel representing the American Diabetes Association and the European Association for the Study of Diabetes.
Among these 1,133 people – who represent more than 22 million American adults with type 2 diabetes who fit the 2022 criteria – a scant 3.7% were actually taking a GLP-1 agonist and 5.3% were taking an SGLT2 inhibitor.
“While it’s important to note that our data predate the 2022 recommendations, these drugs were offered as second-line therapy for patients with certain diabetes-related complications in 2017-2020” and hence provide potentially useful insights, noted Dr. Tang, a health economist with the CDC National Center for Chronic Disease Prevention and Health Promotion.
Based on retail prices listed on a United States–based website, a 30-day supply of an oral SGLT2 inhibitor can cost about $550-$600 per month, while common subcutaneously injected GLP-1 receptor agonists can run from a few hundred dollars for a daily injection or close to $1,000 for a formulation administered weekly.
“Cost-effectiveness was not formally considered in the current guideline, but an assessment of cost-effectiveness may assist better targeting of interventions to achieve the greatest effect at a sustainable cost,” the researchers conclude.
The study received no commercial funding. None of the authors had relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM ANNALS OF INTERNAL MEDICINE
Toxic chemicals we consume without knowing it
Life expectancy is falling precipitously. Three-fourths of Americans are overweight or obese, half have diabetes or prediabetes, and a majority are metabolically unhealthy. Furthermore, the rates of allergic, inflammatory, and autoimmune diseases are rising at rates of 3%-9% per year in the West, far faster than the speed of genetic change in this population.
Of course, diet and lifestyle are major factors behind such trends, but a grossly underappreciated driver in what ails us is the role of environmental toxins and endocrine-disrupting chemicals. In years past, these factors have largely evaded the traditional Western medical establishment; however, mounting evidence now supports their significance in fertility, metabolic health, and cancer.
Although several industrial chemicals and toxins have been identified as carcinogens and have subsequently been regulated, many more remain persistent in the environment and continue to be freely used. It is therefore incumbent upon both the general public and clinicians to be knowledgeable about these exposures. Here, we review some of the most common exposures and the substantial health risks associated with them, along with some general guidance around best practices for how to minimize exposure.
Microplastics
“Microplastics” is a term used to describe small fragments or particles of plastic breakdown or microbeads from household or personal care products, measuring less than 5 mm in length.
Plastic waste is accumulating at alarming and devastating proportions – by 2050, it is estimated that by weight, there will be more plastic than fish in the oceans. That translates into hundreds of thousands of tons of microplastics and trillions of these particles in the seas. A recent study demonstrated that microplastics were present in the bloodstream in the majority of 22 otherwise healthy participants.
Since the 1950s, plastic exposure has been shown to promote tumorigenesis in animal studies, and in vitro studies have demonstrated the toxicity of microplastics at the cellular level. However, it is not well known whether the plastic itself is toxic or if it simply serves as a carrier for other environmental toxins to bioaccumulate.
According to Tasha Stoiber, a senior scientist at the Environmental Working Group, “Microplastics have been widely detected in fish and seafood, as well as other products like bottled water, beer, honey, and tap water.” The EWG states there are no formal advisories on fish consumption to avoid exposure to microplastics at the moment.
Pressure also is mounting for a ban on microbeads in personal care products.
Until such bans are put in place, it is advised to avoid single-use plastics, favor reusable tote bags for grocery shopping rather than plastic bags, and opt for loose leaf tea or paper tea bags rather than mesh-based alternatives.
Phthalates
Phthalates are chemicals used to make plastics soft and durable, as well as to bind fragrances. They are commonly found in household items such as vinyl (for example, flooring, shower curtains) and fragrances, air fresheners, and perfumes.
Phthalates are known hormone-disrupting chemicals, exposure to which has been associated with abnormal sexual and brain development in children, as well as lower levels of testosterone in men. Exposures are thought to occur via inhalation, ingestion, and skin contact; however, fasting studies demonstrate that a majority of exposure is probably food related.
To avoid phthalate exposures, recommendations include avoiding polyvinyl chloride plastics (particularly food containers, plastic wrap, and children’s toys), which are identifiable by the recycle code number 3, as well as air fresheners and fragranced products.
The EWG’s Skin Deep database provides an important resource on phthalate-free personal care products.
Despite pressure from consumer advocacy groups, the U.S. Food and Drug Administration has not yet banned phthalates in food packaging.
Bisphenol A (BPA)
BPA is a chemical additive used to make clear and hard polycarbonate plastics, as well as epoxy and thermal papers. BPA is one of the highest-volume chemicals, with roughly 6 billion pounds produced each year. BPA is traditionally found in many clear plastic bottles and sippy cups, as well as in the lining of canned foods.
Structurally, BPA acts as an estrogen mimetic and has been associated with cardiovascular disease, obesity, and male sexual dysfunction. Since 2012, BPA has been banned in sippy cups and baby bottles, but there is some debate as to whether its replacements (bisphenol S and bisphenol F) are any safer; they appear to have similar hormonal effects as BPA.
As with phthalates, the majority of ingestion is thought to be food related. BPA has been found in more than 90% of a representative study population in the United States.
Guidance advises avoiding polycarbonate plastics (identifiable with the recycling code number 7), as well as avoiding handling thermal papers such as tickets and receipts, if possible. Food and beverages should be stored in glass or stainless steel. If plastic must be used, opt for polycarbonate- and polyvinyl chloride–free plastics, and food and beverages should never be reheated in plastic containers or wrapping. Canned foods should ideally be avoided, particularly canned tunas and condensed soups. If canned products are bought, they should ideally be BPA free.
Dioxins and polychlorinated biphenyls (PCBs)
Dioxins are mainly the byproducts of industrial practices; they are released after incineration, trash burning, and fires. PCBs, which are somewhat structurally related to dioxins, were previously found in products such as flame retardants and coolants. Dioxins and PCBs are often grouped in the same category under the umbrella term “persistent organic pollutants” because they break down slowly and remain in the environment even after emissions have been curbed.
Tetrachlorodibenzodioxin, perhaps the best-known dioxin, is a known carcinogen. Dioxins also have been associated with a host of health implications in development, immunity, and reproductive and endocrine systems. Higher levels of PCB exposure have also been associated with an increased risk for mortality from cardiovascular disease.
Notably, dioxin emissions have been reduced by 90% since the 1980s, and the U.S. Environmental Protection Agency has banned the use of PCBs in industrial manufacturing since 1979. However, environmental dioxins and PCBs still enter the food chain and accumulate in fat.
The best ways to avoid exposures are through limiting meat, fish, and dairy consumption and trimming the skin and fat from meats. The level of dioxins and PCBs found in meat, eggs, fish, and dairy are approximately 5-10 times higher than they are in plant-based foods. Research has shown that farmed salmon is likely to be the most PCB-contaminated protein source in the U.S. diet; however, newer forms of land-based and sustainable aquaculture probably avoid this exposure.
Pesticides
The growth of modern monoculture agriculture in the United States over the past century has coincided with a dramatic surge in the use of industrial pesticides. In fact, over 90% of the U.S. population have pesticides in their urine and blood, regardless of where they live. Exposures are thought to be food related.
Approximately 1 billion pounds of pesticides are used annually in the United States, including nearly 300 million pounds of glyphosate, which has been identified as a probable carcinogen by European agencies. The EPA has not yet reached this conclusion, although the matter is currently being litigated.
A large European prospective cohort trial demonstrated a lower risk for cancer in those with a greater frequency of self-reported organic food consumption. In addition to cancer risk, relatively elevated blood levels of a pesticide known as beta-hexachlorocyclohexane (B-HCH) are associated with higher all-cause mortality. Also, exposure to DDE – a metabolite of DDT, a chlorinated pesticide heavily used in the 1940s-1960s that still persists in the environment today – has been shown to increase the risk for Alzheimer’s-type dementia as well as overall cognitive decline.
Because these chlorinated pesticides are often fat soluble, they seem to accumulate in animal products. Therefore, people consuming a vegetarian diet have been found to have lower levels of B-HCH. This has led to the recommendation that consumers of produce should favor organic over conventional, if possible. Here too, the EWG provides an important resource to consumers in the form of shopper guides regarding pesticides in produce.
Per- and polyfluoroalkyl substances (PFAS)
PFAS are a group of fluorinated compounds discovered in the 1930s. Their chemical composition includes a durable carbon-fluoride bond, giving them a persistence within the environment that has led to their being referred to as “forever chemicals.”
PFAS have been detected in the blood of 98% of Americans, and in the rainwater of locations as far afield as Tibet and Antarctica. Even low levels of exposure have been associated with an increased risk for cancer, liver disease, low birth weight, and hormonal disruption.
The properties of PFAS also make them both durable at very high heat and water repellent. Notoriously, the chemical was used by 3M to make Scotchgard for carpets and fabrics and by Dupont to make Teflon for nonstick coating of pots and pans. Although perfluorooctanoic acid (PFOA) was removed from nonstick cookware in 2013, PFAS – a family of thousands of synthetic compounds – remain common in fast-food packaging, water- and stain-repellent clothing, firefighting foam, and personal care products. PFAS are released into the environment during the breakdown of these consumer and industrial products, as well as from dumping from waste facilities.
Alarmingly, the EWG notes that up to 200 million Americans may be exposed to PFAS in their drinking water. In March 2021, the EPA announced that they will be regulating PFAS in drinking water; however, the regulations have not been finalized. Currently, it is up to individual states to test for its presence in the water. The EWG has compiled a map of all known PFAS contamination sites.
To avoid or prevent exposures from PFAS, recommendations include filtering tap water with either reverse osmosis or activated carbon filters, as well as avoiding fast food and carry-out food, if possible, and consumer products labeled as “water resistant,” “stain-resistant,” and “nonstick.”
In a testament to how harmful these chemicals are, the EPA recently revised their lifetime health advisories for PFAS, such as PFOA, to 0.004 parts per trillion, which is more than 10,000 times smaller than the previous limit of 70 parts per trillion. The EPA also has proposed formally designating certain PFAS chemicals as “hazardous substances.”
Dr. Goel, clinical assistant professor of medicine at Weill Cornell Medicine, New York, has disclosed no relevant financial relationships. A version of this article originally appeared on Medscape.com.
Life expectancy is falling precipitously. Three-fourths of Americans are overweight or obese, half have diabetes or prediabetes, and a majority are metabolically unhealthy. Furthermore, the rates of allergic, inflammatory, and autoimmune diseases are rising at rates of 3%-9% per year in the West, far faster than the speed of genetic change in this population.
Of course, diet and lifestyle are major factors behind such trends, but a grossly underappreciated driver in what ails us is the role of environmental toxins and endocrine-disrupting chemicals. In years past, these factors have largely evaded the traditional Western medical establishment; however, mounting evidence now supports their significance in fertility, metabolic health, and cancer.
Although several industrial chemicals and toxins have been identified as carcinogens and have subsequently been regulated, many more remain persistent in the environment and continue to be freely used. It is therefore incumbent upon both the general public and clinicians to be knowledgeable about these exposures. Here, we review some of the most common exposures and the substantial health risks associated with them, along with some general guidance around best practices for how to minimize exposure.
Microplastics
“Microplastics” is a term used to describe small fragments or particles of plastic breakdown or microbeads from household or personal care products, measuring less than 5 mm in length.
Plastic waste is accumulating at alarming and devastating proportions – by 2050, it is estimated that by weight, there will be more plastic than fish in the oceans. That translates into hundreds of thousands of tons of microplastics and trillions of these particles in the seas. A recent study demonstrated that microplastics were present in the bloodstream in the majority of 22 otherwise healthy participants.
Since the 1950s, plastic exposure has been shown to promote tumorigenesis in animal studies, and in vitro studies have demonstrated the toxicity of microplastics at the cellular level. However, it is not well known whether the plastic itself is toxic or if it simply serves as a carrier for other environmental toxins to bioaccumulate.
According to Tasha Stoiber, a senior scientist at the Environmental Working Group, “Microplastics have been widely detected in fish and seafood, as well as other products like bottled water, beer, honey, and tap water.” The EWG states there are no formal advisories on fish consumption to avoid exposure to microplastics at the moment.
Pressure also is mounting for a ban on microbeads in personal care products.
Until such bans are put in place, it is advised to avoid single-use plastics, favor reusable tote bags for grocery shopping rather than plastic bags, and opt for loose leaf tea or paper tea bags rather than mesh-based alternatives.
Phthalates
Phthalates are chemicals used to make plastics soft and durable, as well as to bind fragrances. They are commonly found in household items such as vinyl (for example, flooring, shower curtains) and fragrances, air fresheners, and perfumes.
Phthalates are known hormone-disrupting chemicals, exposure to which has been associated with abnormal sexual and brain development in children, as well as lower levels of testosterone in men. Exposures are thought to occur via inhalation, ingestion, and skin contact; however, fasting studies demonstrate that a majority of exposure is probably food related.
To avoid phthalate exposures, recommendations include avoiding polyvinyl chloride plastics (particularly food containers, plastic wrap, and children’s toys), which are identifiable by the recycle code number 3, as well as air fresheners and fragranced products.
The EWG’s Skin Deep database provides an important resource on phthalate-free personal care products.
Despite pressure from consumer advocacy groups, the U.S. Food and Drug Administration has not yet banned phthalates in food packaging.
Bisphenol A (BPA)
BPA is a chemical additive used to make clear and hard polycarbonate plastics, as well as epoxy and thermal papers. BPA is one of the highest-volume chemicals, with roughly 6 billion pounds produced each year. BPA is traditionally found in many clear plastic bottles and sippy cups, as well as in the lining of canned foods.
Structurally, BPA acts as an estrogen mimetic and has been associated with cardiovascular disease, obesity, and male sexual dysfunction. Since 2012, BPA has been banned in sippy cups and baby bottles, but there is some debate as to whether its replacements (bisphenol S and bisphenol F) are any safer; they appear to have similar hormonal effects as BPA.
As with phthalates, the majority of ingestion is thought to be food related. BPA has been found in more than 90% of a representative study population in the United States.
Guidance advises avoiding polycarbonate plastics (identifiable with the recycling code number 7), as well as avoiding handling thermal papers such as tickets and receipts, if possible. Food and beverages should be stored in glass or stainless steel. If plastic must be used, opt for polycarbonate- and polyvinyl chloride–free plastics, and food and beverages should never be reheated in plastic containers or wrapping. Canned foods should ideally be avoided, particularly canned tunas and condensed soups. If canned products are bought, they should ideally be BPA free.
Dioxins and polychlorinated biphenyls (PCBs)
Dioxins are mainly the byproducts of industrial practices; they are released after incineration, trash burning, and fires. PCBs, which are somewhat structurally related to dioxins, were previously found in products such as flame retardants and coolants. Dioxins and PCBs are often grouped in the same category under the umbrella term “persistent organic pollutants” because they break down slowly and remain in the environment even after emissions have been curbed.
Tetrachlorodibenzodioxin, perhaps the best-known dioxin, is a known carcinogen. Dioxins also have been associated with a host of health implications in development, immunity, and reproductive and endocrine systems. Higher levels of PCB exposure have also been associated with an increased risk for mortality from cardiovascular disease.
Notably, dioxin emissions have been reduced by 90% since the 1980s, and the U.S. Environmental Protection Agency has banned the use of PCBs in industrial manufacturing since 1979. However, environmental dioxins and PCBs still enter the food chain and accumulate in fat.
The best ways to avoid exposures are through limiting meat, fish, and dairy consumption and trimming the skin and fat from meats. The level of dioxins and PCBs found in meat, eggs, fish, and dairy are approximately 5-10 times higher than they are in plant-based foods. Research has shown that farmed salmon is likely to be the most PCB-contaminated protein source in the U.S. diet; however, newer forms of land-based and sustainable aquaculture probably avoid this exposure.
Pesticides
The growth of modern monoculture agriculture in the United States over the past century has coincided with a dramatic surge in the use of industrial pesticides. In fact, over 90% of the U.S. population have pesticides in their urine and blood, regardless of where they live. Exposures are thought to be food related.
Approximately 1 billion pounds of pesticides are used annually in the United States, including nearly 300 million pounds of glyphosate, which has been identified as a probable carcinogen by European agencies. The EPA has not yet reached this conclusion, although the matter is currently being litigated.
A large European prospective cohort trial demonstrated a lower risk for cancer in those with a greater frequency of self-reported organic food consumption. In addition to cancer risk, relatively elevated blood levels of a pesticide known as beta-hexachlorocyclohexane (B-HCH) are associated with higher all-cause mortality. Also, exposure to DDE – a metabolite of DDT, a chlorinated pesticide heavily used in the 1940s-1960s that still persists in the environment today – has been shown to increase the risk for Alzheimer’s-type dementia as well as overall cognitive decline.
Because these chlorinated pesticides are often fat soluble, they seem to accumulate in animal products. Therefore, people consuming a vegetarian diet have been found to have lower levels of B-HCH. This has led to the recommendation that consumers of produce should favor organic over conventional, if possible. Here too, the EWG provides an important resource to consumers in the form of shopper guides regarding pesticides in produce.
Per- and polyfluoroalkyl substances (PFAS)
PFAS are a group of fluorinated compounds discovered in the 1930s. Their chemical composition includes a durable carbon-fluoride bond, giving them a persistence within the environment that has led to their being referred to as “forever chemicals.”
PFAS have been detected in the blood of 98% of Americans, and in the rainwater of locations as far afield as Tibet and Antarctica. Even low levels of exposure have been associated with an increased risk for cancer, liver disease, low birth weight, and hormonal disruption.
The properties of PFAS also make them both durable at very high heat and water repellent. Notoriously, the chemical was used by 3M to make Scotchgard for carpets and fabrics and by Dupont to make Teflon for nonstick coating of pots and pans. Although perfluorooctanoic acid (PFOA) was removed from nonstick cookware in 2013, PFAS – a family of thousands of synthetic compounds – remain common in fast-food packaging, water- and stain-repellent clothing, firefighting foam, and personal care products. PFAS are released into the environment during the breakdown of these consumer and industrial products, as well as from dumping from waste facilities.
Alarmingly, the EWG notes that up to 200 million Americans may be exposed to PFAS in their drinking water. In March 2021, the EPA announced that they will be regulating PFAS in drinking water; however, the regulations have not been finalized. Currently, it is up to individual states to test for its presence in the water. The EWG has compiled a map of all known PFAS contamination sites.
To avoid or prevent exposures from PFAS, recommendations include filtering tap water with either reverse osmosis or activated carbon filters, as well as avoiding fast food and carry-out food, if possible, and consumer products labeled as “water resistant,” “stain-resistant,” and “nonstick.”
In a testament to how harmful these chemicals are, the EPA recently revised their lifetime health advisories for PFAS, such as PFOA, to 0.004 parts per trillion, which is more than 10,000 times smaller than the previous limit of 70 parts per trillion. The EPA also has proposed formally designating certain PFAS chemicals as “hazardous substances.”
Dr. Goel, clinical assistant professor of medicine at Weill Cornell Medicine, New York, has disclosed no relevant financial relationships. A version of this article originally appeared on Medscape.com.
Life expectancy is falling precipitously. Three-fourths of Americans are overweight or obese, half have diabetes or prediabetes, and a majority are metabolically unhealthy. Furthermore, the rates of allergic, inflammatory, and autoimmune diseases are rising at rates of 3%-9% per year in the West, far faster than the speed of genetic change in this population.
Of course, diet and lifestyle are major factors behind such trends, but a grossly underappreciated driver in what ails us is the role of environmental toxins and endocrine-disrupting chemicals. In years past, these factors have largely evaded the traditional Western medical establishment; however, mounting evidence now supports their significance in fertility, metabolic health, and cancer.
Although several industrial chemicals and toxins have been identified as carcinogens and have subsequently been regulated, many more remain persistent in the environment and continue to be freely used. It is therefore incumbent upon both the general public and clinicians to be knowledgeable about these exposures. Here, we review some of the most common exposures and the substantial health risks associated with them, along with some general guidance around best practices for how to minimize exposure.
Microplastics
“Microplastics” is a term used to describe small fragments or particles of plastic breakdown or microbeads from household or personal care products, measuring less than 5 mm in length.
Plastic waste is accumulating at alarming and devastating proportions – by 2050, it is estimated that by weight, there will be more plastic than fish in the oceans. That translates into hundreds of thousands of tons of microplastics and trillions of these particles in the seas. A recent study demonstrated that microplastics were present in the bloodstream in the majority of 22 otherwise healthy participants.
Since the 1950s, plastic exposure has been shown to promote tumorigenesis in animal studies, and in vitro studies have demonstrated the toxicity of microplastics at the cellular level. However, it is not well known whether the plastic itself is toxic or if it simply serves as a carrier for other environmental toxins to bioaccumulate.
According to Tasha Stoiber, a senior scientist at the Environmental Working Group, “Microplastics have been widely detected in fish and seafood, as well as other products like bottled water, beer, honey, and tap water.” The EWG states there are no formal advisories on fish consumption to avoid exposure to microplastics at the moment.
Pressure also is mounting for a ban on microbeads in personal care products.
Until such bans are put in place, it is advised to avoid single-use plastics, favor reusable tote bags for grocery shopping rather than plastic bags, and opt for loose leaf tea or paper tea bags rather than mesh-based alternatives.
Phthalates
Phthalates are chemicals used to make plastics soft and durable, as well as to bind fragrances. They are commonly found in household items such as vinyl (for example, flooring, shower curtains) and fragrances, air fresheners, and perfumes.
Phthalates are known hormone-disrupting chemicals, exposure to which has been associated with abnormal sexual and brain development in children, as well as lower levels of testosterone in men. Exposures are thought to occur via inhalation, ingestion, and skin contact; however, fasting studies demonstrate that a majority of exposure is probably food related.
To avoid phthalate exposures, recommendations include avoiding polyvinyl chloride plastics (particularly food containers, plastic wrap, and children’s toys), which are identifiable by the recycle code number 3, as well as air fresheners and fragranced products.
The EWG’s Skin Deep database provides an important resource on phthalate-free personal care products.
Despite pressure from consumer advocacy groups, the U.S. Food and Drug Administration has not yet banned phthalates in food packaging.
Bisphenol A (BPA)
BPA is a chemical additive used to make clear and hard polycarbonate plastics, as well as epoxy and thermal papers. BPA is one of the highest-volume chemicals, with roughly 6 billion pounds produced each year. BPA is traditionally found in many clear plastic bottles and sippy cups, as well as in the lining of canned foods.
Structurally, BPA acts as an estrogen mimetic and has been associated with cardiovascular disease, obesity, and male sexual dysfunction. Since 2012, BPA has been banned in sippy cups and baby bottles, but there is some debate as to whether its replacements (bisphenol S and bisphenol F) are any safer; they appear to have similar hormonal effects as BPA.
As with phthalates, the majority of ingestion is thought to be food related. BPA has been found in more than 90% of a representative study population in the United States.
Guidance advises avoiding polycarbonate plastics (identifiable with the recycling code number 7), as well as avoiding handling thermal papers such as tickets and receipts, if possible. Food and beverages should be stored in glass or stainless steel. If plastic must be used, opt for polycarbonate- and polyvinyl chloride–free plastics, and food and beverages should never be reheated in plastic containers or wrapping. Canned foods should ideally be avoided, particularly canned tunas and condensed soups. If canned products are bought, they should ideally be BPA free.
Dioxins and polychlorinated biphenyls (PCBs)
Dioxins are mainly the byproducts of industrial practices; they are released after incineration, trash burning, and fires. PCBs, which are somewhat structurally related to dioxins, were previously found in products such as flame retardants and coolants. Dioxins and PCBs are often grouped in the same category under the umbrella term “persistent organic pollutants” because they break down slowly and remain in the environment even after emissions have been curbed.
Tetrachlorodibenzodioxin, perhaps the best-known dioxin, is a known carcinogen. Dioxins also have been associated with a host of health implications in development, immunity, and reproductive and endocrine systems. Higher levels of PCB exposure have also been associated with an increased risk for mortality from cardiovascular disease.
Notably, dioxin emissions have been reduced by 90% since the 1980s, and the U.S. Environmental Protection Agency has banned the use of PCBs in industrial manufacturing since 1979. However, environmental dioxins and PCBs still enter the food chain and accumulate in fat.
The best ways to avoid exposures are through limiting meat, fish, and dairy consumption and trimming the skin and fat from meats. The level of dioxins and PCBs found in meat, eggs, fish, and dairy are approximately 5-10 times higher than they are in plant-based foods. Research has shown that farmed salmon is likely to be the most PCB-contaminated protein source in the U.S. diet; however, newer forms of land-based and sustainable aquaculture probably avoid this exposure.
Pesticides
The growth of modern monoculture agriculture in the United States over the past century has coincided with a dramatic surge in the use of industrial pesticides. In fact, over 90% of the U.S. population have pesticides in their urine and blood, regardless of where they live. Exposures are thought to be food related.
Approximately 1 billion pounds of pesticides are used annually in the United States, including nearly 300 million pounds of glyphosate, which has been identified as a probable carcinogen by European agencies. The EPA has not yet reached this conclusion, although the matter is currently being litigated.
A large European prospective cohort trial demonstrated a lower risk for cancer in those with a greater frequency of self-reported organic food consumption. In addition to cancer risk, relatively elevated blood levels of a pesticide known as beta-hexachlorocyclohexane (B-HCH) are associated with higher all-cause mortality. Also, exposure to DDE – a metabolite of DDT, a chlorinated pesticide heavily used in the 1940s-1960s that still persists in the environment today – has been shown to increase the risk for Alzheimer’s-type dementia as well as overall cognitive decline.
Because these chlorinated pesticides are often fat soluble, they seem to accumulate in animal products. Therefore, people consuming a vegetarian diet have been found to have lower levels of B-HCH. This has led to the recommendation that consumers of produce should favor organic over conventional, if possible. Here too, the EWG provides an important resource to consumers in the form of shopper guides regarding pesticides in produce.
Per- and polyfluoroalkyl substances (PFAS)
PFAS are a group of fluorinated compounds discovered in the 1930s. Their chemical composition includes a durable carbon-fluoride bond, giving them a persistence within the environment that has led to their being referred to as “forever chemicals.”
PFAS have been detected in the blood of 98% of Americans, and in the rainwater of locations as far afield as Tibet and Antarctica. Even low levels of exposure have been associated with an increased risk for cancer, liver disease, low birth weight, and hormonal disruption.
The properties of PFAS also make them both durable at very high heat and water repellent. Notoriously, the chemical was used by 3M to make Scotchgard for carpets and fabrics and by Dupont to make Teflon for nonstick coating of pots and pans. Although perfluorooctanoic acid (PFOA) was removed from nonstick cookware in 2013, PFAS – a family of thousands of synthetic compounds – remain common in fast-food packaging, water- and stain-repellent clothing, firefighting foam, and personal care products. PFAS are released into the environment during the breakdown of these consumer and industrial products, as well as from dumping from waste facilities.
Alarmingly, the EWG notes that up to 200 million Americans may be exposed to PFAS in their drinking water. In March 2021, the EPA announced that they will be regulating PFAS in drinking water; however, the regulations have not been finalized. Currently, it is up to individual states to test for its presence in the water. The EWG has compiled a map of all known PFAS contamination sites.
To avoid or prevent exposures from PFAS, recommendations include filtering tap water with either reverse osmosis or activated carbon filters, as well as avoiding fast food and carry-out food, if possible, and consumer products labeled as “water resistant,” “stain-resistant,” and “nonstick.”
In a testament to how harmful these chemicals are, the EPA recently revised their lifetime health advisories for PFAS, such as PFOA, to 0.004 parts per trillion, which is more than 10,000 times smaller than the previous limit of 70 parts per trillion. The EPA also has proposed formally designating certain PFAS chemicals as “hazardous substances.”
Dr. Goel, clinical assistant professor of medicine at Weill Cornell Medicine, New York, has disclosed no relevant financial relationships. A version of this article originally appeared on Medscape.com.
Irregular sleep tied to markers of atherosclerosis
a new report suggests.
In particular, variation in sleep duration of more than 2 hours per night in the same week was tied to higher rates of atherosclerosis.
“Poor sleep is linked with several cardiovascular conditions, including heart disease, hypertension, and type 2 diabetes,” lead author Kelsie M. Full, PhD, MPH, assistant professor of medicine at Vanderbilt University Medical Center, Nashville, Tenn., said in an interview.
“Overall, we found that participants who slept varying amounts of hours throughout the week (meaning that one night they slept less, one night they slept more) were more likely to have atherosclerosis than participants who slept about the same amount of time each night,” she said.
The study was published online in the Journal of the American Heart Association.
Analyzing associations
Dr. Full and colleagues examined data from 2032 participants in the Multi-Ethnic Study of Atherosclerosis Sleep Ancillary Study, which included adults aged between 45 and 84 years in six U.S. communities who completed 7-day wrist actigraphy assessment and kept a sleep diary between 2010 and 2013.
For subclinical markers of cardiovascular disease, participants underwent assessments of coronary artery calcium, carotid plaque presence, carotid intima-media thickness, and ankle-brachial index.
The research team assessed sleep duration, or the total number of minutes of sleep in a night, and sleep timing regularity, which was determined on the basis of the time someone initially fell asleep each night. They adjusted for cardiovascular disease risk factors and sleep characteristics, such as obstructive sleep apnea, sleep duration, and sleep fragmentation.
The average age of the participants was 68.6 years, and 53.6% were women. About 37.9% identified as White, 27.6% as Black or African American, 23.4% as Hispanic American, and 11.1% as Chinese American.
During the 7-day period, about 38% of participants experienced a change in sleep duration of more than 90 minutes, and 18% experienced a sleep duration change of more than 120 minutes. Those who had irregular sleep were more likely to be non-White, current smokers, have lower average annual incomes, have work shift schedules or did not work, and have a higher average body mass index.
For the study, sleep duration irregularity was defined as a standard deviation of more than 120 minutes. Those participants who had a greater degree of sleep irregularity were more likely to have high coronary artery calcium burden than those whose sleep duration was more more regular, defined as an SD of 60 minutes or less (> 300; prevalence ratio, 1.33; 95% confidence interval, 1.03-1.71), as well as abnormal ankle-brachial index (< 0.9, prevalence ratio, 1.75;95% CI, 1.03-2.95).
Further, those with irregular sleep timing (SD > 90 minutes) were more likely to have a high coronary artery calcium burden (prevalence ratio, 1.39; 95% CI, 1.07-1.82) in comparison with those with more regular sleep timing (SD < 30 minutes).
“The biggest surprise to me was that 30% of the participants in the study had total sleep times that varied by more than 90 minutes over the course of the week,” Dr. Full said. “This is consistent with prior studies that suggest that a large proportion of the general public have irregular sleep patterns, not just shift workers.”
Investigating next steps
In additional analyses, Dr. Full and colleagues found that sleep duration regularity continued to be associated with high coronary artery calcium burden and abnormal ankle-brachial index when accounting for severe obstructive sleep apnea, average nightly sleep duration, and average sleep fragmentation.
Notably, when sleep duration was added, all participants with more irregular sleep durations (SD > 60 minutes) were more likely to have a high coronary artery calcium burden, compared with those with regular sleep durations (SD < 60 minutes). The results remained when participants who reported shift work, including night shift work, were excluded.
Additional studies are needed to understand the mechanisms, the study authors wrote. Night-to-night variability in sleep duration and sleep timing can cause desynchronization in the sleep-wake timing and circadian disruption.
“A key issue highlighted in this study is that sleep irregularity itself, independent of how much sleep people were getting, was related to heart health. Sleep is a naturally recurring phenomenon, and maintaining regularity helps provide stability and predictability to the body,” Michael Grandner, PhD, associate professor of psychiatry and director of the sleep and health research program at the University of Arizona, Tucson, said in an interview.
Dr. Grandner, who wasn’t involved with this study, has researched sleep irregularity and associations with cardiovascular disease, diabetes, obesity, and many other adverse outcomes.
“When people have very irregular sleep schedules, it may make it harder for the body to optimally make good use of the sleep it is getting, since it such a moving target,” he said. “The unique angle here is the ability to focus on regularity of sleep.”
The study was supported by the National Heart, Lung, and Blood Institute and the National Center for Advancing Translational Sciences of the National Institutes of Health. One author received grants and consulting fees from pharmaceutical companies unrelated to the research. The other authors and Dr. Grandner disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
a new report suggests.
In particular, variation in sleep duration of more than 2 hours per night in the same week was tied to higher rates of atherosclerosis.
“Poor sleep is linked with several cardiovascular conditions, including heart disease, hypertension, and type 2 diabetes,” lead author Kelsie M. Full, PhD, MPH, assistant professor of medicine at Vanderbilt University Medical Center, Nashville, Tenn., said in an interview.
“Overall, we found that participants who slept varying amounts of hours throughout the week (meaning that one night they slept less, one night they slept more) were more likely to have atherosclerosis than participants who slept about the same amount of time each night,” she said.
The study was published online in the Journal of the American Heart Association.
Analyzing associations
Dr. Full and colleagues examined data from 2032 participants in the Multi-Ethnic Study of Atherosclerosis Sleep Ancillary Study, which included adults aged between 45 and 84 years in six U.S. communities who completed 7-day wrist actigraphy assessment and kept a sleep diary between 2010 and 2013.
For subclinical markers of cardiovascular disease, participants underwent assessments of coronary artery calcium, carotid plaque presence, carotid intima-media thickness, and ankle-brachial index.
The research team assessed sleep duration, or the total number of minutes of sleep in a night, and sleep timing regularity, which was determined on the basis of the time someone initially fell asleep each night. They adjusted for cardiovascular disease risk factors and sleep characteristics, such as obstructive sleep apnea, sleep duration, and sleep fragmentation.
The average age of the participants was 68.6 years, and 53.6% were women. About 37.9% identified as White, 27.6% as Black or African American, 23.4% as Hispanic American, and 11.1% as Chinese American.
During the 7-day period, about 38% of participants experienced a change in sleep duration of more than 90 minutes, and 18% experienced a sleep duration change of more than 120 minutes. Those who had irregular sleep were more likely to be non-White, current smokers, have lower average annual incomes, have work shift schedules or did not work, and have a higher average body mass index.
For the study, sleep duration irregularity was defined as a standard deviation of more than 120 minutes. Those participants who had a greater degree of sleep irregularity were more likely to have high coronary artery calcium burden than those whose sleep duration was more more regular, defined as an SD of 60 minutes or less (> 300; prevalence ratio, 1.33; 95% confidence interval, 1.03-1.71), as well as abnormal ankle-brachial index (< 0.9, prevalence ratio, 1.75;95% CI, 1.03-2.95).
Further, those with irregular sleep timing (SD > 90 minutes) were more likely to have a high coronary artery calcium burden (prevalence ratio, 1.39; 95% CI, 1.07-1.82) in comparison with those with more regular sleep timing (SD < 30 minutes).
“The biggest surprise to me was that 30% of the participants in the study had total sleep times that varied by more than 90 minutes over the course of the week,” Dr. Full said. “This is consistent with prior studies that suggest that a large proportion of the general public have irregular sleep patterns, not just shift workers.”
Investigating next steps
In additional analyses, Dr. Full and colleagues found that sleep duration regularity continued to be associated with high coronary artery calcium burden and abnormal ankle-brachial index when accounting for severe obstructive sleep apnea, average nightly sleep duration, and average sleep fragmentation.
Notably, when sleep duration was added, all participants with more irregular sleep durations (SD > 60 minutes) were more likely to have a high coronary artery calcium burden, compared with those with regular sleep durations (SD < 60 minutes). The results remained when participants who reported shift work, including night shift work, were excluded.
Additional studies are needed to understand the mechanisms, the study authors wrote. Night-to-night variability in sleep duration and sleep timing can cause desynchronization in the sleep-wake timing and circadian disruption.
“A key issue highlighted in this study is that sleep irregularity itself, independent of how much sleep people were getting, was related to heart health. Sleep is a naturally recurring phenomenon, and maintaining regularity helps provide stability and predictability to the body,” Michael Grandner, PhD, associate professor of psychiatry and director of the sleep and health research program at the University of Arizona, Tucson, said in an interview.
Dr. Grandner, who wasn’t involved with this study, has researched sleep irregularity and associations with cardiovascular disease, diabetes, obesity, and many other adverse outcomes.
“When people have very irregular sleep schedules, it may make it harder for the body to optimally make good use of the sleep it is getting, since it such a moving target,” he said. “The unique angle here is the ability to focus on regularity of sleep.”
The study was supported by the National Heart, Lung, and Blood Institute and the National Center for Advancing Translational Sciences of the National Institutes of Health. One author received grants and consulting fees from pharmaceutical companies unrelated to the research. The other authors and Dr. Grandner disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
a new report suggests.
In particular, variation in sleep duration of more than 2 hours per night in the same week was tied to higher rates of atherosclerosis.
“Poor sleep is linked with several cardiovascular conditions, including heart disease, hypertension, and type 2 diabetes,” lead author Kelsie M. Full, PhD, MPH, assistant professor of medicine at Vanderbilt University Medical Center, Nashville, Tenn., said in an interview.
“Overall, we found that participants who slept varying amounts of hours throughout the week (meaning that one night they slept less, one night they slept more) were more likely to have atherosclerosis than participants who slept about the same amount of time each night,” she said.
The study was published online in the Journal of the American Heart Association.
Analyzing associations
Dr. Full and colleagues examined data from 2032 participants in the Multi-Ethnic Study of Atherosclerosis Sleep Ancillary Study, which included adults aged between 45 and 84 years in six U.S. communities who completed 7-day wrist actigraphy assessment and kept a sleep diary between 2010 and 2013.
For subclinical markers of cardiovascular disease, participants underwent assessments of coronary artery calcium, carotid plaque presence, carotid intima-media thickness, and ankle-brachial index.
The research team assessed sleep duration, or the total number of minutes of sleep in a night, and sleep timing regularity, which was determined on the basis of the time someone initially fell asleep each night. They adjusted for cardiovascular disease risk factors and sleep characteristics, such as obstructive sleep apnea, sleep duration, and sleep fragmentation.
The average age of the participants was 68.6 years, and 53.6% were women. About 37.9% identified as White, 27.6% as Black or African American, 23.4% as Hispanic American, and 11.1% as Chinese American.
During the 7-day period, about 38% of participants experienced a change in sleep duration of more than 90 minutes, and 18% experienced a sleep duration change of more than 120 minutes. Those who had irregular sleep were more likely to be non-White, current smokers, have lower average annual incomes, have work shift schedules or did not work, and have a higher average body mass index.
For the study, sleep duration irregularity was defined as a standard deviation of more than 120 minutes. Those participants who had a greater degree of sleep irregularity were more likely to have high coronary artery calcium burden than those whose sleep duration was more more regular, defined as an SD of 60 minutes or less (> 300; prevalence ratio, 1.33; 95% confidence interval, 1.03-1.71), as well as abnormal ankle-brachial index (< 0.9, prevalence ratio, 1.75;95% CI, 1.03-2.95).
Further, those with irregular sleep timing (SD > 90 minutes) were more likely to have a high coronary artery calcium burden (prevalence ratio, 1.39; 95% CI, 1.07-1.82) in comparison with those with more regular sleep timing (SD < 30 minutes).
“The biggest surprise to me was that 30% of the participants in the study had total sleep times that varied by more than 90 minutes over the course of the week,” Dr. Full said. “This is consistent with prior studies that suggest that a large proportion of the general public have irregular sleep patterns, not just shift workers.”
Investigating next steps
In additional analyses, Dr. Full and colleagues found that sleep duration regularity continued to be associated with high coronary artery calcium burden and abnormal ankle-brachial index when accounting for severe obstructive sleep apnea, average nightly sleep duration, and average sleep fragmentation.
Notably, when sleep duration was added, all participants with more irregular sleep durations (SD > 60 minutes) were more likely to have a high coronary artery calcium burden, compared with those with regular sleep durations (SD < 60 minutes). The results remained when participants who reported shift work, including night shift work, were excluded.
Additional studies are needed to understand the mechanisms, the study authors wrote. Night-to-night variability in sleep duration and sleep timing can cause desynchronization in the sleep-wake timing and circadian disruption.
“A key issue highlighted in this study is that sleep irregularity itself, independent of how much sleep people were getting, was related to heart health. Sleep is a naturally recurring phenomenon, and maintaining regularity helps provide stability and predictability to the body,” Michael Grandner, PhD, associate professor of psychiatry and director of the sleep and health research program at the University of Arizona, Tucson, said in an interview.
Dr. Grandner, who wasn’t involved with this study, has researched sleep irregularity and associations with cardiovascular disease, diabetes, obesity, and many other adverse outcomes.
“When people have very irregular sleep schedules, it may make it harder for the body to optimally make good use of the sleep it is getting, since it such a moving target,” he said. “The unique angle here is the ability to focus on regularity of sleep.”
The study was supported by the National Heart, Lung, and Blood Institute and the National Center for Advancing Translational Sciences of the National Institutes of Health. One author received grants and consulting fees from pharmaceutical companies unrelated to the research. The other authors and Dr. Grandner disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM THE JOURNAL OF THE AMERICAN HEART ASSOCIATION