Richard Mark Kirkner

Repeat testing of lipoprotein(a) to assess a patient’s cardiovascular risk doesn’t seem to yield any additional helpful information, and a one-time baseline measure of Lp(a) molar concentration could be sufficient to help define lifetime risk, suggests a large analysis of a national database in the United Kingdom.

The study examined the correlation between baseline and first follow-up measures of Lp(a) molar concentration and incident coronary artery disease among 16,017 individuals in a cohort of the UK Biobank, a prospective observational study of about 500,000 middle-aged people recruited between 2006 and 2010 with ongoing follow-up.

Results showed found little change in Lp(a) molar concentration measures from baseline to an average of 4.4 years afterward, but did find an association between statin usage and significant increases in Lp(a) in people with high baseline levels. The study was published online on Feb. 14 in the Journal of the American College of Cardiology.

The baseline and follow-up Lp(a) molar concentration measures “are highly correlated with 85% of the repeat values being within 25 nmol/L of each other,” senior author Pradeep Natarajan, MD, MMSc, of Massachusetts General Hospital, Boston, said in an interview. “When predicting events, the follow-up Lp(a) concentration did not yield additional information beyond the baseline Lp(a).”

Additionally, the study found that statin therapy didn’t lead to meaningful changes in Lp(a) molar concentration levels. Patients on statins who had baseline Lp(a) above 70 nmol/L “had modest follow-up concentrations, but this did not appreciably change atherosclerotic cardiovascular disease risks,” Dr. Natarajan said. “For patients without clinical cardiovascular disease who are not on medicines that markedly change Lp(a), additional Lp(a) assessments are unlikely to provide additional prognostic information beyond the baseline Lp(a) measurement.”

Santica Marcovina, ScD, PhD, coauthor of the invited commentary (J Am Coll Cardiol. 2022 Feb 14. doi: 10.1016/j.jacc.2021.11.053), said in an interview that the study’s major contribution to the literature is the finding that the molar concentration of Lp(a) appears to be stable regardless of statin use. “This important finding provides evidence that no longitudinal measurements of Lp(a) are needed in the primary prevention of atherosclerotic CVD and that once-in-a-lifetime measurement may reliably allow clinicians to assess whether or not Lp(a)-related risk is present in their patients,” she said. Dr. Marcovina is senior director of clinical laboratory sciences at Medpace Reference Laboratories, Cincinnati.

She noted that this study provides an actionable strategy for cardiologists. “Considering the clinical benefits, the relative low cost for measuring Lp(a), the fact that measurements need to be performed only once in the vast majority of individuals, all point to the implementation of Lp(a) general screening as soon as possible.”

Dr. Natarajan has financial relationships with Amgen, Apple, AstraZeneca, Boston Scientific, Blackstone Life Sciences, Genentech and Novartis. Dr. Marcovina has provided consulting for Roche, Denka, and Novartis, and has received research support from Amgen through Medpace.

Repeat testing of lipoprotein(a) to assess a patient’s cardiovascular risk doesn’t seem to yield any additional helpful information, and a one-time baseline measure of Lp(a) molar concentration could be sufficient to help define lifetime risk, suggests a large analysis of a national database in the United Kingdom.

The study examined the correlation between baseline and first follow-up measures of Lp(a) molar concentration and incident coronary artery disease among 16,017 individuals in a cohort of the UK Biobank, a prospective observational study of about 500,000 middle-aged people recruited between 2006 and 2010 with ongoing follow-up.

Results showed found little change in Lp(a) molar concentration measures from baseline to an average of 4.4 years afterward, but did find an association between statin usage and significant increases in Lp(a) in people with high baseline levels. The study was published online on Feb. 14 in the Journal of the American College of Cardiology.

The baseline and follow-up Lp(a) molar concentration measures “are highly correlated with 85% of the repeat values being within 25 nmol/L of each other,” senior author Pradeep Natarajan, MD, MMSc, of Massachusetts General Hospital, Boston, said in an interview. “When predicting events, the follow-up Lp(a) concentration did not yield additional information beyond the baseline Lp(a).”

Additionally, the study found that statin therapy didn’t lead to meaningful changes in Lp(a) molar concentration levels. Patients on statins who had baseline Lp(a) above 70 nmol/L “had modest follow-up concentrations, but this did not appreciably change atherosclerotic cardiovascular disease risks,” Dr. Natarajan said. “For patients without clinical cardiovascular disease who are not on medicines that markedly change Lp(a), additional Lp(a) assessments are unlikely to provide additional prognostic information beyond the baseline Lp(a) measurement.”

Santica Marcovina, ScD, PhD, coauthor of the invited commentary (J Am Coll Cardiol. 2022 Feb 14. doi: 10.1016/j.jacc.2021.11.053), said in an interview that the study’s major contribution to the literature is the finding that the molar concentration of Lp(a) appears to be stable regardless of statin use. “This important finding provides evidence that no longitudinal measurements of Lp(a) are needed in the primary prevention of atherosclerotic CVD and that once-in-a-lifetime measurement may reliably allow clinicians to assess whether or not Lp(a)-related risk is present in their patients,” she said. Dr. Marcovina is senior director of clinical laboratory sciences at Medpace Reference Laboratories, Cincinnati.

She noted that this study provides an actionable strategy for cardiologists. “Considering the clinical benefits, the relative low cost for measuring Lp(a), the fact that measurements need to be performed only once in the vast majority of individuals, all point to the implementation of Lp(a) general screening as soon as possible.”

Dr. Natarajan has financial relationships with Amgen, Apple, AstraZeneca, Boston Scientific, Blackstone Life Sciences, Genentech and Novartis. Dr. Marcovina has provided consulting for Roche, Denka, and Novartis, and has received research support from Amgen through Medpace.

Repeat testing of lipoprotein(a) to assess a patient’s cardiovascular risk doesn’t seem to yield any additional helpful information, and a one-time baseline measure of Lp(a) molar concentration could be sufficient to help define lifetime risk, suggests a large analysis of a national database in the United Kingdom.

The study examined the correlation between baseline and first follow-up measures of Lp(a) molar concentration and incident coronary artery disease among 16,017 individuals in a cohort of the UK Biobank, a prospective observational study of about 500,000 middle-aged people recruited between 2006 and 2010 with ongoing follow-up.

Results showed found little change in Lp(a) molar concentration measures from baseline to an average of 4.4 years afterward, but did find an association between statin usage and significant increases in Lp(a) in people with high baseline levels. The study was published online on Feb. 14 in the Journal of the American College of Cardiology.

The baseline and follow-up Lp(a) molar concentration measures “are highly correlated with 85% of the repeat values being within 25 nmol/L of each other,” senior author Pradeep Natarajan, MD, MMSc, of Massachusetts General Hospital, Boston, said in an interview. “When predicting events, the follow-up Lp(a) concentration did not yield additional information beyond the baseline Lp(a).”

Additionally, the study found that statin therapy didn’t lead to meaningful changes in Lp(a) molar concentration levels. Patients on statins who had baseline Lp(a) above 70 nmol/L “had modest follow-up concentrations, but this did not appreciably change atherosclerotic cardiovascular disease risks,” Dr. Natarajan said. “For patients without clinical cardiovascular disease who are not on medicines that markedly change Lp(a), additional Lp(a) assessments are unlikely to provide additional prognostic information beyond the baseline Lp(a) measurement.”

Santica Marcovina, ScD, PhD, coauthor of the invited commentary (J Am Coll Cardiol. 2022 Feb 14. doi: 10.1016/j.jacc.2021.11.053), said in an interview that the study’s major contribution to the literature is the finding that the molar concentration of Lp(a) appears to be stable regardless of statin use. “This important finding provides evidence that no longitudinal measurements of Lp(a) are needed in the primary prevention of atherosclerotic CVD and that once-in-a-lifetime measurement may reliably allow clinicians to assess whether or not Lp(a)-related risk is present in their patients,” she said. Dr. Marcovina is senior director of clinical laboratory sciences at Medpace Reference Laboratories, Cincinnati.

She noted that this study provides an actionable strategy for cardiologists. “Considering the clinical benefits, the relative low cost for measuring Lp(a), the fact that measurements need to be performed only once in the vast majority of individuals, all point to the implementation of Lp(a) general screening as soon as possible.”

Dr. Natarajan has financial relationships with Amgen, Apple, AstraZeneca, Boston Scientific, Blackstone Life Sciences, Genentech and Novartis. Dr. Marcovina has provided consulting for Roche, Denka, and Novartis, and has received research support from Amgen through Medpace.

Bronchiolitis is the leading cause of infant hospitalizations in the United States and Europe, and almost one-third of these patients go on to develop asthma later in childhood.

But a multinational team of researchers has presented evidence that could avoid that outcome. They identified four different subtypes of bronchiolitis along with a decision tree that can determine which infants are most likely to develop asthma as they get older.

Reporting in the journal eClinical Medicine, Michimasa Fujiogi, MD, of Massachusetts General Hospital and Harvard University, Boston, and colleagues analyzed three multicenter prospective cohort studies that included a combined 3,081 infants hospitalized with severe bronchiolitis.

“This study added a base for the early identification of high-risk patients during early infancy,” Dr. Fujiogi said in an interview. “Using the prediction rule of this study, it is possible to identify groups at high risk of asthma during a critical period of airway development – early infancy.”

The researchers identified four clinically distinct and reproducible profiles of infants hospitalized for bronchiolitis:

• A: characterized by a history of breathing problems and eczema, rhinovirus infection, and low prevalence of respiratory syncytial virus (RSV) infection.
• B: characterized by the classic symptoms of wheezing and cough at presentation, a low prevalence of previous breathing problems and rhinovirus infection, and a high likelihood of RSV infection.
• C: the most severe group, characterized by inadequate oral intake, severe retraction at presentation, and longer hospital stays.
• D: the least ill group, with little history of breathing problems but inadequate oral intake with no or mild retraction.

Infants with profile A had the highest risk for developing asthma – more than 250% greater than with typical bronchiolitis. They were also older and were more likely to have parents who had asthma – and none had solo-RSV infection. In the overall analysis, the risk for developing asthma by age 6 or 7 was 23%.

The researchers stated that the decision tree accurately predicts the high-risk profile with high degrees of sensitivity and specificity. The decision tree used four predictors that together defined infants with profile A: RSV infection status, previous breathing problems, eczema, and parental asthma.

“Our data would facilitate the development of profile-specific prevention strategies for asthma – for example, modification of host response, prophylaxis for severe viral infection – by identifying asthma risk groups early in infancy,” Dr. Fujiogi said.

The study received funding from the National Institutes of Health. Dr. Fujiogi and coauthors have disclosed no relevant financial relationships.

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

Bronchiolitis is the leading cause of infant hospitalizations in the United States and Europe, and almost one-third of these patients go on to develop asthma later in childhood.

But a multinational team of researchers has presented evidence that could avoid that outcome. They identified four different subtypes of bronchiolitis along with a decision tree that can determine which infants are most likely to develop asthma as they get older.

Reporting in the journal eClinical Medicine, Michimasa Fujiogi, MD, of Massachusetts General Hospital and Harvard University, Boston, and colleagues analyzed three multicenter prospective cohort studies that included a combined 3,081 infants hospitalized with severe bronchiolitis.

“This study added a base for the early identification of high-risk patients during early infancy,” Dr. Fujiogi said in an interview. “Using the prediction rule of this study, it is possible to identify groups at high risk of asthma during a critical period of airway development – early infancy.”

The researchers identified four clinically distinct and reproducible profiles of infants hospitalized for bronchiolitis:

• A: characterized by a history of breathing problems and eczema, rhinovirus infection, and low prevalence of respiratory syncytial virus (RSV) infection.
• B: characterized by the classic symptoms of wheezing and cough at presentation, a low prevalence of previous breathing problems and rhinovirus infection, and a high likelihood of RSV infection.
• C: the most severe group, characterized by inadequate oral intake, severe retraction at presentation, and longer hospital stays.
• D: the least ill group, with little history of breathing problems but inadequate oral intake with no or mild retraction.

Infants with profile A had the highest risk for developing asthma – more than 250% greater than with typical bronchiolitis. They were also older and were more likely to have parents who had asthma – and none had solo-RSV infection. In the overall analysis, the risk for developing asthma by age 6 or 7 was 23%.

The researchers stated that the decision tree accurately predicts the high-risk profile with high degrees of sensitivity and specificity. The decision tree used four predictors that together defined infants with profile A: RSV infection status, previous breathing problems, eczema, and parental asthma.

“Our data would facilitate the development of profile-specific prevention strategies for asthma – for example, modification of host response, prophylaxis for severe viral infection – by identifying asthma risk groups early in infancy,” Dr. Fujiogi said.

The study received funding from the National Institutes of Health. Dr. Fujiogi and coauthors have disclosed no relevant financial relationships.

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

Bronchiolitis is the leading cause of infant hospitalizations in the United States and Europe, and almost one-third of these patients go on to develop asthma later in childhood.

But a multinational team of researchers has presented evidence that could avoid that outcome. They identified four different subtypes of bronchiolitis along with a decision tree that can determine which infants are most likely to develop asthma as they get older.

Reporting in the journal eClinical Medicine, Michimasa Fujiogi, MD, of Massachusetts General Hospital and Harvard University, Boston, and colleagues analyzed three multicenter prospective cohort studies that included a combined 3,081 infants hospitalized with severe bronchiolitis.

“This study added a base for the early identification of high-risk patients during early infancy,” Dr. Fujiogi said in an interview. “Using the prediction rule of this study, it is possible to identify groups at high risk of asthma during a critical period of airway development – early infancy.”

The researchers identified four clinically distinct and reproducible profiles of infants hospitalized for bronchiolitis:

• A: characterized by a history of breathing problems and eczema, rhinovirus infection, and low prevalence of respiratory syncytial virus (RSV) infection.
• B: characterized by the classic symptoms of wheezing and cough at presentation, a low prevalence of previous breathing problems and rhinovirus infection, and a high likelihood of RSV infection.
• C: the most severe group, characterized by inadequate oral intake, severe retraction at presentation, and longer hospital stays.
• D: the least ill group, with little history of breathing problems but inadequate oral intake with no or mild retraction.

Infants with profile A had the highest risk for developing asthma – more than 250% greater than with typical bronchiolitis. They were also older and were more likely to have parents who had asthma – and none had solo-RSV infection. In the overall analysis, the risk for developing asthma by age 6 or 7 was 23%.

The researchers stated that the decision tree accurately predicts the high-risk profile with high degrees of sensitivity and specificity. The decision tree used four predictors that together defined infants with profile A: RSV infection status, previous breathing problems, eczema, and parental asthma.

“Our data would facilitate the development of profile-specific prevention strategies for asthma – for example, modification of host response, prophylaxis for severe viral infection – by identifying asthma risk groups early in infancy,” Dr. Fujiogi said.

The study received funding from the National Institutes of Health. Dr. Fujiogi and coauthors have disclosed no relevant financial relationships.

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

Creators of a pilot program that educates preschoolers about good heart health have validated a template for successful early childhood intervention that, they claim, provides a pathway for translating scientific evidence into the community and classroom for educational purposes to encourage long-lasting lifestyle changes.

That validation supports the creators' plans to take the program into more schools.

They reported key lessons in crafting the program, known as the SI! Program (for Salud Integral-Comprehensive Health), online in the Journal of the American College of Cardiology.

Mount Sinai Hospital

“This is a research-based program that uses randomized clinical trial evidence with implementation strategies to design educational health promotion programs,” senior author Valentin Fuster, MD, PhD, founder and trustees chairman of the Foundation for Science, Health, and Education (SHE) based in Barcelona, under whose aegis the SI! Program was implemented, said in an interview. Dr. Fuster is also director of Mount Sinai Heart and physician-in-chief at Mount Sinai Hospital in New York, and general director of the National Center for Cardiovascular Investigation (CNIC) in Madrid, Spain’s equivalent of the National Heart, Lung, and Blood Institute.

“There are specific times in a child’s life when improvements can be made to enhance long-term cardiovascular health status,” said Rodrigo Fernández-Jiménez, MD, PhD, group leader of the cardiovascular health and imaging lab at CNIC and study coauthor. “Our review, and previous studies, suggest that 4-5 years of age is the most favorable time to start a school-based intervention focused on healthy habits.”

A key piece of the SI! Program used a Sesame Street character, known as Dr. Ruster, a Muppet based on Dr. Fuster, to introduce and convey most messages and activities to the preschool children. The program also used a heart-shaped mascot named “Cardio” to teach about healthy behaviors. Other components include video segments, a colorful storybook, an interactive board game, flash cards, and a teacher’s guide. The activities and messages were tailored based on the country in which the program was implemented.
 

A decade of experience

The review evaluated 10 years of experience with the preschool-based program, drawing upon cluster-randomized clinical trials of the program in three countries with different socioeconomic conditions: Colombia, Spain, and the United States. The studies randomized schools to receive the SI! Program for 4 months or to a control group and included more than 3,800 children from 50 schools, along with their parents or caregivers and teachers. The studies found significant increases in preschoolers’ knowledge, attitudes, and habits toward healthy eating and living an active lifestyle. Now, the SI! Program is expanding into more than 250 schools in Spain and more than 40 schools in all five boroughs of New York City.

“This is a multidimensional program,” Dr. Fuster said. The review identified five stages for implementing the program: dissemination; adoption; implementation; evaluation; and institutionalization.

Dissemination involves three substages for intervention: components, design, and strategy. With regard to the components, said Dr. Fuster, “We’re targeting children to educate them in four topics: how the body works; nutritional and dietary requirements; physical activity; and the need to control emotions – to say no in the future when they’re confronted with alcohol, drugs, and tobacco.”

Design involved a multidisciplinary team of experts to develop the intervention, Dr. Fuster said. The strategy itself enlists parents and teachers in the implementation, but goes beyond that. “This is a community,” Dr. Fuster said. Hence, the school environment and classroom itself are also engaged to support the message of the four topics.

Dr. Fuster said future research should look at knowledge, attitude, and habits and biological outcomes in children who’ve been in the SI! Program when they reach adolescence. “Our hypothesis is that we can do this in older children, but when they reach age 10 we want to reintervene in them,” Dr. Fuster said. “Humans need reintervention. Our findings don’t get into sustainability.” He added that further research should also identify socioeconomic factors that influence child health.

Expanding the program across the New York City’s five boroughs “offers a unique opportunity to explore which socioeconomic factors, at both the family and borough level, and may eventually affect children’s health, how they are implicated in the intervention’s effectiveness, and how they can be addressed to reduce the gap in health inequalities,” he said. 

Karalyn Kinsella, MD, a pediatrician affiliated with Yale New Haven (Conn.) Medical Center, noted the program’s multidimensional nature is an important element. “I think what is so important about this intervention is that it is not one single intervention but a curriculum that takes a significant amount of time (up to 50 hours) that allows for repetition of the information, which allows it to become remembered,” she said in an interview. “I also think incorporating families in the intervention is key as that is where change often has to happen.”

While she said the program may provide a template for a mental health curriculum, she added, “My concern is that teachers are already feeling overwhelmed and this may be viewed as another burden.”

The American Heart Association provided funding for the study in the United States. Dr Fernández-Jiménez has received funding from the Fondo de Investigación Sanitaria–Instituto de Salud Carlos III, which is cofunded by the European Regional Development Fund/European Social Fund. Dr. Fuster and Dr. Kinsella have no relevant disclosures.

Creators of a pilot program that educates preschoolers about good heart health have validated a template for successful early childhood intervention that, they claim, provides a pathway for translating scientific evidence into the community and classroom for educational purposes to encourage long-lasting lifestyle changes.

That validation supports the creators' plans to take the program into more schools.

They reported key lessons in crafting the program, known as the SI! Program (for Salud Integral-Comprehensive Health), online in the Journal of the American College of Cardiology.

Mount Sinai Hospital

“This is a research-based program that uses randomized clinical trial evidence with implementation strategies to design educational health promotion programs,” senior author Valentin Fuster, MD, PhD, founder and trustees chairman of the Foundation for Science, Health, and Education (SHE) based in Barcelona, under whose aegis the SI! Program was implemented, said in an interview. Dr. Fuster is also director of Mount Sinai Heart and physician-in-chief at Mount Sinai Hospital in New York, and general director of the National Center for Cardiovascular Investigation (CNIC) in Madrid, Spain’s equivalent of the National Heart, Lung, and Blood Institute.

“There are specific times in a child’s life when improvements can be made to enhance long-term cardiovascular health status,” said Rodrigo Fernández-Jiménez, MD, PhD, group leader of the cardiovascular health and imaging lab at CNIC and study coauthor. “Our review, and previous studies, suggest that 4-5 years of age is the most favorable time to start a school-based intervention focused on healthy habits.”

A key piece of the SI! Program used a Sesame Street character, known as Dr. Ruster, a Muppet based on Dr. Fuster, to introduce and convey most messages and activities to the preschool children. The program also used a heart-shaped mascot named “Cardio” to teach about healthy behaviors. Other components include video segments, a colorful storybook, an interactive board game, flash cards, and a teacher’s guide. The activities and messages were tailored based on the country in which the program was implemented.
 

A decade of experience

The review evaluated 10 years of experience with the preschool-based program, drawing upon cluster-randomized clinical trials of the program in three countries with different socioeconomic conditions: Colombia, Spain, and the United States. The studies randomized schools to receive the SI! Program for 4 months or to a control group and included more than 3,800 children from 50 schools, along with their parents or caregivers and teachers. The studies found significant increases in preschoolers’ knowledge, attitudes, and habits toward healthy eating and living an active lifestyle. Now, the SI! Program is expanding into more than 250 schools in Spain and more than 40 schools in all five boroughs of New York City.

“This is a multidimensional program,” Dr. Fuster said. The review identified five stages for implementing the program: dissemination; adoption; implementation; evaluation; and institutionalization.

Dissemination involves three substages for intervention: components, design, and strategy. With regard to the components, said Dr. Fuster, “We’re targeting children to educate them in four topics: how the body works; nutritional and dietary requirements; physical activity; and the need to control emotions – to say no in the future when they’re confronted with alcohol, drugs, and tobacco.”

Design involved a multidisciplinary team of experts to develop the intervention, Dr. Fuster said. The strategy itself enlists parents and teachers in the implementation, but goes beyond that. “This is a community,” Dr. Fuster said. Hence, the school environment and classroom itself are also engaged to support the message of the four topics.

Dr. Fuster said future research should look at knowledge, attitude, and habits and biological outcomes in children who’ve been in the SI! Program when they reach adolescence. “Our hypothesis is that we can do this in older children, but when they reach age 10 we want to reintervene in them,” Dr. Fuster said. “Humans need reintervention. Our findings don’t get into sustainability.” He added that further research should also identify socioeconomic factors that influence child health.

Expanding the program across the New York City’s five boroughs “offers a unique opportunity to explore which socioeconomic factors, at both the family and borough level, and may eventually affect children’s health, how they are implicated in the intervention’s effectiveness, and how they can be addressed to reduce the gap in health inequalities,” he said. 

Karalyn Kinsella, MD, a pediatrician affiliated with Yale New Haven (Conn.) Medical Center, noted the program’s multidimensional nature is an important element. “I think what is so important about this intervention is that it is not one single intervention but a curriculum that takes a significant amount of time (up to 50 hours) that allows for repetition of the information, which allows it to become remembered,” she said in an interview. “I also think incorporating families in the intervention is key as that is where change often has to happen.”

While she said the program may provide a template for a mental health curriculum, she added, “My concern is that teachers are already feeling overwhelmed and this may be viewed as another burden.”

The American Heart Association provided funding for the study in the United States. Dr Fernández-Jiménez has received funding from the Fondo de Investigación Sanitaria–Instituto de Salud Carlos III, which is cofunded by the European Regional Development Fund/European Social Fund. Dr. Fuster and Dr. Kinsella have no relevant disclosures.

Creators of a pilot program that educates preschoolers about good heart health have validated a template for successful early childhood intervention that, they claim, provides a pathway for translating scientific evidence into the community and classroom for educational purposes to encourage long-lasting lifestyle changes.

That validation supports the creators' plans to take the program into more schools.

They reported key lessons in crafting the program, known as the SI! Program (for Salud Integral-Comprehensive Health), online in the Journal of the American College of Cardiology.

Mount Sinai Hospital

“This is a research-based program that uses randomized clinical trial evidence with implementation strategies to design educational health promotion programs,” senior author Valentin Fuster, MD, PhD, founder and trustees chairman of the Foundation for Science, Health, and Education (SHE) based in Barcelona, under whose aegis the SI! Program was implemented, said in an interview. Dr. Fuster is also director of Mount Sinai Heart and physician-in-chief at Mount Sinai Hospital in New York, and general director of the National Center for Cardiovascular Investigation (CNIC) in Madrid, Spain’s equivalent of the National Heart, Lung, and Blood Institute.

“There are specific times in a child’s life when improvements can be made to enhance long-term cardiovascular health status,” said Rodrigo Fernández-Jiménez, MD, PhD, group leader of the cardiovascular health and imaging lab at CNIC and study coauthor. “Our review, and previous studies, suggest that 4-5 years of age is the most favorable time to start a school-based intervention focused on healthy habits.”

A key piece of the SI! Program used a Sesame Street character, known as Dr. Ruster, a Muppet based on Dr. Fuster, to introduce and convey most messages and activities to the preschool children. The program also used a heart-shaped mascot named “Cardio” to teach about healthy behaviors. Other components include video segments, a colorful storybook, an interactive board game, flash cards, and a teacher’s guide. The activities and messages were tailored based on the country in which the program was implemented.
 

A decade of experience

The review evaluated 10 years of experience with the preschool-based program, drawing upon cluster-randomized clinical trials of the program in three countries with different socioeconomic conditions: Colombia, Spain, and the United States. The studies randomized schools to receive the SI! Program for 4 months or to a control group and included more than 3,800 children from 50 schools, along with their parents or caregivers and teachers. The studies found significant increases in preschoolers’ knowledge, attitudes, and habits toward healthy eating and living an active lifestyle. Now, the SI! Program is expanding into more than 250 schools in Spain and more than 40 schools in all five boroughs of New York City.

“This is a multidimensional program,” Dr. Fuster said. The review identified five stages for implementing the program: dissemination; adoption; implementation; evaluation; and institutionalization.

Dissemination involves three substages for intervention: components, design, and strategy. With regard to the components, said Dr. Fuster, “We’re targeting children to educate them in four topics: how the body works; nutritional and dietary requirements; physical activity; and the need to control emotions – to say no in the future when they’re confronted with alcohol, drugs, and tobacco.”

Design involved a multidisciplinary team of experts to develop the intervention, Dr. Fuster said. The strategy itself enlists parents and teachers in the implementation, but goes beyond that. “This is a community,” Dr. Fuster said. Hence, the school environment and classroom itself are also engaged to support the message of the four topics.

Dr. Fuster said future research should look at knowledge, attitude, and habits and biological outcomes in children who’ve been in the SI! Program when they reach adolescence. “Our hypothesis is that we can do this in older children, but when they reach age 10 we want to reintervene in them,” Dr. Fuster said. “Humans need reintervention. Our findings don’t get into sustainability.” He added that further research should also identify socioeconomic factors that influence child health.

Expanding the program across the New York City’s five boroughs “offers a unique opportunity to explore which socioeconomic factors, at both the family and borough level, and may eventually affect children’s health, how they are implicated in the intervention’s effectiveness, and how they can be addressed to reduce the gap in health inequalities,” he said. 

Karalyn Kinsella, MD, a pediatrician affiliated with Yale New Haven (Conn.) Medical Center, noted the program’s multidimensional nature is an important element. “I think what is so important about this intervention is that it is not one single intervention but a curriculum that takes a significant amount of time (up to 50 hours) that allows for repetition of the information, which allows it to become remembered,” she said in an interview. “I also think incorporating families in the intervention is key as that is where change often has to happen.”

While she said the program may provide a template for a mental health curriculum, she added, “My concern is that teachers are already feeling overwhelmed and this may be viewed as another burden.”

The American Heart Association provided funding for the study in the United States. Dr Fernández-Jiménez has received funding from the Fondo de Investigación Sanitaria–Instituto de Salud Carlos III, which is cofunded by the European Regional Development Fund/European Social Fund. Dr. Fuster and Dr. Kinsella have no relevant disclosures.

Acute flares of idiopathic pulmonary fibrosis have a mortality rate as high as 90% or more, depending on their severity. But an experimental regimen that includes autoantibody reduction was found to improve survival significantly, as well as oxygen levels and walk distances, according to a small preliminary study published in PLOS ONE.

“It’s a preliminary study, but it’s very exciting,” Amit Gaggar, MD, PhD, an endowed professor of medicine at the University of Alabama at Birmingham (UAB), said in an interview. “We don’t really have a treatment for acute exacerbations of pulmonary fibrosis, and the mortality is extremely high, so it’s really critical that we start thinking outside the box a little bit for therapeutics.” Dr. Gaggar isn’t affiliated with the study.

Study leader Steven R. Duncan, MD, also of UAB, acknowledged that the experimental therapy has its detractors. “There’s been a tremendous bias against the role of immunologic therapy in idiopathic fibrosis, although it seems to be lessening,” he said.

The preliminary study treated 24 patients who had acute exacerbations of idiopathic pulmonary fibrosis (AE-IPF) with a 19-day regimen called triple-modality autoantibody reduction. The three contributing modalities are therapeutic plasma exchange (TPE), rituximab, and intravenous immunoglobulin treatments. The standard treatment for AE-IPF consists of antibiotics and corticosteroids.

Dr. Duncan led the only other study of autoantibody reduction for AE-IPF, published in PLOS ONE in 2015. The latest preliminary study is a precursor to a National Heart, Lung, and Blood Institute–funded phase 2 randomized clinical trial, called STRIVE-IPF, currently enrolling AE-IPF patients at six sites.

In the preliminary study, 10 patients survived at least a year, an overall survival rate of 42%. Overall survival rates at 1, 3, and 6 months were 67%, 63%, and 46%. The study couldn’t identify characteristics of survivors versus nonsurvivors, although the latter had a trend toward greater initial oxygen requirements. Among the 10 patients who needed less than 25 L/min supplemental O2, the survival rate was 57%. In patients who needed more than 25 L/min, the survival rate was 20% (P = .07). Only 1 of 5 patients who needed greater than 40 L/min survived a year (P = .36).

After the 19-day regimen, 15 patients, or 63%, had significant drops in supplemental O2 requirements, from an average of 15 L/min to 3 L/min (P = .0007). Thirteen (87%) of the patients who were taking an antifibrotic medication (either pirfenidone or nintedanib) at baseline needed less O2 and/or had increased walking distances, compared with five who weren’t prescribed either of the agents (P = .15), although 1-year survival didn’t vary significantly with antifibrotic use.

The mechanism of antibody reduction is to filter out B-cells, infiltrates of which are typically found in lungs of AE-IPF patients, Dr. Duncan said. The regimen involves nine TPEs over 15 days, two IV rituximab 1-gm treatments over that course, and IV Ig 0.5-gm/kg treatments daily on days 16 through 19.

“Plasma exchange rapidly gets rid of the antibodies,” Dr. Duncan said in an interview. “It’s the basis for a number of autoantibody-mediated diseases, such as myasthenia gravis.”

While the TPE removes the B-cells, they have a proclivity to re-emerge, hence the rituximab treatment, he said. IV Ig further inhibits B-cell activity. “The IV Ig probably works in large part by feedback inhibition of the B-cells that have survived the rituximab,” Dr. Duncan said.

He added that with the TPE and rituximab patients had “sometimes amazing response” but then would relapse. “Since we added IV Ig, we see far fewer relapses,” he said. “And interestingly, if they do relapse, we can salvage them by giving them this treatment again.”

The preliminary study doesn’t make clear what patients would benefit most from the triple-modality therapy, but it did provide some clues. “We found that patients who have higher levels of antibodies against epithelial cells tend to do the best, and patients who had less severe disease – that is, less disturbance of gas exchange requiring less O2 – tend to do better,” Dr. Duncan said. The STRIVE trial should serve to identify specific biomarkers, he said.

Dr. Gaggar, the UAB professor who’s not affiliated with the study, concurred that it’s “too early to tell” which patients would benefit. “Certainly, these patients that undergo exacerbations would be of high interest,” he said, “but the potential is there that the other chronic lung diseases that have exacerbations may also benefit from this kind of therapy.”

He noted that the preliminary study focused on one type of autoantibody generating from epithelial cells. “In many of these studies where we limit ourselves to a single autoantibody population, we might be at the tip of iceberg,” Dr. Gaggar said. “There might be autoantibodies generated from other cells in the lung or the body that might be also pathogenic. This is really powerful because this is a subgroup of autoantibodies, but they still had that kind of impact in this small study.”

The STRIVE study is scheduled for completion in September 2022.

Dr. Duncan disclosed relationships with Novartis and Tyr Pharma outside the study subject. Dr. Gaggar has no relevant disclosures.

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

Acute flares of idiopathic pulmonary fibrosis have a mortality rate as high as 90% or more, depending on their severity. But an experimental regimen that includes autoantibody reduction was found to improve survival significantly, as well as oxygen levels and walk distances, according to a small preliminary study published in PLOS ONE.

“It’s a preliminary study, but it’s very exciting,” Amit Gaggar, MD, PhD, an endowed professor of medicine at the University of Alabama at Birmingham (UAB), said in an interview. “We don’t really have a treatment for acute exacerbations of pulmonary fibrosis, and the mortality is extremely high, so it’s really critical that we start thinking outside the box a little bit for therapeutics.” Dr. Gaggar isn’t affiliated with the study.

Study leader Steven R. Duncan, MD, also of UAB, acknowledged that the experimental therapy has its detractors. “There’s been a tremendous bias against the role of immunologic therapy in idiopathic fibrosis, although it seems to be lessening,” he said.

The preliminary study treated 24 patients who had acute exacerbations of idiopathic pulmonary fibrosis (AE-IPF) with a 19-day regimen called triple-modality autoantibody reduction. The three contributing modalities are therapeutic plasma exchange (TPE), rituximab, and intravenous immunoglobulin treatments. The standard treatment for AE-IPF consists of antibiotics and corticosteroids.

Dr. Duncan led the only other study of autoantibody reduction for AE-IPF, published in PLOS ONE in 2015. The latest preliminary study is a precursor to a National Heart, Lung, and Blood Institute–funded phase 2 randomized clinical trial, called STRIVE-IPF, currently enrolling AE-IPF patients at six sites.

In the preliminary study, 10 patients survived at least a year, an overall survival rate of 42%. Overall survival rates at 1, 3, and 6 months were 67%, 63%, and 46%. The study couldn’t identify characteristics of survivors versus nonsurvivors, although the latter had a trend toward greater initial oxygen requirements. Among the 10 patients who needed less than 25 L/min supplemental O2, the survival rate was 57%. In patients who needed more than 25 L/min, the survival rate was 20% (P = .07). Only 1 of 5 patients who needed greater than 40 L/min survived a year (P = .36).

After the 19-day regimen, 15 patients, or 63%, had significant drops in supplemental O2 requirements, from an average of 15 L/min to 3 L/min (P = .0007). Thirteen (87%) of the patients who were taking an antifibrotic medication (either pirfenidone or nintedanib) at baseline needed less O2 and/or had increased walking distances, compared with five who weren’t prescribed either of the agents (P = .15), although 1-year survival didn’t vary significantly with antifibrotic use.

The mechanism of antibody reduction is to filter out B-cells, infiltrates of which are typically found in lungs of AE-IPF patients, Dr. Duncan said. The regimen involves nine TPEs over 15 days, two IV rituximab 1-gm treatments over that course, and IV Ig 0.5-gm/kg treatments daily on days 16 through 19.

“Plasma exchange rapidly gets rid of the antibodies,” Dr. Duncan said in an interview. “It’s the basis for a number of autoantibody-mediated diseases, such as myasthenia gravis.”

While the TPE removes the B-cells, they have a proclivity to re-emerge, hence the rituximab treatment, he said. IV Ig further inhibits B-cell activity. “The IV Ig probably works in large part by feedback inhibition of the B-cells that have survived the rituximab,” Dr. Duncan said.

He added that with the TPE and rituximab patients had “sometimes amazing response” but then would relapse. “Since we added IV Ig, we see far fewer relapses,” he said. “And interestingly, if they do relapse, we can salvage them by giving them this treatment again.”

The preliminary study doesn’t make clear what patients would benefit most from the triple-modality therapy, but it did provide some clues. “We found that patients who have higher levels of antibodies against epithelial cells tend to do the best, and patients who had less severe disease – that is, less disturbance of gas exchange requiring less O2 – tend to do better,” Dr. Duncan said. The STRIVE trial should serve to identify specific biomarkers, he said.

Dr. Gaggar, the UAB professor who’s not affiliated with the study, concurred that it’s “too early to tell” which patients would benefit. “Certainly, these patients that undergo exacerbations would be of high interest,” he said, “but the potential is there that the other chronic lung diseases that have exacerbations may also benefit from this kind of therapy.”

He noted that the preliminary study focused on one type of autoantibody generating from epithelial cells. “In many of these studies where we limit ourselves to a single autoantibody population, we might be at the tip of iceberg,” Dr. Gaggar said. “There might be autoantibodies generated from other cells in the lung or the body that might be also pathogenic. This is really powerful because this is a subgroup of autoantibodies, but they still had that kind of impact in this small study.”

The STRIVE study is scheduled for completion in September 2022.

Dr. Duncan disclosed relationships with Novartis and Tyr Pharma outside the study subject. Dr. Gaggar has no relevant disclosures.

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

Acute flares of idiopathic pulmonary fibrosis have a mortality rate as high as 90% or more, depending on their severity. But an experimental regimen that includes autoantibody reduction was found to improve survival significantly, as well as oxygen levels and walk distances, according to a small preliminary study published in PLOS ONE.

“It’s a preliminary study, but it’s very exciting,” Amit Gaggar, MD, PhD, an endowed professor of medicine at the University of Alabama at Birmingham (UAB), said in an interview. “We don’t really have a treatment for acute exacerbations of pulmonary fibrosis, and the mortality is extremely high, so it’s really critical that we start thinking outside the box a little bit for therapeutics.” Dr. Gaggar isn’t affiliated with the study.

Study leader Steven R. Duncan, MD, also of UAB, acknowledged that the experimental therapy has its detractors. “There’s been a tremendous bias against the role of immunologic therapy in idiopathic fibrosis, although it seems to be lessening,” he said.

The preliminary study treated 24 patients who had acute exacerbations of idiopathic pulmonary fibrosis (AE-IPF) with a 19-day regimen called triple-modality autoantibody reduction. The three contributing modalities are therapeutic plasma exchange (TPE), rituximab, and intravenous immunoglobulin treatments. The standard treatment for AE-IPF consists of antibiotics and corticosteroids.

Dr. Duncan led the only other study of autoantibody reduction for AE-IPF, published in PLOS ONE in 2015. The latest preliminary study is a precursor to a National Heart, Lung, and Blood Institute–funded phase 2 randomized clinical trial, called STRIVE-IPF, currently enrolling AE-IPF patients at six sites.

In the preliminary study, 10 patients survived at least a year, an overall survival rate of 42%. Overall survival rates at 1, 3, and 6 months were 67%, 63%, and 46%. The study couldn’t identify characteristics of survivors versus nonsurvivors, although the latter had a trend toward greater initial oxygen requirements. Among the 10 patients who needed less than 25 L/min supplemental O2, the survival rate was 57%. In patients who needed more than 25 L/min, the survival rate was 20% (P = .07). Only 1 of 5 patients who needed greater than 40 L/min survived a year (P = .36).

After the 19-day regimen, 15 patients, or 63%, had significant drops in supplemental O2 requirements, from an average of 15 L/min to 3 L/min (P = .0007). Thirteen (87%) of the patients who were taking an antifibrotic medication (either pirfenidone or nintedanib) at baseline needed less O2 and/or had increased walking distances, compared with five who weren’t prescribed either of the agents (P = .15), although 1-year survival didn’t vary significantly with antifibrotic use.

The mechanism of antibody reduction is to filter out B-cells, infiltrates of which are typically found in lungs of AE-IPF patients, Dr. Duncan said. The regimen involves nine TPEs over 15 days, two IV rituximab 1-gm treatments over that course, and IV Ig 0.5-gm/kg treatments daily on days 16 through 19.

“Plasma exchange rapidly gets rid of the antibodies,” Dr. Duncan said in an interview. “It’s the basis for a number of autoantibody-mediated diseases, such as myasthenia gravis.”

While the TPE removes the B-cells, they have a proclivity to re-emerge, hence the rituximab treatment, he said. IV Ig further inhibits B-cell activity. “The IV Ig probably works in large part by feedback inhibition of the B-cells that have survived the rituximab,” Dr. Duncan said.

He added that with the TPE and rituximab patients had “sometimes amazing response” but then would relapse. “Since we added IV Ig, we see far fewer relapses,” he said. “And interestingly, if they do relapse, we can salvage them by giving them this treatment again.”

The preliminary study doesn’t make clear what patients would benefit most from the triple-modality therapy, but it did provide some clues. “We found that patients who have higher levels of antibodies against epithelial cells tend to do the best, and patients who had less severe disease – that is, less disturbance of gas exchange requiring less O2 – tend to do better,” Dr. Duncan said. The STRIVE trial should serve to identify specific biomarkers, he said.

Dr. Gaggar, the UAB professor who’s not affiliated with the study, concurred that it’s “too early to tell” which patients would benefit. “Certainly, these patients that undergo exacerbations would be of high interest,” he said, “but the potential is there that the other chronic lung diseases that have exacerbations may also benefit from this kind of therapy.”

He noted that the preliminary study focused on one type of autoantibody generating from epithelial cells. “In many of these studies where we limit ourselves to a single autoantibody population, we might be at the tip of iceberg,” Dr. Gaggar said. “There might be autoantibodies generated from other cells in the lung or the body that might be also pathogenic. This is really powerful because this is a subgroup of autoantibodies, but they still had that kind of impact in this small study.”

The STRIVE study is scheduled for completion in September 2022.

Dr. Duncan disclosed relationships with Novartis and Tyr Pharma outside the study subject. Dr. Gaggar has no relevant disclosures.

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

A feasibility study has found that coronary artery calcium scanning has the potential to better target patients who truly need statin therapy, reduce unnecessary statin prescriptions, and improve medication adherence than the current standard of using pooled cohort equations to determine atherosclerotic cardiovascular disease risk.

Researchers at the University of Utah, Salt Lake City, and Intermountain Healthcare, a network of 25 hospitals in Utah, reported that the rate of statin usage in patients evaluated with coronary artery calcium (CAC) was 25% lower than in those whose treatment decisions were based on pooled cohort equations (PCE). None of the patients were on statin therapy when they enrolled in the study, published online in JACC: Cardiovascular Imaging.

“This study demonstrates that doing a large outcomes trial is feasible and has a reasonable likelihood of perhaps being a positive trial for the use of CAC,” lead author Joseph B. Muhlestein, MD, said in an interview. Dr. Muhlestein is codirector of cardiovascular research at Intermountain Healthcare and a professor at the University of Utah.

The findings address the 2018 American College of Cardiology/American Heart Association guideline that states PCE is the “single most robust tool for estimating 10-year risk in U.S. adults 40-75 years of age”. However, the guideline also bases statin determination on shared decision-making between the patient and physician, and recommends CAC for patients for whom a decision about statin treatment is uncertain and those at intermediate risk to fine-tune the need for statins.

The results also have spurred a larger randomized trial known as CorCal, which aims to enroll 5,500 patients and compare CAC and PCE, Dr. Muhlestein said. So far 3,000 patients have been enrolled.
 

Results of CAC vs. PCE

The feasibility study enrolled 601 patients randomized to CAC (302) or PCE (299), 504 of whom were included in the final analysis. In the CAC group, 35.9% went on statin therapy, compared with 47.9% of the PCE patients (P = .005). Participating physicians accepted the study-dictated recommendation to start a statin in 88.1% of patients in the CAC arm versus 75.0% in the PCE arm.

Dr. Muhlestein noted that the feasibility study did not evaluate key outcomes, such as stroke or heart attack, but they will be a key endpoint of the larger randomized trial. “We found in this feasibility study that the recommendations that come from the CAC arm, compared with the PCE arm are significantly different enough that there may be a different outcome,” he said.

“There were cases in which the PCE did not recommend a statin but the patient had a lot of coronary calcium, so we recommended the statin in that patient,” he said. “At the same time, there were also even more patients in which the PCE said they ought to take a statin but they had zero coronary calcium, so we didn’t recommend that they get a statin.”

Compared with PCE-based recommendations, CAC patients were taken off statins in 36% of cases and put on statins in 5.6% of cases. “We think that PCE gives statins to a lot of patients who don’t really need them,” Dr. Muhlestein said.

The feasibility study also found patients were more adherent to therapy if they had CAC than PCE – 63.3% versus 45.6% at a year (P = .03). “Patients and physicians are more likely to be concerned enough to begin preventative therapy when they know that they are not just at risk for the disease, but they actually have the disease; that’s what the CAC score tells them,” Dr. Muhlestein said.

He noted that, while observational evidence has embraced CAC, insurers have been hesitant to cover it. “That is one of the major motivations for us to do this study,” Dr. Muhlestein said. “CAC is not very expensive; it costs less than $100, which is about what it costs to get a lipid panel, but insurance won’t pay for it because we haven’t proved that CAC actually changes outcomes, and that’s a legitimate complaint. But, of course, there’s never been a randomized trial that proves that a PCE changes outcomes either.”

The findings validate the 2018 ACC/AHA guideline “and opens a way to broader use for CAC for statin assessment,” said Neil J. Stone, MD, chair of the ACC/AHA 2013 guideline-writing committee and vice chair of the 2018 committee. “The study confirms a large body of information that a deterministic approach, i.e., calcium score, outperforms a probabilistic approach on an individual patient level.” Dr. Stone is the Bonow Professor of Medicine at Northwestern University and medical director of the Vascular Center of the Bluhm Cardiovascular Institute of Northwestern Memorial Hospital, both in Chicago.

“I applaud the investigators for using this as a hypothesis-generating study and planning a larger, more definitive trial,” he said. “This study would encourage regulators and insurance companies to support the use of calcium scores as recommended by the 2018 guideline.”

Intermountain Healthcare is the sole source of funding for the CorCal feasibility study. Dr. Muhlestein and Dr. Stone have no relevant relationships to disclose.
 

A feasibility study has found that coronary artery calcium scanning has the potential to better target patients who truly need statin therapy, reduce unnecessary statin prescriptions, and improve medication adherence than the current standard of using pooled cohort equations to determine atherosclerotic cardiovascular disease risk.

Researchers at the University of Utah, Salt Lake City, and Intermountain Healthcare, a network of 25 hospitals in Utah, reported that the rate of statin usage in patients evaluated with coronary artery calcium (CAC) was 25% lower than in those whose treatment decisions were based on pooled cohort equations (PCE). None of the patients were on statin therapy when they enrolled in the study, published online in JACC: Cardiovascular Imaging.

“This study demonstrates that doing a large outcomes trial is feasible and has a reasonable likelihood of perhaps being a positive trial for the use of CAC,” lead author Joseph B. Muhlestein, MD, said in an interview. Dr. Muhlestein is codirector of cardiovascular research at Intermountain Healthcare and a professor at the University of Utah.

The findings address the 2018 American College of Cardiology/American Heart Association guideline that states PCE is the “single most robust tool for estimating 10-year risk in U.S. adults 40-75 years of age”. However, the guideline also bases statin determination on shared decision-making between the patient and physician, and recommends CAC for patients for whom a decision about statin treatment is uncertain and those at intermediate risk to fine-tune the need for statins.

The results also have spurred a larger randomized trial known as CorCal, which aims to enroll 5,500 patients and compare CAC and PCE, Dr. Muhlestein said. So far 3,000 patients have been enrolled.
 

Results of CAC vs. PCE

The feasibility study enrolled 601 patients randomized to CAC (302) or PCE (299), 504 of whom were included in the final analysis. In the CAC group, 35.9% went on statin therapy, compared with 47.9% of the PCE patients (P = .005). Participating physicians accepted the study-dictated recommendation to start a statin in 88.1% of patients in the CAC arm versus 75.0% in the PCE arm.

Dr. Muhlestein noted that the feasibility study did not evaluate key outcomes, such as stroke or heart attack, but they will be a key endpoint of the larger randomized trial. “We found in this feasibility study that the recommendations that come from the CAC arm, compared with the PCE arm are significantly different enough that there may be a different outcome,” he said.

“There were cases in which the PCE did not recommend a statin but the patient had a lot of coronary calcium, so we recommended the statin in that patient,” he said. “At the same time, there were also even more patients in which the PCE said they ought to take a statin but they had zero coronary calcium, so we didn’t recommend that they get a statin.”

Compared with PCE-based recommendations, CAC patients were taken off statins in 36% of cases and put on statins in 5.6% of cases. “We think that PCE gives statins to a lot of patients who don’t really need them,” Dr. Muhlestein said.

The feasibility study also found patients were more adherent to therapy if they had CAC than PCE – 63.3% versus 45.6% at a year (P = .03). “Patients and physicians are more likely to be concerned enough to begin preventative therapy when they know that they are not just at risk for the disease, but they actually have the disease; that’s what the CAC score tells them,” Dr. Muhlestein said.

He noted that, while observational evidence has embraced CAC, insurers have been hesitant to cover it. “That is one of the major motivations for us to do this study,” Dr. Muhlestein said. “CAC is not very expensive; it costs less than $100, which is about what it costs to get a lipid panel, but insurance won’t pay for it because we haven’t proved that CAC actually changes outcomes, and that’s a legitimate complaint. But, of course, there’s never been a randomized trial that proves that a PCE changes outcomes either.”

The findings validate the 2018 ACC/AHA guideline “and opens a way to broader use for CAC for statin assessment,” said Neil J. Stone, MD, chair of the ACC/AHA 2013 guideline-writing committee and vice chair of the 2018 committee. “The study confirms a large body of information that a deterministic approach, i.e., calcium score, outperforms a probabilistic approach on an individual patient level.” Dr. Stone is the Bonow Professor of Medicine at Northwestern University and medical director of the Vascular Center of the Bluhm Cardiovascular Institute of Northwestern Memorial Hospital, both in Chicago.

“I applaud the investigators for using this as a hypothesis-generating study and planning a larger, more definitive trial,” he said. “This study would encourage regulators and insurance companies to support the use of calcium scores as recommended by the 2018 guideline.”

Intermountain Healthcare is the sole source of funding for the CorCal feasibility study. Dr. Muhlestein and Dr. Stone have no relevant relationships to disclose.
 

A feasibility study has found that coronary artery calcium scanning has the potential to better target patients who truly need statin therapy, reduce unnecessary statin prescriptions, and improve medication adherence than the current standard of using pooled cohort equations to determine atherosclerotic cardiovascular disease risk.

Researchers at the University of Utah, Salt Lake City, and Intermountain Healthcare, a network of 25 hospitals in Utah, reported that the rate of statin usage in patients evaluated with coronary artery calcium (CAC) was 25% lower than in those whose treatment decisions were based on pooled cohort equations (PCE). None of the patients were on statin therapy when they enrolled in the study, published online in JACC: Cardiovascular Imaging.

“This study demonstrates that doing a large outcomes trial is feasible and has a reasonable likelihood of perhaps being a positive trial for the use of CAC,” lead author Joseph B. Muhlestein, MD, said in an interview. Dr. Muhlestein is codirector of cardiovascular research at Intermountain Healthcare and a professor at the University of Utah.

The findings address the 2018 American College of Cardiology/American Heart Association guideline that states PCE is the “single most robust tool for estimating 10-year risk in U.S. adults 40-75 years of age”. However, the guideline also bases statin determination on shared decision-making between the patient and physician, and recommends CAC for patients for whom a decision about statin treatment is uncertain and those at intermediate risk to fine-tune the need for statins.

The results also have spurred a larger randomized trial known as CorCal, which aims to enroll 5,500 patients and compare CAC and PCE, Dr. Muhlestein said. So far 3,000 patients have been enrolled.
 

Results of CAC vs. PCE

The feasibility study enrolled 601 patients randomized to CAC (302) or PCE (299), 504 of whom were included in the final analysis. In the CAC group, 35.9% went on statin therapy, compared with 47.9% of the PCE patients (P = .005). Participating physicians accepted the study-dictated recommendation to start a statin in 88.1% of patients in the CAC arm versus 75.0% in the PCE arm.

Dr. Muhlestein noted that the feasibility study did not evaluate key outcomes, such as stroke or heart attack, but they will be a key endpoint of the larger randomized trial. “We found in this feasibility study that the recommendations that come from the CAC arm, compared with the PCE arm are significantly different enough that there may be a different outcome,” he said.

“There were cases in which the PCE did not recommend a statin but the patient had a lot of coronary calcium, so we recommended the statin in that patient,” he said. “At the same time, there were also even more patients in which the PCE said they ought to take a statin but they had zero coronary calcium, so we didn’t recommend that they get a statin.”

Compared with PCE-based recommendations, CAC patients were taken off statins in 36% of cases and put on statins in 5.6% of cases. “We think that PCE gives statins to a lot of patients who don’t really need them,” Dr. Muhlestein said.

The feasibility study also found patients were more adherent to therapy if they had CAC than PCE – 63.3% versus 45.6% at a year (P = .03). “Patients and physicians are more likely to be concerned enough to begin preventative therapy when they know that they are not just at risk for the disease, but they actually have the disease; that’s what the CAC score tells them,” Dr. Muhlestein said.

He noted that, while observational evidence has embraced CAC, insurers have been hesitant to cover it. “That is one of the major motivations for us to do this study,” Dr. Muhlestein said. “CAC is not very expensive; it costs less than $100, which is about what it costs to get a lipid panel, but insurance won’t pay for it because we haven’t proved that CAC actually changes outcomes, and that’s a legitimate complaint. But, of course, there’s never been a randomized trial that proves that a PCE changes outcomes either.”

The findings validate the 2018 ACC/AHA guideline “and opens a way to broader use for CAC for statin assessment,” said Neil J. Stone, MD, chair of the ACC/AHA 2013 guideline-writing committee and vice chair of the 2018 committee. “The study confirms a large body of information that a deterministic approach, i.e., calcium score, outperforms a probabilistic approach on an individual patient level.” Dr. Stone is the Bonow Professor of Medicine at Northwestern University and medical director of the Vascular Center of the Bluhm Cardiovascular Institute of Northwestern Memorial Hospital, both in Chicago.

“I applaud the investigators for using this as a hypothesis-generating study and planning a larger, more definitive trial,” he said. “This study would encourage regulators and insurance companies to support the use of calcium scores as recommended by the 2018 guideline.”

Intermountain Healthcare is the sole source of funding for the CorCal feasibility study. Dr. Muhlestein and Dr. Stone have no relevant relationships to disclose.
 

It has been well established that device closure has, on average, prevented stroke recurrence in people who’ve had patent foramen ovale–associated stroke, but a meta-analysis has drilled down into clinical trials to advance a potentially practice-changing principle: that, while device closure shows an overall benefit, not all patients derive a benefit and some may actually be harmed by the procedure.

What’s more, the researchers developed a scoring system that helps determine which patients are likely to benefit from device closure.

“What was unknown was how to treat individual patients because the decision to close the patent foramen ovale (PFO) is still preference sensitive because the risk of a recurrent stroke is low, and most of the strokes that recur are not terribly severe,” lead study author David M. Kent, MD, MS, said in an interview.

“On top of this,” he said, “it was still suspected that some of the PFOs, even in trials of well-selected patients, may not be causally related to stroke; the stroke may still have another occult cause, such as paroxysmal atrial fibrillation or aortic arch atheroma.” Dr. Kent is a professor of medicine at Tufts University in Boston and director of the Predictive Analytics and Comparative Effectiveness Center there.

The meta-analysis, conducted by the Systematic, Collaborative, PFO Closure Evaluation (SCOPE) consortium, analyzed data from six randomized clinical trials that compared device closure and medical therapy to medical therapy alone in 3,740 patients who had PFO-associated stroke from 2000 to 2017. It was published in JAMA.

Overall, the rate of recurrent ischemic stroke was less than half that in patients who had device closure, compared with those who were on medical therapy: 0.47% (n = 39 of 1,889) vs. 1.09% (n = 82 of 1,851).

The researchers also applied two tools designed to calculate the probability of recurrent stroke in individual patients: Risk of Paradoxical Embolism (RoPE), an index that assigns a score of 0-10 to stratify cryptogenic stroke patients with PFO by the likelihood that the stroke was associated with their PFO; and the PFO-Associated Stroke Causal Likelihood (PASCAL) classification system, which integrates the RoPE score with physiological and anatomical features – namely, the size of the PFO shunt and the presence of an atrial septal aneurysm.

“We came up with a way to more accurately identify those patients who are likely to get the most benefit from PFO closure based on mathematic modeling that estimates an individual’s probability that the PFO is causally related to the stroke,” Dr. Kent said.
 

Multivariate analysis determines risk

The study used a multivariate classification system that Dr. Kent had been developing to perform subgroup analyses of the clinical trials. It assigned patients to three different risk groups based on the likelihood that the PFO was causally related to their stroke: PASCAL categories of unlikely, possible, and probable.

The PASCAL unlikely group had a risk of stroke recurrence in the first 2 years of 3.4% (95% confidence interval, 1.1%-5.7%) if they were on medical therapy, and 4.1% (95% CI, 1.7%-6.4%) if they had device closure. In the PASCAL possible group, those risks were 3.6% (95% CI, 2.4%-4.9%) and 1.5% (95% CI, 0.7-2.3%), respectively. For the probable group, device closure represents “a near perfect therapy” with a 90% risk reduction, Dr. Kent said. “Moreover,” he said, “adverse events of device closure, such as atrial fibrillation, appear to be concentrated in those patients who fall into the unlikely classification, who appear to get no benefit.”

The ideal patient for device closure is age 60 years or younger and without vascular risk factors such as hypertension, diabetes, a history of smoking, or a prior stroke, but has high-risk PFO features such as a large shunt or atrial septal aneurysm, Dr. Kent said.

“We think these findings should be practice changing now,” Dr. Kent said.

It has been well established that device closure has, on average, prevented stroke recurrence in people who’ve had patent foramen ovale–associated stroke, but a meta-analysis has drilled down into clinical trials to advance a potentially practice-changing principle: that, while device closure shows an overall benefit, not all patients derive a benefit and some may actually be harmed by the procedure.

What’s more, the researchers developed a scoring system that helps determine which patients are likely to benefit from device closure.

“What was unknown was how to treat individual patients because the decision to close the patent foramen ovale (PFO) is still preference sensitive because the risk of a recurrent stroke is low, and most of the strokes that recur are not terribly severe,” lead study author David M. Kent, MD, MS, said in an interview.

“On top of this,” he said, “it was still suspected that some of the PFOs, even in trials of well-selected patients, may not be causally related to stroke; the stroke may still have another occult cause, such as paroxysmal atrial fibrillation or aortic arch atheroma.” Dr. Kent is a professor of medicine at Tufts University in Boston and director of the Predictive Analytics and Comparative Effectiveness Center there.

The meta-analysis, conducted by the Systematic, Collaborative, PFO Closure Evaluation (SCOPE) consortium, analyzed data from six randomized clinical trials that compared device closure and medical therapy to medical therapy alone in 3,740 patients who had PFO-associated stroke from 2000 to 2017. It was published in JAMA.

Overall, the rate of recurrent ischemic stroke was less than half that in patients who had device closure, compared with those who were on medical therapy: 0.47% (n = 39 of 1,889) vs. 1.09% (n = 82 of 1,851).

The researchers also applied two tools designed to calculate the probability of recurrent stroke in individual patients: Risk of Paradoxical Embolism (RoPE), an index that assigns a score of 0-10 to stratify cryptogenic stroke patients with PFO by the likelihood that the stroke was associated with their PFO; and the PFO-Associated Stroke Causal Likelihood (PASCAL) classification system, which integrates the RoPE score with physiological and anatomical features – namely, the size of the PFO shunt and the presence of an atrial septal aneurysm.

“We came up with a way to more accurately identify those patients who are likely to get the most benefit from PFO closure based on mathematic modeling that estimates an individual’s probability that the PFO is causally related to the stroke,” Dr. Kent said.
 

Multivariate analysis determines risk

The study used a multivariate classification system that Dr. Kent had been developing to perform subgroup analyses of the clinical trials. It assigned patients to three different risk groups based on the likelihood that the PFO was causally related to their stroke: PASCAL categories of unlikely, possible, and probable.

The PASCAL unlikely group had a risk of stroke recurrence in the first 2 years of 3.4% (95% confidence interval, 1.1%-5.7%) if they were on medical therapy, and 4.1% (95% CI, 1.7%-6.4%) if they had device closure. In the PASCAL possible group, those risks were 3.6% (95% CI, 2.4%-4.9%) and 1.5% (95% CI, 0.7-2.3%), respectively. For the probable group, device closure represents “a near perfect therapy” with a 90% risk reduction, Dr. Kent said. “Moreover,” he said, “adverse events of device closure, such as atrial fibrillation, appear to be concentrated in those patients who fall into the unlikely classification, who appear to get no benefit.”

The ideal patient for device closure is age 60 years or younger and without vascular risk factors such as hypertension, diabetes, a history of smoking, or a prior stroke, but has high-risk PFO features such as a large shunt or atrial septal aneurysm, Dr. Kent said.

“We think these findings should be practice changing now,” Dr. Kent said.

It has been well established that device closure has, on average, prevented stroke recurrence in people who’ve had patent foramen ovale–associated stroke, but a meta-analysis has drilled down into clinical trials to advance a potentially practice-changing principle: that, while device closure shows an overall benefit, not all patients derive a benefit and some may actually be harmed by the procedure.

What’s more, the researchers developed a scoring system that helps determine which patients are likely to benefit from device closure.

“What was unknown was how to treat individual patients because the decision to close the patent foramen ovale (PFO) is still preference sensitive because the risk of a recurrent stroke is low, and most of the strokes that recur are not terribly severe,” lead study author David M. Kent, MD, MS, said in an interview.

“On top of this,” he said, “it was still suspected that some of the PFOs, even in trials of well-selected patients, may not be causally related to stroke; the stroke may still have another occult cause, such as paroxysmal atrial fibrillation or aortic arch atheroma.” Dr. Kent is a professor of medicine at Tufts University in Boston and director of the Predictive Analytics and Comparative Effectiveness Center there.

The meta-analysis, conducted by the Systematic, Collaborative, PFO Closure Evaluation (SCOPE) consortium, analyzed data from six randomized clinical trials that compared device closure and medical therapy to medical therapy alone in 3,740 patients who had PFO-associated stroke from 2000 to 2017. It was published in JAMA.

Overall, the rate of recurrent ischemic stroke was less than half that in patients who had device closure, compared with those who were on medical therapy: 0.47% (n = 39 of 1,889) vs. 1.09% (n = 82 of 1,851).

The researchers also applied two tools designed to calculate the probability of recurrent stroke in individual patients: Risk of Paradoxical Embolism (RoPE), an index that assigns a score of 0-10 to stratify cryptogenic stroke patients with PFO by the likelihood that the stroke was associated with their PFO; and the PFO-Associated Stroke Causal Likelihood (PASCAL) classification system, which integrates the RoPE score with physiological and anatomical features – namely, the size of the PFO shunt and the presence of an atrial septal aneurysm.

“We came up with a way to more accurately identify those patients who are likely to get the most benefit from PFO closure based on mathematic modeling that estimates an individual’s probability that the PFO is causally related to the stroke,” Dr. Kent said.
 

Multivariate analysis determines risk

The study used a multivariate classification system that Dr. Kent had been developing to perform subgroup analyses of the clinical trials. It assigned patients to three different risk groups based on the likelihood that the PFO was causally related to their stroke: PASCAL categories of unlikely, possible, and probable.

The PASCAL unlikely group had a risk of stroke recurrence in the first 2 years of 3.4% (95% confidence interval, 1.1%-5.7%) if they were on medical therapy, and 4.1% (95% CI, 1.7%-6.4%) if they had device closure. In the PASCAL possible group, those risks were 3.6% (95% CI, 2.4%-4.9%) and 1.5% (95% CI, 0.7-2.3%), respectively. For the probable group, device closure represents “a near perfect therapy” with a 90% risk reduction, Dr. Kent said. “Moreover,” he said, “adverse events of device closure, such as atrial fibrillation, appear to be concentrated in those patients who fall into the unlikely classification, who appear to get no benefit.”

The ideal patient for device closure is age 60 years or younger and without vascular risk factors such as hypertension, diabetes, a history of smoking, or a prior stroke, but has high-risk PFO features such as a large shunt or atrial septal aneurysm, Dr. Kent said.

“We think these findings should be practice changing now,” Dr. Kent said.

Temporal artery biopsy has been the standard for diagnosing giant cell arteritis (GCA), but vascular ultrasound, a procedure that’s less invasive, less time-intensive, less expensive, and more convenient, has gained widespread use in Europe, and now clinics in the United States are adopting this approach and moving toward having rheumatologists take on the role of ultrasonographer.

Brigham and Women's Hospital

However, directors at these clinics – known as GCA fast-track clinics – caution that the bar can be high for adopting vascular ultrasound (VUS) as a tool to diagnose GCA. Ultrasonographers need specialized training to perform the task and an adequate caseload to maintain their skills. Clinics also need to be outfitted with high-definition ultrasound machines.

“It definitely takes adequate training and learning of how to adjust the settings on the ultrasound machine to be able to visualize the findings appropriately,” said Minna Kohler, MD, director of the rheumatology and musculoskeletal ultrasound program at Massachusetts General Hospital in Boston, which has its own GCA fast-track clinic.

“And the clinical context is very important,” she said. “If you have a high suspicion for someone with temporal arteritis, or GCA, and the patient has been on steroids for weeks before you see them, the ultrasound findings may not show signs of the disease. In those cases in which the imaging is equivocal, we would still pursue a biopsy.”

The idea of the fast-track clinic is as the name implies: to quickly confirm the presence of GCA in a matter of hours, or days at the most, in an outpatient setting without the hassles of a biopsy. Temporal artery biopsy (TAB), by comparison, “is more costly because it requires operating room time, a surgical consultation, and surgery time, whereas ultrasound is a very inexpensive exam since it’s done in the clinic by the rheumatologist,” Dr. Kohler said.
 

European experience

Use of VUS to diagnose GCA is supplanting TAB in Europe and other countries. In Denmark alone – with a population of 6 million – three outpatient fast-track clinics are operating. The United States, with a population more than 50 times larger than Denmark’s, has six.

Stavros Chrysidis, MD, PhD, chief of rheumatology at the Hospital South West Jutland, one of the fast-track clinic sites in Denmark, led a recent multicenter study, known as EUREKA, of VUS in patients with suspected GCA. He and his colleagues reported in The Lancet Rheumatology that the sensitivity and specificity of VUS was superior to TAB in confirming a diagnosis of GCA. Dr. Chrysidis has instructed U.S. rheumatologists and ultrasonographers in performing and interpreting VUS for GCA.

The study emphasizes the importance of training for ultrasonographers, said Dr. Chrysidis, who regularly performs VUS at his institution. “The most important finding is that, when we apply VUS by systematically trained ultrasonographers using appropriate equipment in appropriate settings, it has excellent diagnostic accuracy on GCA,” he told this news organization.

He noted that The Lancet Rheumatology report is the first multicenter study of VUS for diagnosing GCA in which all the ultrasonographers participated in a standardized training program, which his group developed. “Ultrasound is very operator dependent,” he said. “That’s why the training is very important.”

The training occurred over a year and included two workshops consisting of 5 days of theoretical training on VUS; supervised hands-on evaluation of healthy individuals and patients with known GCA; and evaluation of ultrasound images. Over the course of the year, trainees performed at least 50 VUS evaluations, half of which were in patients with confirmed GCA. During the training period, an external rheumatologist with broad experience in VUS made the final diagnosis.

“The equipment and settings are very important because ultrasound can be very time consuming if you are not educated well and if your equipment is not adjusted well,” Dr. Chrysidis said. The equipment must be calibrated beforehand “so you don’t spend time on adjustments.”

For diagnosing temporal artery anomalies, the ultrasound equipment must have a resolution of 0.3-0.4 mm, he said. “When you have a transducer of 10 MHz, you cannot visualize changes smaller than 5 mm.”

The EUREKA study stated that VUS could replace TAB as a first-line diagnostic tool for GCA – provided the ultrasonographers are systematically trained and the equipment and settings are appropriate. In the Jutland clinic, VUS already has replaced TAB, Dr. Chrysidis said.

“In my department since 2017, when we started the fast-track clinic after the EUREKA study was terminated, we have performed three temporal artery biopsies in the last 4 years, and we screen 60-70 patients per year because we use ultrasound as the primary imaging,” he said. In cases when the results are inconclusive, they order a PET scan. “We don’t perform biopsies anymore,” he said.

U.S. fast-track clinic models

The fast-track clinic models in the United States vary. Results of a survey of the U.S. clinics were presented as an abstract at the 2021 American College of Rheumatology annual meeting. Some centers have a vasculitis specialist obtain and interpret the imaging. At others, a vasculitis specialist refers patients to a VUS-trained rheumatologist to perform and interpret the test. Another approach is to have vasculitis specialists refer patients to ultrasound technicians trained in VUS, with a vascular surgeon interpreting the images and either a VUS-trained rheumatologist or vascular medicine specialist verifying the images.

The take-home message of that survey is that “ultrasound evaluation should be considered in the hands of experts, realizing that not everyone has that skill set, but if it is available, it’s a way to expedite diagnosis and it can be helpful in managing the GCA patient in an appropriate way, quicker than trying to schedule cross-sectional imaging,” said Massachusetts General’s Dr. Kohler, who is a coauthor of the abstract. “Certainly, cross-sectional imaging also plays an important role, but when it comes to confirming whether to continue with treatment or not for a very serious condition, ultrasound is a quick way to get the answer.”

In addition to the fast-track clinic at Massachusetts General, the survey included fast-track clinics at the University of Washington, Seattle; Brigham and Women’s Hospital, Boston; Loma Linda (Calif.) University; University of California, Los Angeles; and at a private practice, Arthritis and Rheumatism Associates in the Washington area.
 

Advantages of VUS vs. TAB

At Massachusetts General, some of the rheumatologists are trained to perform VUS. The rheumatologists also perform the clinical evaluation of suspected cases of GCA. The advantage of VUS, Dr. Kohler said, is that the answer is “right there”; that is, the imaging yields a diagnosis almost instantaneously whereas a biopsy must be sent to a lab for analysis.

“Since a lot of patients with suspected vasculitis may already come to us on steroid therapy, and if there’s a low probability or low suspicion for vasculitis, [VUS] actually confirms that, and we’re able to taper prednisone or steroids quickly rather than keep them on a prolonged course.”

Alison Bays, MD, MPH, of the department of rheumatology at the University of Washington, said that the advantages of avoiding biopsy aren’t to be overlooked. “Temporal artery biopsies are invasive and carry surgical risks, especially as many of our patients are elderly,” she told this news organization.

“These patients occasionally refuse biopsy, but the acceptance of ultrasound is high,” Dr. Bays said. “Scheduling surgery can be more complicated, resulting in delays to biopsy and potentially higher rates of false negatives. Additionally, ultrasound has resulted in a higher rate of diagnosis with GCA as TAB misses large-vessel involvement.” The fast-track clinic at the university has evaluated 250 patients since it opened in 2017.

Dr. Bays and colleagues published the first United States study of a fast-track protocol using vascular sonographers. “Our group has demonstrated that fast-track clinics can rapidly and effectively evaluate patients, and we demonstrated a different method of evaluation using vascular sonographers rather than rheumatologists to do the vascular ultrasound,” she said. “It utilizes the familiarity vascular sonographers already have with imaging blood vessels.”

She added that the TABUL study in the United Kingdom in 2016 demonstrated that VUS yielded a savings of $686 (£484 as reported in the study), compared with TAB. “Further studies need to be done in the United States,” she said. “Beyond direct comparison of costs, reduction in steroid burden due to quick evaluation and diagnosis may carry additional benefits.”

At Brigham and Women’s Hospital, the division of rheumatology and the vascular section of the cardiology division collaborate on the GCA evaluation, said Sara Tedeschi, MD, MPH, codirector of the fast-track clinic there. Trained vascular technologists credentialed in the procedure and specifically trained in using VUS for evaluating arteritis perform the VUS. Cardiologists with a subspecialty in vascular medicine interpret the studies.

VUS patients have a rheumatology evaluation just before they have the ultrasound. “The rheumatology evaluation is then able to incorporate information from the VUS together with laboratory data, the patient’s history, and physical examination,” Dr. Tedeschi said.

“If the rheumatologist recommends a temporal artery biopsy as a next step, we arrange this with vascular surgery,” she said. “If the rheumatologist recommends other imaging such as MRA [magnetic resonance angiography] or PET-CT, we frequently review the images together with our colleagues in cardiovascular radiology and/or nuclear medicine.”

But in the United States, it will take some time for GCA fast-track clinics to become the standard, Dr. Tedeschi said. “Temporal artery biopsy may be faster to arrange in certain practice settings if VUS is not already being employed for giant cell arteritis evaluation,” she said.

Dr. Bays recognized this limitation, saying, “We are hoping that in the future, the American College of Rheumatology will consider vascular ultrasound as a first-line diagnostic test in diagnosis as rheumatologists and vascular sonographers gain familiarity over time.”

But that would mean that centers performing VUS for GCA would have to meet rigorous standards for the procedure. “With that, standardization of a protocol, high-quality equipment, and adequate training are necessary to ensure quality and reduce the chance of false-positive or false-negative results,” she said.

Dr. Chrysidis, Dr. Bays, and Dr. Tedeschi have disclosed no relevant financial relationships. Dr. Kohler is a board member of Ultrasound School of North American Rheumatologists.

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

Temporal artery biopsy has been the standard for diagnosing giant cell arteritis (GCA), but vascular ultrasound, a procedure that’s less invasive, less time-intensive, less expensive, and more convenient, has gained widespread use in Europe, and now clinics in the United States are adopting this approach and moving toward having rheumatologists take on the role of ultrasonographer.

Brigham and Women's Hospital

However, directors at these clinics – known as GCA fast-track clinics – caution that the bar can be high for adopting vascular ultrasound (VUS) as a tool to diagnose GCA. Ultrasonographers need specialized training to perform the task and an adequate caseload to maintain their skills. Clinics also need to be outfitted with high-definition ultrasound machines.

“It definitely takes adequate training and learning of how to adjust the settings on the ultrasound machine to be able to visualize the findings appropriately,” said Minna Kohler, MD, director of the rheumatology and musculoskeletal ultrasound program at Massachusetts General Hospital in Boston, which has its own GCA fast-track clinic.

“And the clinical context is very important,” she said. “If you have a high suspicion for someone with temporal arteritis, or GCA, and the patient has been on steroids for weeks before you see them, the ultrasound findings may not show signs of the disease. In those cases in which the imaging is equivocal, we would still pursue a biopsy.”

The idea of the fast-track clinic is as the name implies: to quickly confirm the presence of GCA in a matter of hours, or days at the most, in an outpatient setting without the hassles of a biopsy. Temporal artery biopsy (TAB), by comparison, “is more costly because it requires operating room time, a surgical consultation, and surgery time, whereas ultrasound is a very inexpensive exam since it’s done in the clinic by the rheumatologist,” Dr. Kohler said.
 

European experience

Use of VUS to diagnose GCA is supplanting TAB in Europe and other countries. In Denmark alone – with a population of 6 million – three outpatient fast-track clinics are operating. The United States, with a population more than 50 times larger than Denmark’s, has six.

Stavros Chrysidis, MD, PhD, chief of rheumatology at the Hospital South West Jutland, one of the fast-track clinic sites in Denmark, led a recent multicenter study, known as EUREKA, of VUS in patients with suspected GCA. He and his colleagues reported in The Lancet Rheumatology that the sensitivity and specificity of VUS was superior to TAB in confirming a diagnosis of GCA. Dr. Chrysidis has instructed U.S. rheumatologists and ultrasonographers in performing and interpreting VUS for GCA.

The study emphasizes the importance of training for ultrasonographers, said Dr. Chrysidis, who regularly performs VUS at his institution. “The most important finding is that, when we apply VUS by systematically trained ultrasonographers using appropriate equipment in appropriate settings, it has excellent diagnostic accuracy on GCA,” he told this news organization.

He noted that The Lancet Rheumatology report is the first multicenter study of VUS for diagnosing GCA in which all the ultrasonographers participated in a standardized training program, which his group developed. “Ultrasound is very operator dependent,” he said. “That’s why the training is very important.”

The training occurred over a year and included two workshops consisting of 5 days of theoretical training on VUS; supervised hands-on evaluation of healthy individuals and patients with known GCA; and evaluation of ultrasound images. Over the course of the year, trainees performed at least 50 VUS evaluations, half of which were in patients with confirmed GCA. During the training period, an external rheumatologist with broad experience in VUS made the final diagnosis.

“The equipment and settings are very important because ultrasound can be very time consuming if you are not educated well and if your equipment is not adjusted well,” Dr. Chrysidis said. The equipment must be calibrated beforehand “so you don’t spend time on adjustments.”

For diagnosing temporal artery anomalies, the ultrasound equipment must have a resolution of 0.3-0.4 mm, he said. “When you have a transducer of 10 MHz, you cannot visualize changes smaller than 5 mm.”

The EUREKA study stated that VUS could replace TAB as a first-line diagnostic tool for GCA – provided the ultrasonographers are systematically trained and the equipment and settings are appropriate. In the Jutland clinic, VUS already has replaced TAB, Dr. Chrysidis said.

“In my department since 2017, when we started the fast-track clinic after the EUREKA study was terminated, we have performed three temporal artery biopsies in the last 4 years, and we screen 60-70 patients per year because we use ultrasound as the primary imaging,” he said. In cases when the results are inconclusive, they order a PET scan. “We don’t perform biopsies anymore,” he said.

U.S. fast-track clinic models

The fast-track clinic models in the United States vary. Results of a survey of the U.S. clinics were presented as an abstract at the 2021 American College of Rheumatology annual meeting. Some centers have a vasculitis specialist obtain and interpret the imaging. At others, a vasculitis specialist refers patients to a VUS-trained rheumatologist to perform and interpret the test. Another approach is to have vasculitis specialists refer patients to ultrasound technicians trained in VUS, with a vascular surgeon interpreting the images and either a VUS-trained rheumatologist or vascular medicine specialist verifying the images.

The take-home message of that survey is that “ultrasound evaluation should be considered in the hands of experts, realizing that not everyone has that skill set, but if it is available, it’s a way to expedite diagnosis and it can be helpful in managing the GCA patient in an appropriate way, quicker than trying to schedule cross-sectional imaging,” said Massachusetts General’s Dr. Kohler, who is a coauthor of the abstract. “Certainly, cross-sectional imaging also plays an important role, but when it comes to confirming whether to continue with treatment or not for a very serious condition, ultrasound is a quick way to get the answer.”

In addition to the fast-track clinic at Massachusetts General, the survey included fast-track clinics at the University of Washington, Seattle; Brigham and Women’s Hospital, Boston; Loma Linda (Calif.) University; University of California, Los Angeles; and at a private practice, Arthritis and Rheumatism Associates in the Washington area.
 

Advantages of VUS vs. TAB

At Massachusetts General, some of the rheumatologists are trained to perform VUS. The rheumatologists also perform the clinical evaluation of suspected cases of GCA. The advantage of VUS, Dr. Kohler said, is that the answer is “right there”; that is, the imaging yields a diagnosis almost instantaneously whereas a biopsy must be sent to a lab for analysis.

“Since a lot of patients with suspected vasculitis may already come to us on steroid therapy, and if there’s a low probability or low suspicion for vasculitis, [VUS] actually confirms that, and we’re able to taper prednisone or steroids quickly rather than keep them on a prolonged course.”

Alison Bays, MD, MPH, of the department of rheumatology at the University of Washington, said that the advantages of avoiding biopsy aren’t to be overlooked. “Temporal artery biopsies are invasive and carry surgical risks, especially as many of our patients are elderly,” she told this news organization.

“These patients occasionally refuse biopsy, but the acceptance of ultrasound is high,” Dr. Bays said. “Scheduling surgery can be more complicated, resulting in delays to biopsy and potentially higher rates of false negatives. Additionally, ultrasound has resulted in a higher rate of diagnosis with GCA as TAB misses large-vessel involvement.” The fast-track clinic at the university has evaluated 250 patients since it opened in 2017.

Dr. Bays and colleagues published the first United States study of a fast-track protocol using vascular sonographers. “Our group has demonstrated that fast-track clinics can rapidly and effectively evaluate patients, and we demonstrated a different method of evaluation using vascular sonographers rather than rheumatologists to do the vascular ultrasound,” she said. “It utilizes the familiarity vascular sonographers already have with imaging blood vessels.”

She added that the TABUL study in the United Kingdom in 2016 demonstrated that VUS yielded a savings of $686 (£484 as reported in the study), compared with TAB. “Further studies need to be done in the United States,” she said. “Beyond direct comparison of costs, reduction in steroid burden due to quick evaluation and diagnosis may carry additional benefits.”

At Brigham and Women’s Hospital, the division of rheumatology and the vascular section of the cardiology division collaborate on the GCA evaluation, said Sara Tedeschi, MD, MPH, codirector of the fast-track clinic there. Trained vascular technologists credentialed in the procedure and specifically trained in using VUS for evaluating arteritis perform the VUS. Cardiologists with a subspecialty in vascular medicine interpret the studies.

VUS patients have a rheumatology evaluation just before they have the ultrasound. “The rheumatology evaluation is then able to incorporate information from the VUS together with laboratory data, the patient’s history, and physical examination,” Dr. Tedeschi said.

“If the rheumatologist recommends a temporal artery biopsy as a next step, we arrange this with vascular surgery,” she said. “If the rheumatologist recommends other imaging such as MRA [magnetic resonance angiography] or PET-CT, we frequently review the images together with our colleagues in cardiovascular radiology and/or nuclear medicine.”

But in the United States, it will take some time for GCA fast-track clinics to become the standard, Dr. Tedeschi said. “Temporal artery biopsy may be faster to arrange in certain practice settings if VUS is not already being employed for giant cell arteritis evaluation,” she said.

Dr. Bays recognized this limitation, saying, “We are hoping that in the future, the American College of Rheumatology will consider vascular ultrasound as a first-line diagnostic test in diagnosis as rheumatologists and vascular sonographers gain familiarity over time.”

But that would mean that centers performing VUS for GCA would have to meet rigorous standards for the procedure. “With that, standardization of a protocol, high-quality equipment, and adequate training are necessary to ensure quality and reduce the chance of false-positive or false-negative results,” she said.

Dr. Chrysidis, Dr. Bays, and Dr. Tedeschi have disclosed no relevant financial relationships. Dr. Kohler is a board member of Ultrasound School of North American Rheumatologists.

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

Temporal artery biopsy has been the standard for diagnosing giant cell arteritis (GCA), but vascular ultrasound, a procedure that’s less invasive, less time-intensive, less expensive, and more convenient, has gained widespread use in Europe, and now clinics in the United States are adopting this approach and moving toward having rheumatologists take on the role of ultrasonographer.

Brigham and Women's Hospital

However, directors at these clinics – known as GCA fast-track clinics – caution that the bar can be high for adopting vascular ultrasound (VUS) as a tool to diagnose GCA. Ultrasonographers need specialized training to perform the task and an adequate caseload to maintain their skills. Clinics also need to be outfitted with high-definition ultrasound machines.

“It definitely takes adequate training and learning of how to adjust the settings on the ultrasound machine to be able to visualize the findings appropriately,” said Minna Kohler, MD, director of the rheumatology and musculoskeletal ultrasound program at Massachusetts General Hospital in Boston, which has its own GCA fast-track clinic.

“And the clinical context is very important,” she said. “If you have a high suspicion for someone with temporal arteritis, or GCA, and the patient has been on steroids for weeks before you see them, the ultrasound findings may not show signs of the disease. In those cases in which the imaging is equivocal, we would still pursue a biopsy.”

The idea of the fast-track clinic is as the name implies: to quickly confirm the presence of GCA in a matter of hours, or days at the most, in an outpatient setting without the hassles of a biopsy. Temporal artery biopsy (TAB), by comparison, “is more costly because it requires operating room time, a surgical consultation, and surgery time, whereas ultrasound is a very inexpensive exam since it’s done in the clinic by the rheumatologist,” Dr. Kohler said.
 

European experience

Use of VUS to diagnose GCA is supplanting TAB in Europe and other countries. In Denmark alone – with a population of 6 million – three outpatient fast-track clinics are operating. The United States, with a population more than 50 times larger than Denmark’s, has six.

Stavros Chrysidis, MD, PhD, chief of rheumatology at the Hospital South West Jutland, one of the fast-track clinic sites in Denmark, led a recent multicenter study, known as EUREKA, of VUS in patients with suspected GCA. He and his colleagues reported in The Lancet Rheumatology that the sensitivity and specificity of VUS was superior to TAB in confirming a diagnosis of GCA. Dr. Chrysidis has instructed U.S. rheumatologists and ultrasonographers in performing and interpreting VUS for GCA.

The study emphasizes the importance of training for ultrasonographers, said Dr. Chrysidis, who regularly performs VUS at his institution. “The most important finding is that, when we apply VUS by systematically trained ultrasonographers using appropriate equipment in appropriate settings, it has excellent diagnostic accuracy on GCA,” he told this news organization.

He noted that The Lancet Rheumatology report is the first multicenter study of VUS for diagnosing GCA in which all the ultrasonographers participated in a standardized training program, which his group developed. “Ultrasound is very operator dependent,” he said. “That’s why the training is very important.”

The training occurred over a year and included two workshops consisting of 5 days of theoretical training on VUS; supervised hands-on evaluation of healthy individuals and patients with known GCA; and evaluation of ultrasound images. Over the course of the year, trainees performed at least 50 VUS evaluations, half of which were in patients with confirmed GCA. During the training period, an external rheumatologist with broad experience in VUS made the final diagnosis.

“The equipment and settings are very important because ultrasound can be very time consuming if you are not educated well and if your equipment is not adjusted well,” Dr. Chrysidis said. The equipment must be calibrated beforehand “so you don’t spend time on adjustments.”

For diagnosing temporal artery anomalies, the ultrasound equipment must have a resolution of 0.3-0.4 mm, he said. “When you have a transducer of 10 MHz, you cannot visualize changes smaller than 5 mm.”

The EUREKA study stated that VUS could replace TAB as a first-line diagnostic tool for GCA – provided the ultrasonographers are systematically trained and the equipment and settings are appropriate. In the Jutland clinic, VUS already has replaced TAB, Dr. Chrysidis said.

“In my department since 2017, when we started the fast-track clinic after the EUREKA study was terminated, we have performed three temporal artery biopsies in the last 4 years, and we screen 60-70 patients per year because we use ultrasound as the primary imaging,” he said. In cases when the results are inconclusive, they order a PET scan. “We don’t perform biopsies anymore,” he said.

U.S. fast-track clinic models

The fast-track clinic models in the United States vary. Results of a survey of the U.S. clinics were presented as an abstract at the 2021 American College of Rheumatology annual meeting. Some centers have a vasculitis specialist obtain and interpret the imaging. At others, a vasculitis specialist refers patients to a VUS-trained rheumatologist to perform and interpret the test. Another approach is to have vasculitis specialists refer patients to ultrasound technicians trained in VUS, with a vascular surgeon interpreting the images and either a VUS-trained rheumatologist or vascular medicine specialist verifying the images.

The take-home message of that survey is that “ultrasound evaluation should be considered in the hands of experts, realizing that not everyone has that skill set, but if it is available, it’s a way to expedite diagnosis and it can be helpful in managing the GCA patient in an appropriate way, quicker than trying to schedule cross-sectional imaging,” said Massachusetts General’s Dr. Kohler, who is a coauthor of the abstract. “Certainly, cross-sectional imaging also plays an important role, but when it comes to confirming whether to continue with treatment or not for a very serious condition, ultrasound is a quick way to get the answer.”

In addition to the fast-track clinic at Massachusetts General, the survey included fast-track clinics at the University of Washington, Seattle; Brigham and Women’s Hospital, Boston; Loma Linda (Calif.) University; University of California, Los Angeles; and at a private practice, Arthritis and Rheumatism Associates in the Washington area.
 

Advantages of VUS vs. TAB

At Massachusetts General, some of the rheumatologists are trained to perform VUS. The rheumatologists also perform the clinical evaluation of suspected cases of GCA. The advantage of VUS, Dr. Kohler said, is that the answer is “right there”; that is, the imaging yields a diagnosis almost instantaneously whereas a biopsy must be sent to a lab for analysis.

“Since a lot of patients with suspected vasculitis may already come to us on steroid therapy, and if there’s a low probability or low suspicion for vasculitis, [VUS] actually confirms that, and we’re able to taper prednisone or steroids quickly rather than keep them on a prolonged course.”

Alison Bays, MD, MPH, of the department of rheumatology at the University of Washington, said that the advantages of avoiding biopsy aren’t to be overlooked. “Temporal artery biopsies are invasive and carry surgical risks, especially as many of our patients are elderly,” she told this news organization.

“These patients occasionally refuse biopsy, but the acceptance of ultrasound is high,” Dr. Bays said. “Scheduling surgery can be more complicated, resulting in delays to biopsy and potentially higher rates of false negatives. Additionally, ultrasound has resulted in a higher rate of diagnosis with GCA as TAB misses large-vessel involvement.” The fast-track clinic at the university has evaluated 250 patients since it opened in 2017.

Dr. Bays and colleagues published the first United States study of a fast-track protocol using vascular sonographers. “Our group has demonstrated that fast-track clinics can rapidly and effectively evaluate patients, and we demonstrated a different method of evaluation using vascular sonographers rather than rheumatologists to do the vascular ultrasound,” she said. “It utilizes the familiarity vascular sonographers already have with imaging blood vessels.”

She added that the TABUL study in the United Kingdom in 2016 demonstrated that VUS yielded a savings of $686 (£484 as reported in the study), compared with TAB. “Further studies need to be done in the United States,” she said. “Beyond direct comparison of costs, reduction in steroid burden due to quick evaluation and diagnosis may carry additional benefits.”

At Brigham and Women’s Hospital, the division of rheumatology and the vascular section of the cardiology division collaborate on the GCA evaluation, said Sara Tedeschi, MD, MPH, codirector of the fast-track clinic there. Trained vascular technologists credentialed in the procedure and specifically trained in using VUS for evaluating arteritis perform the VUS. Cardiologists with a subspecialty in vascular medicine interpret the studies.

VUS patients have a rheumatology evaluation just before they have the ultrasound. “The rheumatology evaluation is then able to incorporate information from the VUS together with laboratory data, the patient’s history, and physical examination,” Dr. Tedeschi said.

“If the rheumatologist recommends a temporal artery biopsy as a next step, we arrange this with vascular surgery,” she said. “If the rheumatologist recommends other imaging such as MRA [magnetic resonance angiography] or PET-CT, we frequently review the images together with our colleagues in cardiovascular radiology and/or nuclear medicine.”

But in the United States, it will take some time for GCA fast-track clinics to become the standard, Dr. Tedeschi said. “Temporal artery biopsy may be faster to arrange in certain practice settings if VUS is not already being employed for giant cell arteritis evaluation,” she said.

Dr. Bays recognized this limitation, saying, “We are hoping that in the future, the American College of Rheumatology will consider vascular ultrasound as a first-line diagnostic test in diagnosis as rheumatologists and vascular sonographers gain familiarity over time.”

But that would mean that centers performing VUS for GCA would have to meet rigorous standards for the procedure. “With that, standardization of a protocol, high-quality equipment, and adequate training are necessary to ensure quality and reduce the chance of false-positive or false-negative results,” she said.

Dr. Chrysidis, Dr. Bays, and Dr. Tedeschi have disclosed no relevant financial relationships. Dr. Kohler is a board member of Ultrasound School of North American Rheumatologists.

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

Selected metabolic biomarkers may influence disease risk and progression in African American and White persons in different ways, a cohort study of the landmark Jackson Heart Study has found.

The investigators identified 22 specific metabolites that seem to influence incident CHD risk in African American patients – 13 metabolites that were also replicated in a multiethnic population and 9 novel metabolites that include N-acylamides and leucine, a branched-chain amino acid.

“To our knowledge, this is the first time that an N-acylamide as a class of molecule has been shown to be associated with incident coronary heart disease,” lead study author Daniel E. Cruz, MD, an instructor at Harvard Medical School in the division of cardiovascular medicine at Beth Israel Deaconess Medical Center in Boston, said in an interview.

The researchers analyzed targeted plasma metabolomic profiles of 2,346 participants in the Jackson Heart Study, a prospective population-based cohort study in the Mississippi city that included 5,306 African American patients evaluated over 15 years. They then performed a replication analysis of CHD-associated metabolites among 1,588 multiethnic participants in the Women’s Health Initiative, another population-based cohort study that included 161,808 postmenopausal women, also over 15 years. In all, the study, published in JAMA Cardiology, identified 46 metabolites that were associated with incident CHD up to 16 years before the incident event

Dr. Cruz said the “most interesting” findings were the roles of the N-acylamide linoleoyl ethanolamide and leucine. The former is of interest “because it is a lipid-signaling molecule that has been shown to have anti-inflammatory effects on macrophages; the influence and effects on macrophages are of particular interest because of macrophages’ central role in atherosclerosis and coronary heart disease,” he said.

Leucine draws interest because, in this study population, it was linked to a reduced risk of incident CHD. The researchers cited four previous studies in predominantly non-Hispanic White populations that found no association between branched-chain amino acids and incident CHD in Circulation, Stroke Circulation: Genomic and Precision Medicine, and Atherosclerosis. Other branched-amino acids included in the analysis trended toward a decreased risk of CHD, but those didn’t achieve the same statistical significance as that of leucine, Dr. Cruz said.

“In some of the analyses we did, there was a subset of metabolites that the associations with CHD appeared to be different between self-identified African Americans in the Jackson cohort vs. self-identified non-Hispanic Whites, and leucine was one of them,” Dr. Cruz said.

He emphasized that this study “is not a genetic analysis” because the participants self-identified their race. “So our next step is to figure out why this difference appears between these self-identified groups,” Dr. Cruz said. “We suspect environmental factors play a role – psychological stress, diet, income level, to name a few – but we are also interested to see if there are genetic causes.”

The results “are not clinically applicable,” Dr. Cruz said, but they do point to a need for more ethnically and racially diverse study populations. “The big picture is that, before we go implementing novel biomarkers into clinical practice, we need to make sure that they are accurate across different populations of people,” he said. “The only way to do this is to study different groups with the same rigor and vigor and thoughtfulness as any other group.”

These findings fall in line with other studies that found other nonmetabolomic biomarkers have countervailing effects on CHD risk in African Americans and non-Hispanic Whites, said Christie M. Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston. For example, African Americans have been found to have lower triglyceride and HDL cholesterol levels than those of Whites.

The study “points out that there may be important biological differences in the metabolic pathways and abnormalities in the development of CHD between races,” Dr. Ballantyne said. “This further emphasizes both the importance and challenge of testing therapies in multiple racial/ethnic groups and with more even representation between men and women.”

Combining metabolomic profiling along with other biomarkers and possibly genetics may be helpful to “personalize” therapies in the future, he added.

Dr. Cruz and Dr. Ballantyne have no relevant relationships to disclose.

Selected metabolic biomarkers may influence disease risk and progression in African American and White persons in different ways, a cohort study of the landmark Jackson Heart Study has found.

The investigators identified 22 specific metabolites that seem to influence incident CHD risk in African American patients – 13 metabolites that were also replicated in a multiethnic population and 9 novel metabolites that include N-acylamides and leucine, a branched-chain amino acid.

“To our knowledge, this is the first time that an N-acylamide as a class of molecule has been shown to be associated with incident coronary heart disease,” lead study author Daniel E. Cruz, MD, an instructor at Harvard Medical School in the division of cardiovascular medicine at Beth Israel Deaconess Medical Center in Boston, said in an interview.

The researchers analyzed targeted plasma metabolomic profiles of 2,346 participants in the Jackson Heart Study, a prospective population-based cohort study in the Mississippi city that included 5,306 African American patients evaluated over 15 years. They then performed a replication analysis of CHD-associated metabolites among 1,588 multiethnic participants in the Women’s Health Initiative, another population-based cohort study that included 161,808 postmenopausal women, also over 15 years. In all, the study, published in JAMA Cardiology, identified 46 metabolites that were associated with incident CHD up to 16 years before the incident event

Dr. Cruz said the “most interesting” findings were the roles of the N-acylamide linoleoyl ethanolamide and leucine. The former is of interest “because it is a lipid-signaling molecule that has been shown to have anti-inflammatory effects on macrophages; the influence and effects on macrophages are of particular interest because of macrophages’ central role in atherosclerosis and coronary heart disease,” he said.

Leucine draws interest because, in this study population, it was linked to a reduced risk of incident CHD. The researchers cited four previous studies in predominantly non-Hispanic White populations that found no association between branched-chain amino acids and incident CHD in Circulation, Stroke Circulation: Genomic and Precision Medicine, and Atherosclerosis. Other branched-amino acids included in the analysis trended toward a decreased risk of CHD, but those didn’t achieve the same statistical significance as that of leucine, Dr. Cruz said.

“In some of the analyses we did, there was a subset of metabolites that the associations with CHD appeared to be different between self-identified African Americans in the Jackson cohort vs. self-identified non-Hispanic Whites, and leucine was one of them,” Dr. Cruz said.

He emphasized that this study “is not a genetic analysis” because the participants self-identified their race. “So our next step is to figure out why this difference appears between these self-identified groups,” Dr. Cruz said. “We suspect environmental factors play a role – psychological stress, diet, income level, to name a few – but we are also interested to see if there are genetic causes.”

The results “are not clinically applicable,” Dr. Cruz said, but they do point to a need for more ethnically and racially diverse study populations. “The big picture is that, before we go implementing novel biomarkers into clinical practice, we need to make sure that they are accurate across different populations of people,” he said. “The only way to do this is to study different groups with the same rigor and vigor and thoughtfulness as any other group.”

These findings fall in line with other studies that found other nonmetabolomic biomarkers have countervailing effects on CHD risk in African Americans and non-Hispanic Whites, said Christie M. Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston. For example, African Americans have been found to have lower triglyceride and HDL cholesterol levels than those of Whites.

The study “points out that there may be important biological differences in the metabolic pathways and abnormalities in the development of CHD between races,” Dr. Ballantyne said. “This further emphasizes both the importance and challenge of testing therapies in multiple racial/ethnic groups and with more even representation between men and women.”

Combining metabolomic profiling along with other biomarkers and possibly genetics may be helpful to “personalize” therapies in the future, he added.

Dr. Cruz and Dr. Ballantyne have no relevant relationships to disclose.

Selected metabolic biomarkers may influence disease risk and progression in African American and White persons in different ways, a cohort study of the landmark Jackson Heart Study has found.

The investigators identified 22 specific metabolites that seem to influence incident CHD risk in African American patients – 13 metabolites that were also replicated in a multiethnic population and 9 novel metabolites that include N-acylamides and leucine, a branched-chain amino acid.

“To our knowledge, this is the first time that an N-acylamide as a class of molecule has been shown to be associated with incident coronary heart disease,” lead study author Daniel E. Cruz, MD, an instructor at Harvard Medical School in the division of cardiovascular medicine at Beth Israel Deaconess Medical Center in Boston, said in an interview.

The researchers analyzed targeted plasma metabolomic profiles of 2,346 participants in the Jackson Heart Study, a prospective population-based cohort study in the Mississippi city that included 5,306 African American patients evaluated over 15 years. They then performed a replication analysis of CHD-associated metabolites among 1,588 multiethnic participants in the Women’s Health Initiative, another population-based cohort study that included 161,808 postmenopausal women, also over 15 years. In all, the study, published in JAMA Cardiology, identified 46 metabolites that were associated with incident CHD up to 16 years before the incident event

Dr. Cruz said the “most interesting” findings were the roles of the N-acylamide linoleoyl ethanolamide and leucine. The former is of interest “because it is a lipid-signaling molecule that has been shown to have anti-inflammatory effects on macrophages; the influence and effects on macrophages are of particular interest because of macrophages’ central role in atherosclerosis and coronary heart disease,” he said.

Leucine draws interest because, in this study population, it was linked to a reduced risk of incident CHD. The researchers cited four previous studies in predominantly non-Hispanic White populations that found no association between branched-chain amino acids and incident CHD in Circulation, Stroke Circulation: Genomic and Precision Medicine, and Atherosclerosis. Other branched-amino acids included in the analysis trended toward a decreased risk of CHD, but those didn’t achieve the same statistical significance as that of leucine, Dr. Cruz said.

“In some of the analyses we did, there was a subset of metabolites that the associations with CHD appeared to be different between self-identified African Americans in the Jackson cohort vs. self-identified non-Hispanic Whites, and leucine was one of them,” Dr. Cruz said.

He emphasized that this study “is not a genetic analysis” because the participants self-identified their race. “So our next step is to figure out why this difference appears between these self-identified groups,” Dr. Cruz said. “We suspect environmental factors play a role – psychological stress, diet, income level, to name a few – but we are also interested to see if there are genetic causes.”

The results “are not clinically applicable,” Dr. Cruz said, but they do point to a need for more ethnically and racially diverse study populations. “The big picture is that, before we go implementing novel biomarkers into clinical practice, we need to make sure that they are accurate across different populations of people,” he said. “The only way to do this is to study different groups with the same rigor and vigor and thoughtfulness as any other group.”

These findings fall in line with other studies that found other nonmetabolomic biomarkers have countervailing effects on CHD risk in African Americans and non-Hispanic Whites, said Christie M. Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston. For example, African Americans have been found to have lower triglyceride and HDL cholesterol levels than those of Whites.

The study “points out that there may be important biological differences in the metabolic pathways and abnormalities in the development of CHD between races,” Dr. Ballantyne said. “This further emphasizes both the importance and challenge of testing therapies in multiple racial/ethnic groups and with more even representation between men and women.”

Combining metabolomic profiling along with other biomarkers and possibly genetics may be helpful to “personalize” therapies in the future, he added.

Dr. Cruz and Dr. Ballantyne have no relevant relationships to disclose.

Sleep apnea and other types of sleep disorders appear to elevate the risk for some types of cancer, specifically prostate cancer, more so than others. But the overall risk can be highly variable, and some sleep problems were found to be associated with a lower risk for cancer and cancer-related death, an analysis of a large observational cohort study of cardiovascular patients found.

Results of the analysis were published online in the journal Cancer Epidemiology. Investigators analyzed the presence of sleep apnea and insomnia and cancer risk in more than 8,500 patients in the Cardiovascular Health Study (CHS). “The fact that we observed certain sleep problems, like apneas, to be associated with elevated risk of some cancers but not others reflects the fact that cancer is a heterogeneous disease,” senior author Amanda Phipps, PhD, said in an interview. Dr. Phipps is an associate professor of epidemiology at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.
 

Variable cancer links

The researchers assessed sleep problems in two groups in the CHS: an incident cancer group of 3,930 patients and a cancer mortality group of 4,580 patients. Within those respective groups, the investigators identified 885 first-incident cancers and 804 cancer deaths with a median follow-up of 12 and 14 years. The average age of the study population was 73 years, and 57% were women.

Sleep apnea symptoms (SAS) were associated with a lower risk for incident cancers – a 16% lower baseline risk and a 24% lower time-dependent risk. The study showed no association between cancer incidence and daytime sleepiness and apneas.

However, there was a significantly elevated risk relationship between sleep problems and prostate cancer. A time-dependent analysis of apnea showed more than double the risk (hazard ratio, 2.34), and baseline snoring carried a 69% greater risk. There was also a dose-response relationship for baseline cumulative SAS, compared with not having symptoms: an HR of 1.30 for one symptom, and 2.22 for two or more symptoms.

Risks for lymphatic or hematopoietic cancers were also associated with baseline daytime sleepiness (HR, 1.81), but not with insomnia (HR, 0.54).

With regard to cancer mortality, the study found no relationship between sleep problems and cancer death. In fact, it found an overall inverse relationship with snoring (time-dependent HR, 0.73; cumulative average HR, 0.67) and baseline apnea (HR, 0.69). Likewise, patients reporting SAS had lower risks than those having no SAS: an HR of 0.90 for one symptom and 0.75 for multiple symptoms. No relationships were found between any insomnia symptom and cancer death.

“We know the pathways that lead to prostate cancer can be very different than the pathways that lead to colorectal cancer,” Dr. Phipps said. “What we don’t yet understand is why these associations differ or what mechanisms are responsible for these cancer site-specific associations.”
 

Need for sleep assessment

The findings don’t change much for how clinicians should evaluate cancer risks in patients with sleep problems, Dr. Phipps said. “Other studies have clearly demonstrated the implications that sleep apnea has for a variety of other important health conditions – such as cardiovascular disease – so there are already plenty of good reasons for clinicians to ask their patients about their sleep and to connect patients with resources for the diagnosis and treatment of sleep apnea,” she added. “This study provides another possible reason.”

These findings provide context for future studies of the relationship between sleep problems and cancer. “But, given that sleep is something we all do and given that sleep problems are so pervasive, it’s important that we keep trying to better understand this relationship,” Dr. Phipps said.

“My hope is that future cancer studies will build in more detailed, longitudinal information on sleep patterns to help us fill current gaps in knowledge.”

Dr. Phipps has disclosed no relevant financial relationships.

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

Sleep apnea and other types of sleep disorders appear to elevate the risk for some types of cancer, specifically prostate cancer, more so than others. But the overall risk can be highly variable, and some sleep problems were found to be associated with a lower risk for cancer and cancer-related death, an analysis of a large observational cohort study of cardiovascular patients found.

Results of the analysis were published online in the journal Cancer Epidemiology. Investigators analyzed the presence of sleep apnea and insomnia and cancer risk in more than 8,500 patients in the Cardiovascular Health Study (CHS). “The fact that we observed certain sleep problems, like apneas, to be associated with elevated risk of some cancers but not others reflects the fact that cancer is a heterogeneous disease,” senior author Amanda Phipps, PhD, said in an interview. Dr. Phipps is an associate professor of epidemiology at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.
 

Variable cancer links

The researchers assessed sleep problems in two groups in the CHS: an incident cancer group of 3,930 patients and a cancer mortality group of 4,580 patients. Within those respective groups, the investigators identified 885 first-incident cancers and 804 cancer deaths with a median follow-up of 12 and 14 years. The average age of the study population was 73 years, and 57% were women.

Sleep apnea symptoms (SAS) were associated with a lower risk for incident cancers – a 16% lower baseline risk and a 24% lower time-dependent risk. The study showed no association between cancer incidence and daytime sleepiness and apneas.

However, there was a significantly elevated risk relationship between sleep problems and prostate cancer. A time-dependent analysis of apnea showed more than double the risk (hazard ratio, 2.34), and baseline snoring carried a 69% greater risk. There was also a dose-response relationship for baseline cumulative SAS, compared with not having symptoms: an HR of 1.30 for one symptom, and 2.22 for two or more symptoms.

Risks for lymphatic or hematopoietic cancers were also associated with baseline daytime sleepiness (HR, 1.81), but not with insomnia (HR, 0.54).

With regard to cancer mortality, the study found no relationship between sleep problems and cancer death. In fact, it found an overall inverse relationship with snoring (time-dependent HR, 0.73; cumulative average HR, 0.67) and baseline apnea (HR, 0.69). Likewise, patients reporting SAS had lower risks than those having no SAS: an HR of 0.90 for one symptom and 0.75 for multiple symptoms. No relationships were found between any insomnia symptom and cancer death.

“We know the pathways that lead to prostate cancer can be very different than the pathways that lead to colorectal cancer,” Dr. Phipps said. “What we don’t yet understand is why these associations differ or what mechanisms are responsible for these cancer site-specific associations.”
 

Need for sleep assessment

The findings don’t change much for how clinicians should evaluate cancer risks in patients with sleep problems, Dr. Phipps said. “Other studies have clearly demonstrated the implications that sleep apnea has for a variety of other important health conditions – such as cardiovascular disease – so there are already plenty of good reasons for clinicians to ask their patients about their sleep and to connect patients with resources for the diagnosis and treatment of sleep apnea,” she added. “This study provides another possible reason.”

These findings provide context for future studies of the relationship between sleep problems and cancer. “But, given that sleep is something we all do and given that sleep problems are so pervasive, it’s important that we keep trying to better understand this relationship,” Dr. Phipps said.

“My hope is that future cancer studies will build in more detailed, longitudinal information on sleep patterns to help us fill current gaps in knowledge.”

Dr. Phipps has disclosed no relevant financial relationships.

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

Sleep apnea and other types of sleep disorders appear to elevate the risk for some types of cancer, specifically prostate cancer, more so than others. But the overall risk can be highly variable, and some sleep problems were found to be associated with a lower risk for cancer and cancer-related death, an analysis of a large observational cohort study of cardiovascular patients found.

Results of the analysis were published online in the journal Cancer Epidemiology. Investigators analyzed the presence of sleep apnea and insomnia and cancer risk in more than 8,500 patients in the Cardiovascular Health Study (CHS). “The fact that we observed certain sleep problems, like apneas, to be associated with elevated risk of some cancers but not others reflects the fact that cancer is a heterogeneous disease,” senior author Amanda Phipps, PhD, said in an interview. Dr. Phipps is an associate professor of epidemiology at the University of Washington and the Fred Hutchinson Cancer Research Center, both in Seattle.
 

Variable cancer links

The researchers assessed sleep problems in two groups in the CHS: an incident cancer group of 3,930 patients and a cancer mortality group of 4,580 patients. Within those respective groups, the investigators identified 885 first-incident cancers and 804 cancer deaths with a median follow-up of 12 and 14 years. The average age of the study population was 73 years, and 57% were women.

Sleep apnea symptoms (SAS) were associated with a lower risk for incident cancers – a 16% lower baseline risk and a 24% lower time-dependent risk. The study showed no association between cancer incidence and daytime sleepiness and apneas.

However, there was a significantly elevated risk relationship between sleep problems and prostate cancer. A time-dependent analysis of apnea showed more than double the risk (hazard ratio, 2.34), and baseline snoring carried a 69% greater risk. There was also a dose-response relationship for baseline cumulative SAS, compared with not having symptoms: an HR of 1.30 for one symptom, and 2.22 for two or more symptoms.

Risks for lymphatic or hematopoietic cancers were also associated with baseline daytime sleepiness (HR, 1.81), but not with insomnia (HR, 0.54).

With regard to cancer mortality, the study found no relationship between sleep problems and cancer death. In fact, it found an overall inverse relationship with snoring (time-dependent HR, 0.73; cumulative average HR, 0.67) and baseline apnea (HR, 0.69). Likewise, patients reporting SAS had lower risks than those having no SAS: an HR of 0.90 for one symptom and 0.75 for multiple symptoms. No relationships were found between any insomnia symptom and cancer death.

“We know the pathways that lead to prostate cancer can be very different than the pathways that lead to colorectal cancer,” Dr. Phipps said. “What we don’t yet understand is why these associations differ or what mechanisms are responsible for these cancer site-specific associations.”
 

Need for sleep assessment

The findings don’t change much for how clinicians should evaluate cancer risks in patients with sleep problems, Dr. Phipps said. “Other studies have clearly demonstrated the implications that sleep apnea has for a variety of other important health conditions – such as cardiovascular disease – so there are already plenty of good reasons for clinicians to ask their patients about their sleep and to connect patients with resources for the diagnosis and treatment of sleep apnea,” she added. “This study provides another possible reason.”

These findings provide context for future studies of the relationship between sleep problems and cancer. “But, given that sleep is something we all do and given that sleep problems are so pervasive, it’s important that we keep trying to better understand this relationship,” Dr. Phipps said.

“My hope is that future cancer studies will build in more detailed, longitudinal information on sleep patterns to help us fill current gaps in knowledge.”

Dr. Phipps has disclosed no relevant financial relationships.

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

Rituximab doses as low as 200 mg reduced disease activity in patients with rheumatoid arthritis to an extent that’s similar to the standard 1,000-mg dose during more than 3 years of follow-up, according to results from an extension study of a clinical trial in the Netherlands.

“We could not formally statistically show that the lower doses were less effective than the higher dose,” study leader Nathan den Broeder, MSc, a PhD candidate at St. Maarten Clinic and the Radboud Institute for Health Sciences in Nijmegen, the Netherlands, said in a presentation at the virtual annual meeting of the American College of Rheumatology. “We concluded at this time that only 6% of patients needed to switch to another biologic or targeted disease-modifying antirheumatic drug and that mean disease activity remained very low,” he said of the patients treated with 200- and 500-mg doses of rituximab.

The extension study included 118 of 142 patients in the REDO trial, following them from the start of the trial in 2017-2018 through April 2021. They were randomized to three treatment arms: the standard 1,000-mg dose (24 patients), a 500-mg dose (n = 48), and the 200-mg dose (n = 46). The mean follow-up was 3.2 years.

The study evaluated disease activity by mean Disease Activity Score in 28 joints with C-reactive protein (DAS28-CRP), which during follow-up were 2.2-2.3 in the groups. Seven patients in the study cohort switched to a different DMARD, he said.

“On average, we saw a DAS28-CRP 0.15 points lower per 1,000 mg rituximab used in the past year,” Mr. den Broeder said in an interview. “For context, this is compared to a measurement error of about 0.6. A good response to a drug would be a reduction in DAS28-CRP of 1.2. This means we can just about get an effect that is bigger than the measurement error if we compare the highest dose in our study to the lowest one.” 

After a year, the median yearly rituximab dose was 978 mg, with an interquartile range of 704-1,425 mg. At the end of the study, 31% of patients took 200 mg every 6 months, 40% took 500 mg every 6.2 months, and 29% took 1,000 mg every 6.4 months.

“It’s important to note, though, this is in a situation where patients are given a dose based on disease activity,” Mr. den Broeder said. “That is, we try one dose; if the patient does well, we try a lower one; if not, we might go back up to a higher dose. We could expect somewhat larger differences if all patients were to be switched to a lower dose, regardless of whether that works well for them.”

The results were achieved without a high reliance on glucocorticoids (GCs), he said. Use of comedication in the extension study population was 0.38 GC injections per patient-year and starting or increasing an oral GC occurred at a rate of only 0.05 per patient-year.

“As a result of this study, we are now implementing a strategy of rituximab dose reduction in clinical practice at our center,” Mr. den Broeder said. Patients with RA start on a 1,000-mg dose for 6 months, and if they respond well they’re put on a 500-mg dose. If they respond well after 6 months on the 500-mg dose, they’re then moved to the 200-mg dose. “With this, we hope to gain that patients have fewer side effects,” he said. “We hope to reduce the cost of treatment, and also, what we instantly gain is that the infusion time for patients is also reduced.”

Future research considerations include evaluating the 200-mg dose as a subcutaneous injection. “Another thing you might think of as well: Are even lower doses possible?” he said.

Session moderator Maya Buch, MD, professor of rheumatology and director of Experimental Medicine at the Centre for Musculoskeletal Research at the University of Manchester (England), asked if the investigators used CD19 testing to measure B-cell levels or immunoglobulin G levels to determine dose escalation.

Mr. den Broeder said that CD19 wasn’t used in clinical practice but was used in the original trial. However, it wasn’t found to have any predictive ability, while immunoglobulin G levels were measured in patients who had multiple infections. “Sporadically, a lower dose might have been initiated because of that, but not systematically,” he said.

Mr. den Broeder had no relevant relationships to disclose. Dr. Buch reported financial relationships with AbbVie, Eli Lilly, Gilead Sciences, Merck-Serono, Pfizer, Roche, Sanofi, and UCB.

Rituximab doses as low as 200 mg reduced disease activity in patients with rheumatoid arthritis to an extent that’s similar to the standard 1,000-mg dose during more than 3 years of follow-up, according to results from an extension study of a clinical trial in the Netherlands.

“We could not formally statistically show that the lower doses were less effective than the higher dose,” study leader Nathan den Broeder, MSc, a PhD candidate at St. Maarten Clinic and the Radboud Institute for Health Sciences in Nijmegen, the Netherlands, said in a presentation at the virtual annual meeting of the American College of Rheumatology. “We concluded at this time that only 6% of patients needed to switch to another biologic or targeted disease-modifying antirheumatic drug and that mean disease activity remained very low,” he said of the patients treated with 200- and 500-mg doses of rituximab.

The extension study included 118 of 142 patients in the REDO trial, following them from the start of the trial in 2017-2018 through April 2021. They were randomized to three treatment arms: the standard 1,000-mg dose (24 patients), a 500-mg dose (n = 48), and the 200-mg dose (n = 46). The mean follow-up was 3.2 years.

The study evaluated disease activity by mean Disease Activity Score in 28 joints with C-reactive protein (DAS28-CRP), which during follow-up were 2.2-2.3 in the groups. Seven patients in the study cohort switched to a different DMARD, he said.

“On average, we saw a DAS28-CRP 0.15 points lower per 1,000 mg rituximab used in the past year,” Mr. den Broeder said in an interview. “For context, this is compared to a measurement error of about 0.6. A good response to a drug would be a reduction in DAS28-CRP of 1.2. This means we can just about get an effect that is bigger than the measurement error if we compare the highest dose in our study to the lowest one.” 

After a year, the median yearly rituximab dose was 978 mg, with an interquartile range of 704-1,425 mg. At the end of the study, 31% of patients took 200 mg every 6 months, 40% took 500 mg every 6.2 months, and 29% took 1,000 mg every 6.4 months.

“It’s important to note, though, this is in a situation where patients are given a dose based on disease activity,” Mr. den Broeder said. “That is, we try one dose; if the patient does well, we try a lower one; if not, we might go back up to a higher dose. We could expect somewhat larger differences if all patients were to be switched to a lower dose, regardless of whether that works well for them.”

The results were achieved without a high reliance on glucocorticoids (GCs), he said. Use of comedication in the extension study population was 0.38 GC injections per patient-year and starting or increasing an oral GC occurred at a rate of only 0.05 per patient-year.

“As a result of this study, we are now implementing a strategy of rituximab dose reduction in clinical practice at our center,” Mr. den Broeder said. Patients with RA start on a 1,000-mg dose for 6 months, and if they respond well they’re put on a 500-mg dose. If they respond well after 6 months on the 500-mg dose, they’re then moved to the 200-mg dose. “With this, we hope to gain that patients have fewer side effects,” he said. “We hope to reduce the cost of treatment, and also, what we instantly gain is that the infusion time for patients is also reduced.”

Future research considerations include evaluating the 200-mg dose as a subcutaneous injection. “Another thing you might think of as well: Are even lower doses possible?” he said.

Session moderator Maya Buch, MD, professor of rheumatology and director of Experimental Medicine at the Centre for Musculoskeletal Research at the University of Manchester (England), asked if the investigators used CD19 testing to measure B-cell levels or immunoglobulin G levels to determine dose escalation.

Mr. den Broeder said that CD19 wasn’t used in clinical practice but was used in the original trial. However, it wasn’t found to have any predictive ability, while immunoglobulin G levels were measured in patients who had multiple infections. “Sporadically, a lower dose might have been initiated because of that, but not systematically,” he said.

Mr. den Broeder had no relevant relationships to disclose. Dr. Buch reported financial relationships with AbbVie, Eli Lilly, Gilead Sciences, Merck-Serono, Pfizer, Roche, Sanofi, and UCB.

Rituximab doses as low as 200 mg reduced disease activity in patients with rheumatoid arthritis to an extent that’s similar to the standard 1,000-mg dose during more than 3 years of follow-up, according to results from an extension study of a clinical trial in the Netherlands.

“We could not formally statistically show that the lower doses were less effective than the higher dose,” study leader Nathan den Broeder, MSc, a PhD candidate at St. Maarten Clinic and the Radboud Institute for Health Sciences in Nijmegen, the Netherlands, said in a presentation at the virtual annual meeting of the American College of Rheumatology. “We concluded at this time that only 6% of patients needed to switch to another biologic or targeted disease-modifying antirheumatic drug and that mean disease activity remained very low,” he said of the patients treated with 200- and 500-mg doses of rituximab.

The extension study included 118 of 142 patients in the REDO trial, following them from the start of the trial in 2017-2018 through April 2021. They were randomized to three treatment arms: the standard 1,000-mg dose (24 patients), a 500-mg dose (n = 48), and the 200-mg dose (n = 46). The mean follow-up was 3.2 years.

The study evaluated disease activity by mean Disease Activity Score in 28 joints with C-reactive protein (DAS28-CRP), which during follow-up were 2.2-2.3 in the groups. Seven patients in the study cohort switched to a different DMARD, he said.

“On average, we saw a DAS28-CRP 0.15 points lower per 1,000 mg rituximab used in the past year,” Mr. den Broeder said in an interview. “For context, this is compared to a measurement error of about 0.6. A good response to a drug would be a reduction in DAS28-CRP of 1.2. This means we can just about get an effect that is bigger than the measurement error if we compare the highest dose in our study to the lowest one.” 

After a year, the median yearly rituximab dose was 978 mg, with an interquartile range of 704-1,425 mg. At the end of the study, 31% of patients took 200 mg every 6 months, 40% took 500 mg every 6.2 months, and 29% took 1,000 mg every 6.4 months.

“It’s important to note, though, this is in a situation where patients are given a dose based on disease activity,” Mr. den Broeder said. “That is, we try one dose; if the patient does well, we try a lower one; if not, we might go back up to a higher dose. We could expect somewhat larger differences if all patients were to be switched to a lower dose, regardless of whether that works well for them.”

The results were achieved without a high reliance on glucocorticoids (GCs), he said. Use of comedication in the extension study population was 0.38 GC injections per patient-year and starting or increasing an oral GC occurred at a rate of only 0.05 per patient-year.

“As a result of this study, we are now implementing a strategy of rituximab dose reduction in clinical practice at our center,” Mr. den Broeder said. Patients with RA start on a 1,000-mg dose for 6 months, and if they respond well they’re put on a 500-mg dose. If they respond well after 6 months on the 500-mg dose, they’re then moved to the 200-mg dose. “With this, we hope to gain that patients have fewer side effects,” he said. “We hope to reduce the cost of treatment, and also, what we instantly gain is that the infusion time for patients is also reduced.”

Future research considerations include evaluating the 200-mg dose as a subcutaneous injection. “Another thing you might think of as well: Are even lower doses possible?” he said.

Session moderator Maya Buch, MD, professor of rheumatology and director of Experimental Medicine at the Centre for Musculoskeletal Research at the University of Manchester (England), asked if the investigators used CD19 testing to measure B-cell levels or immunoglobulin G levels to determine dose escalation.

Mr. den Broeder said that CD19 wasn’t used in clinical practice but was used in the original trial. However, it wasn’t found to have any predictive ability, while immunoglobulin G levels were measured in patients who had multiple infections. “Sporadically, a lower dose might have been initiated because of that, but not systematically,” he said.

Mr. den Broeder had no relevant relationships to disclose. Dr. Buch reported financial relationships with AbbVie, Eli Lilly, Gilead Sciences, Merck-Serono, Pfizer, Roche, Sanofi, and UCB.