Endocrinology

STOCKHOLM – The number of people living with type 1 diabetes worldwide is expected to double by 2040, with most new cases among adults living in low- and middle-income countries, new modeling data suggest.

The forecast, developed from available data collected in the newly established open-source Type 1 Diabetes Index, provides estimates for type 1 diabetes prevalence, incidence, associated mortality, and life expectancy for 201 countries for 2021.

The model also projects estimates for prevalent cases in 2040. It is the first type 1 diabetes dataset to account for the lack of prevalence because of premature mortality, particularly in low- and middle-income countries.

“The worldwide prevalence of type 1 diabetes is substantial and growing. Improved surveillance – particularly in adults who make up most of the population living with type 1 diabetes – is essential to enable improvements to care and outcomes. There is an opportunity to save millions of lives in the coming decades by raising the standard of care (including ensuring universal access to insulin and other essential supplies) and increasing awareness of the signs and symptoms of type 1 diabetes to enable a 100% rate of diagnosis in all countries,” the authors write.

“This work spells out the need for early diagnosis of type 1 diabetes and timely access to quality care,” said Chantal Mathieu, MD, at the European Association for the Study of Diabetes annual meeting.
 

One in five deaths from type 1 diabetes in under 25s

The new findings were published in Lancet Diabetes & Endocrinology by Gabriel A. Gregory, MD, of Life for a Child Program, New South Wales, Australia, and colleagues. The T1D Index Project database was published Sept. 21, 2022.

According to the model, about 8.4 million people were living with type 1 diabetes in 2021, with one-fifth from low- and middle-income countries. An additional 3.7 million died prematurely and would have been added to that count had they lived. One in five of all deaths caused by type 1 diabetes in 2021 is estimated to have occurred in people younger than age 25 years because of nondiagnosis.

“It is unacceptable that, in 2022, some 35,000 people worldwide are dying undiagnosed within a year of onset of symptoms. There also continues to be a huge disparity in life expectancy for people with type 1 diabetes, hitting those in the poorest countries hardest,” noted Dr. Mathieu, who is senior vice-president of EASD and an endocrinologist based at KU Leuven, Belgium.

By 2040, the model predicts that between 13.5 million and 17.4 million people will be living with the condition, with the largest relative increase from 2021 in low-income and lower-middle-income countries. The majority of incident and prevalent cases of type 1 diabetes are in adults, with an estimated 62% of 510,000 new diagnoses worldwide in 2021 occurring in people aged 20 years and older.
 

Type 1 diabetes is not predominantly a disease of childhood

Dr. Mathieu also noted that the data dispute the long-held view of type 1 diabetes as a predominantly pediatric condition. Indeed, worldwide, the median age for a person living with type 1 diabetes is 37 years.

“While type 1 diabetes is often referred to as ‘child-onset’ diabetes, this important study shows that only around one in five living with the condition are aged 20 years or younger, two-thirds are aged 20-64 years, and a further one in five are aged 65 years or older.”

“This condition does not stop at age 18 years – the children become adults, and the adults become elderly. All countries must examine and strengthen their diagnosis and care pathways for people of all ages living with type 1 diabetes,” Dr. Mathieu emphasized.

And in an accompanying editorial, Serena Jingchuan Guo, MD, PhD, and Hui Shao, MD, PhD, point out that most studies that estimate diabetes burden have focused on type 2 diabetes, noting, “type 1 diabetes faces the challenges of misdiagnosis, underdiagnosis, high risk of complications, and premature mortality.”

The insulin affordability issue is central, point out Dr. Guo and Dr. Shao of the Center for Drug Evaluation and Safety, department of pharmaceutical evaluation and policy, University of Florida College of Pharmacy, Gainesville.

“Countries need to strengthen the price regulation and reimbursement policy for insulin while building subsidy programs to ensure insulin access and to cope with the growing demand for insulin. Meanwhile, optimizing the insulin supply chain between manufacturers and patients while seeking alternative treatment options (for example, biosimilar products) will also improve the current situation,” they conclude.   

The study was funded by JDRF, of which four coauthors are employees. The editorialists have reported no relevant financial relationships.

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

STOCKHOLM – The number of people living with type 1 diabetes worldwide is expected to double by 2040, with most new cases among adults living in low- and middle-income countries, new modeling data suggest.

The forecast, developed from available data collected in the newly established open-source Type 1 Diabetes Index, provides estimates for type 1 diabetes prevalence, incidence, associated mortality, and life expectancy for 201 countries for 2021.

The model also projects estimates for prevalent cases in 2040. It is the first type 1 diabetes dataset to account for the lack of prevalence because of premature mortality, particularly in low- and middle-income countries.

“The worldwide prevalence of type 1 diabetes is substantial and growing. Improved surveillance – particularly in adults who make up most of the population living with type 1 diabetes – is essential to enable improvements to care and outcomes. There is an opportunity to save millions of lives in the coming decades by raising the standard of care (including ensuring universal access to insulin and other essential supplies) and increasing awareness of the signs and symptoms of type 1 diabetes to enable a 100% rate of diagnosis in all countries,” the authors write.

“This work spells out the need for early diagnosis of type 1 diabetes and timely access to quality care,” said Chantal Mathieu, MD, at the European Association for the Study of Diabetes annual meeting.
 

One in five deaths from type 1 diabetes in under 25s

The new findings were published in Lancet Diabetes & Endocrinology by Gabriel A. Gregory, MD, of Life for a Child Program, New South Wales, Australia, and colleagues. The T1D Index Project database was published Sept. 21, 2022.

According to the model, about 8.4 million people were living with type 1 diabetes in 2021, with one-fifth from low- and middle-income countries. An additional 3.7 million died prematurely and would have been added to that count had they lived. One in five of all deaths caused by type 1 diabetes in 2021 is estimated to have occurred in people younger than age 25 years because of nondiagnosis.

“It is unacceptable that, in 2022, some 35,000 people worldwide are dying undiagnosed within a year of onset of symptoms. There also continues to be a huge disparity in life expectancy for people with type 1 diabetes, hitting those in the poorest countries hardest,” noted Dr. Mathieu, who is senior vice-president of EASD and an endocrinologist based at KU Leuven, Belgium.

By 2040, the model predicts that between 13.5 million and 17.4 million people will be living with the condition, with the largest relative increase from 2021 in low-income and lower-middle-income countries. The majority of incident and prevalent cases of type 1 diabetes are in adults, with an estimated 62% of 510,000 new diagnoses worldwide in 2021 occurring in people aged 20 years and older.
 

Type 1 diabetes is not predominantly a disease of childhood

Dr. Mathieu also noted that the data dispute the long-held view of type 1 diabetes as a predominantly pediatric condition. Indeed, worldwide, the median age for a person living with type 1 diabetes is 37 years.

“While type 1 diabetes is often referred to as ‘child-onset’ diabetes, this important study shows that only around one in five living with the condition are aged 20 years or younger, two-thirds are aged 20-64 years, and a further one in five are aged 65 years or older.”

“This condition does not stop at age 18 years – the children become adults, and the adults become elderly. All countries must examine and strengthen their diagnosis and care pathways for people of all ages living with type 1 diabetes,” Dr. Mathieu emphasized.

And in an accompanying editorial, Serena Jingchuan Guo, MD, PhD, and Hui Shao, MD, PhD, point out that most studies that estimate diabetes burden have focused on type 2 diabetes, noting, “type 1 diabetes faces the challenges of misdiagnosis, underdiagnosis, high risk of complications, and premature mortality.”

The insulin affordability issue is central, point out Dr. Guo and Dr. Shao of the Center for Drug Evaluation and Safety, department of pharmaceutical evaluation and policy, University of Florida College of Pharmacy, Gainesville.

“Countries need to strengthen the price regulation and reimbursement policy for insulin while building subsidy programs to ensure insulin access and to cope with the growing demand for insulin. Meanwhile, optimizing the insulin supply chain between manufacturers and patients while seeking alternative treatment options (for example, biosimilar products) will also improve the current situation,” they conclude.   

The study was funded by JDRF, of which four coauthors are employees. The editorialists have reported no relevant financial relationships.

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

STOCKHOLM – The number of people living with type 1 diabetes worldwide is expected to double by 2040, with most new cases among adults living in low- and middle-income countries, new modeling data suggest.

The forecast, developed from available data collected in the newly established open-source Type 1 Diabetes Index, provides estimates for type 1 diabetes prevalence, incidence, associated mortality, and life expectancy for 201 countries for 2021.

The model also projects estimates for prevalent cases in 2040. It is the first type 1 diabetes dataset to account for the lack of prevalence because of premature mortality, particularly in low- and middle-income countries.

“The worldwide prevalence of type 1 diabetes is substantial and growing. Improved surveillance – particularly in adults who make up most of the population living with type 1 diabetes – is essential to enable improvements to care and outcomes. There is an opportunity to save millions of lives in the coming decades by raising the standard of care (including ensuring universal access to insulin and other essential supplies) and increasing awareness of the signs and symptoms of type 1 diabetes to enable a 100% rate of diagnosis in all countries,” the authors write.

“This work spells out the need for early diagnosis of type 1 diabetes and timely access to quality care,” said Chantal Mathieu, MD, at the European Association for the Study of Diabetes annual meeting.
 

One in five deaths from type 1 diabetes in under 25s

The new findings were published in Lancet Diabetes & Endocrinology by Gabriel A. Gregory, MD, of Life for a Child Program, New South Wales, Australia, and colleagues. The T1D Index Project database was published Sept. 21, 2022.

According to the model, about 8.4 million people were living with type 1 diabetes in 2021, with one-fifth from low- and middle-income countries. An additional 3.7 million died prematurely and would have been added to that count had they lived. One in five of all deaths caused by type 1 diabetes in 2021 is estimated to have occurred in people younger than age 25 years because of nondiagnosis.

“It is unacceptable that, in 2022, some 35,000 people worldwide are dying undiagnosed within a year of onset of symptoms. There also continues to be a huge disparity in life expectancy for people with type 1 diabetes, hitting those in the poorest countries hardest,” noted Dr. Mathieu, who is senior vice-president of EASD and an endocrinologist based at KU Leuven, Belgium.

By 2040, the model predicts that between 13.5 million and 17.4 million people will be living with the condition, with the largest relative increase from 2021 in low-income and lower-middle-income countries. The majority of incident and prevalent cases of type 1 diabetes are in adults, with an estimated 62% of 510,000 new diagnoses worldwide in 2021 occurring in people aged 20 years and older.
 

Type 1 diabetes is not predominantly a disease of childhood

Dr. Mathieu also noted that the data dispute the long-held view of type 1 diabetes as a predominantly pediatric condition. Indeed, worldwide, the median age for a person living with type 1 diabetes is 37 years.

“While type 1 diabetes is often referred to as ‘child-onset’ diabetes, this important study shows that only around one in five living with the condition are aged 20 years or younger, two-thirds are aged 20-64 years, and a further one in five are aged 65 years or older.”

“This condition does not stop at age 18 years – the children become adults, and the adults become elderly. All countries must examine and strengthen their diagnosis and care pathways for people of all ages living with type 1 diabetes,” Dr. Mathieu emphasized.

And in an accompanying editorial, Serena Jingchuan Guo, MD, PhD, and Hui Shao, MD, PhD, point out that most studies that estimate diabetes burden have focused on type 2 diabetes, noting, “type 1 diabetes faces the challenges of misdiagnosis, underdiagnosis, high risk of complications, and premature mortality.”

The insulin affordability issue is central, point out Dr. Guo and Dr. Shao of the Center for Drug Evaluation and Safety, department of pharmaceutical evaluation and policy, University of Florida College of Pharmacy, Gainesville.

“Countries need to strengthen the price regulation and reimbursement policy for insulin while building subsidy programs to ensure insulin access and to cope with the growing demand for insulin. Meanwhile, optimizing the insulin supply chain between manufacturers and patients while seeking alternative treatment options (for example, biosimilar products) will also improve the current situation,” they conclude.   

The study was funded by JDRF, of which four coauthors are employees. The editorialists have reported no relevant financial relationships.

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

Adding community health workers (CHW) to a primary care setting was linked with improved type 2 diabetes management in a safety-net population, new research indicates.

The researchers, led by Robert L. Ferrer, MD, MPH, with the department of family and community medicine at the University of Texas Health Science Center, San Antonio, enrolled 986 people in a Latino, inner-city cohort in primary care in San Antonio. Patients had uncontrolled type 2 diabetes and psychosocial risk factors. The study was published in Annals of Family Medicine.

The primary outcome measured was whether patients progressed through three stages of self-care: outreach (meeting face to face with a community health care worker), stabilization (collaborating with community health care workers to address life circumstances), and a third stage the researchers called “self-care generativity” (being able to manage blood sugar levels at home). The intervention lasted up to 12 weeks and had a 4-year follow-up.

Of participating patients, the researchers reported, 27% remained in outreach, 41% progressed to stabilization, 32% achieved self-care generativity status.

Coauthor Carlos Roberto Jaén, MD, PhD, also from the UT Health Science Center at San Antonio, said in an interview, “I don’t know any other intervention for diabetes that has 32% of participants having this kind of effect 4 years later.”

Dr. Jaén added that the study is unusual in that it had a 4-year follow-up and showed positive effects throughout that period, as most CHW studies have followed patients only up to one year.

The positive results over the 4 years after a short intervention “is a testimony of the power of intervention,” he said.

A1c drops with more progress in the intervention

The secondary outcome was change in hemoglobin A1c and need for urgent care or emergency department or hospital care.

Study participants who worked with a CHW – regardless of which group they were in at the end of the intervention – collectively saw a 2% drop in blood sugar.

Over a similar time period to when the study was conducted, the researchers analyzed 27,000 A1c measurements of patients with type 2 diabetes in a comparator group. For these patients, who did not receive the study intervention but were part of the same practice as those who received the intervention, the researchers observed a reduction in A1c levels of 0.05%.

Among the study participants, for those who remained in outreach, hospital visits were 6% higher than for those who advanced to the level of self-care generativity, but this difference was not statistically significant. Hospital visits were 90% higher for those who achieved stabilization versus those who remained in outreach (P = .014) The average count of emergency department visits was 74% higher for those who achieved stabilization versus those who achieved self-care generativity, and 31% higher in the group remaining at outreach versus those who reached the highest level of self-care.
 

Advantages of community workers

In San Antonio, the authors noted, type 2 diabetes prevalence is high: 15.5% of its 1.6 million residents have been diagnosed with the disease.

The CHWs built trust with patients and helped them set goals, navigate the health system and connect to community resources. They worked with behavioral health clinicians, nurse care managers, and medical assistants toward population management.

“Community health workers’ detailed understanding of patients’ circumstances help to tailor their care rather than apply fixed interventions,” the authors wrote.

Ricardo Correa, MD, director of the endocrinology, diabetes, and metabolism fellowship program in the University of Arizona, Phoenix, who was not involved with the study, said in an interview he was not surprised by the positive results.

He described the difference when CHWs get involved with type 2 diabetes care, particularly in the Latino community.

“They understand the culture, not just the language,” he said. “They have the trust of the community.”

It’s different when a provider not from the community tells a person with type 2 diabetes he or she needs to eat healthier or exercise more, he said.

The CHW can understand, for instance, that the nearest fresh market may be two towns away and open only on Saturdays and the parks are not safe for exercise outside at certain times of the day. Then they can help the patient find a sustainable solution.

“Community workers also won’t be looking at your immigration status,” something important to many in the Latino community, he explained.

Though this study looked at type 2 diabetes management, community health workers are also effective in other areas, he explained, such as increasing COVID-19 vaccinations, also do them being trustworthy and understanding.
 

Other study strengths

The group of people with type 2 diabetes they studied has the highest rates of poverty – “the poorest of the poor” – and the highest rates of diabetes-related amputations in San Antonio, Dr. Jaén said.

The intervention “is more focused on what people want to do, less so on the disease,” he explained. People are asked what goals they want to achieve and how the care team can help.

“It becomes an alliance between the community health worker and the patient,” he continued.

Others interested in implementing a program should know that building that relationship takes time and takes a broad multidisciplinary team working together, he said. “We would not necessarily see these effects in 6 months. You have to use a larger perspective.”

The researchers include with this study under the first-page tab “more online” access to tools, including resources for training, for others who want to implement such a program.

The study authors and Dr. Correa reported no relevant financial relationships.

Adding community health workers (CHW) to a primary care setting was linked with improved type 2 diabetes management in a safety-net population, new research indicates.

The researchers, led by Robert L. Ferrer, MD, MPH, with the department of family and community medicine at the University of Texas Health Science Center, San Antonio, enrolled 986 people in a Latino, inner-city cohort in primary care in San Antonio. Patients had uncontrolled type 2 diabetes and psychosocial risk factors. The study was published in Annals of Family Medicine.

The primary outcome measured was whether patients progressed through three stages of self-care: outreach (meeting face to face with a community health care worker), stabilization (collaborating with community health care workers to address life circumstances), and a third stage the researchers called “self-care generativity” (being able to manage blood sugar levels at home). The intervention lasted up to 12 weeks and had a 4-year follow-up.

Of participating patients, the researchers reported, 27% remained in outreach, 41% progressed to stabilization, 32% achieved self-care generativity status.

Coauthor Carlos Roberto Jaén, MD, PhD, also from the UT Health Science Center at San Antonio, said in an interview, “I don’t know any other intervention for diabetes that has 32% of participants having this kind of effect 4 years later.”

Dr. Jaén added that the study is unusual in that it had a 4-year follow-up and showed positive effects throughout that period, as most CHW studies have followed patients only up to one year.

The positive results over the 4 years after a short intervention “is a testimony of the power of intervention,” he said.

A1c drops with more progress in the intervention

The secondary outcome was change in hemoglobin A1c and need for urgent care or emergency department or hospital care.

Study participants who worked with a CHW – regardless of which group they were in at the end of the intervention – collectively saw a 2% drop in blood sugar.

Over a similar time period to when the study was conducted, the researchers analyzed 27,000 A1c measurements of patients with type 2 diabetes in a comparator group. For these patients, who did not receive the study intervention but were part of the same practice as those who received the intervention, the researchers observed a reduction in A1c levels of 0.05%.

Among the study participants, for those who remained in outreach, hospital visits were 6% higher than for those who advanced to the level of self-care generativity, but this difference was not statistically significant. Hospital visits were 90% higher for those who achieved stabilization versus those who remained in outreach (P = .014) The average count of emergency department visits was 74% higher for those who achieved stabilization versus those who achieved self-care generativity, and 31% higher in the group remaining at outreach versus those who reached the highest level of self-care.
 

Advantages of community workers

In San Antonio, the authors noted, type 2 diabetes prevalence is high: 15.5% of its 1.6 million residents have been diagnosed with the disease.

The CHWs built trust with patients and helped them set goals, navigate the health system and connect to community resources. They worked with behavioral health clinicians, nurse care managers, and medical assistants toward population management.

“Community health workers’ detailed understanding of patients’ circumstances help to tailor their care rather than apply fixed interventions,” the authors wrote.

Ricardo Correa, MD, director of the endocrinology, diabetes, and metabolism fellowship program in the University of Arizona, Phoenix, who was not involved with the study, said in an interview he was not surprised by the positive results.

He described the difference when CHWs get involved with type 2 diabetes care, particularly in the Latino community.

“They understand the culture, not just the language,” he said. “They have the trust of the community.”

It’s different when a provider not from the community tells a person with type 2 diabetes he or she needs to eat healthier or exercise more, he said.

The CHW can understand, for instance, that the nearest fresh market may be two towns away and open only on Saturdays and the parks are not safe for exercise outside at certain times of the day. Then they can help the patient find a sustainable solution.

“Community workers also won’t be looking at your immigration status,” something important to many in the Latino community, he explained.

Though this study looked at type 2 diabetes management, community health workers are also effective in other areas, he explained, such as increasing COVID-19 vaccinations, also do them being trustworthy and understanding.
 

Other study strengths

The group of people with type 2 diabetes they studied has the highest rates of poverty – “the poorest of the poor” – and the highest rates of diabetes-related amputations in San Antonio, Dr. Jaén said.

The intervention “is more focused on what people want to do, less so on the disease,” he explained. People are asked what goals they want to achieve and how the care team can help.

“It becomes an alliance between the community health worker and the patient,” he continued.

Others interested in implementing a program should know that building that relationship takes time and takes a broad multidisciplinary team working together, he said. “We would not necessarily see these effects in 6 months. You have to use a larger perspective.”

The researchers include with this study under the first-page tab “more online” access to tools, including resources for training, for others who want to implement such a program.

The study authors and Dr. Correa reported no relevant financial relationships.

Adding community health workers (CHW) to a primary care setting was linked with improved type 2 diabetes management in a safety-net population, new research indicates.

The researchers, led by Robert L. Ferrer, MD, MPH, with the department of family and community medicine at the University of Texas Health Science Center, San Antonio, enrolled 986 people in a Latino, inner-city cohort in primary care in San Antonio. Patients had uncontrolled type 2 diabetes and psychosocial risk factors. The study was published in Annals of Family Medicine.

The primary outcome measured was whether patients progressed through three stages of self-care: outreach (meeting face to face with a community health care worker), stabilization (collaborating with community health care workers to address life circumstances), and a third stage the researchers called “self-care generativity” (being able to manage blood sugar levels at home). The intervention lasted up to 12 weeks and had a 4-year follow-up.

Of participating patients, the researchers reported, 27% remained in outreach, 41% progressed to stabilization, 32% achieved self-care generativity status.

Coauthor Carlos Roberto Jaén, MD, PhD, also from the UT Health Science Center at San Antonio, said in an interview, “I don’t know any other intervention for diabetes that has 32% of participants having this kind of effect 4 years later.”

Dr. Jaén added that the study is unusual in that it had a 4-year follow-up and showed positive effects throughout that period, as most CHW studies have followed patients only up to one year.

The positive results over the 4 years after a short intervention “is a testimony of the power of intervention,” he said.

A1c drops with more progress in the intervention

The secondary outcome was change in hemoglobin A1c and need for urgent care or emergency department or hospital care.

Study participants who worked with a CHW – regardless of which group they were in at the end of the intervention – collectively saw a 2% drop in blood sugar.

Over a similar time period to when the study was conducted, the researchers analyzed 27,000 A1c measurements of patients with type 2 diabetes in a comparator group. For these patients, who did not receive the study intervention but were part of the same practice as those who received the intervention, the researchers observed a reduction in A1c levels of 0.05%.

Among the study participants, for those who remained in outreach, hospital visits were 6% higher than for those who advanced to the level of self-care generativity, but this difference was not statistically significant. Hospital visits were 90% higher for those who achieved stabilization versus those who remained in outreach (P = .014) The average count of emergency department visits was 74% higher for those who achieved stabilization versus those who achieved self-care generativity, and 31% higher in the group remaining at outreach versus those who reached the highest level of self-care.
 

Advantages of community workers

In San Antonio, the authors noted, type 2 diabetes prevalence is high: 15.5% of its 1.6 million residents have been diagnosed with the disease.

The CHWs built trust with patients and helped them set goals, navigate the health system and connect to community resources. They worked with behavioral health clinicians, nurse care managers, and medical assistants toward population management.

“Community health workers’ detailed understanding of patients’ circumstances help to tailor their care rather than apply fixed interventions,” the authors wrote.

Ricardo Correa, MD, director of the endocrinology, diabetes, and metabolism fellowship program in the University of Arizona, Phoenix, who was not involved with the study, said in an interview he was not surprised by the positive results.

He described the difference when CHWs get involved with type 2 diabetes care, particularly in the Latino community.

“They understand the culture, not just the language,” he said. “They have the trust of the community.”

It’s different when a provider not from the community tells a person with type 2 diabetes he or she needs to eat healthier or exercise more, he said.

The CHW can understand, for instance, that the nearest fresh market may be two towns away and open only on Saturdays and the parks are not safe for exercise outside at certain times of the day. Then they can help the patient find a sustainable solution.

“Community workers also won’t be looking at your immigration status,” something important to many in the Latino community, he explained.

Though this study looked at type 2 diabetes management, community health workers are also effective in other areas, he explained, such as increasing COVID-19 vaccinations, also do them being trustworthy and understanding.
 

Other study strengths

The group of people with type 2 diabetes they studied has the highest rates of poverty – “the poorest of the poor” – and the highest rates of diabetes-related amputations in San Antonio, Dr. Jaén said.

The intervention “is more focused on what people want to do, less so on the disease,” he explained. People are asked what goals they want to achieve and how the care team can help.

“It becomes an alliance between the community health worker and the patient,” he continued.

Others interested in implementing a program should know that building that relationship takes time and takes a broad multidisciplinary team working together, he said. “We would not necessarily see these effects in 6 months. You have to use a larger perspective.”

The researchers include with this study under the first-page tab “more online” access to tools, including resources for training, for others who want to implement such a program.

The study authors and Dr. Correa reported no relevant financial relationships.

Doctors caring for patients taking steroids now have broader flexibility for which drugs to use to prevent osteoporosis associated with the medications.

The American College of Rheumatology (ACR) has released an updated guideline that advises treatment providers on when and how long to prescribe therapies that prevent or treat glucocorticoid-induced osteoporosis (GIOP). Since the ACR last updated the guideline in 2017, the Food and Drug Administration has approved new treatments for osteoporosis, which are now included in the recommendations.

The new guideline also advises physicians that they may need to transition patients to a second treatment after concluding a first course – so-called sequential therapy – to better protect them against bone loss and fracture. It also offers detailed instructions for which drugs to use, when, and how long these medications should be administered for patients taking glucocorticoids over a long period of time.

The guideline’s inclusion of sequential therapy is significant and will be helpful to practicing clinicians, according to S.B. Tanner IV, MD, director of the Osteoporosis Clinic at Vanderbilt Health, Nashville, Tenn.

“For the first time, the ACR has offered guidance for starting and stopping treatments,” Dr. Tanner said. “This guideline supports awareness that osteoporosis is lifelong – something that will consistently need monitoring.”

An estimated 2.5 million Americans use glucocorticoids, according to a 2013 study in Arthritis Care & Research. Meanwhile, a 2019 study of residents in Denmark found 3% of people in the country were prescribed glucocorticoids annually. That study estimated 54% of glucocorticoid users were female and found the percentage of people taking glucocorticoids increased with age.

Glucocorticoids are used to treat a variety of inflammatory conditions, from multiple sclerosis to lupus, and often are prescribed to transplant patients to prevent their immune systems from rejecting new organs. When taken over time these medications can cause osteoporosis, which in turn raises the risk of fracture.

More than 10% of patients who receive long-term glucocorticoid treatment are diagnosed with clinical fractures. In addition, even low-dose glucocorticoid therapy is associated with a bone loss rate of 10% per year for a patient.

Osteoporosis prevention

After stopping some prevention therapies for GIOP, a high risk of bone loss or fracture still persists, according to Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center for the Hospital for Special Surgery, New York, and co-principal investigator of the new guideline.

“We wanted to be sure the need for sequential treatment is adequately communicated, including to patients who might not know they need to start a second medication,” Dr. Russell said.

Physicians and patients must be aware that when completing a course of one GIOP treatment, another drug for the condition should be started, as specified in the guideline.

“Early intervention can prevent glucocorticoid-induced fractures that can lead to substantial morbidity and increased mortality,” said Mary Beth Humphrey, MD, PhD, interim vice president for research at the University of Oklahoma Health Sciences Center in Oklahoma City and co-principal investigator of the ACR guideline.

Anyone can fracture

While age and other risk factors, including menopause, increase the risk of developing GIOP, bone loss can occur rapidly for a patient of any age.

Even a glucocorticoid dose as low as 2.5 mg will increase the risk of vertebral fractures, with some occurring as soon as 3 months after treatment starts, Dr. Humphrey said. For patients taking up to 7.5 mg daily, the risk of vertebral fracture doubles. Doses greater than 10 mg daily for more than 3 months raise the likelihood of a vertebral fracture by a factor of 14, and result in a 300% increase in the likelihood of hip fractures, according to Dr. Humphrey.

“When on steroids, even patients with high bone density scores can fracture,” Dr. Tanner said. “The 2017 guideline was almost too elaborate in its effort to calculate risk. The updated guideline acknowledges moderate risk and suggests that this is a group of patients who need treatment.”
 

Rank ordering adds flexibility

The updated ACR guideline no longer ranks medications based on patient fracture data, side effects, cost care, and whether the drug is provided through injection, pill, or IV.

All of the preventive treatments the panel recommends reduce the risk of steroid-induced bone loss, Dr. Humphrey said.

“We thought the 2017 guideline was too restrictive,” Dr. Russell said. “We’re giving physicians and patients more leeway to choose a medication based on their preferences.”

Patient preference of delivery mechanism – such as a desire for pills only – can now be weighed more heavily into drug treatment decisions.

“In the exam room, there are three dynamics going on: What the patient wants, what the doctor knows is most effective, and what the insurer will pay,” Dr. Tanner said. “Doing away with rank ordering opens up the conversation beyond cost to consider all those factors.”

The guideline team conducted a systematic literature review for clinical questions on nonpharmacologic and pharmacologic treatment addressed in the 2017 guideline, and for questions on new pharmacologic treatments, discontinuation of medications, and sequential and combination therapy. The voting panel consisted of two patient representatives and 13 experts representing adult and pediatric rheumatology and endocrinology, nephrology, and gastroenterology.

A full manuscript has been submitted for publication in Arthritis & Rheumatology and Arthritis Care and Research for peer review, and is expected to publish in early 2023.

Dr. Humphrey and Dr. Russell, the co-principal investigators for the guideline, and Dr. Rubin have disclosed no relevant financial relationships. Dr. Tanner reported a current research grant funded by Amgen through the University of Alabama at Birmingham and being a paid course instructor for the International Society for Clinical Densitometry bone density course, Osteoporosis Essentials.

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

Doctors caring for patients taking steroids now have broader flexibility for which drugs to use to prevent osteoporosis associated with the medications.

The American College of Rheumatology (ACR) has released an updated guideline that advises treatment providers on when and how long to prescribe therapies that prevent or treat glucocorticoid-induced osteoporosis (GIOP). Since the ACR last updated the guideline in 2017, the Food and Drug Administration has approved new treatments for osteoporosis, which are now included in the recommendations.

The new guideline also advises physicians that they may need to transition patients to a second treatment after concluding a first course – so-called sequential therapy – to better protect them against bone loss and fracture. It also offers detailed instructions for which drugs to use, when, and how long these medications should be administered for patients taking glucocorticoids over a long period of time.

The guideline’s inclusion of sequential therapy is significant and will be helpful to practicing clinicians, according to S.B. Tanner IV, MD, director of the Osteoporosis Clinic at Vanderbilt Health, Nashville, Tenn.

“For the first time, the ACR has offered guidance for starting and stopping treatments,” Dr. Tanner said. “This guideline supports awareness that osteoporosis is lifelong – something that will consistently need monitoring.”

An estimated 2.5 million Americans use glucocorticoids, according to a 2013 study in Arthritis Care & Research. Meanwhile, a 2019 study of residents in Denmark found 3% of people in the country were prescribed glucocorticoids annually. That study estimated 54% of glucocorticoid users were female and found the percentage of people taking glucocorticoids increased with age.

Glucocorticoids are used to treat a variety of inflammatory conditions, from multiple sclerosis to lupus, and often are prescribed to transplant patients to prevent their immune systems from rejecting new organs. When taken over time these medications can cause osteoporosis, which in turn raises the risk of fracture.

More than 10% of patients who receive long-term glucocorticoid treatment are diagnosed with clinical fractures. In addition, even low-dose glucocorticoid therapy is associated with a bone loss rate of 10% per year for a patient.

Osteoporosis prevention

After stopping some prevention therapies for GIOP, a high risk of bone loss or fracture still persists, according to Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center for the Hospital for Special Surgery, New York, and co-principal investigator of the new guideline.

“We wanted to be sure the need for sequential treatment is adequately communicated, including to patients who might not know they need to start a second medication,” Dr. Russell said.

Physicians and patients must be aware that when completing a course of one GIOP treatment, another drug for the condition should be started, as specified in the guideline.

“Early intervention can prevent glucocorticoid-induced fractures that can lead to substantial morbidity and increased mortality,” said Mary Beth Humphrey, MD, PhD, interim vice president for research at the University of Oklahoma Health Sciences Center in Oklahoma City and co-principal investigator of the ACR guideline.

Anyone can fracture

While age and other risk factors, including menopause, increase the risk of developing GIOP, bone loss can occur rapidly for a patient of any age.

Even a glucocorticoid dose as low as 2.5 mg will increase the risk of vertebral fractures, with some occurring as soon as 3 months after treatment starts, Dr. Humphrey said. For patients taking up to 7.5 mg daily, the risk of vertebral fracture doubles. Doses greater than 10 mg daily for more than 3 months raise the likelihood of a vertebral fracture by a factor of 14, and result in a 300% increase in the likelihood of hip fractures, according to Dr. Humphrey.

“When on steroids, even patients with high bone density scores can fracture,” Dr. Tanner said. “The 2017 guideline was almost too elaborate in its effort to calculate risk. The updated guideline acknowledges moderate risk and suggests that this is a group of patients who need treatment.”
 

Rank ordering adds flexibility

The updated ACR guideline no longer ranks medications based on patient fracture data, side effects, cost care, and whether the drug is provided through injection, pill, or IV.

All of the preventive treatments the panel recommends reduce the risk of steroid-induced bone loss, Dr. Humphrey said.

“We thought the 2017 guideline was too restrictive,” Dr. Russell said. “We’re giving physicians and patients more leeway to choose a medication based on their preferences.”

Patient preference of delivery mechanism – such as a desire for pills only – can now be weighed more heavily into drug treatment decisions.

“In the exam room, there are three dynamics going on: What the patient wants, what the doctor knows is most effective, and what the insurer will pay,” Dr. Tanner said. “Doing away with rank ordering opens up the conversation beyond cost to consider all those factors.”

The guideline team conducted a systematic literature review for clinical questions on nonpharmacologic and pharmacologic treatment addressed in the 2017 guideline, and for questions on new pharmacologic treatments, discontinuation of medications, and sequential and combination therapy. The voting panel consisted of two patient representatives and 13 experts representing adult and pediatric rheumatology and endocrinology, nephrology, and gastroenterology.

A full manuscript has been submitted for publication in Arthritis & Rheumatology and Arthritis Care and Research for peer review, and is expected to publish in early 2023.

Dr. Humphrey and Dr. Russell, the co-principal investigators for the guideline, and Dr. Rubin have disclosed no relevant financial relationships. Dr. Tanner reported a current research grant funded by Amgen through the University of Alabama at Birmingham and being a paid course instructor for the International Society for Clinical Densitometry bone density course, Osteoporosis Essentials.

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

Doctors caring for patients taking steroids now have broader flexibility for which drugs to use to prevent osteoporosis associated with the medications.

The American College of Rheumatology (ACR) has released an updated guideline that advises treatment providers on when and how long to prescribe therapies that prevent or treat glucocorticoid-induced osteoporosis (GIOP). Since the ACR last updated the guideline in 2017, the Food and Drug Administration has approved new treatments for osteoporosis, which are now included in the recommendations.

The new guideline also advises physicians that they may need to transition patients to a second treatment after concluding a first course – so-called sequential therapy – to better protect them against bone loss and fracture. It also offers detailed instructions for which drugs to use, when, and how long these medications should be administered for patients taking glucocorticoids over a long period of time.

The guideline’s inclusion of sequential therapy is significant and will be helpful to practicing clinicians, according to S.B. Tanner IV, MD, director of the Osteoporosis Clinic at Vanderbilt Health, Nashville, Tenn.

“For the first time, the ACR has offered guidance for starting and stopping treatments,” Dr. Tanner said. “This guideline supports awareness that osteoporosis is lifelong – something that will consistently need monitoring.”

An estimated 2.5 million Americans use glucocorticoids, according to a 2013 study in Arthritis Care & Research. Meanwhile, a 2019 study of residents in Denmark found 3% of people in the country were prescribed glucocorticoids annually. That study estimated 54% of glucocorticoid users were female and found the percentage of people taking glucocorticoids increased with age.

Glucocorticoids are used to treat a variety of inflammatory conditions, from multiple sclerosis to lupus, and often are prescribed to transplant patients to prevent their immune systems from rejecting new organs. When taken over time these medications can cause osteoporosis, which in turn raises the risk of fracture.

More than 10% of patients who receive long-term glucocorticoid treatment are diagnosed with clinical fractures. In addition, even low-dose glucocorticoid therapy is associated with a bone loss rate of 10% per year for a patient.

Osteoporosis prevention

After stopping some prevention therapies for GIOP, a high risk of bone loss or fracture still persists, according to Linda A. Russell, MD, director of the Osteoporosis and Metabolic Bone Health Center for the Hospital for Special Surgery, New York, and co-principal investigator of the new guideline.

“We wanted to be sure the need for sequential treatment is adequately communicated, including to patients who might not know they need to start a second medication,” Dr. Russell said.

Physicians and patients must be aware that when completing a course of one GIOP treatment, another drug for the condition should be started, as specified in the guideline.

“Early intervention can prevent glucocorticoid-induced fractures that can lead to substantial morbidity and increased mortality,” said Mary Beth Humphrey, MD, PhD, interim vice president for research at the University of Oklahoma Health Sciences Center in Oklahoma City and co-principal investigator of the ACR guideline.

Anyone can fracture

While age and other risk factors, including menopause, increase the risk of developing GIOP, bone loss can occur rapidly for a patient of any age.

Even a glucocorticoid dose as low as 2.5 mg will increase the risk of vertebral fractures, with some occurring as soon as 3 months after treatment starts, Dr. Humphrey said. For patients taking up to 7.5 mg daily, the risk of vertebral fracture doubles. Doses greater than 10 mg daily for more than 3 months raise the likelihood of a vertebral fracture by a factor of 14, and result in a 300% increase in the likelihood of hip fractures, according to Dr. Humphrey.

“When on steroids, even patients with high bone density scores can fracture,” Dr. Tanner said. “The 2017 guideline was almost too elaborate in its effort to calculate risk. The updated guideline acknowledges moderate risk and suggests that this is a group of patients who need treatment.”
 

Rank ordering adds flexibility

The updated ACR guideline no longer ranks medications based on patient fracture data, side effects, cost care, and whether the drug is provided through injection, pill, or IV.

All of the preventive treatments the panel recommends reduce the risk of steroid-induced bone loss, Dr. Humphrey said.

“We thought the 2017 guideline was too restrictive,” Dr. Russell said. “We’re giving physicians and patients more leeway to choose a medication based on their preferences.”

Patient preference of delivery mechanism – such as a desire for pills only – can now be weighed more heavily into drug treatment decisions.

“In the exam room, there are three dynamics going on: What the patient wants, what the doctor knows is most effective, and what the insurer will pay,” Dr. Tanner said. “Doing away with rank ordering opens up the conversation beyond cost to consider all those factors.”

The guideline team conducted a systematic literature review for clinical questions on nonpharmacologic and pharmacologic treatment addressed in the 2017 guideline, and for questions on new pharmacologic treatments, discontinuation of medications, and sequential and combination therapy. The voting panel consisted of two patient representatives and 13 experts representing adult and pediatric rheumatology and endocrinology, nephrology, and gastroenterology.

A full manuscript has been submitted for publication in Arthritis & Rheumatology and Arthritis Care and Research for peer review, and is expected to publish in early 2023.

Dr. Humphrey and Dr. Russell, the co-principal investigators for the guideline, and Dr. Rubin have disclosed no relevant financial relationships. Dr. Tanner reported a current research grant funded by Amgen through the University of Alabama at Birmingham and being a paid course instructor for the International Society for Clinical Densitometry bone density course, Osteoporosis Essentials.

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

People who stay up late may be at greater risk for type 2 diabetes and cardiovascular disease than those who turn in early, according to new research.

In the study involving 51 people, night owls metabolized fat less efficiently, showed less insulin sensitivity, and demonstrated lower physical fitness than early birds, lead author Steven K. Malin, PhD, of Rutgers University, New Brunswick, N.J., and colleagues reported.

Prior publications have suggested that night owls, formally known as “late chronotypes,” have an increased risk of obesity, type 2 diabetes, and cardiovascular disease, Dr. Malin said in an interview. But no previous research involved the gold-standard measurement tools used in this study, including euglycemic clamp and indirect calorimetry to quantify fat metabolism.

Dr. Malin also noted that this is the first study of its kind to characterize metabolism during both rest and exercise.

The study, published in Experimental Physiology, involved 24 early birds and 27 night owls classified by the Morning-Eveningness Questionnaire. All participants were sedentary, reporting less than one hour of structured exercise per week, and had metabolic syndrome according to Adult Treatment Panel III report criteria. Groups were otherwise demographically similar, with average ages in each group of approximately 54-55 years.

Compared with night owls, early birds were more physically active during the morning into midday. During exercise, they metabolized more fat and demonstrated greater physical fitness based on VO_2max readings. At rest, early birds also came out ahead – they had higher fat oxidation and non–oxidative glucose disposal, suggesting more sensitivity to insulin.

“Collectively, this work highlights and supports chronotype as a potential risk factor related to type 2 diabetes and cardiovascular disease risk,” the investigators concluded.
 

Night owls have less metabolic control

Jed Friedman, PhD, director of OU Health Harold Hamm Diabetes Center at the University of Oklahoma Health Sciences Center, Oklahoma City, praised the study for the size of the groups the researchers compared with each other and how well matched those groups were, as well as the “state-of-the-art” measurement tools employed.

The findings show that night owls have “less metabolic control,” Dr. Friedman said in an interview.

“That’s a term that’s frequently invoked in [regard to] prediabetes,” he said. “Blood sugar goes up, because when you’re eating a high carbohydrate diet, your cells aren’t metabolizing sugar properly. That tends to raise your risk for a lot of diseases.”

Dr. Friedman added that the findings align with those of previous studies that have linked less sleep with changes in brain biology, and therefore behavior, especially in dietary choices.

“When you’re tired, the mechanisms for appetite control go haywire,” Dr. Friedman explained. “The evidence suggests that sugar is the primary driver for what people eat when they’re tired. That obviously has implications for diabetes and metabolic syndrome. So sleeping more really can help you control cravings.”

Dr. Friedman also noted that people who are tired tend to engage in less physical activity, further increasing their risk of metabolic issues. To control this risk, he advised people to return to their circadian rhythms, which could mean forgetting the midnight snack.

“Having a daily pattern that’s in sync with chronicity, or these daily rhythms, is associated with greater health,” Dr. Friedman said. “We’re not really made to eat at night. I think this [study] kind of reinforces that.”
 

Can a night owl become an early bird?

When asked if a person’s natural circadian rhythm can be later, Dr. Malin responded that chronotypes may be dictated by genetics and age, as well as external drivers like work schedule. For these reasons, it’s “tricky” to answer whether night owls can turn into early birds and reap the potential health benefits of making that shift.

“Given that so many life factors can influence what our routine entails, it’s hard to know if we [can] truly change our chronotype or if rather we [can] learn to manage,” Dr. Malin said. “In either case, there is some work that suggests people can adopt earlier bedtimes and waketimes through practical recommendations.”

Specifically, he suggested increasing physical activity during the day, and adjusting bedtimes gradually by 15-minute increments.

“Go to bed 15 minutes earlier then wake up 15 minutes earlier,” Dr. Malin said. “In time, and depending on how things are going, this can expand to another 15-minute window. Then, during the earlier time waking up, a person can engage in light physical activity to help with promoting general fitness. If they can get outside with sunlight, that would be great too, as the natural sunlight would provide cues to the circadian system to adjust.”

The study was supported by the National Institutes of Health. The investigators and Dr. Friedman disclosed no conflicts of interest.

People who stay up late may be at greater risk for type 2 diabetes and cardiovascular disease than those who turn in early, according to new research.

In the study involving 51 people, night owls metabolized fat less efficiently, showed less insulin sensitivity, and demonstrated lower physical fitness than early birds, lead author Steven K. Malin, PhD, of Rutgers University, New Brunswick, N.J., and colleagues reported.

Prior publications have suggested that night owls, formally known as “late chronotypes,” have an increased risk of obesity, type 2 diabetes, and cardiovascular disease, Dr. Malin said in an interview. But no previous research involved the gold-standard measurement tools used in this study, including euglycemic clamp and indirect calorimetry to quantify fat metabolism.

Dr. Malin also noted that this is the first study of its kind to characterize metabolism during both rest and exercise.

The study, published in Experimental Physiology, involved 24 early birds and 27 night owls classified by the Morning-Eveningness Questionnaire. All participants were sedentary, reporting less than one hour of structured exercise per week, and had metabolic syndrome according to Adult Treatment Panel III report criteria. Groups were otherwise demographically similar, with average ages in each group of approximately 54-55 years.

Compared with night owls, early birds were more physically active during the morning into midday. During exercise, they metabolized more fat and demonstrated greater physical fitness based on VO_2max readings. At rest, early birds also came out ahead – they had higher fat oxidation and non–oxidative glucose disposal, suggesting more sensitivity to insulin.

“Collectively, this work highlights and supports chronotype as a potential risk factor related to type 2 diabetes and cardiovascular disease risk,” the investigators concluded.
 

Night owls have less metabolic control

Jed Friedman, PhD, director of OU Health Harold Hamm Diabetes Center at the University of Oklahoma Health Sciences Center, Oklahoma City, praised the study for the size of the groups the researchers compared with each other and how well matched those groups were, as well as the “state-of-the-art” measurement tools employed.

The findings show that night owls have “less metabolic control,” Dr. Friedman said in an interview.

“That’s a term that’s frequently invoked in [regard to] prediabetes,” he said. “Blood sugar goes up, because when you’re eating a high carbohydrate diet, your cells aren’t metabolizing sugar properly. That tends to raise your risk for a lot of diseases.”

Dr. Friedman added that the findings align with those of previous studies that have linked less sleep with changes in brain biology, and therefore behavior, especially in dietary choices.

“When you’re tired, the mechanisms for appetite control go haywire,” Dr. Friedman explained. “The evidence suggests that sugar is the primary driver for what people eat when they’re tired. That obviously has implications for diabetes and metabolic syndrome. So sleeping more really can help you control cravings.”

Dr. Friedman also noted that people who are tired tend to engage in less physical activity, further increasing their risk of metabolic issues. To control this risk, he advised people to return to their circadian rhythms, which could mean forgetting the midnight snack.

“Having a daily pattern that’s in sync with chronicity, or these daily rhythms, is associated with greater health,” Dr. Friedman said. “We’re not really made to eat at night. I think this [study] kind of reinforces that.”
 

Can a night owl become an early bird?

When asked if a person’s natural circadian rhythm can be later, Dr. Malin responded that chronotypes may be dictated by genetics and age, as well as external drivers like work schedule. For these reasons, it’s “tricky” to answer whether night owls can turn into early birds and reap the potential health benefits of making that shift.

“Given that so many life factors can influence what our routine entails, it’s hard to know if we [can] truly change our chronotype or if rather we [can] learn to manage,” Dr. Malin said. “In either case, there is some work that suggests people can adopt earlier bedtimes and waketimes through practical recommendations.”

Specifically, he suggested increasing physical activity during the day, and adjusting bedtimes gradually by 15-minute increments.

“Go to bed 15 minutes earlier then wake up 15 minutes earlier,” Dr. Malin said. “In time, and depending on how things are going, this can expand to another 15-minute window. Then, during the earlier time waking up, a person can engage in light physical activity to help with promoting general fitness. If they can get outside with sunlight, that would be great too, as the natural sunlight would provide cues to the circadian system to adjust.”

The study was supported by the National Institutes of Health. The investigators and Dr. Friedman disclosed no conflicts of interest.

People who stay up late may be at greater risk for type 2 diabetes and cardiovascular disease than those who turn in early, according to new research.

In the study involving 51 people, night owls metabolized fat less efficiently, showed less insulin sensitivity, and demonstrated lower physical fitness than early birds, lead author Steven K. Malin, PhD, of Rutgers University, New Brunswick, N.J., and colleagues reported.

Prior publications have suggested that night owls, formally known as “late chronotypes,” have an increased risk of obesity, type 2 diabetes, and cardiovascular disease, Dr. Malin said in an interview. But no previous research involved the gold-standard measurement tools used in this study, including euglycemic clamp and indirect calorimetry to quantify fat metabolism.

Dr. Malin also noted that this is the first study of its kind to characterize metabolism during both rest and exercise.

The study, published in Experimental Physiology, involved 24 early birds and 27 night owls classified by the Morning-Eveningness Questionnaire. All participants were sedentary, reporting less than one hour of structured exercise per week, and had metabolic syndrome according to Adult Treatment Panel III report criteria. Groups were otherwise demographically similar, with average ages in each group of approximately 54-55 years.

Compared with night owls, early birds were more physically active during the morning into midday. During exercise, they metabolized more fat and demonstrated greater physical fitness based on VO_2max readings. At rest, early birds also came out ahead – they had higher fat oxidation and non–oxidative glucose disposal, suggesting more sensitivity to insulin.

“Collectively, this work highlights and supports chronotype as a potential risk factor related to type 2 diabetes and cardiovascular disease risk,” the investigators concluded.
 

Night owls have less metabolic control

Jed Friedman, PhD, director of OU Health Harold Hamm Diabetes Center at the University of Oklahoma Health Sciences Center, Oklahoma City, praised the study for the size of the groups the researchers compared with each other and how well matched those groups were, as well as the “state-of-the-art” measurement tools employed.

The findings show that night owls have “less metabolic control,” Dr. Friedman said in an interview.

“That’s a term that’s frequently invoked in [regard to] prediabetes,” he said. “Blood sugar goes up, because when you’re eating a high carbohydrate diet, your cells aren’t metabolizing sugar properly. That tends to raise your risk for a lot of diseases.”

Dr. Friedman added that the findings align with those of previous studies that have linked less sleep with changes in brain biology, and therefore behavior, especially in dietary choices.

“When you’re tired, the mechanisms for appetite control go haywire,” Dr. Friedman explained. “The evidence suggests that sugar is the primary driver for what people eat when they’re tired. That obviously has implications for diabetes and metabolic syndrome. So sleeping more really can help you control cravings.”

Dr. Friedman also noted that people who are tired tend to engage in less physical activity, further increasing their risk of metabolic issues. To control this risk, he advised people to return to their circadian rhythms, which could mean forgetting the midnight snack.

“Having a daily pattern that’s in sync with chronicity, or these daily rhythms, is associated with greater health,” Dr. Friedman said. “We’re not really made to eat at night. I think this [study] kind of reinforces that.”
 

Can a night owl become an early bird?

When asked if a person’s natural circadian rhythm can be later, Dr. Malin responded that chronotypes may be dictated by genetics and age, as well as external drivers like work schedule. For these reasons, it’s “tricky” to answer whether night owls can turn into early birds and reap the potential health benefits of making that shift.

“Given that so many life factors can influence what our routine entails, it’s hard to know if we [can] truly change our chronotype or if rather we [can] learn to manage,” Dr. Malin said. “In either case, there is some work that suggests people can adopt earlier bedtimes and waketimes through practical recommendations.”

Specifically, he suggested increasing physical activity during the day, and adjusting bedtimes gradually by 15-minute increments.

“Go to bed 15 minutes earlier then wake up 15 minutes earlier,” Dr. Malin said. “In time, and depending on how things are going, this can expand to another 15-minute window. Then, during the earlier time waking up, a person can engage in light physical activity to help with promoting general fitness. If they can get outside with sunlight, that would be great too, as the natural sunlight would provide cues to the circadian system to adjust.”

The study was supported by the National Institutes of Health. The investigators and Dr. Friedman disclosed no conflicts of interest.

In a small cross-sectional study of 10- to 16-year-old girls with and without type 1 diabetes, both groups were equally physically active, based on their replies to the bone-specific physical activity questionnaire (BPAQ).

However, among the more sedentary girls (with BPAQ scores below the median), those with type 1 diabetes had worse markers of bone health in imaging tests compared with the girls without diabetes.

“The deleterious effect of [type 1 diabetes] on bone health in girls is most pronounced in those with less weight-bearing activity,” the researchers summarize in a poster presented at the annual meeting of the American Society of Bone and Mineral Research.

However, this is early research and further study is needed, the group cautions.

“Ongoing studies with objective measures of physical activity as well as interventional studies will clarify whether increasing physical activity may improve bone health and reduce fracture risk in this vulnerable group,” they conclude.

“If you look at the sedentary kids, there’s a big discrepancy between the kids who have diabetes and the control kids, and that’s if we’re looking at radius or tibia or trabecular bone density or estimated failure load,” senior author Deborah M. Mitchell, MD, said in an interview at the poster session.

However, “when we look at the kids who are more physically active, we’re really not seeing as much difference [in bone health] between the kids with and without diabetes,” said Dr. Mitchell, a pediatric endocrinologist at Massachusetts General Hospital and assistant professor at Harvard Medical School, Boston.

But she also acknowledged, “There’s all sorts of caveats, including that this is retrospective questionnaire data.”

However, if further, rigorous studies confirm these findings, “physical activity is potentially a really effective means of improving bone quality in kids with type 1 diabetes.”

“This study suggests that bone-loading physical activity can substantially improve skeletal health in children with [type 1 diabetes] and should provide hope for patients and their families that they can take some action to prevent or mitigate the effects of diabetes on bone,” coauthor and incoming ASBMR President Mary L. Bouxsein, PhD, told this news organization in an email.

“We interpret these data as an important reason to advocate for increased time in moderate to vigorous bone-loading activity,” said Dr. Bouxsein, professor, department of orthopedic surgery, Harvard Medical School, Boston, “though the ‘dose’ in terms of hours per day or episodes per week to promote optimal bone health is still to be determined.”
 

“Ongoing debate,” “need stronger proof”

Asked for comment, Laura K. Bachrach, MD, who was not involved with the research, noted: “Activity benefits the development of bone strength through effects on bone geometry more than ‘density,’ and conversely, lack of physical activity can compromise gains in cortical bone diameter and thickness.”

However, “there is ongoing debate about the impact of type 1 diabetes on bone health and the factor(s) determining risk,” Dr. Bachrach, a pediatric endocrinologist at Stanford Children’s Health, Palo Alto, Calif., told this news organization in an email.  

The current findings suggest “that physical activity in adolescent girls provided protection against potential adverse effects of type 1 diabetes,” said Dr. Bachrach, who spoke about bone fragility in childhood in a video commentary in 2021.

Study strengths, she noted, “include the rigor and expertise of the investigators, use of multiple surrogate measures that capture bone geometry/microarchitecture, as well as the inclusion of healthy local controls.”  

“The study is limited by the cross-sectional design and subjects who opted, or not, to be active,” she added. “Stronger proof of the protective effects of activity on bone health in type 1 diabetes would require a randomized longitudinal intervention study, as alluded to by the authors of the study.”
 

Hypothesis: Those with type 1 diabetes acquire less bone mass in early 20s

The excess fracture risk in children with type 1 diabetes has been previously reported and is 14%-35% higher than the fracture risk in children without diabetes, Dr. Bouxsein explained. And “between 30% to 50% of kids [with type 1 diabetes] will have a fracture before the age of 18, so the excess fracture risk in diabetes is not clinically obvious,” she added.

However, “several lines of evidence strongly suggest that bone mass and microarchitecture at the time of peak bone mass (early 20s) is a major determinant of fracture risk throughout the lifespan,” she noted.

“Our hypothesis,” Dr. Bouxsein said, “is that the metabolic disruptions of diabetes, when they are present during the acquisition of peak bone mass, interfere with optimal bone development, and therefore may contribute to increased fracture risk later in life.”

Dr. Bachrach agreed that “peak bone strength is achieved by early adulthood, making childhood and adolescence important times to optimize bone health,” and that “peak bone strength is a predictor of lifetime risk of osteoporosis.”

“The diagnosis of pediatric osteoporosis is made when a child or teen sustains a vertebral fracture or femur fracture with minimal or no trauma,” she explained. “The diagnosis can also be made in a pediatric patient with low BMD [bone mineral density] for age in combination with a history of several long-bone fractures.”

Dr. Mitchell noted that type 1 diabetes is associated with a higher risk of fractures, which is sixfold in adults. In another study, she said, the group showed that in 10- to 16-year-old girls who’ve only had diabetes for a few years, “trabecular bone density is lower, they have lower estimated failure load, and longitudinally when we follow them, at least at the radius, we’re seeing bone loss at a relatively young age when we wouldn’t be expecting to see bone loss.”
 

80 girls enrolled, half had type 1 diabetes

Researchers enrolled 36 girls with type 1 diabetes and 44 girls without type 1 diabetes (controls) who were a mean age of 14.7 years and most (92%) were White. The girls with and without diabetes had similar rates of previous fractures (44% and 51%).

Those with diabetes had been diagnosed at a mean age of 9 years and had had diabetes for a mean of 4.6 years.

Researchers calculated participants’ total BPAQ scores based on type, duration, and frequency of bone-loading activities. 

Participants had dual-energy X-ray absorptiometry scans to determine areal bone mineral density (BMD) at the total hip, femoral neck, lumbar spine, and whole body less head.

They also had high-resolution peripheral quantitative computed tomography at the distal tibia and radius to determine volumetric BMD, bone microarchitecture, and estimated bone strength (calculated using microfinite element analysis).

The two groups had similar total BPAQ scores (57.3 and 64.6), with a median score of 49.

BPAQ scores were positively associated with areal BMD at all sites (whole body, lumbar spine, total hip, femoral neck, and 1/3 radius) and with trabecular BMD and estimated failure load at the distal radius and tibia (P < .05 for all, adjusted for bone age).

Among participants with low physical activity (BPAQ below the median), compared with controls, those with type 1 diabetes had 6.6% lower aerial BMD at the lumbar spine (0.868 vs. 0.929 g/cm³; P = .04), 8% lower trabecular volumetric BMD at the distal radius (128.5 vs. 156.8 mg/cm³; P = .01), and 12% lower estimated failure load. Results at the distal tibia were similar.
 

Next steps

“More observational studies in males and females across a broader age spectrum would be helpful,” Dr. Bachrach noted. “The ‘gold standard’ model would be a long-term randomized controlled activity intervention study.”

“Further studies are underway [in girls and boys] using objective measures of activity including accelerometry and longitudinal observation to help confirm the findings from the current study,” Dr. Bouxsein said. “Ultimately, trials of activity interventions in children with [type 1 diabetes] will be the gold standard to determine to what extent physical activity can mitigate bone disease in [type 1 diabetes],” she agreed.

The study authors and Dr. Bachrach have reported no relevant financial relationships.

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

In a small cross-sectional study of 10- to 16-year-old girls with and without type 1 diabetes, both groups were equally physically active, based on their replies to the bone-specific physical activity questionnaire (BPAQ).

However, among the more sedentary girls (with BPAQ scores below the median), those with type 1 diabetes had worse markers of bone health in imaging tests compared with the girls without diabetes.

“The deleterious effect of [type 1 diabetes] on bone health in girls is most pronounced in those with less weight-bearing activity,” the researchers summarize in a poster presented at the annual meeting of the American Society of Bone and Mineral Research.

However, this is early research and further study is needed, the group cautions.

“Ongoing studies with objective measures of physical activity as well as interventional studies will clarify whether increasing physical activity may improve bone health and reduce fracture risk in this vulnerable group,” they conclude.

“If you look at the sedentary kids, there’s a big discrepancy between the kids who have diabetes and the control kids, and that’s if we’re looking at radius or tibia or trabecular bone density or estimated failure load,” senior author Deborah M. Mitchell, MD, said in an interview at the poster session.

However, “when we look at the kids who are more physically active, we’re really not seeing as much difference [in bone health] between the kids with and without diabetes,” said Dr. Mitchell, a pediatric endocrinologist at Massachusetts General Hospital and assistant professor at Harvard Medical School, Boston.

But she also acknowledged, “There’s all sorts of caveats, including that this is retrospective questionnaire data.”

However, if further, rigorous studies confirm these findings, “physical activity is potentially a really effective means of improving bone quality in kids with type 1 diabetes.”

“This study suggests that bone-loading physical activity can substantially improve skeletal health in children with [type 1 diabetes] and should provide hope for patients and their families that they can take some action to prevent or mitigate the effects of diabetes on bone,” coauthor and incoming ASBMR President Mary L. Bouxsein, PhD, told this news organization in an email.

“We interpret these data as an important reason to advocate for increased time in moderate to vigorous bone-loading activity,” said Dr. Bouxsein, professor, department of orthopedic surgery, Harvard Medical School, Boston, “though the ‘dose’ in terms of hours per day or episodes per week to promote optimal bone health is still to be determined.”
 

“Ongoing debate,” “need stronger proof”

Asked for comment, Laura K. Bachrach, MD, who was not involved with the research, noted: “Activity benefits the development of bone strength through effects on bone geometry more than ‘density,’ and conversely, lack of physical activity can compromise gains in cortical bone diameter and thickness.”

However, “there is ongoing debate about the impact of type 1 diabetes on bone health and the factor(s) determining risk,” Dr. Bachrach, a pediatric endocrinologist at Stanford Children’s Health, Palo Alto, Calif., told this news organization in an email.  

The current findings suggest “that physical activity in adolescent girls provided protection against potential adverse effects of type 1 diabetes,” said Dr. Bachrach, who spoke about bone fragility in childhood in a video commentary in 2021.

Study strengths, she noted, “include the rigor and expertise of the investigators, use of multiple surrogate measures that capture bone geometry/microarchitecture, as well as the inclusion of healthy local controls.”  

“The study is limited by the cross-sectional design and subjects who opted, or not, to be active,” she added. “Stronger proof of the protective effects of activity on bone health in type 1 diabetes would require a randomized longitudinal intervention study, as alluded to by the authors of the study.”
 

Hypothesis: Those with type 1 diabetes acquire less bone mass in early 20s

The excess fracture risk in children with type 1 diabetes has been previously reported and is 14%-35% higher than the fracture risk in children without diabetes, Dr. Bouxsein explained. And “between 30% to 50% of kids [with type 1 diabetes] will have a fracture before the age of 18, so the excess fracture risk in diabetes is not clinically obvious,” she added.

However, “several lines of evidence strongly suggest that bone mass and microarchitecture at the time of peak bone mass (early 20s) is a major determinant of fracture risk throughout the lifespan,” she noted.

“Our hypothesis,” Dr. Bouxsein said, “is that the metabolic disruptions of diabetes, when they are present during the acquisition of peak bone mass, interfere with optimal bone development, and therefore may contribute to increased fracture risk later in life.”

Dr. Bachrach agreed that “peak bone strength is achieved by early adulthood, making childhood and adolescence important times to optimize bone health,” and that “peak bone strength is a predictor of lifetime risk of osteoporosis.”

“The diagnosis of pediatric osteoporosis is made when a child or teen sustains a vertebral fracture or femur fracture with minimal or no trauma,” she explained. “The diagnosis can also be made in a pediatric patient with low BMD [bone mineral density] for age in combination with a history of several long-bone fractures.”

Dr. Mitchell noted that type 1 diabetes is associated with a higher risk of fractures, which is sixfold in adults. In another study, she said, the group showed that in 10- to 16-year-old girls who’ve only had diabetes for a few years, “trabecular bone density is lower, they have lower estimated failure load, and longitudinally when we follow them, at least at the radius, we’re seeing bone loss at a relatively young age when we wouldn’t be expecting to see bone loss.”
 

80 girls enrolled, half had type 1 diabetes

Researchers enrolled 36 girls with type 1 diabetes and 44 girls without type 1 diabetes (controls) who were a mean age of 14.7 years and most (92%) were White. The girls with and without diabetes had similar rates of previous fractures (44% and 51%).

Those with diabetes had been diagnosed at a mean age of 9 years and had had diabetes for a mean of 4.6 years.

Researchers calculated participants’ total BPAQ scores based on type, duration, and frequency of bone-loading activities. 

Participants had dual-energy X-ray absorptiometry scans to determine areal bone mineral density (BMD) at the total hip, femoral neck, lumbar spine, and whole body less head.

They also had high-resolution peripheral quantitative computed tomography at the distal tibia and radius to determine volumetric BMD, bone microarchitecture, and estimated bone strength (calculated using microfinite element analysis).

The two groups had similar total BPAQ scores (57.3 and 64.6), with a median score of 49.

BPAQ scores were positively associated with areal BMD at all sites (whole body, lumbar spine, total hip, femoral neck, and 1/3 radius) and with trabecular BMD and estimated failure load at the distal radius and tibia (P < .05 for all, adjusted for bone age).

Among participants with low physical activity (BPAQ below the median), compared with controls, those with type 1 diabetes had 6.6% lower aerial BMD at the lumbar spine (0.868 vs. 0.929 g/cm³; P = .04), 8% lower trabecular volumetric BMD at the distal radius (128.5 vs. 156.8 mg/cm³; P = .01), and 12% lower estimated failure load. Results at the distal tibia were similar.
 

Next steps

“More observational studies in males and females across a broader age spectrum would be helpful,” Dr. Bachrach noted. “The ‘gold standard’ model would be a long-term randomized controlled activity intervention study.”

“Further studies are underway [in girls and boys] using objective measures of activity including accelerometry and longitudinal observation to help confirm the findings from the current study,” Dr. Bouxsein said. “Ultimately, trials of activity interventions in children with [type 1 diabetes] will be the gold standard to determine to what extent physical activity can mitigate bone disease in [type 1 diabetes],” she agreed.

The study authors and Dr. Bachrach have reported no relevant financial relationships.

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

In a small cross-sectional study of 10- to 16-year-old girls with and without type 1 diabetes, both groups were equally physically active, based on their replies to the bone-specific physical activity questionnaire (BPAQ).

However, among the more sedentary girls (with BPAQ scores below the median), those with type 1 diabetes had worse markers of bone health in imaging tests compared with the girls without diabetes.

“The deleterious effect of [type 1 diabetes] on bone health in girls is most pronounced in those with less weight-bearing activity,” the researchers summarize in a poster presented at the annual meeting of the American Society of Bone and Mineral Research.

However, this is early research and further study is needed, the group cautions.

“Ongoing studies with objective measures of physical activity as well as interventional studies will clarify whether increasing physical activity may improve bone health and reduce fracture risk in this vulnerable group,” they conclude.

“If you look at the sedentary kids, there’s a big discrepancy between the kids who have diabetes and the control kids, and that’s if we’re looking at radius or tibia or trabecular bone density or estimated failure load,” senior author Deborah M. Mitchell, MD, said in an interview at the poster session.

However, “when we look at the kids who are more physically active, we’re really not seeing as much difference [in bone health] between the kids with and without diabetes,” said Dr. Mitchell, a pediatric endocrinologist at Massachusetts General Hospital and assistant professor at Harvard Medical School, Boston.

But she also acknowledged, “There’s all sorts of caveats, including that this is retrospective questionnaire data.”

However, if further, rigorous studies confirm these findings, “physical activity is potentially a really effective means of improving bone quality in kids with type 1 diabetes.”

“This study suggests that bone-loading physical activity can substantially improve skeletal health in children with [type 1 diabetes] and should provide hope for patients and their families that they can take some action to prevent or mitigate the effects of diabetes on bone,” coauthor and incoming ASBMR President Mary L. Bouxsein, PhD, told this news organization in an email.

“We interpret these data as an important reason to advocate for increased time in moderate to vigorous bone-loading activity,” said Dr. Bouxsein, professor, department of orthopedic surgery, Harvard Medical School, Boston, “though the ‘dose’ in terms of hours per day or episodes per week to promote optimal bone health is still to be determined.”
 

“Ongoing debate,” “need stronger proof”

Asked for comment, Laura K. Bachrach, MD, who was not involved with the research, noted: “Activity benefits the development of bone strength through effects on bone geometry more than ‘density,’ and conversely, lack of physical activity can compromise gains in cortical bone diameter and thickness.”

However, “there is ongoing debate about the impact of type 1 diabetes on bone health and the factor(s) determining risk,” Dr. Bachrach, a pediatric endocrinologist at Stanford Children’s Health, Palo Alto, Calif., told this news organization in an email.  

The current findings suggest “that physical activity in adolescent girls provided protection against potential adverse effects of type 1 diabetes,” said Dr. Bachrach, who spoke about bone fragility in childhood in a video commentary in 2021.

Study strengths, she noted, “include the rigor and expertise of the investigators, use of multiple surrogate measures that capture bone geometry/microarchitecture, as well as the inclusion of healthy local controls.”  

“The study is limited by the cross-sectional design and subjects who opted, or not, to be active,” she added. “Stronger proof of the protective effects of activity on bone health in type 1 diabetes would require a randomized longitudinal intervention study, as alluded to by the authors of the study.”
 

Hypothesis: Those with type 1 diabetes acquire less bone mass in early 20s

The excess fracture risk in children with type 1 diabetes has been previously reported and is 14%-35% higher than the fracture risk in children without diabetes, Dr. Bouxsein explained. And “between 30% to 50% of kids [with type 1 diabetes] will have a fracture before the age of 18, so the excess fracture risk in diabetes is not clinically obvious,” she added.

However, “several lines of evidence strongly suggest that bone mass and microarchitecture at the time of peak bone mass (early 20s) is a major determinant of fracture risk throughout the lifespan,” she noted.

“Our hypothesis,” Dr. Bouxsein said, “is that the metabolic disruptions of diabetes, when they are present during the acquisition of peak bone mass, interfere with optimal bone development, and therefore may contribute to increased fracture risk later in life.”

Dr. Bachrach agreed that “peak bone strength is achieved by early adulthood, making childhood and adolescence important times to optimize bone health,” and that “peak bone strength is a predictor of lifetime risk of osteoporosis.”

“The diagnosis of pediatric osteoporosis is made when a child or teen sustains a vertebral fracture or femur fracture with minimal or no trauma,” she explained. “The diagnosis can also be made in a pediatric patient with low BMD [bone mineral density] for age in combination with a history of several long-bone fractures.”

Dr. Mitchell noted that type 1 diabetes is associated with a higher risk of fractures, which is sixfold in adults. In another study, she said, the group showed that in 10- to 16-year-old girls who’ve only had diabetes for a few years, “trabecular bone density is lower, they have lower estimated failure load, and longitudinally when we follow them, at least at the radius, we’re seeing bone loss at a relatively young age when we wouldn’t be expecting to see bone loss.”
 

80 girls enrolled, half had type 1 diabetes

Researchers enrolled 36 girls with type 1 diabetes and 44 girls without type 1 diabetes (controls) who were a mean age of 14.7 years and most (92%) were White. The girls with and without diabetes had similar rates of previous fractures (44% and 51%).

Those with diabetes had been diagnosed at a mean age of 9 years and had had diabetes for a mean of 4.6 years.

Researchers calculated participants’ total BPAQ scores based on type, duration, and frequency of bone-loading activities. 

Participants had dual-energy X-ray absorptiometry scans to determine areal bone mineral density (BMD) at the total hip, femoral neck, lumbar spine, and whole body less head.

They also had high-resolution peripheral quantitative computed tomography at the distal tibia and radius to determine volumetric BMD, bone microarchitecture, and estimated bone strength (calculated using microfinite element analysis).

The two groups had similar total BPAQ scores (57.3 and 64.6), with a median score of 49.

BPAQ scores were positively associated with areal BMD at all sites (whole body, lumbar spine, total hip, femoral neck, and 1/3 radius) and with trabecular BMD and estimated failure load at the distal radius and tibia (P < .05 for all, adjusted for bone age).

Among participants with low physical activity (BPAQ below the median), compared with controls, those with type 1 diabetes had 6.6% lower aerial BMD at the lumbar spine (0.868 vs. 0.929 g/cm³; P = .04), 8% lower trabecular volumetric BMD at the distal radius (128.5 vs. 156.8 mg/cm³; P = .01), and 12% lower estimated failure load. Results at the distal tibia were similar.
 

Next steps

“More observational studies in males and females across a broader age spectrum would be helpful,” Dr. Bachrach noted. “The ‘gold standard’ model would be a long-term randomized controlled activity intervention study.”

“Further studies are underway [in girls and boys] using objective measures of activity including accelerometry and longitudinal observation to help confirm the findings from the current study,” Dr. Bouxsein said. “Ultimately, trials of activity interventions in children with [type 1 diabetes] will be the gold standard to determine to what extent physical activity can mitigate bone disease in [type 1 diabetes],” she agreed.

The study authors and Dr. Bachrach have reported no relevant financial relationships.

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

STOCKHOLM – New evidence continues to show that alternative measures of adiposity than body mass index, such as waist-to-hip ratio, work better for predicting the risk a person with overweight or obesity faces from their excess weight.

A direct comparison of waist-to-hip ratio (WHR), body mass index (BMI), and fat mass index (FMI) in a total of more than 380,000 United Kingdom residents included in the UK Biobank showed that WHR had the strongest and most consistent relationship to all-cause death, compared with the other two measures, indicating that clinicians should pay more attention to adiposity distribution than they do to BMI when prioritizing obesity interventions, Irfan Khan said at the annual meeting of the European Association for the Study of Diabetes.

MDedge News/Mitchel L. Zoler

Moving away from BMI-centric obesity

“This is a timely topic, because guidelines for treating people with obesity have depended so much on BMI. We want to go from a BMI-centric view to a view of obesity that depends more on disease burden,” commented Matthias Blüher, MD, professor of molecular endocrinology and head of the Obesity Outpatient Clinic for Adults at the University of Leipzig (Germany).

MDedge News/Mitchel L. Zoler

For example, the 2016 obesity management guidelines from the American Association of Clinical Endocrinologists and the American College of Endocrinology called for a “complications-centric” approach to assessing and intervening in people with obesity rather than a “BMI-centric” approach.

But Dr. Blüher went a step further in an interview, adding that “waist-to-hip ratio is now outdated,” with adjusted measures of WHR such as waist-to-height ratio “considered a better proxy for all-cause death.” He also gave high marks to the Edmonton Obesity Staging System, which independently added to BMI as well as to a diagnosis of metabolic syndrome for predicting mortality in a sample from the U.S. National Health and Nutrition Examination Survey (NHANES). The Edmonton System also surpassed BMI for disease-severity staging using data from more than 23,000 Canadians with a BMI that denoted obesity.
 

1 standard deviation increase in WHR linked with a 41% increased mortality

The study reported by Mr. Khan used both epidemiologic and Mendelian randomization analyses on data collected from more than 380,000 U.K. residents included in the UK Biobank database to examine the statistical associations between BMI, FMI, and WHR and all-cause death. This showed that while BMI and FMI both had significant, independent associations with all-cause mortality, with hazard ratios of 1.14 for each 1 standard deviation increase in BMI and of 1.17 for each standard deviation increase in FMI, the link was a stronger 1.41 per standard deviation increase in WHR, he said.

Another analysis that divided the entire UK Biobank study cohort into 20 roughly similar subgroups by their BMI showed that WHR had the most consistent association across the BMI spectrum.

Further analyses showed that WHR also strongly and significantly linked with cardiovascular disease death and with other causes of death that were not cardiovascular, cancer-related, or associated with respiratory diseases. And the WHR link to all-cause mortality was strongest in men, and much less robust in women, likely because visceral adiposity is much more common among men, even compared with the postmenopausal women who predominate in the UK Biobank cohort.

One more feature of WHR that makes it an attractive metric is its relative ease of measurement, about as easy as BMI, Mr. Khan said.

The study received no commercial funding, and Mr. Khan had no disclosures. Dr. Blüher has been a consultant to or speaker on behalf of Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Lilly, Novartis, Novo Nordisk, and Sanofi.

[email protected]

STOCKHOLM – New evidence continues to show that alternative measures of adiposity than body mass index, such as waist-to-hip ratio, work better for predicting the risk a person with overweight or obesity faces from their excess weight.

A direct comparison of waist-to-hip ratio (WHR), body mass index (BMI), and fat mass index (FMI) in a total of more than 380,000 United Kingdom residents included in the UK Biobank showed that WHR had the strongest and most consistent relationship to all-cause death, compared with the other two measures, indicating that clinicians should pay more attention to adiposity distribution than they do to BMI when prioritizing obesity interventions, Irfan Khan said at the annual meeting of the European Association for the Study of Diabetes.

MDedge News/Mitchel L. Zoler

Moving away from BMI-centric obesity

“This is a timely topic, because guidelines for treating people with obesity have depended so much on BMI. We want to go from a BMI-centric view to a view of obesity that depends more on disease burden,” commented Matthias Blüher, MD, professor of molecular endocrinology and head of the Obesity Outpatient Clinic for Adults at the University of Leipzig (Germany).

MDedge News/Mitchel L. Zoler

For example, the 2016 obesity management guidelines from the American Association of Clinical Endocrinologists and the American College of Endocrinology called for a “complications-centric” approach to assessing and intervening in people with obesity rather than a “BMI-centric” approach.

But Dr. Blüher went a step further in an interview, adding that “waist-to-hip ratio is now outdated,” with adjusted measures of WHR such as waist-to-height ratio “considered a better proxy for all-cause death.” He also gave high marks to the Edmonton Obesity Staging System, which independently added to BMI as well as to a diagnosis of metabolic syndrome for predicting mortality in a sample from the U.S. National Health and Nutrition Examination Survey (NHANES). The Edmonton System also surpassed BMI for disease-severity staging using data from more than 23,000 Canadians with a BMI that denoted obesity.
 

1 standard deviation increase in WHR linked with a 41% increased mortality

The study reported by Mr. Khan used both epidemiologic and Mendelian randomization analyses on data collected from more than 380,000 U.K. residents included in the UK Biobank database to examine the statistical associations between BMI, FMI, and WHR and all-cause death. This showed that while BMI and FMI both had significant, independent associations with all-cause mortality, with hazard ratios of 1.14 for each 1 standard deviation increase in BMI and of 1.17 for each standard deviation increase in FMI, the link was a stronger 1.41 per standard deviation increase in WHR, he said.

Another analysis that divided the entire UK Biobank study cohort into 20 roughly similar subgroups by their BMI showed that WHR had the most consistent association across the BMI spectrum.

Further analyses showed that WHR also strongly and significantly linked with cardiovascular disease death and with other causes of death that were not cardiovascular, cancer-related, or associated with respiratory diseases. And the WHR link to all-cause mortality was strongest in men, and much less robust in women, likely because visceral adiposity is much more common among men, even compared with the postmenopausal women who predominate in the UK Biobank cohort.

One more feature of WHR that makes it an attractive metric is its relative ease of measurement, about as easy as BMI, Mr. Khan said.

The study received no commercial funding, and Mr. Khan had no disclosures. Dr. Blüher has been a consultant to or speaker on behalf of Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Lilly, Novartis, Novo Nordisk, and Sanofi.

[email protected]

STOCKHOLM – New evidence continues to show that alternative measures of adiposity than body mass index, such as waist-to-hip ratio, work better for predicting the risk a person with overweight or obesity faces from their excess weight.

A direct comparison of waist-to-hip ratio (WHR), body mass index (BMI), and fat mass index (FMI) in a total of more than 380,000 United Kingdom residents included in the UK Biobank showed that WHR had the strongest and most consistent relationship to all-cause death, compared with the other two measures, indicating that clinicians should pay more attention to adiposity distribution than they do to BMI when prioritizing obesity interventions, Irfan Khan said at the annual meeting of the European Association for the Study of Diabetes.

MDedge News/Mitchel L. Zoler

Moving away from BMI-centric obesity

“This is a timely topic, because guidelines for treating people with obesity have depended so much on BMI. We want to go from a BMI-centric view to a view of obesity that depends more on disease burden,” commented Matthias Blüher, MD, professor of molecular endocrinology and head of the Obesity Outpatient Clinic for Adults at the University of Leipzig (Germany).

MDedge News/Mitchel L. Zoler

For example, the 2016 obesity management guidelines from the American Association of Clinical Endocrinologists and the American College of Endocrinology called for a “complications-centric” approach to assessing and intervening in people with obesity rather than a “BMI-centric” approach.

But Dr. Blüher went a step further in an interview, adding that “waist-to-hip ratio is now outdated,” with adjusted measures of WHR such as waist-to-height ratio “considered a better proxy for all-cause death.” He also gave high marks to the Edmonton Obesity Staging System, which independently added to BMI as well as to a diagnosis of metabolic syndrome for predicting mortality in a sample from the U.S. National Health and Nutrition Examination Survey (NHANES). The Edmonton System also surpassed BMI for disease-severity staging using data from more than 23,000 Canadians with a BMI that denoted obesity.
 

1 standard deviation increase in WHR linked with a 41% increased mortality

The study reported by Mr. Khan used both epidemiologic and Mendelian randomization analyses on data collected from more than 380,000 U.K. residents included in the UK Biobank database to examine the statistical associations between BMI, FMI, and WHR and all-cause death. This showed that while BMI and FMI both had significant, independent associations with all-cause mortality, with hazard ratios of 1.14 for each 1 standard deviation increase in BMI and of 1.17 for each standard deviation increase in FMI, the link was a stronger 1.41 per standard deviation increase in WHR, he said.

Another analysis that divided the entire UK Biobank study cohort into 20 roughly similar subgroups by their BMI showed that WHR had the most consistent association across the BMI spectrum.

Further analyses showed that WHR also strongly and significantly linked with cardiovascular disease death and with other causes of death that were not cardiovascular, cancer-related, or associated with respiratory diseases. And the WHR link to all-cause mortality was strongest in men, and much less robust in women, likely because visceral adiposity is much more common among men, even compared with the postmenopausal women who predominate in the UK Biobank cohort.

One more feature of WHR that makes it an attractive metric is its relative ease of measurement, about as easy as BMI, Mr. Khan said.

The study received no commercial funding, and Mr. Khan had no disclosures. Dr. Blüher has been a consultant to or speaker on behalf of Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, Lilly, Novartis, Novo Nordisk, and Sanofi.

[email protected]

Omega-3 supplements did not reduce fractures during a median 5.3-year follow-up in the more than 25,000 generally healthy men and women (≥ age 50 and ≥ age 55, respectively) in the Vitamin D and Omega-3 Trial (VITAL).

The large randomized controlled trial tested whether omega-3 fatty acid or vitamin D supplements prevented cardiovascular disease or cancer in a representative sample of midlife and older adults from 50 U.S. states – which they did not. In a further analysis of VITAL, vitamin D supplements (cholecalciferol, 2,000 IU/day) did not lower the risk of incident total, nonvertebral, and hip fractures, compared with placebo.

Dmitriy Danilchenko/Shutterstock

Now this new analysis shows that omega-3 fatty acid supplements (1 g/day of fish oil) did not reduce the risk of such fractures in the VITAL population either. Meryl S. LeBoff, MD, presented the latest findings during an oral session at the annual meeting of the American Society for Bone and Mineral Research.

“In this, the largest randomized controlled trial in the world, we did not find an effect of omega-3 fatty acid supplements on fractures,” Dr. LeBoff, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston, told this news organization.

The current analysis did “unexpectedly” show that among participants who received the omega-3 fatty acid supplements, there was an increase in fractures in men, and fracture risk was higher in people with a normal or low body mass index and lower in people with higher BMI.

However, these subgroup findings need to be interpreted with caution and may be caused by chance, Dr. LeBoff warned. The researchers will be investigating these findings in further analyses.
 

Should patients take omega-3 supplements or not?

Asked whether, in the meantime, patients should start or keep taking fish oil supplements for possible health benefits, she noted that certain individuals might benefit.

For example, in VITAL, participants who ate less than 1.5 servings of fish per week and received omega-3 fatty acid supplements had a decrease in the combined cardiovascular endpoint, and Black participants who took fish oil supplements had a substantially reduced risk of the outcome, regardless of fish intake.

“I think everybody needs to review [the study findings] with clinicians and make a decision in terms of what would be best for them,” she said.

Session comoderator Bente Langdahl, MD, PhD, commented that “many people take omega-3 because they think it will help” knee, hip, or other joint pain.

Perhaps men are more prone to joint pain because of osteoarthritis and the supplements lessen the pain, so these men became more physically active and more prone to fractures, she speculated.

The current study shows that, “so far, we haven’t been able to demonstrate a reduced rate of fractures with fish oil supplements in clinical randomized trials” conducted in relatively healthy and not the oldest patients, she summarized. “We’re not talking about 80-year-olds.”

In this “well-conducted study, they were not able to see any difference” with omega-3 fatty acid supplements versus placebo, but apparently, there are no harms associated with taking these supplements, she said.

To patients who ask her about such supplements, Dr. Langdahl advised: “Try it out for 3 months. If it really helps you, if it takes away your joint pain or whatever, then that might work for you. But then remember to stop again because it might just be a temporary effect.”
 

Could fish oil supplements protect against fractures?

An estimated 22% of U.S. adults aged 60 and older take omega-3 fatty acid supplements, Dr. LeBoff noted.

Preclinical studies have shown that omega-3 fatty acids reduce bone resorption and have anti-inflammatory effects, but observational studies have reported conflicting findings.

The researchers conducted this ancillary study of VITAL to fill these knowledge gaps.

VITAL enrolled a national sample of 25,871 U.S. men and women, including 5,106 Black participants, with a mean age of 67 and a mean BMI of 28 kg/m2.

Importantly, participants were not recruited by low bone density, fractures, or vitamin D deficiency. Prior to entry, participants were required to stop taking omega-3 supplements and limit nonstudy vitamin D and calcium supplements.

The omega-3 fatty acid supplements used in the study contained eicosapentaenoic acid and docosahexaenoic acid in a 1.2:1 ratio.

VITAL had a 2x2 factorial design whereby 6,463 participants were randomized to receive the omega-3 fatty acid supplement and 6,474 were randomized to placebo. (Remaining participants were randomized to receive vitamin D or placebo.)

Participants in the omega-3 fatty acid and placebo groups had similar baseline characteristics. For example, about half (50.5%) were women, and on average, they ate 1.1 servings of dark-meat fish (such as salmon) per week.

Participants completed detailed questionnaires at baseline and each year.

Plasma omega-3 levels were measured at baseline and, in 1,583 participants, at 1 year of follow-up. The mean omega-3 index rose 54.7% in the omega-3 fatty acid group and changed less than 2% in the placebo group at 1 year.

Study pill adherence was 87.0% at 2 years and 85.7% at 5 years.

Fractures were self-reported on annual questionnaires and centrally adjudicated in medical record review.
 

No clinically meaningful effect of omega-3 fatty acids on fractures

During a median 5.3-year follow-up, researchers adjudicated 2,133 total fractures and confirmed 1,991 fractures (93%) in 1551 participants.

Incidences of total, nonvertebral, and hip fractures were similar in both groups.

Compared with placebo, omega-3 fatty acid supplements had no significant effect on risk of total fractures (hazard ratio, 1.02; 95% confidence interval, 0.92-1.13), nonvertebral fractures (HR, 1.01; 95% CI, 0.91-1.12), or hip fractures (HR, 0.89; 95% CI, 0.61-1.30), all adjusted for age, sex, and race.

The “confidence intervals were narrow, likely excluding a clinically meaningful effect,” Dr. LeBoff noted.

Among men, those who received fish oil supplements had a greater risk of fracture than those who received placebo (HR, 1.27; 95% CI, 1.07-1.51), but this result “was not corrected for multiple hypothesis testing,” Dr. LeBoff cautioned.

In the overall population, participants with a BMI less than 25 who received fish oil versus placebo had an increased risk of fracture, and those with a BMI of at least 30 who received fish oil versus placebo had a decreased risk of fracture, but the limits of the confidence intervals crossed 1.00.

After excluding digit, skull, and pathologic fractures, there was no significant reduction in total fractures (HR, 1.02; 95% CI, 0.92-1.14), nonvertebral fractures (HR, 1.02; 95% CI, 0.92-1.14), or hip fractures (HR, 0.90; 95% CI, 0.61-1.33), with omega-3 supplements versus placebo.

Similarly, there was no significant reduction in risk of major osteoporotic fractures (hip, wrist, humerus, and clinical spine fractures) or wrist fractures with omega-3 supplements versus placebo.

VITAL only studied one dose of omega-3 fatty acid supplements, and results may not be generalizable to younger adults, or older adults living in residential communities, Dr. LeBoff noted.

The study was supported by grants from the National Institute of Arthritis Musculoskeletal and Skin Diseases. VITAL was funded by the National Cancer Institute and the National Heart, Lung, and Blood Institute. Dr. LeBoff and Dr. Langdahl have reported no relevant financial relationships.

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

Omega-3 supplements did not reduce fractures during a median 5.3-year follow-up in the more than 25,000 generally healthy men and women (≥ age 50 and ≥ age 55, respectively) in the Vitamin D and Omega-3 Trial (VITAL).

The large randomized controlled trial tested whether omega-3 fatty acid or vitamin D supplements prevented cardiovascular disease or cancer in a representative sample of midlife and older adults from 50 U.S. states – which they did not. In a further analysis of VITAL, vitamin D supplements (cholecalciferol, 2,000 IU/day) did not lower the risk of incident total, nonvertebral, and hip fractures, compared with placebo.

Dmitriy Danilchenko/Shutterstock

Now this new analysis shows that omega-3 fatty acid supplements (1 g/day of fish oil) did not reduce the risk of such fractures in the VITAL population either. Meryl S. LeBoff, MD, presented the latest findings during an oral session at the annual meeting of the American Society for Bone and Mineral Research.

“In this, the largest randomized controlled trial in the world, we did not find an effect of omega-3 fatty acid supplements on fractures,” Dr. LeBoff, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston, told this news organization.

The current analysis did “unexpectedly” show that among participants who received the omega-3 fatty acid supplements, there was an increase in fractures in men, and fracture risk was higher in people with a normal or low body mass index and lower in people with higher BMI.

However, these subgroup findings need to be interpreted with caution and may be caused by chance, Dr. LeBoff warned. The researchers will be investigating these findings in further analyses.
 

Should patients take omega-3 supplements or not?

Asked whether, in the meantime, patients should start or keep taking fish oil supplements for possible health benefits, she noted that certain individuals might benefit.

For example, in VITAL, participants who ate less than 1.5 servings of fish per week and received omega-3 fatty acid supplements had a decrease in the combined cardiovascular endpoint, and Black participants who took fish oil supplements had a substantially reduced risk of the outcome, regardless of fish intake.

“I think everybody needs to review [the study findings] with clinicians and make a decision in terms of what would be best for them,” she said.

Session comoderator Bente Langdahl, MD, PhD, commented that “many people take omega-3 because they think it will help” knee, hip, or other joint pain.

Perhaps men are more prone to joint pain because of osteoarthritis and the supplements lessen the pain, so these men became more physically active and more prone to fractures, she speculated.

The current study shows that, “so far, we haven’t been able to demonstrate a reduced rate of fractures with fish oil supplements in clinical randomized trials” conducted in relatively healthy and not the oldest patients, she summarized. “We’re not talking about 80-year-olds.”

In this “well-conducted study, they were not able to see any difference” with omega-3 fatty acid supplements versus placebo, but apparently, there are no harms associated with taking these supplements, she said.

To patients who ask her about such supplements, Dr. Langdahl advised: “Try it out for 3 months. If it really helps you, if it takes away your joint pain or whatever, then that might work for you. But then remember to stop again because it might just be a temporary effect.”
 

Could fish oil supplements protect against fractures?

An estimated 22% of U.S. adults aged 60 and older take omega-3 fatty acid supplements, Dr. LeBoff noted.

Preclinical studies have shown that omega-3 fatty acids reduce bone resorption and have anti-inflammatory effects, but observational studies have reported conflicting findings.

The researchers conducted this ancillary study of VITAL to fill these knowledge gaps.

VITAL enrolled a national sample of 25,871 U.S. men and women, including 5,106 Black participants, with a mean age of 67 and a mean BMI of 28 kg/m2.

Importantly, participants were not recruited by low bone density, fractures, or vitamin D deficiency. Prior to entry, participants were required to stop taking omega-3 supplements and limit nonstudy vitamin D and calcium supplements.

The omega-3 fatty acid supplements used in the study contained eicosapentaenoic acid and docosahexaenoic acid in a 1.2:1 ratio.

VITAL had a 2x2 factorial design whereby 6,463 participants were randomized to receive the omega-3 fatty acid supplement and 6,474 were randomized to placebo. (Remaining participants were randomized to receive vitamin D or placebo.)

Participants in the omega-3 fatty acid and placebo groups had similar baseline characteristics. For example, about half (50.5%) were women, and on average, they ate 1.1 servings of dark-meat fish (such as salmon) per week.

Participants completed detailed questionnaires at baseline and each year.

Plasma omega-3 levels were measured at baseline and, in 1,583 participants, at 1 year of follow-up. The mean omega-3 index rose 54.7% in the omega-3 fatty acid group and changed less than 2% in the placebo group at 1 year.

Study pill adherence was 87.0% at 2 years and 85.7% at 5 years.

Fractures were self-reported on annual questionnaires and centrally adjudicated in medical record review.
 

No clinically meaningful effect of omega-3 fatty acids on fractures

During a median 5.3-year follow-up, researchers adjudicated 2,133 total fractures and confirmed 1,991 fractures (93%) in 1551 participants.

Incidences of total, nonvertebral, and hip fractures were similar in both groups.

Compared with placebo, omega-3 fatty acid supplements had no significant effect on risk of total fractures (hazard ratio, 1.02; 95% confidence interval, 0.92-1.13), nonvertebral fractures (HR, 1.01; 95% CI, 0.91-1.12), or hip fractures (HR, 0.89; 95% CI, 0.61-1.30), all adjusted for age, sex, and race.

The “confidence intervals were narrow, likely excluding a clinically meaningful effect,” Dr. LeBoff noted.

Among men, those who received fish oil supplements had a greater risk of fracture than those who received placebo (HR, 1.27; 95% CI, 1.07-1.51), but this result “was not corrected for multiple hypothesis testing,” Dr. LeBoff cautioned.

In the overall population, participants with a BMI less than 25 who received fish oil versus placebo had an increased risk of fracture, and those with a BMI of at least 30 who received fish oil versus placebo had a decreased risk of fracture, but the limits of the confidence intervals crossed 1.00.

After excluding digit, skull, and pathologic fractures, there was no significant reduction in total fractures (HR, 1.02; 95% CI, 0.92-1.14), nonvertebral fractures (HR, 1.02; 95% CI, 0.92-1.14), or hip fractures (HR, 0.90; 95% CI, 0.61-1.33), with omega-3 supplements versus placebo.

Similarly, there was no significant reduction in risk of major osteoporotic fractures (hip, wrist, humerus, and clinical spine fractures) or wrist fractures with omega-3 supplements versus placebo.

VITAL only studied one dose of omega-3 fatty acid supplements, and results may not be generalizable to younger adults, or older adults living in residential communities, Dr. LeBoff noted.

The study was supported by grants from the National Institute of Arthritis Musculoskeletal and Skin Diseases. VITAL was funded by the National Cancer Institute and the National Heart, Lung, and Blood Institute. Dr. LeBoff and Dr. Langdahl have reported no relevant financial relationships.

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

Omega-3 supplements did not reduce fractures during a median 5.3-year follow-up in the more than 25,000 generally healthy men and women (≥ age 50 and ≥ age 55, respectively) in the Vitamin D and Omega-3 Trial (VITAL).

The large randomized controlled trial tested whether omega-3 fatty acid or vitamin D supplements prevented cardiovascular disease or cancer in a representative sample of midlife and older adults from 50 U.S. states – which they did not. In a further analysis of VITAL, vitamin D supplements (cholecalciferol, 2,000 IU/day) did not lower the risk of incident total, nonvertebral, and hip fractures, compared with placebo.

Dmitriy Danilchenko/Shutterstock

Now this new analysis shows that omega-3 fatty acid supplements (1 g/day of fish oil) did not reduce the risk of such fractures in the VITAL population either. Meryl S. LeBoff, MD, presented the latest findings during an oral session at the annual meeting of the American Society for Bone and Mineral Research.

“In this, the largest randomized controlled trial in the world, we did not find an effect of omega-3 fatty acid supplements on fractures,” Dr. LeBoff, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston, told this news organization.

The current analysis did “unexpectedly” show that among participants who received the omega-3 fatty acid supplements, there was an increase in fractures in men, and fracture risk was higher in people with a normal or low body mass index and lower in people with higher BMI.

However, these subgroup findings need to be interpreted with caution and may be caused by chance, Dr. LeBoff warned. The researchers will be investigating these findings in further analyses.
 

Should patients take omega-3 supplements or not?

Asked whether, in the meantime, patients should start or keep taking fish oil supplements for possible health benefits, she noted that certain individuals might benefit.

For example, in VITAL, participants who ate less than 1.5 servings of fish per week and received omega-3 fatty acid supplements had a decrease in the combined cardiovascular endpoint, and Black participants who took fish oil supplements had a substantially reduced risk of the outcome, regardless of fish intake.

“I think everybody needs to review [the study findings] with clinicians and make a decision in terms of what would be best for them,” she said.

Session comoderator Bente Langdahl, MD, PhD, commented that “many people take omega-3 because they think it will help” knee, hip, or other joint pain.

Perhaps men are more prone to joint pain because of osteoarthritis and the supplements lessen the pain, so these men became more physically active and more prone to fractures, she speculated.

The current study shows that, “so far, we haven’t been able to demonstrate a reduced rate of fractures with fish oil supplements in clinical randomized trials” conducted in relatively healthy and not the oldest patients, she summarized. “We’re not talking about 80-year-olds.”

In this “well-conducted study, they were not able to see any difference” with omega-3 fatty acid supplements versus placebo, but apparently, there are no harms associated with taking these supplements, she said.

To patients who ask her about such supplements, Dr. Langdahl advised: “Try it out for 3 months. If it really helps you, if it takes away your joint pain or whatever, then that might work for you. But then remember to stop again because it might just be a temporary effect.”
 

Could fish oil supplements protect against fractures?

An estimated 22% of U.S. adults aged 60 and older take omega-3 fatty acid supplements, Dr. LeBoff noted.

Preclinical studies have shown that omega-3 fatty acids reduce bone resorption and have anti-inflammatory effects, but observational studies have reported conflicting findings.

The researchers conducted this ancillary study of VITAL to fill these knowledge gaps.

VITAL enrolled a national sample of 25,871 U.S. men and women, including 5,106 Black participants, with a mean age of 67 and a mean BMI of 28 kg/m2.

Importantly, participants were not recruited by low bone density, fractures, or vitamin D deficiency. Prior to entry, participants were required to stop taking omega-3 supplements and limit nonstudy vitamin D and calcium supplements.

The omega-3 fatty acid supplements used in the study contained eicosapentaenoic acid and docosahexaenoic acid in a 1.2:1 ratio.

VITAL had a 2x2 factorial design whereby 6,463 participants were randomized to receive the omega-3 fatty acid supplement and 6,474 were randomized to placebo. (Remaining participants were randomized to receive vitamin D or placebo.)

Participants in the omega-3 fatty acid and placebo groups had similar baseline characteristics. For example, about half (50.5%) were women, and on average, they ate 1.1 servings of dark-meat fish (such as salmon) per week.

Participants completed detailed questionnaires at baseline and each year.

Plasma omega-3 levels were measured at baseline and, in 1,583 participants, at 1 year of follow-up. The mean omega-3 index rose 54.7% in the omega-3 fatty acid group and changed less than 2% in the placebo group at 1 year.

Study pill adherence was 87.0% at 2 years and 85.7% at 5 years.

Fractures were self-reported on annual questionnaires and centrally adjudicated in medical record review.
 

No clinically meaningful effect of omega-3 fatty acids on fractures

During a median 5.3-year follow-up, researchers adjudicated 2,133 total fractures and confirmed 1,991 fractures (93%) in 1551 participants.

Incidences of total, nonvertebral, and hip fractures were similar in both groups.

Compared with placebo, omega-3 fatty acid supplements had no significant effect on risk of total fractures (hazard ratio, 1.02; 95% confidence interval, 0.92-1.13), nonvertebral fractures (HR, 1.01; 95% CI, 0.91-1.12), or hip fractures (HR, 0.89; 95% CI, 0.61-1.30), all adjusted for age, sex, and race.

The “confidence intervals were narrow, likely excluding a clinically meaningful effect,” Dr. LeBoff noted.

Among men, those who received fish oil supplements had a greater risk of fracture than those who received placebo (HR, 1.27; 95% CI, 1.07-1.51), but this result “was not corrected for multiple hypothesis testing,” Dr. LeBoff cautioned.

In the overall population, participants with a BMI less than 25 who received fish oil versus placebo had an increased risk of fracture, and those with a BMI of at least 30 who received fish oil versus placebo had a decreased risk of fracture, but the limits of the confidence intervals crossed 1.00.

After excluding digit, skull, and pathologic fractures, there was no significant reduction in total fractures (HR, 1.02; 95% CI, 0.92-1.14), nonvertebral fractures (HR, 1.02; 95% CI, 0.92-1.14), or hip fractures (HR, 0.90; 95% CI, 0.61-1.33), with omega-3 supplements versus placebo.

Similarly, there was no significant reduction in risk of major osteoporotic fractures (hip, wrist, humerus, and clinical spine fractures) or wrist fractures with omega-3 supplements versus placebo.

VITAL only studied one dose of omega-3 fatty acid supplements, and results may not be generalizable to younger adults, or older adults living in residential communities, Dr. LeBoff noted.

The study was supported by grants from the National Institute of Arthritis Musculoskeletal and Skin Diseases. VITAL was funded by the National Cancer Institute and the National Heart, Lung, and Blood Institute. Dr. LeBoff and Dr. Langdahl have reported no relevant financial relationships.

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

The annual incidence of hip fractures declined in most countries from 2005 to 2018, but this rate is projected to roughly double by 2050, according to a new study of 19 countries/regions.

The study by Chor-Wing Sing, PhD, and colleagues was presented at the annual meeting of the American Society of Bone and Mineral Research. The predicted increase in hip fractures is being driven by the aging population, with the population of those age 85 and older projected to increase 4.5-fold from 2010 to 2050, they note.

The researchers also estimate that from 2018 to 2050 the incidence of fractures will increase by 1.9-fold overall – more in men (2.4-fold) than in women (1.7-fold).

In addition, rates of use of osteoporosis drugs 1 year after a hip fracture were less than 50%, with less treatment in men. Men were also more likely than women to die within 1 year of a hip fracture.

iStock/Thinkstock

Aging will fuel rise in hip fractures; more preventive treatment needed

“Even though there is a decreasing trend of hip fracture incidence in some countries, such a percentage decrease is insufficient to offset the percentage increase in the aging population,” senior co-author Ching-Lung Cheung, PhD, associate professor in the department of pharmacology and pharmacy at the University of Hong Kong, explained to this news organization.

The takeaways from the study are that “a greater effort on fracture prevention should be made to avoid the continuous increase in the number of hip fractures,” he said.

In addition, “although initiation of anti-osteoporosis medication after hip fracture is recommended in international guidelines, the 1-year treatment rate [was] well below 50% in most of the countries and regions studied. This indicates the treatment rate is far from optimal.”

“Our study also showed that the use of anti-osteoporosis medications following a hip fracture is lower in men than in women by 30% to 67%,” he said. “Thus, more attention should be paid to preventing and treating hip fractures in men.”

“The greater increase in the projected number of hip fractures in men than in women “could be [because] osteoporosis is commonly perceived as a ‘woman’s disease,’ ” he speculated.

Invited to comment, Juliet Compston, MD, who selected the study as one of the top clinical science highlight abstracts at the ASBMR meeting, agrees that “there is substantial room for improvement” in osteoporosis treatment rates following a hip fracture “in all the regions covered by the study.”

“In addition,” she continues, “the wide variations in treatment rates can provide important lessons about the most effective models of care for people who sustain a hip fracture: for example, fracture liaison services.”

Men suffer as osteoporosis perceived to be a ‘woman’s disease’

The even lower treatment rate in men than women is “concerning and likely reflects the mistaken perception that osteoporosis is predominantly a disease affecting women,” notes Dr. Compston, emeritus professor of bone medicine, University of Cambridge, United Kingdom.  

Also invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, said that the projected doubling of hip fractures “is likely mainly due to aging of the population, with increasing lifespan for males in particular. However, increasing urbanization and decreasing weight-bearing exercise as a result are likely to also contribute in developing countries.”

“Unfortunately, despite the advances in treatments for osteoporosis over the last 25 years, osteoporosis treatment rates remain low, and osteoporosis remains undiagnosed in postmenopausal women and older men,” added Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research.

“More targeted screening for osteoporosis would help,” he said, “as would treating patients for it following other minimal trauma fractures (vertebral, distal radius, and humerus, etc.), since if left untreated, about 50% of these patients will have hip fractures later in life.”

“Some countries may be doing better because they have health quality standards for hip fracture (for example, surgery within 24 hours, investigation, and treatment for osteoporosis). In other countries like Australia, bone density tests and treatment for osteoporosis are reimbursed, increasing their uptake.”

The public health implications of this study are “substantial” according to Dr. Compston. “People who have sustained a hip fracture are at high risk of subsequent fractures if untreated. There is a range of safe, cost-effective pharmacological therapies to reduce fracture rate, and wider use of these would have a major impact on the current and future burden imposed by hip fractures in the elderly population.”

Similarly, Dr. Ebeling noted that “prevention is important to save a huge health burden for patients and costs for society.”

“Patients with minimal trauma fractures (particularly hip or spinal fractures) should be investigated and treated for osteoporosis with care pathways established in the hospitals, reaching out to the community [fracture liaison services],” he said.

Support for these is being sought under Medicare in the United States, he noted, and bone densitometry reimbursement rates also need to be higher in the United States.
 

Projections for number of hip fractures to 2050

Previous international reviews of hip fractures have been based on heterogeneous data from more than 10 to 30 years ago, the researchers note.

They performed a retrospective cohort study using a common protocol across 19 countries/regions, as described in an article about the protocol published in BMJ Open.

They analyzed data from adults aged 50 and older who were hospitalized with a hip fracture to determine 1) the annual incidence of hip fractures in 2008-2015; 2) the uptake of drugs to treat osteoporosis at 1 year after a hip fracture; and 3) all-cause mortality at 1 year after a hip fracture.

In a second step, they estimated the number of hip fractures that would occur from 2030 to 2050, using World Bank population growth projections.

The data are from 20 health care databases from 19 countries/regions: Oceania (Australia, New Zealand), Asia (Hong Kong, Japan, Singapore, South Korea, Taiwan, and Thailand), Northern Europe (Denmark, Finland, and U.K.), Western Europe (France, Germany, Italy, The Netherlands, and Spain), and North and South America (Canada, United States, and Brazil).

The population in Japan was under age 75. U.S. data are from two databases: Medicare (age ≥ 65) and Optum.

Most databases (13) covered 90%-100% of the national population, and the rest covered 5%-70% of the population.

From 2008 to 2015, the annual incidence of hip fractures declined in 11 countries/regions (Singapore, Denmark, Hong Kong, Taiwan, Finland, U.K., Italy, Spain, United States [Medicare], Canada, and New Zealand).

“One potential reason that some countries have seen relatively large declines in hip fractures is better osteoporosis management and post-fracture care,” said Dr. Sing in a press release issued by ASBMR. “Better fall-prevention programs and clearer guidelines for clinical care have likely made a difference.”

Hip fracture incidence increased in five countries (The Netherlands, South Korea, France, Germany, and Brazil) and was stable in four countries (Australia, Japan, Thailand, and United States [Optum]).

The United Kingdom had the highest rate of osteoporosis treatment at 1-year after a hip fracture (50.3%). Rates in the other countries/regions ranged from 11.5% to 37%.

Fewer men than women were receiving drugs for osteoporosis at 1 year (range 5.1% to 38.2% versus 15.0% to 54.7%).

From 2005 to 2018, rates of osteoporosis treatment at 1 year after a hip fracture declined in six countries, increased in four countries, and were stable in five countries.

All-cause mortality within 1 year of hip fracture was higher in men than in women (range 19.2% to 35.8% versus 12.1% to 25.4%).

“Among the studied countries and regions, the U.S. ranks fifth with the highest hip fracture incidence,” Dr. Cheung replied when specifically asked about this. “The risk of hip fracture is determined by multiple factors: for example, lifestyle, diet, genetics, as well as management of osteoporosis,” he noted.

“Denmark is the only country showing no projected increase, and it is because Denmark had a continuous and remarkable decrease in the incidence of hip fractures,” he added, which “can offset the number of hip fractures contributed by the population aging.”

The study was funded by Amgen. Dr. Sing and Dr. Cheung have reported no relevant financial relationships. One of the study authors is employed by Amgen.

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

The annual incidence of hip fractures declined in most countries from 2005 to 2018, but this rate is projected to roughly double by 2050, according to a new study of 19 countries/regions.

The study by Chor-Wing Sing, PhD, and colleagues was presented at the annual meeting of the American Society of Bone and Mineral Research. The predicted increase in hip fractures is being driven by the aging population, with the population of those age 85 and older projected to increase 4.5-fold from 2010 to 2050, they note.

The researchers also estimate that from 2018 to 2050 the incidence of fractures will increase by 1.9-fold overall – more in men (2.4-fold) than in women (1.7-fold).

In addition, rates of use of osteoporosis drugs 1 year after a hip fracture were less than 50%, with less treatment in men. Men were also more likely than women to die within 1 year of a hip fracture.

iStock/Thinkstock

Aging will fuel rise in hip fractures; more preventive treatment needed

“Even though there is a decreasing trend of hip fracture incidence in some countries, such a percentage decrease is insufficient to offset the percentage increase in the aging population,” senior co-author Ching-Lung Cheung, PhD, associate professor in the department of pharmacology and pharmacy at the University of Hong Kong, explained to this news organization.

The takeaways from the study are that “a greater effort on fracture prevention should be made to avoid the continuous increase in the number of hip fractures,” he said.

In addition, “although initiation of anti-osteoporosis medication after hip fracture is recommended in international guidelines, the 1-year treatment rate [was] well below 50% in most of the countries and regions studied. This indicates the treatment rate is far from optimal.”

“Our study also showed that the use of anti-osteoporosis medications following a hip fracture is lower in men than in women by 30% to 67%,” he said. “Thus, more attention should be paid to preventing and treating hip fractures in men.”

“The greater increase in the projected number of hip fractures in men than in women “could be [because] osteoporosis is commonly perceived as a ‘woman’s disease,’ ” he speculated.

Invited to comment, Juliet Compston, MD, who selected the study as one of the top clinical science highlight abstracts at the ASBMR meeting, agrees that “there is substantial room for improvement” in osteoporosis treatment rates following a hip fracture “in all the regions covered by the study.”

“In addition,” she continues, “the wide variations in treatment rates can provide important lessons about the most effective models of care for people who sustain a hip fracture: for example, fracture liaison services.”

Men suffer as osteoporosis perceived to be a ‘woman’s disease’

The even lower treatment rate in men than women is “concerning and likely reflects the mistaken perception that osteoporosis is predominantly a disease affecting women,” notes Dr. Compston, emeritus professor of bone medicine, University of Cambridge, United Kingdom.  

Also invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, said that the projected doubling of hip fractures “is likely mainly due to aging of the population, with increasing lifespan for males in particular. However, increasing urbanization and decreasing weight-bearing exercise as a result are likely to also contribute in developing countries.”

“Unfortunately, despite the advances in treatments for osteoporosis over the last 25 years, osteoporosis treatment rates remain low, and osteoporosis remains undiagnosed in postmenopausal women and older men,” added Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research.

“More targeted screening for osteoporosis would help,” he said, “as would treating patients for it following other minimal trauma fractures (vertebral, distal radius, and humerus, etc.), since if left untreated, about 50% of these patients will have hip fractures later in life.”

“Some countries may be doing better because they have health quality standards for hip fracture (for example, surgery within 24 hours, investigation, and treatment for osteoporosis). In other countries like Australia, bone density tests and treatment for osteoporosis are reimbursed, increasing their uptake.”

The public health implications of this study are “substantial” according to Dr. Compston. “People who have sustained a hip fracture are at high risk of subsequent fractures if untreated. There is a range of safe, cost-effective pharmacological therapies to reduce fracture rate, and wider use of these would have a major impact on the current and future burden imposed by hip fractures in the elderly population.”

Similarly, Dr. Ebeling noted that “prevention is important to save a huge health burden for patients and costs for society.”

“Patients with minimal trauma fractures (particularly hip or spinal fractures) should be investigated and treated for osteoporosis with care pathways established in the hospitals, reaching out to the community [fracture liaison services],” he said.

Support for these is being sought under Medicare in the United States, he noted, and bone densitometry reimbursement rates also need to be higher in the United States.
 

Projections for number of hip fractures to 2050

Previous international reviews of hip fractures have been based on heterogeneous data from more than 10 to 30 years ago, the researchers note.

They performed a retrospective cohort study using a common protocol across 19 countries/regions, as described in an article about the protocol published in BMJ Open.

They analyzed data from adults aged 50 and older who were hospitalized with a hip fracture to determine 1) the annual incidence of hip fractures in 2008-2015; 2) the uptake of drugs to treat osteoporosis at 1 year after a hip fracture; and 3) all-cause mortality at 1 year after a hip fracture.

In a second step, they estimated the number of hip fractures that would occur from 2030 to 2050, using World Bank population growth projections.

The data are from 20 health care databases from 19 countries/regions: Oceania (Australia, New Zealand), Asia (Hong Kong, Japan, Singapore, South Korea, Taiwan, and Thailand), Northern Europe (Denmark, Finland, and U.K.), Western Europe (France, Germany, Italy, The Netherlands, and Spain), and North and South America (Canada, United States, and Brazil).

The population in Japan was under age 75. U.S. data are from two databases: Medicare (age ≥ 65) and Optum.

Most databases (13) covered 90%-100% of the national population, and the rest covered 5%-70% of the population.

From 2008 to 2015, the annual incidence of hip fractures declined in 11 countries/regions (Singapore, Denmark, Hong Kong, Taiwan, Finland, U.K., Italy, Spain, United States [Medicare], Canada, and New Zealand).

“One potential reason that some countries have seen relatively large declines in hip fractures is better osteoporosis management and post-fracture care,” said Dr. Sing in a press release issued by ASBMR. “Better fall-prevention programs and clearer guidelines for clinical care have likely made a difference.”

Hip fracture incidence increased in five countries (The Netherlands, South Korea, France, Germany, and Brazil) and was stable in four countries (Australia, Japan, Thailand, and United States [Optum]).

The United Kingdom had the highest rate of osteoporosis treatment at 1-year after a hip fracture (50.3%). Rates in the other countries/regions ranged from 11.5% to 37%.

Fewer men than women were receiving drugs for osteoporosis at 1 year (range 5.1% to 38.2% versus 15.0% to 54.7%).

From 2005 to 2018, rates of osteoporosis treatment at 1 year after a hip fracture declined in six countries, increased in four countries, and were stable in five countries.

All-cause mortality within 1 year of hip fracture was higher in men than in women (range 19.2% to 35.8% versus 12.1% to 25.4%).

“Among the studied countries and regions, the U.S. ranks fifth with the highest hip fracture incidence,” Dr. Cheung replied when specifically asked about this. “The risk of hip fracture is determined by multiple factors: for example, lifestyle, diet, genetics, as well as management of osteoporosis,” he noted.

“Denmark is the only country showing no projected increase, and it is because Denmark had a continuous and remarkable decrease in the incidence of hip fractures,” he added, which “can offset the number of hip fractures contributed by the population aging.”

The study was funded by Amgen. Dr. Sing and Dr. Cheung have reported no relevant financial relationships. One of the study authors is employed by Amgen.

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

The annual incidence of hip fractures declined in most countries from 2005 to 2018, but this rate is projected to roughly double by 2050, according to a new study of 19 countries/regions.

The study by Chor-Wing Sing, PhD, and colleagues was presented at the annual meeting of the American Society of Bone and Mineral Research. The predicted increase in hip fractures is being driven by the aging population, with the population of those age 85 and older projected to increase 4.5-fold from 2010 to 2050, they note.

The researchers also estimate that from 2018 to 2050 the incidence of fractures will increase by 1.9-fold overall – more in men (2.4-fold) than in women (1.7-fold).

In addition, rates of use of osteoporosis drugs 1 year after a hip fracture were less than 50%, with less treatment in men. Men were also more likely than women to die within 1 year of a hip fracture.

iStock/Thinkstock

Aging will fuel rise in hip fractures; more preventive treatment needed

“Even though there is a decreasing trend of hip fracture incidence in some countries, such a percentage decrease is insufficient to offset the percentage increase in the aging population,” senior co-author Ching-Lung Cheung, PhD, associate professor in the department of pharmacology and pharmacy at the University of Hong Kong, explained to this news organization.

The takeaways from the study are that “a greater effort on fracture prevention should be made to avoid the continuous increase in the number of hip fractures,” he said.

In addition, “although initiation of anti-osteoporosis medication after hip fracture is recommended in international guidelines, the 1-year treatment rate [was] well below 50% in most of the countries and regions studied. This indicates the treatment rate is far from optimal.”

“Our study also showed that the use of anti-osteoporosis medications following a hip fracture is lower in men than in women by 30% to 67%,” he said. “Thus, more attention should be paid to preventing and treating hip fractures in men.”

“The greater increase in the projected number of hip fractures in men than in women “could be [because] osteoporosis is commonly perceived as a ‘woman’s disease,’ ” he speculated.

Invited to comment, Juliet Compston, MD, who selected the study as one of the top clinical science highlight abstracts at the ASBMR meeting, agrees that “there is substantial room for improvement” in osteoporosis treatment rates following a hip fracture “in all the regions covered by the study.”

“In addition,” she continues, “the wide variations in treatment rates can provide important lessons about the most effective models of care for people who sustain a hip fracture: for example, fracture liaison services.”

Men suffer as osteoporosis perceived to be a ‘woman’s disease’

The even lower treatment rate in men than women is “concerning and likely reflects the mistaken perception that osteoporosis is predominantly a disease affecting women,” notes Dr. Compston, emeritus professor of bone medicine, University of Cambridge, United Kingdom.  

Also invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, said that the projected doubling of hip fractures “is likely mainly due to aging of the population, with increasing lifespan for males in particular. However, increasing urbanization and decreasing weight-bearing exercise as a result are likely to also contribute in developing countries.”

“Unfortunately, despite the advances in treatments for osteoporosis over the last 25 years, osteoporosis treatment rates remain low, and osteoporosis remains undiagnosed in postmenopausal women and older men,” added Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research.

“More targeted screening for osteoporosis would help,” he said, “as would treating patients for it following other minimal trauma fractures (vertebral, distal radius, and humerus, etc.), since if left untreated, about 50% of these patients will have hip fractures later in life.”

“Some countries may be doing better because they have health quality standards for hip fracture (for example, surgery within 24 hours, investigation, and treatment for osteoporosis). In other countries like Australia, bone density tests and treatment for osteoporosis are reimbursed, increasing their uptake.”

The public health implications of this study are “substantial” according to Dr. Compston. “People who have sustained a hip fracture are at high risk of subsequent fractures if untreated. There is a range of safe, cost-effective pharmacological therapies to reduce fracture rate, and wider use of these would have a major impact on the current and future burden imposed by hip fractures in the elderly population.”

Similarly, Dr. Ebeling noted that “prevention is important to save a huge health burden for patients and costs for society.”

“Patients with minimal trauma fractures (particularly hip or spinal fractures) should be investigated and treated for osteoporosis with care pathways established in the hospitals, reaching out to the community [fracture liaison services],” he said.

Support for these is being sought under Medicare in the United States, he noted, and bone densitometry reimbursement rates also need to be higher in the United States.
 

Projections for number of hip fractures to 2050

Previous international reviews of hip fractures have been based on heterogeneous data from more than 10 to 30 years ago, the researchers note.

They performed a retrospective cohort study using a common protocol across 19 countries/regions, as described in an article about the protocol published in BMJ Open.

They analyzed data from adults aged 50 and older who were hospitalized with a hip fracture to determine 1) the annual incidence of hip fractures in 2008-2015; 2) the uptake of drugs to treat osteoporosis at 1 year after a hip fracture; and 3) all-cause mortality at 1 year after a hip fracture.

In a second step, they estimated the number of hip fractures that would occur from 2030 to 2050, using World Bank population growth projections.

The data are from 20 health care databases from 19 countries/regions: Oceania (Australia, New Zealand), Asia (Hong Kong, Japan, Singapore, South Korea, Taiwan, and Thailand), Northern Europe (Denmark, Finland, and U.K.), Western Europe (France, Germany, Italy, The Netherlands, and Spain), and North and South America (Canada, United States, and Brazil).

The population in Japan was under age 75. U.S. data are from two databases: Medicare (age ≥ 65) and Optum.

Most databases (13) covered 90%-100% of the national population, and the rest covered 5%-70% of the population.

From 2008 to 2015, the annual incidence of hip fractures declined in 11 countries/regions (Singapore, Denmark, Hong Kong, Taiwan, Finland, U.K., Italy, Spain, United States [Medicare], Canada, and New Zealand).

“One potential reason that some countries have seen relatively large declines in hip fractures is better osteoporosis management and post-fracture care,” said Dr. Sing in a press release issued by ASBMR. “Better fall-prevention programs and clearer guidelines for clinical care have likely made a difference.”

Hip fracture incidence increased in five countries (The Netherlands, South Korea, France, Germany, and Brazil) and was stable in four countries (Australia, Japan, Thailand, and United States [Optum]).

The United Kingdom had the highest rate of osteoporosis treatment at 1-year after a hip fracture (50.3%). Rates in the other countries/regions ranged from 11.5% to 37%.

Fewer men than women were receiving drugs for osteoporosis at 1 year (range 5.1% to 38.2% versus 15.0% to 54.7%).

From 2005 to 2018, rates of osteoporosis treatment at 1 year after a hip fracture declined in six countries, increased in four countries, and were stable in five countries.

All-cause mortality within 1 year of hip fracture was higher in men than in women (range 19.2% to 35.8% versus 12.1% to 25.4%).

“Among the studied countries and regions, the U.S. ranks fifth with the highest hip fracture incidence,” Dr. Cheung replied when specifically asked about this. “The risk of hip fracture is determined by multiple factors: for example, lifestyle, diet, genetics, as well as management of osteoporosis,” he noted.

“Denmark is the only country showing no projected increase, and it is because Denmark had a continuous and remarkable decrease in the incidence of hip fractures,” he added, which “can offset the number of hip fractures contributed by the population aging.”

The study was funded by Amgen. Dr. Sing and Dr. Cheung have reported no relevant financial relationships. One of the study authors is employed by Amgen.

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

The Crystal Bone (Amgen) novel algorithm predicted 2-year risk of osteoporotic fractures in a large dataset with an accuracy that was consistent with FRAX 10-year risk predictions, researchers report.  

The algorithm was built using machine learning and artificial intelligence to predict fracture risk based on International Classification of Diseases (ICD) codes, as described in an article published in the Journal of Medical Internet Research.

The current validation study was presented September 9 as a poster at the annual meeting of the American Society for Bone and Mineral Research.

The scientists validated the algorithm in more than 100,000 patients aged 50 and older (that is, at risk of fracture) who were part of the Reliant Medical Group dataset (a subset of Optum Care).

Importantly, the algorithm predicted increased fracture in many patients who did not have a diagnosis of osteoporosis.

The next steps are validation in other datasets to support the generalizability of Crystal Bone across U.S. health care systems, Elinor Mody, MD, Reliant Medical Group, and colleagues report.

“Implementation research, in which patients identified by Crystal Bone undergo a bone health assessment and receive ongoing management, will help inform the clinical utility of this novel algorithm,” they conclude.

At the poster session, Tina Kelley, Optum Life Sciences, explained: “It’s a screening tool that says: ‘These are your patients that maybe you should spend a little extra time with, ask a few extra questions.’ ”

However, further study is needed before it should be used in clinical practice, she emphasized to this news organization.

‘A very useful advance’ but needs further validation

Invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, noted that “many clinicians now use FRAX to calculate absolute fracture risk and select patients who should initiate anti-osteoporosis drugs.”

With FRAX, clinicians input a patient’s age, sex, weight, height, previous fracture, [history of] parent with fractured hip, current smoking status, glucocorticoids, rheumatoid arthritis, secondary osteoporosis, alcohol (3 units/day or more), and bone mineral density (by DXA at the femoral neck) into the tool, to obtain a 10-year probability of fracture.

“Crystal Bone takes a different approach,” Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research but who disclosed receiving funding from Amgen, told this news organization in an email.

The algorithm uses electronic health records (EHRs) to identify patients who are likely to have a fracture within the next 2 years, he explained, based on diagnoses and medications associated with osteoporosis and fractures. These include ICD-10 codes for fractures at various sites and secondary causes of osteoporosis (such as rheumatoid and other inflammatory arthritis, chronic obstructive pulmonary disease, asthma, celiac disease, and inflammatory bowel disease).

“This is a very useful advance,” Dr. Ebeling summarized, “in that it would alert the clinician to patients in their practice who have a high fracture risk and need to be investigated for osteoporosis and initiated on treatment. Otherwise, the patients would be missed, as currently often occurs.”

“It would need to be adaptable to other [EMR] systems and to be validated in a large separate population to be ready to enter clinical practice,” he said, “but these data look very promising with a good [positive predictive value (PPV)].”

Similarly, Juliet Compston, MD, said: “It provides a novel, fully automated approach to population-based screening for osteoporosis using EHRs to identify people at high imminent risk of fracture.”

Dr. Compston, emeritus professor of bone medicine, University of Cambridge, England, who was not involved with the research but who also disclosed being a consultant for Amgen, selected the study as one of the top clinical science highlights abstracts at the meeting.

“The algorithm looks at ICD codes for previous history of fracture, medications that have adverse effects on bone – for example glucocorticoids, aromatase inhibitors, and anti-androgens – as well as chronic diseases that increase the risk of fracture,” she explained.

“FRAX is the most commonly used tool to estimate fracture probability in clinical practice and to guide treatment decisions,” she noted. However, “currently it requires human input of data into the FRAX website and is generally only performed on individuals who are selected on the basis of clinical risk factors.”

“The Crystal Bone algorithm offers the potential for fully automated population-based screening in older adults to identify those at high risk of fracture, for whom effective therapies are available to reduce fracture risk,” she summarized.

“It needs further validation,” she noted, “and implementation into clinical practice requires the availability of high-quality EHRs.”
 

Algorithm validated in 106,328 patients aged 50 and older

Despite guidelines that recommend screening for osteoporosis in women aged 65 and older, men older than 70, and adults aged 50-79 with risk factors, real-world data suggest such screening is low, the researchers note.

The current validation study identified 106,328 patients aged 50 and older who had at least 2 years of consecutive medical history with the Reliant Medical Group from December 2014 to November 2020 as well as at least two EHR codes.

The accuracy of predicting a fracture within 2 years, expressed as area under the receiver operating characteristic (AUROC), was 0.77, where 1 is perfect, 0.5 is no better than random selection, 0.7 to 0.8 is acceptable, and 0.8 to 0.9 indicates excellent predictive accuracy.

In the entire Optum Reliant population older than 50, the risk of fracture within 2 years was 1.95%.

The algorithm identified four groups with a greater risk: 19,100 patients had a threefold higher risk of fracture within 2 years, 9,246 patients had a fourfold higher risk, 3,533 patients had a sevenfold higher risk, and 1,735 patients had a ninefold higher risk.

Many of these patients had no prior diagnosis of osteoporosis

For example, in the 19,100 patients with a threefold greater risk of fracture in 2 years, 69% of patients had not been diagnosed with osteoporosis (49% of them had no history of fracture and 20% did have a history of fracture).

The algorithm had a positive predictive value of 6%-18%, a negative predictive value of 98%-99%, a specificity of 81%-98%, and a sensitivity of 18%-59%, for the four groups.

The study was funded by Amgen. Dr. Mody and another author are Reliant Medical Group employees. Ms. Kelley and another author are Optum Life Sciences employees. One author is an employee at Landing AI. Two authors are Amgen employees and own Amgen stock. Dr. Ebeling has disclosed receiving research funding from Amgen, Sanofi, and Alexion, and his institution has received honoraria from Amgen and Kyowa Kirin. Dr. Compston has disclosed receiving speaking and consultancy fees from Amgen and UCB.

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

The Crystal Bone (Amgen) novel algorithm predicted 2-year risk of osteoporotic fractures in a large dataset with an accuracy that was consistent with FRAX 10-year risk predictions, researchers report.  

The algorithm was built using machine learning and artificial intelligence to predict fracture risk based on International Classification of Diseases (ICD) codes, as described in an article published in the Journal of Medical Internet Research.

The current validation study was presented September 9 as a poster at the annual meeting of the American Society for Bone and Mineral Research.

The scientists validated the algorithm in more than 100,000 patients aged 50 and older (that is, at risk of fracture) who were part of the Reliant Medical Group dataset (a subset of Optum Care).

Importantly, the algorithm predicted increased fracture in many patients who did not have a diagnosis of osteoporosis.

The next steps are validation in other datasets to support the generalizability of Crystal Bone across U.S. health care systems, Elinor Mody, MD, Reliant Medical Group, and colleagues report.

“Implementation research, in which patients identified by Crystal Bone undergo a bone health assessment and receive ongoing management, will help inform the clinical utility of this novel algorithm,” they conclude.

At the poster session, Tina Kelley, Optum Life Sciences, explained: “It’s a screening tool that says: ‘These are your patients that maybe you should spend a little extra time with, ask a few extra questions.’ ”

However, further study is needed before it should be used in clinical practice, she emphasized to this news organization.

‘A very useful advance’ but needs further validation

Invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, noted that “many clinicians now use FRAX to calculate absolute fracture risk and select patients who should initiate anti-osteoporosis drugs.”

With FRAX, clinicians input a patient’s age, sex, weight, height, previous fracture, [history of] parent with fractured hip, current smoking status, glucocorticoids, rheumatoid arthritis, secondary osteoporosis, alcohol (3 units/day or more), and bone mineral density (by DXA at the femoral neck) into the tool, to obtain a 10-year probability of fracture.

“Crystal Bone takes a different approach,” Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research but who disclosed receiving funding from Amgen, told this news organization in an email.

The algorithm uses electronic health records (EHRs) to identify patients who are likely to have a fracture within the next 2 years, he explained, based on diagnoses and medications associated with osteoporosis and fractures. These include ICD-10 codes for fractures at various sites and secondary causes of osteoporosis (such as rheumatoid and other inflammatory arthritis, chronic obstructive pulmonary disease, asthma, celiac disease, and inflammatory bowel disease).

“This is a very useful advance,” Dr. Ebeling summarized, “in that it would alert the clinician to patients in their practice who have a high fracture risk and need to be investigated for osteoporosis and initiated on treatment. Otherwise, the patients would be missed, as currently often occurs.”

“It would need to be adaptable to other [EMR] systems and to be validated in a large separate population to be ready to enter clinical practice,” he said, “but these data look very promising with a good [positive predictive value (PPV)].”

Similarly, Juliet Compston, MD, said: “It provides a novel, fully automated approach to population-based screening for osteoporosis using EHRs to identify people at high imminent risk of fracture.”

Dr. Compston, emeritus professor of bone medicine, University of Cambridge, England, who was not involved with the research but who also disclosed being a consultant for Amgen, selected the study as one of the top clinical science highlights abstracts at the meeting.

“The algorithm looks at ICD codes for previous history of fracture, medications that have adverse effects on bone – for example glucocorticoids, aromatase inhibitors, and anti-androgens – as well as chronic diseases that increase the risk of fracture,” she explained.

“FRAX is the most commonly used tool to estimate fracture probability in clinical practice and to guide treatment decisions,” she noted. However, “currently it requires human input of data into the FRAX website and is generally only performed on individuals who are selected on the basis of clinical risk factors.”

“The Crystal Bone algorithm offers the potential for fully automated population-based screening in older adults to identify those at high risk of fracture, for whom effective therapies are available to reduce fracture risk,” she summarized.

“It needs further validation,” she noted, “and implementation into clinical practice requires the availability of high-quality EHRs.”
 

Algorithm validated in 106,328 patients aged 50 and older

Despite guidelines that recommend screening for osteoporosis in women aged 65 and older, men older than 70, and adults aged 50-79 with risk factors, real-world data suggest such screening is low, the researchers note.

The current validation study identified 106,328 patients aged 50 and older who had at least 2 years of consecutive medical history with the Reliant Medical Group from December 2014 to November 2020 as well as at least two EHR codes.

The accuracy of predicting a fracture within 2 years, expressed as area under the receiver operating characteristic (AUROC), was 0.77, where 1 is perfect, 0.5 is no better than random selection, 0.7 to 0.8 is acceptable, and 0.8 to 0.9 indicates excellent predictive accuracy.

In the entire Optum Reliant population older than 50, the risk of fracture within 2 years was 1.95%.

The algorithm identified four groups with a greater risk: 19,100 patients had a threefold higher risk of fracture within 2 years, 9,246 patients had a fourfold higher risk, 3,533 patients had a sevenfold higher risk, and 1,735 patients had a ninefold higher risk.

Many of these patients had no prior diagnosis of osteoporosis

For example, in the 19,100 patients with a threefold greater risk of fracture in 2 years, 69% of patients had not been diagnosed with osteoporosis (49% of them had no history of fracture and 20% did have a history of fracture).

The algorithm had a positive predictive value of 6%-18%, a negative predictive value of 98%-99%, a specificity of 81%-98%, and a sensitivity of 18%-59%, for the four groups.

The study was funded by Amgen. Dr. Mody and another author are Reliant Medical Group employees. Ms. Kelley and another author are Optum Life Sciences employees. One author is an employee at Landing AI. Two authors are Amgen employees and own Amgen stock. Dr. Ebeling has disclosed receiving research funding from Amgen, Sanofi, and Alexion, and his institution has received honoraria from Amgen and Kyowa Kirin. Dr. Compston has disclosed receiving speaking and consultancy fees from Amgen and UCB.

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

The Crystal Bone (Amgen) novel algorithm predicted 2-year risk of osteoporotic fractures in a large dataset with an accuracy that was consistent with FRAX 10-year risk predictions, researchers report.  

The algorithm was built using machine learning and artificial intelligence to predict fracture risk based on International Classification of Diseases (ICD) codes, as described in an article published in the Journal of Medical Internet Research.

The current validation study was presented September 9 as a poster at the annual meeting of the American Society for Bone and Mineral Research.

The scientists validated the algorithm in more than 100,000 patients aged 50 and older (that is, at risk of fracture) who were part of the Reliant Medical Group dataset (a subset of Optum Care).

Importantly, the algorithm predicted increased fracture in many patients who did not have a diagnosis of osteoporosis.

The next steps are validation in other datasets to support the generalizability of Crystal Bone across U.S. health care systems, Elinor Mody, MD, Reliant Medical Group, and colleagues report.

“Implementation research, in which patients identified by Crystal Bone undergo a bone health assessment and receive ongoing management, will help inform the clinical utility of this novel algorithm,” they conclude.

At the poster session, Tina Kelley, Optum Life Sciences, explained: “It’s a screening tool that says: ‘These are your patients that maybe you should spend a little extra time with, ask a few extra questions.’ ”

However, further study is needed before it should be used in clinical practice, she emphasized to this news organization.

‘A very useful advance’ but needs further validation

Invited to comment, Peter R. Ebeling, MD, outgoing president of the ASBMR, noted that “many clinicians now use FRAX to calculate absolute fracture risk and select patients who should initiate anti-osteoporosis drugs.”

With FRAX, clinicians input a patient’s age, sex, weight, height, previous fracture, [history of] parent with fractured hip, current smoking status, glucocorticoids, rheumatoid arthritis, secondary osteoporosis, alcohol (3 units/day or more), and bone mineral density (by DXA at the femoral neck) into the tool, to obtain a 10-year probability of fracture.

“Crystal Bone takes a different approach,” Dr. Ebeling, from Monash University, Melbourne, who was not involved with the research but who disclosed receiving funding from Amgen, told this news organization in an email.

The algorithm uses electronic health records (EHRs) to identify patients who are likely to have a fracture within the next 2 years, he explained, based on diagnoses and medications associated with osteoporosis and fractures. These include ICD-10 codes for fractures at various sites and secondary causes of osteoporosis (such as rheumatoid and other inflammatory arthritis, chronic obstructive pulmonary disease, asthma, celiac disease, and inflammatory bowel disease).

“This is a very useful advance,” Dr. Ebeling summarized, “in that it would alert the clinician to patients in their practice who have a high fracture risk and need to be investigated for osteoporosis and initiated on treatment. Otherwise, the patients would be missed, as currently often occurs.”

“It would need to be adaptable to other [EMR] systems and to be validated in a large separate population to be ready to enter clinical practice,” he said, “but these data look very promising with a good [positive predictive value (PPV)].”

Similarly, Juliet Compston, MD, said: “It provides a novel, fully automated approach to population-based screening for osteoporosis using EHRs to identify people at high imminent risk of fracture.”

Dr. Compston, emeritus professor of bone medicine, University of Cambridge, England, who was not involved with the research but who also disclosed being a consultant for Amgen, selected the study as one of the top clinical science highlights abstracts at the meeting.

“The algorithm looks at ICD codes for previous history of fracture, medications that have adverse effects on bone – for example glucocorticoids, aromatase inhibitors, and anti-androgens – as well as chronic diseases that increase the risk of fracture,” she explained.

“FRAX is the most commonly used tool to estimate fracture probability in clinical practice and to guide treatment decisions,” she noted. However, “currently it requires human input of data into the FRAX website and is generally only performed on individuals who are selected on the basis of clinical risk factors.”

“The Crystal Bone algorithm offers the potential for fully automated population-based screening in older adults to identify those at high risk of fracture, for whom effective therapies are available to reduce fracture risk,” she summarized.

“It needs further validation,” she noted, “and implementation into clinical practice requires the availability of high-quality EHRs.”
 

Algorithm validated in 106,328 patients aged 50 and older

Despite guidelines that recommend screening for osteoporosis in women aged 65 and older, men older than 70, and adults aged 50-79 with risk factors, real-world data suggest such screening is low, the researchers note.

The current validation study identified 106,328 patients aged 50 and older who had at least 2 years of consecutive medical history with the Reliant Medical Group from December 2014 to November 2020 as well as at least two EHR codes.

The accuracy of predicting a fracture within 2 years, expressed as area under the receiver operating characteristic (AUROC), was 0.77, where 1 is perfect, 0.5 is no better than random selection, 0.7 to 0.8 is acceptable, and 0.8 to 0.9 indicates excellent predictive accuracy.

In the entire Optum Reliant population older than 50, the risk of fracture within 2 years was 1.95%.

The algorithm identified four groups with a greater risk: 19,100 patients had a threefold higher risk of fracture within 2 years, 9,246 patients had a fourfold higher risk, 3,533 patients had a sevenfold higher risk, and 1,735 patients had a ninefold higher risk.

Many of these patients had no prior diagnosis of osteoporosis

For example, in the 19,100 patients with a threefold greater risk of fracture in 2 years, 69% of patients had not been diagnosed with osteoporosis (49% of them had no history of fracture and 20% did have a history of fracture).

The algorithm had a positive predictive value of 6%-18%, a negative predictive value of 98%-99%, a specificity of 81%-98%, and a sensitivity of 18%-59%, for the four groups.

The study was funded by Amgen. Dr. Mody and another author are Reliant Medical Group employees. Ms. Kelley and another author are Optum Life Sciences employees. One author is an employee at Landing AI. Two authors are Amgen employees and own Amgen stock. Dr. Ebeling has disclosed receiving research funding from Amgen, Sanofi, and Alexion, and his institution has received honoraria from Amgen and Kyowa Kirin. Dr. Compston has disclosed receiving speaking and consultancy fees from Amgen and UCB.

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

Health concerns about the consumption of artificial sweeteners could be strengthened with the publication of a new study linking their intake to increased risk of heart disease and stroke events.

In this latest large-scale, prospective study of French adults, total artificial sweetener intake from all sources was associated with increased risk overall of cardiovascular and cerebrovascular disease.

The study was published online in the BMJ.

The current study differs from those done previously in that it includes artificial sweetener intake from both food and drinks, whereas previous studies have focused mainly on artificial sweetener content of beverages alone.

“Here we have quantified for the first time the global exposure to artificial sweeteners. This is not just beverages but includes the use of tabletop sweeteners, and other foods that include artificial sweeteners such as yogurts and desserts. This is the first time this information has been correlated to risk of heart disease,” senior author Mathilde Touvier, MD, Sorbonne Paris Nord University, told this news organization.

Just over half of the artificial sweetener intake in the study came from drinks, with the rest coming from tabletop sweeteners and foods.

“We included hard cardio- and cerebrovascular clinical endpoints such as a heart attack or stroke, and our results suggest that the amount of artificial sweetener in less than one can of soda could increase the risk of such events,” Dr. Touvier noted.

“This is an important and statistically significant association which shows robustness in all models after adjusting for many other possible confounding factors,” she said.

“There is now mounting evidence correlating artificial sweeteners to weight gain and heart disease,” she concluded. “My advice would be that we all need to try to limit sugar intake, but we should not consider artificial sweeteners as safe alternatives. Rather, we need to try to reduce our need for a sugary taste in our diet.”

But another leading researcher in the field urges caution in interpreting these results.

John Sievenpiper, MD, departments of nutritional sciences and medicine, University of Toronto, commented: “This paper shows the same relationship seen by many other large prospective cohorts which model the intake of artificial sweeteners as baseline or prevalent exposures.

“These observations are well recognized to be at high risk of residual confounding from behavior clustering and reverse causality in which being at risk for cardiovascular disease causes people to consume artificial sweeteners as a strategy to mitigate this risk as opposed to the other way around.”
 

Risk increased by 9%

The current study included 103,388 French adults from the NutriNet-Sante cohort, of whom 37.1% reported consumption of artificial sweeteners. The sweeteners assessed were mainly aspartame (58% of sweetener intake), acesulfame potassium (29%), and sucralose (10%), with the other 3% made up of various other sweeteners including cyclamates and saccharin.

Results showed that over an average 9 years of follow-up, artificial sweetener intake was associated with a 9% increased risk of cardiovascular or cerebrovascular events, including myocardial infarction, acute coronary syndrome, angioplasty, angina, stroke, or transient ischemic attack, with a hazard ratio of 1.09 (95% confidence interval, 1.01-1.18; P = .03).

The average intake of artificial sweeteners among those who reported consuming them was 42.46 mg/day, which corresponds to approximately one individual packet of tabletop sweetener or 100 mL of diet soda.

“We don’t have enough evidence to work out an amount of artificial sweetener that is harmful, but we did show a dose-effect association, with a higher risk of cardiovascular events with higher consumption,” Dr. Touvier said.

“Higher consumption in this study was a mean of 77 mg/day artificial sweetener, which is about 200 mL of soda – just a bit less than one standard can of soda,” she added.

The absolute incidence rate of cardiovascular or cerebrovascular events in higher consumers was 346 per 100,000 person-years vs. 314 per 100,000 person-years in nonconsumers.

Further analysis suggested that aspartame intake was particularly associated with increased risk of cerebrovascular events, while acesulfame potassium and sucralose were associated with increased coronary heart disease risk.
 

Study strengths

Dr. Touvier acknowledged that dietary studies, which generally rely on individuals self-reporting food and drink intake, are always hard to interpret. But she said this study used a more reliable method of dietary assessment, with repeated 24-hour dietary records, which were validated by interviews with a trained dietitian and against blood and urinary biomarkers.

And whereas residual confounding cannot be totally excluded, she pointed out that models were adjusted for a wide range of potential sociodemographic, anthropometric, dietary, and lifestyle confounders.

Dr. Touvier also noted that cases of cardiovascular disease in the first 2 years of follow-up were excluded to minimize the bias caused by individuals who maybe have switched to artificial sweeteners because of a cardiovascular issue.

“While this study has many strengths, it cannot on its own prove a causal relationship between artificial sweetener and increased cardiovascular risk,” she added. “We need health agencies to examine all the literature in the field. This is however another important piece of evidence.”

Dr. Touvier says that although observational studies have their issues, they will form the basis of the evidence on the effects of artificial sweeteners on health.

“Randomized studies in this area can only really look at short-term outcomes such as weight gain or biomarker changes. So, we will have to use observational studies together with experimental research to build the evidence. This is what happened with cigarette smoking and lung cancer. That link was not established by randomized trials, but by the accumulation of observational and experimental data.”
 

Different artificial sweeteners may be better?

Commenting on the study, Kim Williams Sr., MD, University of Louisville (Ky.), pointed out that this study included artificial sweeteners that increase insulin or decrease insulin sensitivity, and that insulin spikes increase obesity, insulin resistance, hypertension, and atherosclerosis.

“There are some safer artificial sweeteners that do not increase insulin much or at all, such as erythritol, yacon root/yacon syrup, stevia root, but they weren’t included in the analysis,” Dr. Williams added.

Dr. Sievenpiper explained that most studies on artificial sweeteners look at their consumption in isolation without considering how they compare to the intake of the sugars that they are intended to replace.

“The comparator matters as no food is consumed in a vacuum,” he said.

To address this, Dr. Sievenpiper and colleagues have recently published a systematic review and meta-analysis of the prospective cohort study evidence that shows if exposure to artificially sweetened beverages is modeled in substitution for sugar-sweetened beverages, then they are associated with less coronary heart disease, cardiovascular mortality, and all-cause mortality.

On the other hand, if exposure to artificially sweetened beverages is compared with water, then no difference in these outcomes was seen.

“These observations are more biologically plausible, robust, and reproducible and agree with the evidence for the effect of artificial sweeteners on intermediate risk factors in randomized trials,” Dr. Sievenpiper notes.

His group has also recently published a review of randomized studies showing that when compared with sugar-sweetened beverages, intake of artificially sweetened beverages was associated with small improvements in body weight and cardiometabolic risk factors without evidence of harm.

“I think the context provided by these studies is important, and taken together, the totality of the evidence suggests that artificial sweeteners are likely to be a useful tool in sugar reduction strategies,” Dr. Sievenpiper concludes.

The current study was funded by the European Research Council under the European Union’s Horizon 2020 research and innovation program, French National Cancer Institute, French Ministry of Health, IdEx Université de Paris Cité, Bettencourt-Schueller Foundation Research Prize 2021. The authors have disclosed no relevant financial relationships.

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

Health concerns about the consumption of artificial sweeteners could be strengthened with the publication of a new study linking their intake to increased risk of heart disease and stroke events.

In this latest large-scale, prospective study of French adults, total artificial sweetener intake from all sources was associated with increased risk overall of cardiovascular and cerebrovascular disease.

The study was published online in the BMJ.

The current study differs from those done previously in that it includes artificial sweetener intake from both food and drinks, whereas previous studies have focused mainly on artificial sweetener content of beverages alone.

“Here we have quantified for the first time the global exposure to artificial sweeteners. This is not just beverages but includes the use of tabletop sweeteners, and other foods that include artificial sweeteners such as yogurts and desserts. This is the first time this information has been correlated to risk of heart disease,” senior author Mathilde Touvier, MD, Sorbonne Paris Nord University, told this news organization.

Just over half of the artificial sweetener intake in the study came from drinks, with the rest coming from tabletop sweeteners and foods.

“We included hard cardio- and cerebrovascular clinical endpoints such as a heart attack or stroke, and our results suggest that the amount of artificial sweetener in less than one can of soda could increase the risk of such events,” Dr. Touvier noted.

“This is an important and statistically significant association which shows robustness in all models after adjusting for many other possible confounding factors,” she said.

“There is now mounting evidence correlating artificial sweeteners to weight gain and heart disease,” she concluded. “My advice would be that we all need to try to limit sugar intake, but we should not consider artificial sweeteners as safe alternatives. Rather, we need to try to reduce our need for a sugary taste in our diet.”

But another leading researcher in the field urges caution in interpreting these results.

John Sievenpiper, MD, departments of nutritional sciences and medicine, University of Toronto, commented: “This paper shows the same relationship seen by many other large prospective cohorts which model the intake of artificial sweeteners as baseline or prevalent exposures.

“These observations are well recognized to be at high risk of residual confounding from behavior clustering and reverse causality in which being at risk for cardiovascular disease causes people to consume artificial sweeteners as a strategy to mitigate this risk as opposed to the other way around.”
 

Risk increased by 9%

The current study included 103,388 French adults from the NutriNet-Sante cohort, of whom 37.1% reported consumption of artificial sweeteners. The sweeteners assessed were mainly aspartame (58% of sweetener intake), acesulfame potassium (29%), and sucralose (10%), with the other 3% made up of various other sweeteners including cyclamates and saccharin.

Results showed that over an average 9 years of follow-up, artificial sweetener intake was associated with a 9% increased risk of cardiovascular or cerebrovascular events, including myocardial infarction, acute coronary syndrome, angioplasty, angina, stroke, or transient ischemic attack, with a hazard ratio of 1.09 (95% confidence interval, 1.01-1.18; P = .03).

The average intake of artificial sweeteners among those who reported consuming them was 42.46 mg/day, which corresponds to approximately one individual packet of tabletop sweetener or 100 mL of diet soda.

“We don’t have enough evidence to work out an amount of artificial sweetener that is harmful, but we did show a dose-effect association, with a higher risk of cardiovascular events with higher consumption,” Dr. Touvier said.

“Higher consumption in this study was a mean of 77 mg/day artificial sweetener, which is about 200 mL of soda – just a bit less than one standard can of soda,” she added.

The absolute incidence rate of cardiovascular or cerebrovascular events in higher consumers was 346 per 100,000 person-years vs. 314 per 100,000 person-years in nonconsumers.

Further analysis suggested that aspartame intake was particularly associated with increased risk of cerebrovascular events, while acesulfame potassium and sucralose were associated with increased coronary heart disease risk.
 

Study strengths

Dr. Touvier acknowledged that dietary studies, which generally rely on individuals self-reporting food and drink intake, are always hard to interpret. But she said this study used a more reliable method of dietary assessment, with repeated 24-hour dietary records, which were validated by interviews with a trained dietitian and against blood and urinary biomarkers.

And whereas residual confounding cannot be totally excluded, she pointed out that models were adjusted for a wide range of potential sociodemographic, anthropometric, dietary, and lifestyle confounders.

Dr. Touvier also noted that cases of cardiovascular disease in the first 2 years of follow-up were excluded to minimize the bias caused by individuals who maybe have switched to artificial sweeteners because of a cardiovascular issue.

“While this study has many strengths, it cannot on its own prove a causal relationship between artificial sweetener and increased cardiovascular risk,” she added. “We need health agencies to examine all the literature in the field. This is however another important piece of evidence.”

Dr. Touvier says that although observational studies have their issues, they will form the basis of the evidence on the effects of artificial sweeteners on health.

“Randomized studies in this area can only really look at short-term outcomes such as weight gain or biomarker changes. So, we will have to use observational studies together with experimental research to build the evidence. This is what happened with cigarette smoking and lung cancer. That link was not established by randomized trials, but by the accumulation of observational and experimental data.”
 

Different artificial sweeteners may be better?

Commenting on the study, Kim Williams Sr., MD, University of Louisville (Ky.), pointed out that this study included artificial sweeteners that increase insulin or decrease insulin sensitivity, and that insulin spikes increase obesity, insulin resistance, hypertension, and atherosclerosis.

“There are some safer artificial sweeteners that do not increase insulin much or at all, such as erythritol, yacon root/yacon syrup, stevia root, but they weren’t included in the analysis,” Dr. Williams added.

Dr. Sievenpiper explained that most studies on artificial sweeteners look at their consumption in isolation without considering how they compare to the intake of the sugars that they are intended to replace.

“The comparator matters as no food is consumed in a vacuum,” he said.

To address this, Dr. Sievenpiper and colleagues have recently published a systematic review and meta-analysis of the prospective cohort study evidence that shows if exposure to artificially sweetened beverages is modeled in substitution for sugar-sweetened beverages, then they are associated with less coronary heart disease, cardiovascular mortality, and all-cause mortality.

On the other hand, if exposure to artificially sweetened beverages is compared with water, then no difference in these outcomes was seen.

“These observations are more biologically plausible, robust, and reproducible and agree with the evidence for the effect of artificial sweeteners on intermediate risk factors in randomized trials,” Dr. Sievenpiper notes.

His group has also recently published a review of randomized studies showing that when compared with sugar-sweetened beverages, intake of artificially sweetened beverages was associated with small improvements in body weight and cardiometabolic risk factors without evidence of harm.

“I think the context provided by these studies is important, and taken together, the totality of the evidence suggests that artificial sweeteners are likely to be a useful tool in sugar reduction strategies,” Dr. Sievenpiper concludes.

The current study was funded by the European Research Council under the European Union’s Horizon 2020 research and innovation program, French National Cancer Institute, French Ministry of Health, IdEx Université de Paris Cité, Bettencourt-Schueller Foundation Research Prize 2021. The authors have disclosed no relevant financial relationships.

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

Health concerns about the consumption of artificial sweeteners could be strengthened with the publication of a new study linking their intake to increased risk of heart disease and stroke events.

In this latest large-scale, prospective study of French adults, total artificial sweetener intake from all sources was associated with increased risk overall of cardiovascular and cerebrovascular disease.

The study was published online in the BMJ.

The current study differs from those done previously in that it includes artificial sweetener intake from both food and drinks, whereas previous studies have focused mainly on artificial sweetener content of beverages alone.

“Here we have quantified for the first time the global exposure to artificial sweeteners. This is not just beverages but includes the use of tabletop sweeteners, and other foods that include artificial sweeteners such as yogurts and desserts. This is the first time this information has been correlated to risk of heart disease,” senior author Mathilde Touvier, MD, Sorbonne Paris Nord University, told this news organization.

Just over half of the artificial sweetener intake in the study came from drinks, with the rest coming from tabletop sweeteners and foods.

“We included hard cardio- and cerebrovascular clinical endpoints such as a heart attack or stroke, and our results suggest that the amount of artificial sweetener in less than one can of soda could increase the risk of such events,” Dr. Touvier noted.

“This is an important and statistically significant association which shows robustness in all models after adjusting for many other possible confounding factors,” she said.

“There is now mounting evidence correlating artificial sweeteners to weight gain and heart disease,” she concluded. “My advice would be that we all need to try to limit sugar intake, but we should not consider artificial sweeteners as safe alternatives. Rather, we need to try to reduce our need for a sugary taste in our diet.”

But another leading researcher in the field urges caution in interpreting these results.

John Sievenpiper, MD, departments of nutritional sciences and medicine, University of Toronto, commented: “This paper shows the same relationship seen by many other large prospective cohorts which model the intake of artificial sweeteners as baseline or prevalent exposures.

“These observations are well recognized to be at high risk of residual confounding from behavior clustering and reverse causality in which being at risk for cardiovascular disease causes people to consume artificial sweeteners as a strategy to mitigate this risk as opposed to the other way around.”
 

Risk increased by 9%

The current study included 103,388 French adults from the NutriNet-Sante cohort, of whom 37.1% reported consumption of artificial sweeteners. The sweeteners assessed were mainly aspartame (58% of sweetener intake), acesulfame potassium (29%), and sucralose (10%), with the other 3% made up of various other sweeteners including cyclamates and saccharin.

Results showed that over an average 9 years of follow-up, artificial sweetener intake was associated with a 9% increased risk of cardiovascular or cerebrovascular events, including myocardial infarction, acute coronary syndrome, angioplasty, angina, stroke, or transient ischemic attack, with a hazard ratio of 1.09 (95% confidence interval, 1.01-1.18; P = .03).

The average intake of artificial sweeteners among those who reported consuming them was 42.46 mg/day, which corresponds to approximately one individual packet of tabletop sweetener or 100 mL of diet soda.

“We don’t have enough evidence to work out an amount of artificial sweetener that is harmful, but we did show a dose-effect association, with a higher risk of cardiovascular events with higher consumption,” Dr. Touvier said.

“Higher consumption in this study was a mean of 77 mg/day artificial sweetener, which is about 200 mL of soda – just a bit less than one standard can of soda,” she added.

The absolute incidence rate of cardiovascular or cerebrovascular events in higher consumers was 346 per 100,000 person-years vs. 314 per 100,000 person-years in nonconsumers.

Further analysis suggested that aspartame intake was particularly associated with increased risk of cerebrovascular events, while acesulfame potassium and sucralose were associated with increased coronary heart disease risk.
 

Study strengths

Dr. Touvier acknowledged that dietary studies, which generally rely on individuals self-reporting food and drink intake, are always hard to interpret. But she said this study used a more reliable method of dietary assessment, with repeated 24-hour dietary records, which were validated by interviews with a trained dietitian and against blood and urinary biomarkers.

And whereas residual confounding cannot be totally excluded, she pointed out that models were adjusted for a wide range of potential sociodemographic, anthropometric, dietary, and lifestyle confounders.

Dr. Touvier also noted that cases of cardiovascular disease in the first 2 years of follow-up were excluded to minimize the bias caused by individuals who maybe have switched to artificial sweeteners because of a cardiovascular issue.

“While this study has many strengths, it cannot on its own prove a causal relationship between artificial sweetener and increased cardiovascular risk,” she added. “We need health agencies to examine all the literature in the field. This is however another important piece of evidence.”

Dr. Touvier says that although observational studies have their issues, they will form the basis of the evidence on the effects of artificial sweeteners on health.

“Randomized studies in this area can only really look at short-term outcomes such as weight gain or biomarker changes. So, we will have to use observational studies together with experimental research to build the evidence. This is what happened with cigarette smoking and lung cancer. That link was not established by randomized trials, but by the accumulation of observational and experimental data.”
 

Different artificial sweeteners may be better?

Commenting on the study, Kim Williams Sr., MD, University of Louisville (Ky.), pointed out that this study included artificial sweeteners that increase insulin or decrease insulin sensitivity, and that insulin spikes increase obesity, insulin resistance, hypertension, and atherosclerosis.

“There are some safer artificial sweeteners that do not increase insulin much or at all, such as erythritol, yacon root/yacon syrup, stevia root, but they weren’t included in the analysis,” Dr. Williams added.

Dr. Sievenpiper explained that most studies on artificial sweeteners look at their consumption in isolation without considering how they compare to the intake of the sugars that they are intended to replace.

“The comparator matters as no food is consumed in a vacuum,” he said.

To address this, Dr. Sievenpiper and colleagues have recently published a systematic review and meta-analysis of the prospective cohort study evidence that shows if exposure to artificially sweetened beverages is modeled in substitution for sugar-sweetened beverages, then they are associated with less coronary heart disease, cardiovascular mortality, and all-cause mortality.

On the other hand, if exposure to artificially sweetened beverages is compared with water, then no difference in these outcomes was seen.

“These observations are more biologically plausible, robust, and reproducible and agree with the evidence for the effect of artificial sweeteners on intermediate risk factors in randomized trials,” Dr. Sievenpiper notes.

His group has also recently published a review of randomized studies showing that when compared with sugar-sweetened beverages, intake of artificially sweetened beverages was associated with small improvements in body weight and cardiometabolic risk factors without evidence of harm.

“I think the context provided by these studies is important, and taken together, the totality of the evidence suggests that artificial sweeteners are likely to be a useful tool in sugar reduction strategies,” Dr. Sievenpiper concludes.

The current study was funded by the European Research Council under the European Union’s Horizon 2020 research and innovation program, French National Cancer Institute, French Ministry of Health, IdEx Université de Paris Cité, Bettencourt-Schueller Foundation Research Prize 2021. The authors have disclosed no relevant financial relationships.

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