Imaging

BARCELONA – Two noninvasive imaging methods for assessing coronary artery disease – cardiac magnetic resonance (CMR) and positron emission tomography using rubidium stress (RbPET) – had nearly identical accuracy for ruling-in or ruling-out coronary disease, making them for at least the time being equally appropriate to use when assessing low- or intermediate-risk patients with symptoms suggestive of possible coronary disease in a prospective, multicenter study with 372 patients.

RbPET and CMR using a 3 Tesla device showed “absolutely similar performance,” in a head-to-head comparison that used fractional flow reserve assessment via invasive coronary angiography in each patient in the study as the arbiter of the true extent of coronary disease, reported Morten Bøttcher, MD, PhD, at the annual congress of the European Society of Cardiology.

Mitchel L. Zoler/MDedge

This result is good news for practice because clinicians can feel free to use whichever of the two assessment methods is most feasible for each patient, said Dr. Bøttcher, a researcher at Aarhus (Denmark) University Hospital. But the study was limited by its size, and he hopes to run a future study with many more patients to try to more definitively compare RbPET and CMR.

‘The techniques are probably interchangeable’

“There is a very clear result from the data: The performance of the two modalities is similar in the population studied,” commented Colin Berry, MBChB, PhD, professor of cardiology and imaging at the University of Glasgow (Scotland), and designated discussant for the report. “The techniques are probably interchangeable,” he said.

Mitchel L. Zoler/MDedge

Dr. Bøttcher and his associates designed the Danish Study of Non-Invasive Diagnostic Testing in Coronary Artery Disease 2 (Dan-NICAD 2) to address a knowledge gap highlighted in the 2019 guidelines of the European Society of Cardiology for the management of patients with chronic coronary syndromes, specifically low- or intermediate-risk patients who present with symptoms of possible coronary disease who have been identified as having possibly stenotic coronary lesions using coronary CT angiography. The guidelines cite using noninvasive imaging at this point prior to invasive angiography, but note that the relative performance of the various imaging options available for this step in unknown, said Dr. Bøttcher.

The researchers enrolled 372 patients at any of four hospitals in Denmark who agreed to participate and had a positive result on a coronary CT examination performed to assess their symptoms of coronary disease. (These 372 patients came from an initial pool of people that was fourfold larger, but three-quarters had negative findings on their coronary CT examination.) Clinicians had referred all of these patients to invasive angiography with fractional flow reserve assessment, and prior to that procedure they each underwent both a RbPET and a CMR examination for the purpose of this study. The researchers used each patient’s eventual invasive angiography result as the definitive determinant of their coronary disease. These patients averaged 64 years old, and 71% were men.

This analysis showed that for all 372 patients RbPET had 63% sensitivity and 87% specificity for identifying hemodynamically obstructive coronary disease, with rates of 60% and 85%, respectively, for CMR. In the subgroup of 71 patients (19%) who had obstructive coronary disease when examined by invasive angiography the sensitivity and specificity of the RbPET examination was 90% and 78%, and for CMR the sensitivity and specificity was 83% and 76%, Dr. Bøttcher reported.

Negative imaging, positive FFR

He also noted that it remains unclear how to best manage patients who show no signs of ischemia when examined by RbPET or CMR, but have an apparently hemodynamically meaningful coronary lesion when assessed by invasive angiography and fractional flow reserve. “We don’t know whether we should be guided by the negative scan or by the positive FFR result,” Dr. Bøttcher said. “There is a challenge when you get different results.”

In addition, the two compared imaging methods both have logistical limitations. RbPET involved radiation exposure, and CMR performed with a 3-tesla device may not be as widely available and requires more expensive equipment.

Dr. Berry also noted that imaging methods continue to advance. For example, the CMR examinations used in the study involved qualitative assessments, but quantitative CMR is now becoming more widely available and may provide enhanced diagnostic capabilities. Dr. Berry added that patients with symptoms of coronary disease but without an identifiable coronary obstruction may have microvascular coronary disease, a disorder that he has been at the forefront of describing.

Dan-NICAD 2 received no commercial funding. Dr. Bøttcher has been an adviser to Acarix, Amgen, AstraZeneca, Bayer, and Novo Nordisk. Dr. Berry had no disclosures.

BARCELONA – Two noninvasive imaging methods for assessing coronary artery disease – cardiac magnetic resonance (CMR) and positron emission tomography using rubidium stress (RbPET) – had nearly identical accuracy for ruling-in or ruling-out coronary disease, making them for at least the time being equally appropriate to use when assessing low- or intermediate-risk patients with symptoms suggestive of possible coronary disease in a prospective, multicenter study with 372 patients.

RbPET and CMR using a 3 Tesla device showed “absolutely similar performance,” in a head-to-head comparison that used fractional flow reserve assessment via invasive coronary angiography in each patient in the study as the arbiter of the true extent of coronary disease, reported Morten Bøttcher, MD, PhD, at the annual congress of the European Society of Cardiology.

Mitchel L. Zoler/MDedge

This result is good news for practice because clinicians can feel free to use whichever of the two assessment methods is most feasible for each patient, said Dr. Bøttcher, a researcher at Aarhus (Denmark) University Hospital. But the study was limited by its size, and he hopes to run a future study with many more patients to try to more definitively compare RbPET and CMR.

‘The techniques are probably interchangeable’

“There is a very clear result from the data: The performance of the two modalities is similar in the population studied,” commented Colin Berry, MBChB, PhD, professor of cardiology and imaging at the University of Glasgow (Scotland), and designated discussant for the report. “The techniques are probably interchangeable,” he said.

Mitchel L. Zoler/MDedge

Dr. Bøttcher and his associates designed the Danish Study of Non-Invasive Diagnostic Testing in Coronary Artery Disease 2 (Dan-NICAD 2) to address a knowledge gap highlighted in the 2019 guidelines of the European Society of Cardiology for the management of patients with chronic coronary syndromes, specifically low- or intermediate-risk patients who present with symptoms of possible coronary disease who have been identified as having possibly stenotic coronary lesions using coronary CT angiography. The guidelines cite using noninvasive imaging at this point prior to invasive angiography, but note that the relative performance of the various imaging options available for this step in unknown, said Dr. Bøttcher.

The researchers enrolled 372 patients at any of four hospitals in Denmark who agreed to participate and had a positive result on a coronary CT examination performed to assess their symptoms of coronary disease. (These 372 patients came from an initial pool of people that was fourfold larger, but three-quarters had negative findings on their coronary CT examination.) Clinicians had referred all of these patients to invasive angiography with fractional flow reserve assessment, and prior to that procedure they each underwent both a RbPET and a CMR examination for the purpose of this study. The researchers used each patient’s eventual invasive angiography result as the definitive determinant of their coronary disease. These patients averaged 64 years old, and 71% were men.

This analysis showed that for all 372 patients RbPET had 63% sensitivity and 87% specificity for identifying hemodynamically obstructive coronary disease, with rates of 60% and 85%, respectively, for CMR. In the subgroup of 71 patients (19%) who had obstructive coronary disease when examined by invasive angiography the sensitivity and specificity of the RbPET examination was 90% and 78%, and for CMR the sensitivity and specificity was 83% and 76%, Dr. Bøttcher reported.

Negative imaging, positive FFR

He also noted that it remains unclear how to best manage patients who show no signs of ischemia when examined by RbPET or CMR, but have an apparently hemodynamically meaningful coronary lesion when assessed by invasive angiography and fractional flow reserve. “We don’t know whether we should be guided by the negative scan or by the positive FFR result,” Dr. Bøttcher said. “There is a challenge when you get different results.”

In addition, the two compared imaging methods both have logistical limitations. RbPET involved radiation exposure, and CMR performed with a 3-tesla device may not be as widely available and requires more expensive equipment.

Dr. Berry also noted that imaging methods continue to advance. For example, the CMR examinations used in the study involved qualitative assessments, but quantitative CMR is now becoming more widely available and may provide enhanced diagnostic capabilities. Dr. Berry added that patients with symptoms of coronary disease but without an identifiable coronary obstruction may have microvascular coronary disease, a disorder that he has been at the forefront of describing.

Dan-NICAD 2 received no commercial funding. Dr. Bøttcher has been an adviser to Acarix, Amgen, AstraZeneca, Bayer, and Novo Nordisk. Dr. Berry had no disclosures.

BARCELONA – Two noninvasive imaging methods for assessing coronary artery disease – cardiac magnetic resonance (CMR) and positron emission tomography using rubidium stress (RbPET) – had nearly identical accuracy for ruling-in or ruling-out coronary disease, making them for at least the time being equally appropriate to use when assessing low- or intermediate-risk patients with symptoms suggestive of possible coronary disease in a prospective, multicenter study with 372 patients.

RbPET and CMR using a 3 Tesla device showed “absolutely similar performance,” in a head-to-head comparison that used fractional flow reserve assessment via invasive coronary angiography in each patient in the study as the arbiter of the true extent of coronary disease, reported Morten Bøttcher, MD, PhD, at the annual congress of the European Society of Cardiology.

Mitchel L. Zoler/MDedge

This result is good news for practice because clinicians can feel free to use whichever of the two assessment methods is most feasible for each patient, said Dr. Bøttcher, a researcher at Aarhus (Denmark) University Hospital. But the study was limited by its size, and he hopes to run a future study with many more patients to try to more definitively compare RbPET and CMR.

‘The techniques are probably interchangeable’

“There is a very clear result from the data: The performance of the two modalities is similar in the population studied,” commented Colin Berry, MBChB, PhD, professor of cardiology and imaging at the University of Glasgow (Scotland), and designated discussant for the report. “The techniques are probably interchangeable,” he said.

Mitchel L. Zoler/MDedge

Dr. Bøttcher and his associates designed the Danish Study of Non-Invasive Diagnostic Testing in Coronary Artery Disease 2 (Dan-NICAD 2) to address a knowledge gap highlighted in the 2019 guidelines of the European Society of Cardiology for the management of patients with chronic coronary syndromes, specifically low- or intermediate-risk patients who present with symptoms of possible coronary disease who have been identified as having possibly stenotic coronary lesions using coronary CT angiography. The guidelines cite using noninvasive imaging at this point prior to invasive angiography, but note that the relative performance of the various imaging options available for this step in unknown, said Dr. Bøttcher.

The researchers enrolled 372 patients at any of four hospitals in Denmark who agreed to participate and had a positive result on a coronary CT examination performed to assess their symptoms of coronary disease. (These 372 patients came from an initial pool of people that was fourfold larger, but three-quarters had negative findings on their coronary CT examination.) Clinicians had referred all of these patients to invasive angiography with fractional flow reserve assessment, and prior to that procedure they each underwent both a RbPET and a CMR examination for the purpose of this study. The researchers used each patient’s eventual invasive angiography result as the definitive determinant of their coronary disease. These patients averaged 64 years old, and 71% were men.

This analysis showed that for all 372 patients RbPET had 63% sensitivity and 87% specificity for identifying hemodynamically obstructive coronary disease, with rates of 60% and 85%, respectively, for CMR. In the subgroup of 71 patients (19%) who had obstructive coronary disease when examined by invasive angiography the sensitivity and specificity of the RbPET examination was 90% and 78%, and for CMR the sensitivity and specificity was 83% and 76%, Dr. Bøttcher reported.

Negative imaging, positive FFR

He also noted that it remains unclear how to best manage patients who show no signs of ischemia when examined by RbPET or CMR, but have an apparently hemodynamically meaningful coronary lesion when assessed by invasive angiography and fractional flow reserve. “We don’t know whether we should be guided by the negative scan or by the positive FFR result,” Dr. Bøttcher said. “There is a challenge when you get different results.”

In addition, the two compared imaging methods both have logistical limitations. RbPET involved radiation exposure, and CMR performed with a 3-tesla device may not be as widely available and requires more expensive equipment.

Dr. Berry also noted that imaging methods continue to advance. For example, the CMR examinations used in the study involved qualitative assessments, but quantitative CMR is now becoming more widely available and may provide enhanced diagnostic capabilities. Dr. Berry added that patients with symptoms of coronary disease but without an identifiable coronary obstruction may have microvascular coronary disease, a disorder that he has been at the forefront of describing.

Dan-NICAD 2 received no commercial funding. Dr. Bøttcher has been an adviser to Acarix, Amgen, AstraZeneca, Bayer, and Novo Nordisk. Dr. Berry had no disclosures.

New research links the use of glucocorticoids with changes in white matter microstructure – which may explain the development of anxiety, depression, and other neuropsychiatric side effects related to these drugs, investigators say.

Results from a cross-sectional study showed that use of both systemic and inhaled glucocorticoids was associated with widespread reductions in fractional anisotropy (FA) and increases in mean diffusivity.

Glucocorticoids have “a whole catalogue” of adverse events, and effects on brain structure “adds to the list,” co-investigator Onno C. Meijer, PhD, professor of molecular neuroendocrinology of corticosteroids, department of medicine, Leiden University Medical Center, the Netherlands, told this news organization.

Serious side effects

Glucocorticoids, a class of synthetic steroids with immunosuppressive properties, are prescribed for a wide range of conditions, including rheumatoid arthritis and asthma.

However, they are also associated with potentially serious metabolic, cardiovascular, and musculoskeletal side effects as well as neuropsychiatric side effects such as depression, mania, and cognitive impairment.

About 1 in 3 patients exposed to “quite a lot of these drugs” will experience neuropsychiatric symptoms, Dr. Meijer said.

Most previous studies that investigated effects from high levels of glucocorticoids on brain structure have been small and involved selected populations, such as those with Cushing disease.

The new study included participants from the UK Biobank, a large population-based cohort. Participants had undergone imaging and did not have a history of psychiatric disease – although they could have conditions associated with glucocorticoid use, including anxiety, depression, mania, or delirium.

The analysis included 222 patients using oral or parenteral glucocorticoids at the time of imaging (systemic group), 557 using inhaled glucocorticoids, and 24,106 not using glucocorticoids (the control group).

Inhaled steroids target the lungs, whereas a steroid in pill form “travels in the blood and reaches each and every organ and cell in the body and typically requires higher doses,” Dr. Meijer noted.

The groups were similar with respect to sex, education, and smoking status. However, the systemic glucocorticoid group was slightly older (mean age, 66.1 years vs. 63.3 years for inhaled glucocorticoid users and 63.5 years for the control group).

In addition to age, researchers adjusted for sex, education level, head position in the scanner, head size, assessment center, and year of imaging.
 

Imaging analyses

Imaging analyses showed systemic glucocorticoid use was associated with reduced global FA (adjusted mean difference, -3.7e-3; 95% confidence interval, -6.4e-3 to 1.0e-3), and reductions in regional FA in the body and genu of the corpus callosum versus the control group.

Inhaled glucocorticoid use was associated with reduced global FA (AMD, -2.3e-3; 95% CI, -4.0e-3 to -5.7e-4), and lower FA in the splenium of the corpus callosum and the cingulum of the hippocampus.

Global mean diffusivity was higher in systemic glucocorticoid users (AMD, 7.2e-6; 95% CI, 3.2e-6 to 1.1e-5) and inhaled glucocorticoid users (AMD, 2.7e-6; 95% CI, 1.7e-7 to 5.2e-6), compared with the control group.

The effects of glucocorticoids on white matter were “pervasive,” and the “most important finding” of the study, Dr. Meijer said. “We were impressed by the fact white matter is so sensitive to these drugs.”

He noted that it is likely that functional connectivity between brain regions is affected by use of glucocorticoids. “You could say communication between brain regions is probably somewhat impaired or challenged,” he said.

Subgroup analyses among participants using glucocorticoids chronically, defined as reported at two consecutive visits, suggested a potential dose-dependent or duration-dependent effect of glucocorticoids on white matter microstructure.

Systemic glucocorticoid use was also associated with an increase in total and grey matter volume of the caudate nucleus.

In addition, there was a significant association between inhaled glucocorticoid use and decreased grey matter volume of the amygdala, which Dr. Meijer said was surprising because studies have shown that glucocorticoids “can drive amygdala big time.”
 

Move away from ‘one dose for all’?

Another surprise was that the results showed no hippocampal volume differences with steroid use, Dr. Meijer noted.

The modest association between glucocorticoid use and brain volumes could indicate that white matter integrity is more sensitive to glucocorticoids than is grey matter volume, “at least at the structural level,” he said.

He added that longer use or higher doses may be necessary to also induce volumetric changes.

Participants also completed a questionnaire to assess mood over the previous 2 weeks. Systemic glucocorticoid users had more depressive symptoms, disinterest, tenseness/restlessness, and tiredness/lethargy, compared with the control group. Inhaled glucocorticoid users only reported more tiredness/lethargy.

The investigators note that mood-related effects could be linked to the condition for which glucocorticoids were prescribed: for example, rheumatoid arthritis or chronic obstructive pulmonary disease.

In terms of cognition, systemic glucocorticoid users performed significantly worse on the symbol digit substitution task, compared with participants in the control group.

In light of these findings, pharmaceutical companies that make inhaled corticosteroids “should perhaps find out if glucocorticoids can be dosed by kilogram body weight rather than simply one dose fits all,” which is currently the case, Dr. Meijer said.
 

Impressive, but several limitations

Commenting on the findings, E. Sherwood Brown, MD, PhD, Distinguished Chair in Psychiatric Research and professor and vice chair for clinical research, department of psychiatry, The University of Texas Southwestern Medical Center, Dallas, called the study sample size “impressive.”

In addition, the study is the first to look at systemic as well as inhaled corticosteroids, said Dr. Brown, who was not involved with the research. He noted that previously, there had been only case reports of psychiatric symptoms with inhaled corticosteroids.

That results are in the same direction but greater with systemic, compared with inhaled corticosteroids, is “particularly interesting” because this might suggest dose-dependent effects, Dr. Brown said.

He noted that cognitive differences were also only observed with systemic corticosteroids.

Some study observations, such as smaller amygdala volume with inhaled but not systemic corticosteroids, “are harder to understand,” said Dr. Brown.

However, he pointed out some study limitations. For example, data were apparently unavailable for verbal and declarative memory test data, despite corticosteroids probably affecting the hippocampus and causing memory changes.

Other drawbacks were that the dose and duration of corticosteroid use, as well as the medical histories of study participants, were not available, Dr. Brown said.

No study funding was reported. Dr. Meijer has received research grants and honorariums from Corcept Therapeutics and a speakers’ fee from Ipsen. Dr. Brown is on an advisory board for Sage Pharmaceuticals, which is developing neurosteroids (not corticosteroids) for mood disorders. He is also on a Medscape advisory board related to bipolar disorder.

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

New research links the use of glucocorticoids with changes in white matter microstructure – which may explain the development of anxiety, depression, and other neuropsychiatric side effects related to these drugs, investigators say.

Results from a cross-sectional study showed that use of both systemic and inhaled glucocorticoids was associated with widespread reductions in fractional anisotropy (FA) and increases in mean diffusivity.

Glucocorticoids have “a whole catalogue” of adverse events, and effects on brain structure “adds to the list,” co-investigator Onno C. Meijer, PhD, professor of molecular neuroendocrinology of corticosteroids, department of medicine, Leiden University Medical Center, the Netherlands, told this news organization.

Serious side effects

Glucocorticoids, a class of synthetic steroids with immunosuppressive properties, are prescribed for a wide range of conditions, including rheumatoid arthritis and asthma.

However, they are also associated with potentially serious metabolic, cardiovascular, and musculoskeletal side effects as well as neuropsychiatric side effects such as depression, mania, and cognitive impairment.

About 1 in 3 patients exposed to “quite a lot of these drugs” will experience neuropsychiatric symptoms, Dr. Meijer said.

Most previous studies that investigated effects from high levels of glucocorticoids on brain structure have been small and involved selected populations, such as those with Cushing disease.

The new study included participants from the UK Biobank, a large population-based cohort. Participants had undergone imaging and did not have a history of psychiatric disease – although they could have conditions associated with glucocorticoid use, including anxiety, depression, mania, or delirium.

The analysis included 222 patients using oral or parenteral glucocorticoids at the time of imaging (systemic group), 557 using inhaled glucocorticoids, and 24,106 not using glucocorticoids (the control group).

Inhaled steroids target the lungs, whereas a steroid in pill form “travels in the blood and reaches each and every organ and cell in the body and typically requires higher doses,” Dr. Meijer noted.

The groups were similar with respect to sex, education, and smoking status. However, the systemic glucocorticoid group was slightly older (mean age, 66.1 years vs. 63.3 years for inhaled glucocorticoid users and 63.5 years for the control group).

In addition to age, researchers adjusted for sex, education level, head position in the scanner, head size, assessment center, and year of imaging.
 

Imaging analyses

Imaging analyses showed systemic glucocorticoid use was associated with reduced global FA (adjusted mean difference, -3.7e-3; 95% confidence interval, -6.4e-3 to 1.0e-3), and reductions in regional FA in the body and genu of the corpus callosum versus the control group.

Inhaled glucocorticoid use was associated with reduced global FA (AMD, -2.3e-3; 95% CI, -4.0e-3 to -5.7e-4), and lower FA in the splenium of the corpus callosum and the cingulum of the hippocampus.

Global mean diffusivity was higher in systemic glucocorticoid users (AMD, 7.2e-6; 95% CI, 3.2e-6 to 1.1e-5) and inhaled glucocorticoid users (AMD, 2.7e-6; 95% CI, 1.7e-7 to 5.2e-6), compared with the control group.

The effects of glucocorticoids on white matter were “pervasive,” and the “most important finding” of the study, Dr. Meijer said. “We were impressed by the fact white matter is so sensitive to these drugs.”

He noted that it is likely that functional connectivity between brain regions is affected by use of glucocorticoids. “You could say communication between brain regions is probably somewhat impaired or challenged,” he said.

Subgroup analyses among participants using glucocorticoids chronically, defined as reported at two consecutive visits, suggested a potential dose-dependent or duration-dependent effect of glucocorticoids on white matter microstructure.

Systemic glucocorticoid use was also associated with an increase in total and grey matter volume of the caudate nucleus.

In addition, there was a significant association between inhaled glucocorticoid use and decreased grey matter volume of the amygdala, which Dr. Meijer said was surprising because studies have shown that glucocorticoids “can drive amygdala big time.”
 

Move away from ‘one dose for all’?

Another surprise was that the results showed no hippocampal volume differences with steroid use, Dr. Meijer noted.

The modest association between glucocorticoid use and brain volumes could indicate that white matter integrity is more sensitive to glucocorticoids than is grey matter volume, “at least at the structural level,” he said.

He added that longer use or higher doses may be necessary to also induce volumetric changes.

Participants also completed a questionnaire to assess mood over the previous 2 weeks. Systemic glucocorticoid users had more depressive symptoms, disinterest, tenseness/restlessness, and tiredness/lethargy, compared with the control group. Inhaled glucocorticoid users only reported more tiredness/lethargy.

The investigators note that mood-related effects could be linked to the condition for which glucocorticoids were prescribed: for example, rheumatoid arthritis or chronic obstructive pulmonary disease.

In terms of cognition, systemic glucocorticoid users performed significantly worse on the symbol digit substitution task, compared with participants in the control group.

In light of these findings, pharmaceutical companies that make inhaled corticosteroids “should perhaps find out if glucocorticoids can be dosed by kilogram body weight rather than simply one dose fits all,” which is currently the case, Dr. Meijer said.
 

Impressive, but several limitations

Commenting on the findings, E. Sherwood Brown, MD, PhD, Distinguished Chair in Psychiatric Research and professor and vice chair for clinical research, department of psychiatry, The University of Texas Southwestern Medical Center, Dallas, called the study sample size “impressive.”

In addition, the study is the first to look at systemic as well as inhaled corticosteroids, said Dr. Brown, who was not involved with the research. He noted that previously, there had been only case reports of psychiatric symptoms with inhaled corticosteroids.

That results are in the same direction but greater with systemic, compared with inhaled corticosteroids, is “particularly interesting” because this might suggest dose-dependent effects, Dr. Brown said.

He noted that cognitive differences were also only observed with systemic corticosteroids.

Some study observations, such as smaller amygdala volume with inhaled but not systemic corticosteroids, “are harder to understand,” said Dr. Brown.

However, he pointed out some study limitations. For example, data were apparently unavailable for verbal and declarative memory test data, despite corticosteroids probably affecting the hippocampus and causing memory changes.

Other drawbacks were that the dose and duration of corticosteroid use, as well as the medical histories of study participants, were not available, Dr. Brown said.

No study funding was reported. Dr. Meijer has received research grants and honorariums from Corcept Therapeutics and a speakers’ fee from Ipsen. Dr. Brown is on an advisory board for Sage Pharmaceuticals, which is developing neurosteroids (not corticosteroids) for mood disorders. He is also on a Medscape advisory board related to bipolar disorder.

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

New research links the use of glucocorticoids with changes in white matter microstructure – which may explain the development of anxiety, depression, and other neuropsychiatric side effects related to these drugs, investigators say.

Results from a cross-sectional study showed that use of both systemic and inhaled glucocorticoids was associated with widespread reductions in fractional anisotropy (FA) and increases in mean diffusivity.

Glucocorticoids have “a whole catalogue” of adverse events, and effects on brain structure “adds to the list,” co-investigator Onno C. Meijer, PhD, professor of molecular neuroendocrinology of corticosteroids, department of medicine, Leiden University Medical Center, the Netherlands, told this news organization.

Serious side effects

Glucocorticoids, a class of synthetic steroids with immunosuppressive properties, are prescribed for a wide range of conditions, including rheumatoid arthritis and asthma.

However, they are also associated with potentially serious metabolic, cardiovascular, and musculoskeletal side effects as well as neuropsychiatric side effects such as depression, mania, and cognitive impairment.

About 1 in 3 patients exposed to “quite a lot of these drugs” will experience neuropsychiatric symptoms, Dr. Meijer said.

Most previous studies that investigated effects from high levels of glucocorticoids on brain structure have been small and involved selected populations, such as those with Cushing disease.

The new study included participants from the UK Biobank, a large population-based cohort. Participants had undergone imaging and did not have a history of psychiatric disease – although they could have conditions associated with glucocorticoid use, including anxiety, depression, mania, or delirium.

The analysis included 222 patients using oral or parenteral glucocorticoids at the time of imaging (systemic group), 557 using inhaled glucocorticoids, and 24,106 not using glucocorticoids (the control group).

Inhaled steroids target the lungs, whereas a steroid in pill form “travels in the blood and reaches each and every organ and cell in the body and typically requires higher doses,” Dr. Meijer noted.

The groups were similar with respect to sex, education, and smoking status. However, the systemic glucocorticoid group was slightly older (mean age, 66.1 years vs. 63.3 years for inhaled glucocorticoid users and 63.5 years for the control group).

In addition to age, researchers adjusted for sex, education level, head position in the scanner, head size, assessment center, and year of imaging.
 

Imaging analyses

Imaging analyses showed systemic glucocorticoid use was associated with reduced global FA (adjusted mean difference, -3.7e-3; 95% confidence interval, -6.4e-3 to 1.0e-3), and reductions in regional FA in the body and genu of the corpus callosum versus the control group.

Inhaled glucocorticoid use was associated with reduced global FA (AMD, -2.3e-3; 95% CI, -4.0e-3 to -5.7e-4), and lower FA in the splenium of the corpus callosum and the cingulum of the hippocampus.

Global mean diffusivity was higher in systemic glucocorticoid users (AMD, 7.2e-6; 95% CI, 3.2e-6 to 1.1e-5) and inhaled glucocorticoid users (AMD, 2.7e-6; 95% CI, 1.7e-7 to 5.2e-6), compared with the control group.

The effects of glucocorticoids on white matter were “pervasive,” and the “most important finding” of the study, Dr. Meijer said. “We were impressed by the fact white matter is so sensitive to these drugs.”

He noted that it is likely that functional connectivity between brain regions is affected by use of glucocorticoids. “You could say communication between brain regions is probably somewhat impaired or challenged,” he said.

Subgroup analyses among participants using glucocorticoids chronically, defined as reported at two consecutive visits, suggested a potential dose-dependent or duration-dependent effect of glucocorticoids on white matter microstructure.

Systemic glucocorticoid use was also associated with an increase in total and grey matter volume of the caudate nucleus.

In addition, there was a significant association between inhaled glucocorticoid use and decreased grey matter volume of the amygdala, which Dr. Meijer said was surprising because studies have shown that glucocorticoids “can drive amygdala big time.”
 

Move away from ‘one dose for all’?

Another surprise was that the results showed no hippocampal volume differences with steroid use, Dr. Meijer noted.

The modest association between glucocorticoid use and brain volumes could indicate that white matter integrity is more sensitive to glucocorticoids than is grey matter volume, “at least at the structural level,” he said.

He added that longer use or higher doses may be necessary to also induce volumetric changes.

Participants also completed a questionnaire to assess mood over the previous 2 weeks. Systemic glucocorticoid users had more depressive symptoms, disinterest, tenseness/restlessness, and tiredness/lethargy, compared with the control group. Inhaled glucocorticoid users only reported more tiredness/lethargy.

The investigators note that mood-related effects could be linked to the condition for which glucocorticoids were prescribed: for example, rheumatoid arthritis or chronic obstructive pulmonary disease.

In terms of cognition, systemic glucocorticoid users performed significantly worse on the symbol digit substitution task, compared with participants in the control group.

In light of these findings, pharmaceutical companies that make inhaled corticosteroids “should perhaps find out if glucocorticoids can be dosed by kilogram body weight rather than simply one dose fits all,” which is currently the case, Dr. Meijer said.
 

Impressive, but several limitations

Commenting on the findings, E. Sherwood Brown, MD, PhD, Distinguished Chair in Psychiatric Research and professor and vice chair for clinical research, department of psychiatry, The University of Texas Southwestern Medical Center, Dallas, called the study sample size “impressive.”

In addition, the study is the first to look at systemic as well as inhaled corticosteroids, said Dr. Brown, who was not involved with the research. He noted that previously, there had been only case reports of psychiatric symptoms with inhaled corticosteroids.

That results are in the same direction but greater with systemic, compared with inhaled corticosteroids, is “particularly interesting” because this might suggest dose-dependent effects, Dr. Brown said.

He noted that cognitive differences were also only observed with systemic corticosteroids.

Some study observations, such as smaller amygdala volume with inhaled but not systemic corticosteroids, “are harder to understand,” said Dr. Brown.

However, he pointed out some study limitations. For example, data were apparently unavailable for verbal and declarative memory test data, despite corticosteroids probably affecting the hippocampus and causing memory changes.

Other drawbacks were that the dose and duration of corticosteroid use, as well as the medical histories of study participants, were not available, Dr. Brown said.

No study funding was reported. Dr. Meijer has received research grants and honorariums from Corcept Therapeutics and a speakers’ fee from Ipsen. Dr. Brown is on an advisory board for Sage Pharmaceuticals, which is developing neurosteroids (not corticosteroids) for mood disorders. He is also on a Medscape advisory board related to bipolar disorder.

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

New randomized trial results show no benefit in clinical outcomes from active surveillance using functional testing over usual care among high-risk patients with previous percutaneous coronary intervention (PCI).

At 2 years, there was no difference in a composite outcome of death from any cause, MI, or hospitalization for unstable angina between patients who had routine functional testing at 1 year and patients receiving standard care in the POST-PCI trial.

“Our trial does not support active surveillance with routine functional testing for follow-up strategy in high-risk patients who undergo PCI,” first author Duk-Woo Park, MD, division of cardiology, Asan Medical Center, University of Ulsan, Seoul, South Korea, said in an interview.

The researchers said their results should be interpreted in the context of previous findings from the ISCHEMIA trial that showed no difference in death or ischemic events with an initial invasive versus an initial conservative approach in patients with stable coronary artery disease and moderate to severe ischemia on stress testing.

“Both the ISCHEMIA and POST-PCI trials show the benefits of a ‘less is more’ concept (i.e., if more invasive strategies or testing are performed less frequently, it will result in better patient outcomes),” the authors wrote. Although characteristics of the patients in these trials “were quite different, a more invasive therapeutic approach (in the ISCHEMIA trial) as well as a more aggressive follow-up approach (in the POST-PCI trial) did not provide an additional treatment effect beyond a conservative strategy on the basis of guideline-directed medical therapy.”

Results were presented at the annual congress of the European Society of Cardiology and published online simultaneously in the New England Journal of Medicine.
 

‘Compelling new evidence’

In an editorial accompanying the publication, Jacqueline E. Tamis-Holland, MD, Icahn School of Medicine at Mount Sinai, Mount Sinai Morningside Hospital, New York, also agreed that this new result “builds on the findings” from the ISCHEMIA trial. “Collectively, these trials highlight the lack of benefit of routine stress testing in asymptomatic patients.”

Dr. Tamis-Holland pointed out that many of the deaths in this trial occurred before the 1-year stress test, possibly related to stent thrombosis, and therefore would not have been prevented by routine testing at 1 year. And overall, event rates were “quite low, and most likely reflect adherence to guideline recommendations” in the trial. For example, 99% of patients were receiving statins, and 74% of the procedures used intravascular imaging for the PCI procedures, “a much greater proportion of use than most centers in the United States,” she noted.

“The POST-PCI trial provides compelling new evidence for a future class III recommendation for routine surveillance testing after PCI,” Dr. Tamis-Holland concluded “Until then, we must refrain from prescribing surveillance stress testing to our patients after PCI, in the absence of other clinical signs or symptoms suggestive of stent failure.”

Commenting on the results, B. Hadley Wilson, MD, executive vice chair of the Sanger Heart & Vascular Institute/Atrium Health, clinical professor of medicine at University of North Carolina at Chapel Hill, and vice president of the American College of Cardiology, said that for decades it’s been thought that patients who had high-risk PCI needed to be followed more closely for potential future events. 

“And it actually turned out there was no difference in outcomes between the groups,” he said in an interview.

“So, I think it’s a good study – well conducted, good numbers –  that answers the question that routine functional stress testing, even for high-risk PCI patients, is not effective or cost effective or beneficial on a yearly basis,” he said. “I think it will help frame care that patients will just be followed with best medical therapy and then if they have recurrence of symptoms they would be considered for further evaluation, either with stress testing or angiography.”
 

High-risk characteristics

Current guidelines do not advocate the use of routine stress testing after revascularization, the authors wrote in their paper. “However, surveillance with the use of imaging-based stress testing may be considered in high-risk patients at 6 months after a revascularization procedure (class IIb recommendation), and routine imaging-based stress testing may be considered at 1 year after PCI and more than 5 years after CABG [coronary artery bypass graft] (class IIb recommendation).”

But in real-world clinical practice, Dr. Park said, “follow-up strategy for patients who underwent PCI or CABG is still undetermined.” Particularly, “it could be more problematic in high-risk PCI patients with high-risk anatomical or clinical characteristics. Thus, we performed this POST-PCI trial comparing routine stress testing follow-up strategy versus standard-care follow-up strategy in high-risk PCI patients.”

The researchers randomly assigned 1,706 patients with high-risk anatomical or clinical characteristics who had undergone PCI to a follow-up strategy of routine functional testing, including nuclear stress testing, exercise electrocardiography, or stress echocardiography at 1 year, or to standard care alone.

High-risk anatomical features included left main or bifurcation disease; restenotic or long, diffuse lesions; or bypass graft disease. High-risk clinical characteristics included diabetes mellitus, chronic kidney disease, or enzyme-positive acute coronary syndrome.

Mean age of the patients was 64.7 years; 21.0% had left main disease, 43.5% had bifurcation disease, 69.8% had multivessel disease, 70.1% had diffuse long lesions, 38.7% had diabetes, and 96.4% had been treated with drug-eluting stents.

At 2 years, a primary-outcome event had occurred in 46 of 849 patients (Kaplan-Meier estimate, 5.5%) in the functional-testing group and in 51 of 857 (Kaplan-Meier estimate, 6.0%) in the standard-care group (hazard ratio, 0.90; 95% confidence interval, 0.61-1.35; P = .62). There were no between-group differences in the components of the primary outcome.

Secondary endpoints included invasive coronary angiography or repeat revascularization. At 2 years, 12.3% of the patients in the functional-testing group and 9.3% in the standard-care group had undergone invasive coronary angiography (difference, 2.99 percentage points; 95% CI, −0.01 to 5.99 percentage points), and 8.1% and 5.8% of patients, respectively, had a repeat revascularization procedure (difference, 2.23 percentage points; 95% CI, −0.22 to 4.68 percentage points).

Positive results on stress tests were more common with nuclear imaging than with exercise ECG or stress echocardiography, the authors noted. Subsequent coronary angiography and repeat revascularization were more common in patients with positive results on nuclear stress imaging and exercise ECG than in those with discordant results between nuclear imaging and exercise ECG.

POST-PCI was funded by the CardioVascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Park reported grants from the Cardiovascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Tamis-Holland reported “other” funding from Pfizer  outside the submitted work. Dr. Wilson reported no relevant disclosures.

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

New randomized trial results show no benefit in clinical outcomes from active surveillance using functional testing over usual care among high-risk patients with previous percutaneous coronary intervention (PCI).

At 2 years, there was no difference in a composite outcome of death from any cause, MI, or hospitalization for unstable angina between patients who had routine functional testing at 1 year and patients receiving standard care in the POST-PCI trial.

“Our trial does not support active surveillance with routine functional testing for follow-up strategy in high-risk patients who undergo PCI,” first author Duk-Woo Park, MD, division of cardiology, Asan Medical Center, University of Ulsan, Seoul, South Korea, said in an interview.

The researchers said their results should be interpreted in the context of previous findings from the ISCHEMIA trial that showed no difference in death or ischemic events with an initial invasive versus an initial conservative approach in patients with stable coronary artery disease and moderate to severe ischemia on stress testing.

“Both the ISCHEMIA and POST-PCI trials show the benefits of a ‘less is more’ concept (i.e., if more invasive strategies or testing are performed less frequently, it will result in better patient outcomes),” the authors wrote. Although characteristics of the patients in these trials “were quite different, a more invasive therapeutic approach (in the ISCHEMIA trial) as well as a more aggressive follow-up approach (in the POST-PCI trial) did not provide an additional treatment effect beyond a conservative strategy on the basis of guideline-directed medical therapy.”

Results were presented at the annual congress of the European Society of Cardiology and published online simultaneously in the New England Journal of Medicine.
 

‘Compelling new evidence’

In an editorial accompanying the publication, Jacqueline E. Tamis-Holland, MD, Icahn School of Medicine at Mount Sinai, Mount Sinai Morningside Hospital, New York, also agreed that this new result “builds on the findings” from the ISCHEMIA trial. “Collectively, these trials highlight the lack of benefit of routine stress testing in asymptomatic patients.”

Dr. Tamis-Holland pointed out that many of the deaths in this trial occurred before the 1-year stress test, possibly related to stent thrombosis, and therefore would not have been prevented by routine testing at 1 year. And overall, event rates were “quite low, and most likely reflect adherence to guideline recommendations” in the trial. For example, 99% of patients were receiving statins, and 74% of the procedures used intravascular imaging for the PCI procedures, “a much greater proportion of use than most centers in the United States,” she noted.

“The POST-PCI trial provides compelling new evidence for a future class III recommendation for routine surveillance testing after PCI,” Dr. Tamis-Holland concluded “Until then, we must refrain from prescribing surveillance stress testing to our patients after PCI, in the absence of other clinical signs or symptoms suggestive of stent failure.”

Commenting on the results, B. Hadley Wilson, MD, executive vice chair of the Sanger Heart & Vascular Institute/Atrium Health, clinical professor of medicine at University of North Carolina at Chapel Hill, and vice president of the American College of Cardiology, said that for decades it’s been thought that patients who had high-risk PCI needed to be followed more closely for potential future events. 

“And it actually turned out there was no difference in outcomes between the groups,” he said in an interview.

“So, I think it’s a good study – well conducted, good numbers –  that answers the question that routine functional stress testing, even for high-risk PCI patients, is not effective or cost effective or beneficial on a yearly basis,” he said. “I think it will help frame care that patients will just be followed with best medical therapy and then if they have recurrence of symptoms they would be considered for further evaluation, either with stress testing or angiography.”
 

High-risk characteristics

Current guidelines do not advocate the use of routine stress testing after revascularization, the authors wrote in their paper. “However, surveillance with the use of imaging-based stress testing may be considered in high-risk patients at 6 months after a revascularization procedure (class IIb recommendation), and routine imaging-based stress testing may be considered at 1 year after PCI and more than 5 years after CABG [coronary artery bypass graft] (class IIb recommendation).”

But in real-world clinical practice, Dr. Park said, “follow-up strategy for patients who underwent PCI or CABG is still undetermined.” Particularly, “it could be more problematic in high-risk PCI patients with high-risk anatomical or clinical characteristics. Thus, we performed this POST-PCI trial comparing routine stress testing follow-up strategy versus standard-care follow-up strategy in high-risk PCI patients.”

The researchers randomly assigned 1,706 patients with high-risk anatomical or clinical characteristics who had undergone PCI to a follow-up strategy of routine functional testing, including nuclear stress testing, exercise electrocardiography, or stress echocardiography at 1 year, or to standard care alone.

High-risk anatomical features included left main or bifurcation disease; restenotic or long, diffuse lesions; or bypass graft disease. High-risk clinical characteristics included diabetes mellitus, chronic kidney disease, or enzyme-positive acute coronary syndrome.

Mean age of the patients was 64.7 years; 21.0% had left main disease, 43.5% had bifurcation disease, 69.8% had multivessel disease, 70.1% had diffuse long lesions, 38.7% had diabetes, and 96.4% had been treated with drug-eluting stents.

At 2 years, a primary-outcome event had occurred in 46 of 849 patients (Kaplan-Meier estimate, 5.5%) in the functional-testing group and in 51 of 857 (Kaplan-Meier estimate, 6.0%) in the standard-care group (hazard ratio, 0.90; 95% confidence interval, 0.61-1.35; P = .62). There were no between-group differences in the components of the primary outcome.

Secondary endpoints included invasive coronary angiography or repeat revascularization. At 2 years, 12.3% of the patients in the functional-testing group and 9.3% in the standard-care group had undergone invasive coronary angiography (difference, 2.99 percentage points; 95% CI, −0.01 to 5.99 percentage points), and 8.1% and 5.8% of patients, respectively, had a repeat revascularization procedure (difference, 2.23 percentage points; 95% CI, −0.22 to 4.68 percentage points).

Positive results on stress tests were more common with nuclear imaging than with exercise ECG or stress echocardiography, the authors noted. Subsequent coronary angiography and repeat revascularization were more common in patients with positive results on nuclear stress imaging and exercise ECG than in those with discordant results between nuclear imaging and exercise ECG.

POST-PCI was funded by the CardioVascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Park reported grants from the Cardiovascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Tamis-Holland reported “other” funding from Pfizer  outside the submitted work. Dr. Wilson reported no relevant disclosures.

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

New randomized trial results show no benefit in clinical outcomes from active surveillance using functional testing over usual care among high-risk patients with previous percutaneous coronary intervention (PCI).

At 2 years, there was no difference in a composite outcome of death from any cause, MI, or hospitalization for unstable angina between patients who had routine functional testing at 1 year and patients receiving standard care in the POST-PCI trial.

“Our trial does not support active surveillance with routine functional testing for follow-up strategy in high-risk patients who undergo PCI,” first author Duk-Woo Park, MD, division of cardiology, Asan Medical Center, University of Ulsan, Seoul, South Korea, said in an interview.

The researchers said their results should be interpreted in the context of previous findings from the ISCHEMIA trial that showed no difference in death or ischemic events with an initial invasive versus an initial conservative approach in patients with stable coronary artery disease and moderate to severe ischemia on stress testing.

“Both the ISCHEMIA and POST-PCI trials show the benefits of a ‘less is more’ concept (i.e., if more invasive strategies or testing are performed less frequently, it will result in better patient outcomes),” the authors wrote. Although characteristics of the patients in these trials “were quite different, a more invasive therapeutic approach (in the ISCHEMIA trial) as well as a more aggressive follow-up approach (in the POST-PCI trial) did not provide an additional treatment effect beyond a conservative strategy on the basis of guideline-directed medical therapy.”

Results were presented at the annual congress of the European Society of Cardiology and published online simultaneously in the New England Journal of Medicine.
 

‘Compelling new evidence’

In an editorial accompanying the publication, Jacqueline E. Tamis-Holland, MD, Icahn School of Medicine at Mount Sinai, Mount Sinai Morningside Hospital, New York, also agreed that this new result “builds on the findings” from the ISCHEMIA trial. “Collectively, these trials highlight the lack of benefit of routine stress testing in asymptomatic patients.”

Dr. Tamis-Holland pointed out that many of the deaths in this trial occurred before the 1-year stress test, possibly related to stent thrombosis, and therefore would not have been prevented by routine testing at 1 year. And overall, event rates were “quite low, and most likely reflect adherence to guideline recommendations” in the trial. For example, 99% of patients were receiving statins, and 74% of the procedures used intravascular imaging for the PCI procedures, “a much greater proportion of use than most centers in the United States,” she noted.

“The POST-PCI trial provides compelling new evidence for a future class III recommendation for routine surveillance testing after PCI,” Dr. Tamis-Holland concluded “Until then, we must refrain from prescribing surveillance stress testing to our patients after PCI, in the absence of other clinical signs or symptoms suggestive of stent failure.”

Commenting on the results, B. Hadley Wilson, MD, executive vice chair of the Sanger Heart & Vascular Institute/Atrium Health, clinical professor of medicine at University of North Carolina at Chapel Hill, and vice president of the American College of Cardiology, said that for decades it’s been thought that patients who had high-risk PCI needed to be followed more closely for potential future events. 

“And it actually turned out there was no difference in outcomes between the groups,” he said in an interview.

“So, I think it’s a good study – well conducted, good numbers –  that answers the question that routine functional stress testing, even for high-risk PCI patients, is not effective or cost effective or beneficial on a yearly basis,” he said. “I think it will help frame care that patients will just be followed with best medical therapy and then if they have recurrence of symptoms they would be considered for further evaluation, either with stress testing or angiography.”
 

High-risk characteristics

Current guidelines do not advocate the use of routine stress testing after revascularization, the authors wrote in their paper. “However, surveillance with the use of imaging-based stress testing may be considered in high-risk patients at 6 months after a revascularization procedure (class IIb recommendation), and routine imaging-based stress testing may be considered at 1 year after PCI and more than 5 years after CABG [coronary artery bypass graft] (class IIb recommendation).”

But in real-world clinical practice, Dr. Park said, “follow-up strategy for patients who underwent PCI or CABG is still undetermined.” Particularly, “it could be more problematic in high-risk PCI patients with high-risk anatomical or clinical characteristics. Thus, we performed this POST-PCI trial comparing routine stress testing follow-up strategy versus standard-care follow-up strategy in high-risk PCI patients.”

The researchers randomly assigned 1,706 patients with high-risk anatomical or clinical characteristics who had undergone PCI to a follow-up strategy of routine functional testing, including nuclear stress testing, exercise electrocardiography, or stress echocardiography at 1 year, or to standard care alone.

High-risk anatomical features included left main or bifurcation disease; restenotic or long, diffuse lesions; or bypass graft disease. High-risk clinical characteristics included diabetes mellitus, chronic kidney disease, or enzyme-positive acute coronary syndrome.

Mean age of the patients was 64.7 years; 21.0% had left main disease, 43.5% had bifurcation disease, 69.8% had multivessel disease, 70.1% had diffuse long lesions, 38.7% had diabetes, and 96.4% had been treated with drug-eluting stents.

At 2 years, a primary-outcome event had occurred in 46 of 849 patients (Kaplan-Meier estimate, 5.5%) in the functional-testing group and in 51 of 857 (Kaplan-Meier estimate, 6.0%) in the standard-care group (hazard ratio, 0.90; 95% confidence interval, 0.61-1.35; P = .62). There were no between-group differences in the components of the primary outcome.

Secondary endpoints included invasive coronary angiography or repeat revascularization. At 2 years, 12.3% of the patients in the functional-testing group and 9.3% in the standard-care group had undergone invasive coronary angiography (difference, 2.99 percentage points; 95% CI, −0.01 to 5.99 percentage points), and 8.1% and 5.8% of patients, respectively, had a repeat revascularization procedure (difference, 2.23 percentage points; 95% CI, −0.22 to 4.68 percentage points).

Positive results on stress tests were more common with nuclear imaging than with exercise ECG or stress echocardiography, the authors noted. Subsequent coronary angiography and repeat revascularization were more common in patients with positive results on nuclear stress imaging and exercise ECG than in those with discordant results between nuclear imaging and exercise ECG.

POST-PCI was funded by the CardioVascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Park reported grants from the Cardiovascular Research Foundation and Daewoong Pharmaceutical Company. Dr. Tamis-Holland reported “other” funding from Pfizer  outside the submitted work. Dr. Wilson reported no relevant disclosures.

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

Comprehensive image-based cardiovascular screening in men aged 65-74 years did not significantly reduce all-cause mortality in a new Danish study, although there were strong suggestions of benefit in some cardiovascular endpoints in the whole group and also in mortality in those aged younger than 70.

The DANCAVAS study was presented at the annual congress of the European Society of Cardiology, being held in Barcelona. It was also simultaneously published online in The New England Journal of Medicine.

“I do believe there is something in this study,” lead investigator Axel Diederichsen, PhD, Odense University Hospital, Denmark, told this news organization.

“We can decrease all-cause mortality by screening in men younger than 70. That’s amazing, I think. And in the entire group the composite endpoint of all-cause mortality/MI/stroke was significantly reduced by 7%.”

He pointed out that only 63% of the screening group actually attended the tests. “So that 63% had to account for the difference of 100% of the screening group, with an all-cause mortality endpoint. That is very ambitious. But even so, we were very close to meeting the all-cause mortality primary endpoint.”

Dr. Diederichsen believes the data could support such cardiovascular screening in men younger than 70. “In Denmark, I think this would be feasible, and our study suggests it would be cost effective compared to cancer screening,” he said.

Noting that Denmark has a relatively healthy population with good routine care, he added: “In other countries where it can be more difficult to access care or where cardiovascular health is not so good, such a screening program would probably have a greater effect.”

The population-based DANCAVAS trial randomly assigned 46,611 Danish men aged 65-74 years in a 1:2 ratio to undergo screening (invited group) or not to undergo screening (control group) for subclinical cardiovascular disease.

Screening included non-contrast electrocardiography-gated CT to determine the coronary-artery calcium score and to detect aneurysms and atrial fibrillation; ankle–brachial blood-pressure measurements to detect peripheral artery disease and hypertension; and a blood sample to detect diabetes and hypercholesterolemia. Of the 16,736 men who were invited to the screening group, 10,471 (62.6%) actually attended for the screening.

In intention-to-treat analyses, after a median follow-up of 5.6 years, the primary endpoint (all cause death) had occurred in 2,106 men (12.6%) in the invited group and 3,915 men (13.1%) in the control group (hazard ratio, 0.95; 95% confidence interval, 0.90-1.00; P = .06).

The hazard ratio for stroke in the invited group, compared with the control group, was 0.93 (95% confidence interval, 0.86-0.99); for MI, 0.91 (95% CI, 0.81-1.03); for aortic dissection, 0.95 (95% CI, 0.61-1.49); and for aortic rupture, 0.81 (95% CI, 0.49-1.35).

The post-hoc composite endpoint of all-cause mortality/stroke/MI was reduced by 7%, with a hazard ratio of 0.93 (95% CI, 0.89-0.97).

There were no significant between-group differences in safety outcomes.

Subgroup analysis showed that the primary outcome of all-cause mortality was significantly reduced in men invited to screening who were aged 65-69 years (HR, 0.89; 95% CI, 0.83-0.96), with no effect in men aged 70-74.

Other findings showed that in the group invited to screening, there was a large increase in use of antiplatelet medication (HR, 3.12) and in lipid lowering agents (HR, 2.54) but no difference in use of anticoagulants, antihypertensives, and diabetes drugs or in coronary or aortic revascularization.  

In terms of cost-effectiveness, the total additional health care costs were €207 ($206 U.S.) per person in the invited group, which included the screening, medication, and all physician and hospital visits.

The quality-adjusted life-year (QALY) gained per person was 0.023, with an incremental cost-effectiveness ratio of €9,075 ($9,043) per QALY in the whole cohort and €3,860 ($3,846) in the men aged 65-69.

Dr. Diederichsen said these figures compared favorably to cancer screening, with breast cancer screening having a cost-effectiveness ratio of €22,000 ($21,923) per QALY.

“This study is a step in the right direction,” Dr. Diederichsen said in an interview. But governments will have to decide if they want to spend public money on this type of screening. I would like this to happen. We can make a case for it with this data.”

He said the study had also collected some data on younger men – aged 60-64 – and in a small group of women, which has not been analyzed yet. “We would like to look at this to help us formulate recommendations,” he added.
 

Increased medical therapy

Designated discussant of the study at the ESC session, Harriette Van Spall, MD, McMaster University, Hamilton, Ont., congratulated the DANCAVAS investigators for the trial, which she said was “implemented perfectly.”

“This is the kind of trial that is very difficult to run but comes from a big body of research from this remarkable group,” she commented.

Dr. Van Spall pointed out that it looked likely that any benefits from the screening approach were brought about by increased use of medical therapy alone (antiplatelet and lipid-lowering drugs). She added that the lack of an active screening comparator group made it unclear whether full CT imaging is more effective than active screening for traditional risk factors or assessment of global cardiovascular risk scores, and there was a missed opportunity to screen for and treat cigarette smoking in the intervention group.

“Aspects of the screening such as a full CT could be considered resource-intensive and not feasible in some health care systems. A strength of restricting the abdominal aorta iliac screening to a risk-enriched group – perhaps cigarette smokers – could have conserved additional resources,” she suggested.

Because 37% of the invited group did not attend for screening and at baseline these non-attendees had more comorbidities, this may have caused a bias in the intention to treat analysis toward the control group, thus underestimating the benefit of screening. There is therefore a role for a secondary on-treatment analysis, she noted.

Dr. Van Spall also pointed out that because of the population involved in this study, inferences can only be made to Danish men aged 65-74. 

Noting that cardiovascular disease is relevant to everyone, accounting for 24% of deaths in Danish females and 25% of deaths in Danish males, she asked the investigators to consider eliminating sex-based eligibility criteria in their next big cardiovascular prevention trial.

Susanna Price, MD, Royal Brompton Hospital, London, and cochair of the ESC session at which DANCAVAS was presented, described the study as “really interesting” and useful in planning future screening approaches.

“Although the primary endpoint was neutral, and so the results may not change practice at this time, it should promote a look at different predefined endpoints in a larger population, including both men and women, to see what the best screening interventions would be,” she commented.

“What is interesting is that we are seeing huge amounts of money being spent on acute cardiac patients after having an event, but here we are beginning to shift the focus on how to prevent cardiovascular morbidity and mortality. That is starting to be the trend in cardiovascular medicine.”

Also commenting for this news organization, Dipti Itchhaporia, MD, University of California, Irvine, and immediate past president of the American College of Cardiology, said: “This study is asking the important question of whether comprehensive cardiovascular screening is needed, but I don’t think it has fully given the answer, although there did appear to be some benefit in those under 70.”

Dr. Itchhaporia questioned whether the 5-year follow up was long enough to show the true benefit of screening, and she suggested that a different approach with a longer monitoring period may have been better to detect AFib.

The DANCAVAS study was supported by the Southern Region of Denmark, the Danish Heart Foundation, and the Danish Independent Research Councils.

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

Comprehensive image-based cardiovascular screening in men aged 65-74 years did not significantly reduce all-cause mortality in a new Danish study, although there were strong suggestions of benefit in some cardiovascular endpoints in the whole group and also in mortality in those aged younger than 70.

The DANCAVAS study was presented at the annual congress of the European Society of Cardiology, being held in Barcelona. It was also simultaneously published online in The New England Journal of Medicine.

“I do believe there is something in this study,” lead investigator Axel Diederichsen, PhD, Odense University Hospital, Denmark, told this news organization.

“We can decrease all-cause mortality by screening in men younger than 70. That’s amazing, I think. And in the entire group the composite endpoint of all-cause mortality/MI/stroke was significantly reduced by 7%.”

He pointed out that only 63% of the screening group actually attended the tests. “So that 63% had to account for the difference of 100% of the screening group, with an all-cause mortality endpoint. That is very ambitious. But even so, we were very close to meeting the all-cause mortality primary endpoint.”

Dr. Diederichsen believes the data could support such cardiovascular screening in men younger than 70. “In Denmark, I think this would be feasible, and our study suggests it would be cost effective compared to cancer screening,” he said.

Noting that Denmark has a relatively healthy population with good routine care, he added: “In other countries where it can be more difficult to access care or where cardiovascular health is not so good, such a screening program would probably have a greater effect.”

The population-based DANCAVAS trial randomly assigned 46,611 Danish men aged 65-74 years in a 1:2 ratio to undergo screening (invited group) or not to undergo screening (control group) for subclinical cardiovascular disease.

Screening included non-contrast electrocardiography-gated CT to determine the coronary-artery calcium score and to detect aneurysms and atrial fibrillation; ankle–brachial blood-pressure measurements to detect peripheral artery disease and hypertension; and a blood sample to detect diabetes and hypercholesterolemia. Of the 16,736 men who were invited to the screening group, 10,471 (62.6%) actually attended for the screening.

In intention-to-treat analyses, after a median follow-up of 5.6 years, the primary endpoint (all cause death) had occurred in 2,106 men (12.6%) in the invited group and 3,915 men (13.1%) in the control group (hazard ratio, 0.95; 95% confidence interval, 0.90-1.00; P = .06).

The hazard ratio for stroke in the invited group, compared with the control group, was 0.93 (95% confidence interval, 0.86-0.99); for MI, 0.91 (95% CI, 0.81-1.03); for aortic dissection, 0.95 (95% CI, 0.61-1.49); and for aortic rupture, 0.81 (95% CI, 0.49-1.35).

The post-hoc composite endpoint of all-cause mortality/stroke/MI was reduced by 7%, with a hazard ratio of 0.93 (95% CI, 0.89-0.97).

There were no significant between-group differences in safety outcomes.

Subgroup analysis showed that the primary outcome of all-cause mortality was significantly reduced in men invited to screening who were aged 65-69 years (HR, 0.89; 95% CI, 0.83-0.96), with no effect in men aged 70-74.

Other findings showed that in the group invited to screening, there was a large increase in use of antiplatelet medication (HR, 3.12) and in lipid lowering agents (HR, 2.54) but no difference in use of anticoagulants, antihypertensives, and diabetes drugs or in coronary or aortic revascularization.  

In terms of cost-effectiveness, the total additional health care costs were €207 ($206 U.S.) per person in the invited group, which included the screening, medication, and all physician and hospital visits.

The quality-adjusted life-year (QALY) gained per person was 0.023, with an incremental cost-effectiveness ratio of €9,075 ($9,043) per QALY in the whole cohort and €3,860 ($3,846) in the men aged 65-69.

Dr. Diederichsen said these figures compared favorably to cancer screening, with breast cancer screening having a cost-effectiveness ratio of €22,000 ($21,923) per QALY.

“This study is a step in the right direction,” Dr. Diederichsen said in an interview. But governments will have to decide if they want to spend public money on this type of screening. I would like this to happen. We can make a case for it with this data.”

He said the study had also collected some data on younger men – aged 60-64 – and in a small group of women, which has not been analyzed yet. “We would like to look at this to help us formulate recommendations,” he added.
 

Increased medical therapy

Designated discussant of the study at the ESC session, Harriette Van Spall, MD, McMaster University, Hamilton, Ont., congratulated the DANCAVAS investigators for the trial, which she said was “implemented perfectly.”

“This is the kind of trial that is very difficult to run but comes from a big body of research from this remarkable group,” she commented.

Dr. Van Spall pointed out that it looked likely that any benefits from the screening approach were brought about by increased use of medical therapy alone (antiplatelet and lipid-lowering drugs). She added that the lack of an active screening comparator group made it unclear whether full CT imaging is more effective than active screening for traditional risk factors or assessment of global cardiovascular risk scores, and there was a missed opportunity to screen for and treat cigarette smoking in the intervention group.

“Aspects of the screening such as a full CT could be considered resource-intensive and not feasible in some health care systems. A strength of restricting the abdominal aorta iliac screening to a risk-enriched group – perhaps cigarette smokers – could have conserved additional resources,” she suggested.

Because 37% of the invited group did not attend for screening and at baseline these non-attendees had more comorbidities, this may have caused a bias in the intention to treat analysis toward the control group, thus underestimating the benefit of screening. There is therefore a role for a secondary on-treatment analysis, she noted.

Dr. Van Spall also pointed out that because of the population involved in this study, inferences can only be made to Danish men aged 65-74. 

Noting that cardiovascular disease is relevant to everyone, accounting for 24% of deaths in Danish females and 25% of deaths in Danish males, she asked the investigators to consider eliminating sex-based eligibility criteria in their next big cardiovascular prevention trial.

Susanna Price, MD, Royal Brompton Hospital, London, and cochair of the ESC session at which DANCAVAS was presented, described the study as “really interesting” and useful in planning future screening approaches.

“Although the primary endpoint was neutral, and so the results may not change practice at this time, it should promote a look at different predefined endpoints in a larger population, including both men and women, to see what the best screening interventions would be,” she commented.

“What is interesting is that we are seeing huge amounts of money being spent on acute cardiac patients after having an event, but here we are beginning to shift the focus on how to prevent cardiovascular morbidity and mortality. That is starting to be the trend in cardiovascular medicine.”

Also commenting for this news organization, Dipti Itchhaporia, MD, University of California, Irvine, and immediate past president of the American College of Cardiology, said: “This study is asking the important question of whether comprehensive cardiovascular screening is needed, but I don’t think it has fully given the answer, although there did appear to be some benefit in those under 70.”

Dr. Itchhaporia questioned whether the 5-year follow up was long enough to show the true benefit of screening, and she suggested that a different approach with a longer monitoring period may have been better to detect AFib.

The DANCAVAS study was supported by the Southern Region of Denmark, the Danish Heart Foundation, and the Danish Independent Research Councils.

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

Comprehensive image-based cardiovascular screening in men aged 65-74 years did not significantly reduce all-cause mortality in a new Danish study, although there were strong suggestions of benefit in some cardiovascular endpoints in the whole group and also in mortality in those aged younger than 70.

The DANCAVAS study was presented at the annual congress of the European Society of Cardiology, being held in Barcelona. It was also simultaneously published online in The New England Journal of Medicine.

“I do believe there is something in this study,” lead investigator Axel Diederichsen, PhD, Odense University Hospital, Denmark, told this news organization.

“We can decrease all-cause mortality by screening in men younger than 70. That’s amazing, I think. And in the entire group the composite endpoint of all-cause mortality/MI/stroke was significantly reduced by 7%.”

He pointed out that only 63% of the screening group actually attended the tests. “So that 63% had to account for the difference of 100% of the screening group, with an all-cause mortality endpoint. That is very ambitious. But even so, we were very close to meeting the all-cause mortality primary endpoint.”

Dr. Diederichsen believes the data could support such cardiovascular screening in men younger than 70. “In Denmark, I think this would be feasible, and our study suggests it would be cost effective compared to cancer screening,” he said.

Noting that Denmark has a relatively healthy population with good routine care, he added: “In other countries where it can be more difficult to access care or where cardiovascular health is not so good, such a screening program would probably have a greater effect.”

The population-based DANCAVAS trial randomly assigned 46,611 Danish men aged 65-74 years in a 1:2 ratio to undergo screening (invited group) or not to undergo screening (control group) for subclinical cardiovascular disease.

Screening included non-contrast electrocardiography-gated CT to determine the coronary-artery calcium score and to detect aneurysms and atrial fibrillation; ankle–brachial blood-pressure measurements to detect peripheral artery disease and hypertension; and a blood sample to detect diabetes and hypercholesterolemia. Of the 16,736 men who were invited to the screening group, 10,471 (62.6%) actually attended for the screening.

In intention-to-treat analyses, after a median follow-up of 5.6 years, the primary endpoint (all cause death) had occurred in 2,106 men (12.6%) in the invited group and 3,915 men (13.1%) in the control group (hazard ratio, 0.95; 95% confidence interval, 0.90-1.00; P = .06).

The hazard ratio for stroke in the invited group, compared with the control group, was 0.93 (95% confidence interval, 0.86-0.99); for MI, 0.91 (95% CI, 0.81-1.03); for aortic dissection, 0.95 (95% CI, 0.61-1.49); and for aortic rupture, 0.81 (95% CI, 0.49-1.35).

The post-hoc composite endpoint of all-cause mortality/stroke/MI was reduced by 7%, with a hazard ratio of 0.93 (95% CI, 0.89-0.97).

There were no significant between-group differences in safety outcomes.

Subgroup analysis showed that the primary outcome of all-cause mortality was significantly reduced in men invited to screening who were aged 65-69 years (HR, 0.89; 95% CI, 0.83-0.96), with no effect in men aged 70-74.

Other findings showed that in the group invited to screening, there was a large increase in use of antiplatelet medication (HR, 3.12) and in lipid lowering agents (HR, 2.54) but no difference in use of anticoagulants, antihypertensives, and diabetes drugs or in coronary or aortic revascularization.  

In terms of cost-effectiveness, the total additional health care costs were €207 ($206 U.S.) per person in the invited group, which included the screening, medication, and all physician and hospital visits.

The quality-adjusted life-year (QALY) gained per person was 0.023, with an incremental cost-effectiveness ratio of €9,075 ($9,043) per QALY in the whole cohort and €3,860 ($3,846) in the men aged 65-69.

Dr. Diederichsen said these figures compared favorably to cancer screening, with breast cancer screening having a cost-effectiveness ratio of €22,000 ($21,923) per QALY.

“This study is a step in the right direction,” Dr. Diederichsen said in an interview. But governments will have to decide if they want to spend public money on this type of screening. I would like this to happen. We can make a case for it with this data.”

He said the study had also collected some data on younger men – aged 60-64 – and in a small group of women, which has not been analyzed yet. “We would like to look at this to help us formulate recommendations,” he added.
 

Increased medical therapy

Designated discussant of the study at the ESC session, Harriette Van Spall, MD, McMaster University, Hamilton, Ont., congratulated the DANCAVAS investigators for the trial, which she said was “implemented perfectly.”

“This is the kind of trial that is very difficult to run but comes from a big body of research from this remarkable group,” she commented.

Dr. Van Spall pointed out that it looked likely that any benefits from the screening approach were brought about by increased use of medical therapy alone (antiplatelet and lipid-lowering drugs). She added that the lack of an active screening comparator group made it unclear whether full CT imaging is more effective than active screening for traditional risk factors or assessment of global cardiovascular risk scores, and there was a missed opportunity to screen for and treat cigarette smoking in the intervention group.

“Aspects of the screening such as a full CT could be considered resource-intensive and not feasible in some health care systems. A strength of restricting the abdominal aorta iliac screening to a risk-enriched group – perhaps cigarette smokers – could have conserved additional resources,” she suggested.

Because 37% of the invited group did not attend for screening and at baseline these non-attendees had more comorbidities, this may have caused a bias in the intention to treat analysis toward the control group, thus underestimating the benefit of screening. There is therefore a role for a secondary on-treatment analysis, she noted.

Dr. Van Spall also pointed out that because of the population involved in this study, inferences can only be made to Danish men aged 65-74. 

Noting that cardiovascular disease is relevant to everyone, accounting for 24% of deaths in Danish females and 25% of deaths in Danish males, she asked the investigators to consider eliminating sex-based eligibility criteria in their next big cardiovascular prevention trial.

Susanna Price, MD, Royal Brompton Hospital, London, and cochair of the ESC session at which DANCAVAS was presented, described the study as “really interesting” and useful in planning future screening approaches.

“Although the primary endpoint was neutral, and so the results may not change practice at this time, it should promote a look at different predefined endpoints in a larger population, including both men and women, to see what the best screening interventions would be,” she commented.

“What is interesting is that we are seeing huge amounts of money being spent on acute cardiac patients after having an event, but here we are beginning to shift the focus on how to prevent cardiovascular morbidity and mortality. That is starting to be the trend in cardiovascular medicine.”

Also commenting for this news organization, Dipti Itchhaporia, MD, University of California, Irvine, and immediate past president of the American College of Cardiology, said: “This study is asking the important question of whether comprehensive cardiovascular screening is needed, but I don’t think it has fully given the answer, although there did appear to be some benefit in those under 70.”

Dr. Itchhaporia questioned whether the 5-year follow up was long enough to show the true benefit of screening, and she suggested that a different approach with a longer monitoring period may have been better to detect AFib.

The DANCAVAS study was supported by the Southern Region of Denmark, the Danish Heart Foundation, and the Danish Independent Research Councils.

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

Video-based artificial intelligence provided a more accurate and consistent reading of echocardiograms than did experienced sonographers in a blinded trial, a result suggesting that this technology is no longer experimental.

“We are planning to deploy this at Cedars, so this is essentially ready for use,” said David Ouyang, MD, who is affiliated with the Cedars-Sinai Medical School and is an instructor of cardiology at the University of California, both in Los Angeles.

The primary outcome of this trial, called EchoNet-RCT, was the proportion of cases in which cardiologists changed the left ventricular ejection fraction (LVEF) reading by more than 5%. They were blinded to the origin of the reports.

This endpoint was reached in 27.2% of reports generated by sonographers but just 16.8% of reports generated by AI, a mean difference of 10.5% (P < .001).

The AI tested in the trial is called EchoNet-Dynamic. It employs a video-based deep learning algorithm that permits beat-by-beat evaluation of ejection fraction. The specifics of this system were described in a study published 2 years ago in Nature. In that evaluation of the model training set, the absolute error rate was 6% in the more than 10,000 annotated echocardiogram videos.
 

Echo-Net is first blinded AI echo trial

Although AI is already being employed for image evaluation in many areas of medicine, the EchoNet-RCT study “is the first blinded trial of AI in cardiology,” Dr. Ouyang said. Indeed, he noted that no prior study has even been randomized.

After a run-in period, 3,495 echocardiograms were randomizly assigned to be read by AI or by a sonographer. The reports generated by these two approaches were then evaluated by the blinded cardiologists. The sonographers and the cardiologists participating in this study had a mean of 14.1 years and 12.7 years of experience, respectively.

Each reading by both sonographers and AI was based on a single beat, but this presumably was a relative handicap for the potential advantage of AI technology, which is capable of evaluating ejection fraction across multiple cardiac cycles. The evaluation of multiple cycles has been shown previously to improve accuracy, but it is tedious and not commonly performed in routine practice, according to Dr. Ouyang.
 

AI favored for all major endpoints

The superiority of AI was calculated after noninferiority was demonstrated. AI also showed superiority for the secondary safety outcome which involved a test-retest evaluation. Historical AI and sonographer echocardiogram reports were again blindly assessed. Although the retest variability was lower for both (6.29% vs. 7.23%), the difference was still highly significant in favor of AI (P < .001)

The relative efficiency of AI to sonographer assessment was also tested and showed meaningful reductions in work time. While AI eliminates the labor of the sonographer completely (0 vs. a median of 119 seconds, P < .001), it was also associated with a highly significant reduction in median cardiologist time spent on echo evaluation (54 vs. 64 seconds, P < .001).

Assuming that AI is integrated into the routine workflow of a busy center, AI “could be very effective at not only improving the quality of echo reading output but also increasing efficiencies in time and effort spent by sonographers and cardiologists by simplifying otherwise tedious but important tasks,” Dr. Ouyang said.

The trial enrolled a relatively typical population. The median age was 66 years, 57% were male, and comorbidities such as diabetes and chronic kidney disease were common. When AI was compared with sonographer evaluation in groups stratified by these variables as well as by race, image quality, and location of the evaluation (inpatient vs. outpatient), the advantage of AI was consistent.

Cardiologists cannot detect AI-read echos

Identifying potential limitations of this study, James D. Thomas, MD, professor of medicine, Northwestern University, Chicago, pointed out that it was a single-center trial, and he questioned a potential bias from cardiologists able to guess accurately which of the reports they were evaluating were generated by AI.

Dr. Ouyang acknowledged that this study was limited to patients at UCLA, but he pointed out that the training model was developed at Stanford (Calif.) University, so there were two sets of patients involved in testing the machine learning algorithm. He also noted that it was exceptionally large, providing a robust dataset.

As for the bias, this was evaluated as predefined endpoint.

“We asked the cardiologists to tell us [whether] they knew which reports were generated by AI,” Dr. Ouyang said. In 43% of cases, they reported they were not sure. However, when they did express confidence that the report was generated by AI, they were correct in only 32% of the cases and incorrect in 24%. Dr. Ouyang suggested these numbers argue against a substantial role for a bias affecting the trial results.

Dr. Thomas, who has an interest in the role of AI for cardiology, cautioned that there are “technical, privacy, commercial, maintenance, and regulatory barriers” that must be circumvented before AI is widely incorporated into clinical practice, but he praised this blinded trial for advancing the field. Even accounting for any limitations, he clearly shared Dr. Ouyang’s enthusiasm about the future of AI for EF assessment.

Dr. Ouyang reports financial relationships with EchoIQ, Ultromics, and InVision. Dr. Thomas reports financial relationships with Abbott, GE, egnite, EchoIQ, and Caption Health.

Video-based artificial intelligence provided a more accurate and consistent reading of echocardiograms than did experienced sonographers in a blinded trial, a result suggesting that this technology is no longer experimental.

“We are planning to deploy this at Cedars, so this is essentially ready for use,” said David Ouyang, MD, who is affiliated with the Cedars-Sinai Medical School and is an instructor of cardiology at the University of California, both in Los Angeles.

The primary outcome of this trial, called EchoNet-RCT, was the proportion of cases in which cardiologists changed the left ventricular ejection fraction (LVEF) reading by more than 5%. They were blinded to the origin of the reports.

This endpoint was reached in 27.2% of reports generated by sonographers but just 16.8% of reports generated by AI, a mean difference of 10.5% (P < .001).

The AI tested in the trial is called EchoNet-Dynamic. It employs a video-based deep learning algorithm that permits beat-by-beat evaluation of ejection fraction. The specifics of this system were described in a study published 2 years ago in Nature. In that evaluation of the model training set, the absolute error rate was 6% in the more than 10,000 annotated echocardiogram videos.
 

Echo-Net is first blinded AI echo trial

Although AI is already being employed for image evaluation in many areas of medicine, the EchoNet-RCT study “is the first blinded trial of AI in cardiology,” Dr. Ouyang said. Indeed, he noted that no prior study has even been randomized.

After a run-in period, 3,495 echocardiograms were randomizly assigned to be read by AI or by a sonographer. The reports generated by these two approaches were then evaluated by the blinded cardiologists. The sonographers and the cardiologists participating in this study had a mean of 14.1 years and 12.7 years of experience, respectively.

Each reading by both sonographers and AI was based on a single beat, but this presumably was a relative handicap for the potential advantage of AI technology, which is capable of evaluating ejection fraction across multiple cardiac cycles. The evaluation of multiple cycles has been shown previously to improve accuracy, but it is tedious and not commonly performed in routine practice, according to Dr. Ouyang.
 

AI favored for all major endpoints

The superiority of AI was calculated after noninferiority was demonstrated. AI also showed superiority for the secondary safety outcome which involved a test-retest evaluation. Historical AI and sonographer echocardiogram reports were again blindly assessed. Although the retest variability was lower for both (6.29% vs. 7.23%), the difference was still highly significant in favor of AI (P < .001)

The relative efficiency of AI to sonographer assessment was also tested and showed meaningful reductions in work time. While AI eliminates the labor of the sonographer completely (0 vs. a median of 119 seconds, P < .001), it was also associated with a highly significant reduction in median cardiologist time spent on echo evaluation (54 vs. 64 seconds, P < .001).

Assuming that AI is integrated into the routine workflow of a busy center, AI “could be very effective at not only improving the quality of echo reading output but also increasing efficiencies in time and effort spent by sonographers and cardiologists by simplifying otherwise tedious but important tasks,” Dr. Ouyang said.

The trial enrolled a relatively typical population. The median age was 66 years, 57% were male, and comorbidities such as diabetes and chronic kidney disease were common. When AI was compared with sonographer evaluation in groups stratified by these variables as well as by race, image quality, and location of the evaluation (inpatient vs. outpatient), the advantage of AI was consistent.

Cardiologists cannot detect AI-read echos

Identifying potential limitations of this study, James D. Thomas, MD, professor of medicine, Northwestern University, Chicago, pointed out that it was a single-center trial, and he questioned a potential bias from cardiologists able to guess accurately which of the reports they were evaluating were generated by AI.

Dr. Ouyang acknowledged that this study was limited to patients at UCLA, but he pointed out that the training model was developed at Stanford (Calif.) University, so there were two sets of patients involved in testing the machine learning algorithm. He also noted that it was exceptionally large, providing a robust dataset.

As for the bias, this was evaluated as predefined endpoint.

“We asked the cardiologists to tell us [whether] they knew which reports were generated by AI,” Dr. Ouyang said. In 43% of cases, they reported they were not sure. However, when they did express confidence that the report was generated by AI, they were correct in only 32% of the cases and incorrect in 24%. Dr. Ouyang suggested these numbers argue against a substantial role for a bias affecting the trial results.

Dr. Thomas, who has an interest in the role of AI for cardiology, cautioned that there are “technical, privacy, commercial, maintenance, and regulatory barriers” that must be circumvented before AI is widely incorporated into clinical practice, but he praised this blinded trial for advancing the field. Even accounting for any limitations, he clearly shared Dr. Ouyang’s enthusiasm about the future of AI for EF assessment.

Dr. Ouyang reports financial relationships with EchoIQ, Ultromics, and InVision. Dr. Thomas reports financial relationships with Abbott, GE, egnite, EchoIQ, and Caption Health.

Video-based artificial intelligence provided a more accurate and consistent reading of echocardiograms than did experienced sonographers in a blinded trial, a result suggesting that this technology is no longer experimental.

“We are planning to deploy this at Cedars, so this is essentially ready for use,” said David Ouyang, MD, who is affiliated with the Cedars-Sinai Medical School and is an instructor of cardiology at the University of California, both in Los Angeles.

The primary outcome of this trial, called EchoNet-RCT, was the proportion of cases in which cardiologists changed the left ventricular ejection fraction (LVEF) reading by more than 5%. They were blinded to the origin of the reports.

This endpoint was reached in 27.2% of reports generated by sonographers but just 16.8% of reports generated by AI, a mean difference of 10.5% (P < .001).

The AI tested in the trial is called EchoNet-Dynamic. It employs a video-based deep learning algorithm that permits beat-by-beat evaluation of ejection fraction. The specifics of this system were described in a study published 2 years ago in Nature. In that evaluation of the model training set, the absolute error rate was 6% in the more than 10,000 annotated echocardiogram videos.
 

Echo-Net is first blinded AI echo trial

Although AI is already being employed for image evaluation in many areas of medicine, the EchoNet-RCT study “is the first blinded trial of AI in cardiology,” Dr. Ouyang said. Indeed, he noted that no prior study has even been randomized.

After a run-in period, 3,495 echocardiograms were randomizly assigned to be read by AI or by a sonographer. The reports generated by these two approaches were then evaluated by the blinded cardiologists. The sonographers and the cardiologists participating in this study had a mean of 14.1 years and 12.7 years of experience, respectively.

Each reading by both sonographers and AI was based on a single beat, but this presumably was a relative handicap for the potential advantage of AI technology, which is capable of evaluating ejection fraction across multiple cardiac cycles. The evaluation of multiple cycles has been shown previously to improve accuracy, but it is tedious and not commonly performed in routine practice, according to Dr. Ouyang.
 

AI favored for all major endpoints

The superiority of AI was calculated after noninferiority was demonstrated. AI also showed superiority for the secondary safety outcome which involved a test-retest evaluation. Historical AI and sonographer echocardiogram reports were again blindly assessed. Although the retest variability was lower for both (6.29% vs. 7.23%), the difference was still highly significant in favor of AI (P < .001)

The relative efficiency of AI to sonographer assessment was also tested and showed meaningful reductions in work time. While AI eliminates the labor of the sonographer completely (0 vs. a median of 119 seconds, P < .001), it was also associated with a highly significant reduction in median cardiologist time spent on echo evaluation (54 vs. 64 seconds, P < .001).

Assuming that AI is integrated into the routine workflow of a busy center, AI “could be very effective at not only improving the quality of echo reading output but also increasing efficiencies in time and effort spent by sonographers and cardiologists by simplifying otherwise tedious but important tasks,” Dr. Ouyang said.

The trial enrolled a relatively typical population. The median age was 66 years, 57% were male, and comorbidities such as diabetes and chronic kidney disease were common. When AI was compared with sonographer evaluation in groups stratified by these variables as well as by race, image quality, and location of the evaluation (inpatient vs. outpatient), the advantage of AI was consistent.

Cardiologists cannot detect AI-read echos

Identifying potential limitations of this study, James D. Thomas, MD, professor of medicine, Northwestern University, Chicago, pointed out that it was a single-center trial, and he questioned a potential bias from cardiologists able to guess accurately which of the reports they were evaluating were generated by AI.

Dr. Ouyang acknowledged that this study was limited to patients at UCLA, but he pointed out that the training model was developed at Stanford (Calif.) University, so there were two sets of patients involved in testing the machine learning algorithm. He also noted that it was exceptionally large, providing a robust dataset.

As for the bias, this was evaluated as predefined endpoint.

“We asked the cardiologists to tell us [whether] they knew which reports were generated by AI,” Dr. Ouyang said. In 43% of cases, they reported they were not sure. However, when they did express confidence that the report was generated by AI, they were correct in only 32% of the cases and incorrect in 24%. Dr. Ouyang suggested these numbers argue against a substantial role for a bias affecting the trial results.

Dr. Thomas, who has an interest in the role of AI for cardiology, cautioned that there are “technical, privacy, commercial, maintenance, and regulatory barriers” that must be circumvented before AI is widely incorporated into clinical practice, but he praised this blinded trial for advancing the field. Even accounting for any limitations, he clearly shared Dr. Ouyang’s enthusiasm about the future of AI for EF assessment.

Dr. Ouyang reports financial relationships with EchoIQ, Ultromics, and InVision. Dr. Thomas reports financial relationships with Abbott, GE, egnite, EchoIQ, and Caption Health.

Lipoprotein(a) has long been thought to be a potential marker of aortic valve disease, and the population-based Rotterdam Study in the Netherlands has reported that Lp(a) has a strong association with new-onset aortic valve calcium (AVC), but not necessarily with progression of aortic valve disease.

Reporting in the European Heart Journal, the study authors analyzed data on 922 participants in the Rotterdam Study whose Lp(a) was measured along with a computed tomography scan upon enrollment, followed by CT scan 14 years later. At baseline, 702 participants didn’t have AVC, but the follow-up scan identified new-onset AVC in 415 (59.1%).

The investigators found an association between Lp(a) concentration and baseline AVC, with an odds ratio of 1.43 for each 50 mg/dL higher Lp(a) (95% confidence interval, 1.15-1.79), as well as new-onset AVC, with an OR of 1.30 for each 50 mg/dL increase in Lp(a) (95% CI, 1.02-1.65). However, the study found no association between rising Lp(a) levels and AVC progression; it found only an association between baseline AVC score and progression (P < .001).
 

‘Trigger’ for calcification but not progression

“This suggests that Lp(a) is an important trigger in the initiation of aortic valve calcification, but once the valve is calcified, disease progression may be primarily driven by other factors such as the baseline calcium burden of the valve and likely other unknown factors,” senior study author Daniel Bos, MD, PhD, said in e-mailed comments.

Dr. Bos and coauthors claim this is the first study to show that even minor AVC progresses independently of Lp(a).

“There are previous studies that showed a possible relationship between Lp(a) [and] progression of aortic valve calcium,” he said. “Our study suggests that the most meaningful benefit of Lp(a) lowering may actually be prior to the onset of aortic valve calcification.”

While no treatments have been approved for lowering Lp(a), the study findings could be meaningful if trials, including the ongoing phase 3 Lp(a) HORIZON trial of the investigational antisense agent pelacarsen (NCT04023552), show promising results, Dr. Bos said. Citing Lp(a) HORIZON, he said, “If the study shows Lp(a) lowering leads to a reduction in incident cardiovascular disease, similar strategies may be applied to prevent, rather than slow down, progression of aortic valve calcification.”

Dr. Bos called the Rotterdam Study results “an important first pointer into that direction.” He added, “We will need randomized trials to provide a definitive answer to the question whether Lp(a) lowering may prevent aortic valve calcium.”

Focus on AVC is study ‘weakness’

The study findings raise a key question for clinical trials of investigative Lp(a)-lowering therapies as well as how to use those therapies to treat aortic valve disease, said Christie Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston.

The findings could be “problematic” for these clinical trials, he said. “This study is just looking at calcium progression,” Dr. Ballantyne noted. “What we want to know about clinically is the progression to aortic stenosis, and then in particular to progression from mild disease to moderate or severe disease, because once you get into more severe disease, one has to do an intervention with either surgery or TAVR [transcatheter aortic valve replacement].”

He considered the study’s focus on AVC rather than aortic valve function a weakness and noted that only 14 study participants had TAVR. “We’re going to need much bigger numbers to look into this question of progression, including progression to severe diseases,” he said.

However, the Rotterdam Study showed the importance of CT in evaluating AVC, which can easily be done in other trials to further explore the association between Lp(a) and AVC, Dr. Ballantyne said.

Dr. Bos has no relevant disclosures. Study coauthors disclosed relationships with Amgen, Sanofi, Reservlogix, Athera, Experio, Novartis and Ionis Pharmaceuticals. Dr. Ballantyne disclosed relationships with Amgen and Novartis.

Lipoprotein(a) has long been thought to be a potential marker of aortic valve disease, and the population-based Rotterdam Study in the Netherlands has reported that Lp(a) has a strong association with new-onset aortic valve calcium (AVC), but not necessarily with progression of aortic valve disease.

Reporting in the European Heart Journal, the study authors analyzed data on 922 participants in the Rotterdam Study whose Lp(a) was measured along with a computed tomography scan upon enrollment, followed by CT scan 14 years later. At baseline, 702 participants didn’t have AVC, but the follow-up scan identified new-onset AVC in 415 (59.1%).

The investigators found an association between Lp(a) concentration and baseline AVC, with an odds ratio of 1.43 for each 50 mg/dL higher Lp(a) (95% confidence interval, 1.15-1.79), as well as new-onset AVC, with an OR of 1.30 for each 50 mg/dL increase in Lp(a) (95% CI, 1.02-1.65). However, the study found no association between rising Lp(a) levels and AVC progression; it found only an association between baseline AVC score and progression (P < .001).
 

‘Trigger’ for calcification but not progression

“This suggests that Lp(a) is an important trigger in the initiation of aortic valve calcification, but once the valve is calcified, disease progression may be primarily driven by other factors such as the baseline calcium burden of the valve and likely other unknown factors,” senior study author Daniel Bos, MD, PhD, said in e-mailed comments.

Dr. Bos and coauthors claim this is the first study to show that even minor AVC progresses independently of Lp(a).

“There are previous studies that showed a possible relationship between Lp(a) [and] progression of aortic valve calcium,” he said. “Our study suggests that the most meaningful benefit of Lp(a) lowering may actually be prior to the onset of aortic valve calcification.”

While no treatments have been approved for lowering Lp(a), the study findings could be meaningful if trials, including the ongoing phase 3 Lp(a) HORIZON trial of the investigational antisense agent pelacarsen (NCT04023552), show promising results, Dr. Bos said. Citing Lp(a) HORIZON, he said, “If the study shows Lp(a) lowering leads to a reduction in incident cardiovascular disease, similar strategies may be applied to prevent, rather than slow down, progression of aortic valve calcification.”

Dr. Bos called the Rotterdam Study results “an important first pointer into that direction.” He added, “We will need randomized trials to provide a definitive answer to the question whether Lp(a) lowering may prevent aortic valve calcium.”

Focus on AVC is study ‘weakness’

The study findings raise a key question for clinical trials of investigative Lp(a)-lowering therapies as well as how to use those therapies to treat aortic valve disease, said Christie Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston.

The findings could be “problematic” for these clinical trials, he said. “This study is just looking at calcium progression,” Dr. Ballantyne noted. “What we want to know about clinically is the progression to aortic stenosis, and then in particular to progression from mild disease to moderate or severe disease, because once you get into more severe disease, one has to do an intervention with either surgery or TAVR [transcatheter aortic valve replacement].”

He considered the study’s focus on AVC rather than aortic valve function a weakness and noted that only 14 study participants had TAVR. “We’re going to need much bigger numbers to look into this question of progression, including progression to severe diseases,” he said.

However, the Rotterdam Study showed the importance of CT in evaluating AVC, which can easily be done in other trials to further explore the association between Lp(a) and AVC, Dr. Ballantyne said.

Dr. Bos has no relevant disclosures. Study coauthors disclosed relationships with Amgen, Sanofi, Reservlogix, Athera, Experio, Novartis and Ionis Pharmaceuticals. Dr. Ballantyne disclosed relationships with Amgen and Novartis.

Lipoprotein(a) has long been thought to be a potential marker of aortic valve disease, and the population-based Rotterdam Study in the Netherlands has reported that Lp(a) has a strong association with new-onset aortic valve calcium (AVC), but not necessarily with progression of aortic valve disease.

Reporting in the European Heart Journal, the study authors analyzed data on 922 participants in the Rotterdam Study whose Lp(a) was measured along with a computed tomography scan upon enrollment, followed by CT scan 14 years later. At baseline, 702 participants didn’t have AVC, but the follow-up scan identified new-onset AVC in 415 (59.1%).

The investigators found an association between Lp(a) concentration and baseline AVC, with an odds ratio of 1.43 for each 50 mg/dL higher Lp(a) (95% confidence interval, 1.15-1.79), as well as new-onset AVC, with an OR of 1.30 for each 50 mg/dL increase in Lp(a) (95% CI, 1.02-1.65). However, the study found no association between rising Lp(a) levels and AVC progression; it found only an association between baseline AVC score and progression (P < .001).
 

‘Trigger’ for calcification but not progression

“This suggests that Lp(a) is an important trigger in the initiation of aortic valve calcification, but once the valve is calcified, disease progression may be primarily driven by other factors such as the baseline calcium burden of the valve and likely other unknown factors,” senior study author Daniel Bos, MD, PhD, said in e-mailed comments.

Dr. Bos and coauthors claim this is the first study to show that even minor AVC progresses independently of Lp(a).

“There are previous studies that showed a possible relationship between Lp(a) [and] progression of aortic valve calcium,” he said. “Our study suggests that the most meaningful benefit of Lp(a) lowering may actually be prior to the onset of aortic valve calcification.”

While no treatments have been approved for lowering Lp(a), the study findings could be meaningful if trials, including the ongoing phase 3 Lp(a) HORIZON trial of the investigational antisense agent pelacarsen (NCT04023552), show promising results, Dr. Bos said. Citing Lp(a) HORIZON, he said, “If the study shows Lp(a) lowering leads to a reduction in incident cardiovascular disease, similar strategies may be applied to prevent, rather than slow down, progression of aortic valve calcification.”

Dr. Bos called the Rotterdam Study results “an important first pointer into that direction.” He added, “We will need randomized trials to provide a definitive answer to the question whether Lp(a) lowering may prevent aortic valve calcium.”

Focus on AVC is study ‘weakness’

The study findings raise a key question for clinical trials of investigative Lp(a)-lowering therapies as well as how to use those therapies to treat aortic valve disease, said Christie Ballantyne, MD, chief of cardiology at Baylor College of Medicine in Houston.

The findings could be “problematic” for these clinical trials, he said. “This study is just looking at calcium progression,” Dr. Ballantyne noted. “What we want to know about clinically is the progression to aortic stenosis, and then in particular to progression from mild disease to moderate or severe disease, because once you get into more severe disease, one has to do an intervention with either surgery or TAVR [transcatheter aortic valve replacement].”

He considered the study’s focus on AVC rather than aortic valve function a weakness and noted that only 14 study participants had TAVR. “We’re going to need much bigger numbers to look into this question of progression, including progression to severe diseases,” he said.

However, the Rotterdam Study showed the importance of CT in evaluating AVC, which can easily be done in other trials to further explore the association between Lp(a) and AVC, Dr. Ballantyne said.

Dr. Bos has no relevant disclosures. Study coauthors disclosed relationships with Amgen, Sanofi, Reservlogix, Athera, Experio, Novartis and Ionis Pharmaceuticals. Dr. Ballantyne disclosed relationships with Amgen and Novartis.

Top-line results released on July 26 from the RADIANCE II trial show the Paradise ultrasound renal denervation system significantly reduces daytime ambulatory systolic blood pressure, compared with a sham procedure at 2 months in patients with mild to moderate uncontrolled hypertension.

The trial was conducted in 224 patients who were previously treated with up to two medications and were randomized while off medication at more than 60 centers in 8 countries. No further details or results were provided.

The pivotal RADIANCE II trial, required for FDA approval, is the third and largest randomized, sham-controlled study following positive results reported by RADIANCE-HTN SOLO and RADIANCE-HTN TRIO, ReCor Medical and its subsidiary Otsuka Medical Devices noted in the announcement.

The field of renal denervation fell out of favor after the largest trial in 535 patients, SYMPLICITY HTN-3, failed to show a significant reduction in systolic blood pressure at 6 months, compared with sham control in resistant hypertension.

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

Top-line results released on July 26 from the RADIANCE II trial show the Paradise ultrasound renal denervation system significantly reduces daytime ambulatory systolic blood pressure, compared with a sham procedure at 2 months in patients with mild to moderate uncontrolled hypertension.

The trial was conducted in 224 patients who were previously treated with up to two medications and were randomized while off medication at more than 60 centers in 8 countries. No further details or results were provided.

The pivotal RADIANCE II trial, required for FDA approval, is the third and largest randomized, sham-controlled study following positive results reported by RADIANCE-HTN SOLO and RADIANCE-HTN TRIO, ReCor Medical and its subsidiary Otsuka Medical Devices noted in the announcement.

The field of renal denervation fell out of favor after the largest trial in 535 patients, SYMPLICITY HTN-3, failed to show a significant reduction in systolic blood pressure at 6 months, compared with sham control in resistant hypertension.

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

Top-line results released on July 26 from the RADIANCE II trial show the Paradise ultrasound renal denervation system significantly reduces daytime ambulatory systolic blood pressure, compared with a sham procedure at 2 months in patients with mild to moderate uncontrolled hypertension.

The trial was conducted in 224 patients who were previously treated with up to two medications and were randomized while off medication at more than 60 centers in 8 countries. No further details or results were provided.

The pivotal RADIANCE II trial, required for FDA approval, is the third and largest randomized, sham-controlled study following positive results reported by RADIANCE-HTN SOLO and RADIANCE-HTN TRIO, ReCor Medical and its subsidiary Otsuka Medical Devices noted in the announcement.

The field of renal denervation fell out of favor after the largest trial in 535 patients, SYMPLICITY HTN-3, failed to show a significant reduction in systolic blood pressure at 6 months, compared with sham control in resistant hypertension.

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

Wide variation in the cost of common cardiovascular (CV) tests and procedures, from stress tests to coronary interventions, was revealed in a cross-sectional analysis based on publicly available data from 20 top-ranked hospitals in the United States.

The analysis also suggested a low level of compliance with the 2021 Hospital Price Transparency Final Rule among the 20 centers.

“The variation we found in payer-negotiated prices for identical cardiovascular tests and procedures was stunning,” Rishi K. Wadhera, MD, MPP, MPhil, Beth Israel Deaconess Medical Center, Boston, told this news organization.

KatarzynaBialasiewicz/Thinkstock

Difficulties with data, interpretation

The researchers looked at payer and self-pay cash prices for noninvasive and invasive CV tests and procedures at the U.S. News & World Report 2021 top 20–ranked U.S. hospitals, based in part on Current Procedural Terminology codes.

Price differences among the hospitals were derived from median negotiated prices for each test and procedure at the centers across all payers. The interquartile ratio (IQR) of prices for each test or procedure across payers was used to evaluate within-hospital price variation.

“Only 80% of the hospitals reported prices for some cardiovascular tests and procedures,” Dr. Wadhera said. “For the most part, even among the hospitals that did report this information, it was extremely challenging to navigate and interpret the data provided.”

Further, the team found that only 7 of the 20 hospitals reported prices for all CV tests and procedures. Centers that did not post prices for some tests or procedures are named in the report’s Figure 1 and Figure 2.

The number of insurance plans listed for each test or procedure ranged from 1 to 432 in the analysis. Median prices ranged from $204 to $2,588 for an echocardiogram, $463 to $3,230 for a stress test, $2,821 to $9,382 for right heart catheterization, $2,868 to $9,203 for a coronary angiogram, $657 to $25,521 for a PCI, and $506 to $20,002 for pacemaker implantation, the report states.

A similar pattern was seen for self-pay cash prices.

Within-hospital variation also ranged broadly. For example, the widest IQR ranges were $3,143-$12,926 for a right heart catheterization, $4,011-$14,486 for a coronary angiogram, $11,325-$23,392 for a PCI, and $8,474-$22,694 for pacemaker implantation.

The report cites a number of limitations to the analysis, among those, the need to rely on the hospitals themselves for data quality and accuracy.
 

‘More needed besides transparency’

“As a means to better understand health care costs, many opined that full price transparency would leverage market dynamics and result in lower costs,” observed Clyde W. Yancy, MD, MSc, professor of medicine and chief of cardiology at Northwestern Medicine, Chicago. The findings “by an expert group of outcomes scientists make clear that more is needed besides price transparency to lower cost,” he said in an interview.

That said, he added, “there are sufficient variations and allowances made for data collection that it is preferable to hold the current findings circumspect at best. Importantly, the voice of the hospitals does not appear.”

Although “price variation among the top 20 hospitals is substantial,” he observed, “without a better assessment of root cause, actual charge capture, prevailing market dynamics – especially nursing and ancillary staff costs – and the general influence of inflation, it is too difficult to emerge with a precise interpretation.”

Across the 20 hospitals, “there are likely to be 20 different business models,” he added, with negotiated prices reflecting “at least regional, if not institutional, variations.”

“These are complex issues. The several-fold price differences in standard procedures are a concern and an area worth further study with the intention of lowering health care costs,” Dr. Yancy said. “But clearly our next efforts should not address lowering prices per se but understanding how prices are set [and] the connection with reimbursement and actual payments.”

Dr. Wadhera discloses receiving personal fees from Abbott and CVS Health unrelated to the current study; disclosures for the other authors are in the report. Dr. Yancy is deputy editor of JAMA Cardiology.

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

Wide variation in the cost of common cardiovascular (CV) tests and procedures, from stress tests to coronary interventions, was revealed in a cross-sectional analysis based on publicly available data from 20 top-ranked hospitals in the United States.

The analysis also suggested a low level of compliance with the 2021 Hospital Price Transparency Final Rule among the 20 centers.

“The variation we found in payer-negotiated prices for identical cardiovascular tests and procedures was stunning,” Rishi K. Wadhera, MD, MPP, MPhil, Beth Israel Deaconess Medical Center, Boston, told this news organization.

KatarzynaBialasiewicz/Thinkstock

Difficulties with data, interpretation

The researchers looked at payer and self-pay cash prices for noninvasive and invasive CV tests and procedures at the U.S. News & World Report 2021 top 20–ranked U.S. hospitals, based in part on Current Procedural Terminology codes.

Price differences among the hospitals were derived from median negotiated prices for each test and procedure at the centers across all payers. The interquartile ratio (IQR) of prices for each test or procedure across payers was used to evaluate within-hospital price variation.

“Only 80% of the hospitals reported prices for some cardiovascular tests and procedures,” Dr. Wadhera said. “For the most part, even among the hospitals that did report this information, it was extremely challenging to navigate and interpret the data provided.”

Further, the team found that only 7 of the 20 hospitals reported prices for all CV tests and procedures. Centers that did not post prices for some tests or procedures are named in the report’s Figure 1 and Figure 2.

The number of insurance plans listed for each test or procedure ranged from 1 to 432 in the analysis. Median prices ranged from $204 to $2,588 for an echocardiogram, $463 to $3,230 for a stress test, $2,821 to $9,382 for right heart catheterization, $2,868 to $9,203 for a coronary angiogram, $657 to $25,521 for a PCI, and $506 to $20,002 for pacemaker implantation, the report states.

A similar pattern was seen for self-pay cash prices.

Within-hospital variation also ranged broadly. For example, the widest IQR ranges were $3,143-$12,926 for a right heart catheterization, $4,011-$14,486 for a coronary angiogram, $11,325-$23,392 for a PCI, and $8,474-$22,694 for pacemaker implantation.

The report cites a number of limitations to the analysis, among those, the need to rely on the hospitals themselves for data quality and accuracy.
 

‘More needed besides transparency’

“As a means to better understand health care costs, many opined that full price transparency would leverage market dynamics and result in lower costs,” observed Clyde W. Yancy, MD, MSc, professor of medicine and chief of cardiology at Northwestern Medicine, Chicago. The findings “by an expert group of outcomes scientists make clear that more is needed besides price transparency to lower cost,” he said in an interview.

That said, he added, “there are sufficient variations and allowances made for data collection that it is preferable to hold the current findings circumspect at best. Importantly, the voice of the hospitals does not appear.”

Although “price variation among the top 20 hospitals is substantial,” he observed, “without a better assessment of root cause, actual charge capture, prevailing market dynamics – especially nursing and ancillary staff costs – and the general influence of inflation, it is too difficult to emerge with a precise interpretation.”

Across the 20 hospitals, “there are likely to be 20 different business models,” he added, with negotiated prices reflecting “at least regional, if not institutional, variations.”

“These are complex issues. The several-fold price differences in standard procedures are a concern and an area worth further study with the intention of lowering health care costs,” Dr. Yancy said. “But clearly our next efforts should not address lowering prices per se but understanding how prices are set [and] the connection with reimbursement and actual payments.”

Dr. Wadhera discloses receiving personal fees from Abbott and CVS Health unrelated to the current study; disclosures for the other authors are in the report. Dr. Yancy is deputy editor of JAMA Cardiology.

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

Wide variation in the cost of common cardiovascular (CV) tests and procedures, from stress tests to coronary interventions, was revealed in a cross-sectional analysis based on publicly available data from 20 top-ranked hospitals in the United States.

The analysis also suggested a low level of compliance with the 2021 Hospital Price Transparency Final Rule among the 20 centers.

“The variation we found in payer-negotiated prices for identical cardiovascular tests and procedures was stunning,” Rishi K. Wadhera, MD, MPP, MPhil, Beth Israel Deaconess Medical Center, Boston, told this news organization.

KatarzynaBialasiewicz/Thinkstock

Difficulties with data, interpretation

The researchers looked at payer and self-pay cash prices for noninvasive and invasive CV tests and procedures at the U.S. News & World Report 2021 top 20–ranked U.S. hospitals, based in part on Current Procedural Terminology codes.

Price differences among the hospitals were derived from median negotiated prices for each test and procedure at the centers across all payers. The interquartile ratio (IQR) of prices for each test or procedure across payers was used to evaluate within-hospital price variation.

“Only 80% of the hospitals reported prices for some cardiovascular tests and procedures,” Dr. Wadhera said. “For the most part, even among the hospitals that did report this information, it was extremely challenging to navigate and interpret the data provided.”

Further, the team found that only 7 of the 20 hospitals reported prices for all CV tests and procedures. Centers that did not post prices for some tests or procedures are named in the report’s Figure 1 and Figure 2.

The number of insurance plans listed for each test or procedure ranged from 1 to 432 in the analysis. Median prices ranged from $204 to $2,588 for an echocardiogram, $463 to $3,230 for a stress test, $2,821 to $9,382 for right heart catheterization, $2,868 to $9,203 for a coronary angiogram, $657 to $25,521 for a PCI, and $506 to $20,002 for pacemaker implantation, the report states.

A similar pattern was seen for self-pay cash prices.

Within-hospital variation also ranged broadly. For example, the widest IQR ranges were $3,143-$12,926 for a right heart catheterization, $4,011-$14,486 for a coronary angiogram, $11,325-$23,392 for a PCI, and $8,474-$22,694 for pacemaker implantation.

The report cites a number of limitations to the analysis, among those, the need to rely on the hospitals themselves for data quality and accuracy.
 

‘More needed besides transparency’

“As a means to better understand health care costs, many opined that full price transparency would leverage market dynamics and result in lower costs,” observed Clyde W. Yancy, MD, MSc, professor of medicine and chief of cardiology at Northwestern Medicine, Chicago. The findings “by an expert group of outcomes scientists make clear that more is needed besides price transparency to lower cost,” he said in an interview.

That said, he added, “there are sufficient variations and allowances made for data collection that it is preferable to hold the current findings circumspect at best. Importantly, the voice of the hospitals does not appear.”

Although “price variation among the top 20 hospitals is substantial,” he observed, “without a better assessment of root cause, actual charge capture, prevailing market dynamics – especially nursing and ancillary staff costs – and the general influence of inflation, it is too difficult to emerge with a precise interpretation.”

Across the 20 hospitals, “there are likely to be 20 different business models,” he added, with negotiated prices reflecting “at least regional, if not institutional, variations.”

“These are complex issues. The several-fold price differences in standard procedures are a concern and an area worth further study with the intention of lowering health care costs,” Dr. Yancy said. “But clearly our next efforts should not address lowering prices per se but understanding how prices are set [and] the connection with reimbursement and actual payments.”

Dr. Wadhera discloses receiving personal fees from Abbott and CVS Health unrelated to the current study; disclosures for the other authors are in the report. Dr. Yancy is deputy editor of JAMA Cardiology.

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

Interventional echocardiographers have become an increasingly critical part of the structural heart team but may be paying the price in terms of radiation exposure, a new study suggests.

Results showed that interventional echocardiographers receive threefold higher head-level radiation doses than interventional cardiologists during left atrial appendage occlusion (LAAO) closures and 11-fold higher doses during mitral valve transcatheter edge-to-edge repair (TEER).

“Over the last 5-10 years there’s been exponential growth in these two procedures, TEER and LAAO, and while that’s been very exciting, I think there hasn’t been as much research into how to protect these individuals,” lead author David A. McNamara, MD, MPH, Spectrum Health, Grand Rapids, Mich., told this news organization. 

The study was published  in JAMA Network Open.

Previous studies have focused largely on radiation exposure and mitigation efforts during coronary interventions, but the room set-up for LAAO and TEER and shielding techniques to mitigate radiation exposure are vastly different, he noted.

A 2017 study reported that radiation exposure was significantly higher for imaging specialists than structural heart specialists and varied by procedure type.

For the current study, Dr. McNamara, an echocardiographer by training, and colleagues collected data from 30 consecutive LAAO and 30 consecutive TEER procedures performed at their institution between July 2016 and January 2018.

Interventional imagers, interventional cardiologists, and sonographers all wore a lead skirt, apron, and thyroid collar, as well as a dosimeter to collect radiation data.

Interventional cardiologists stood immediately adjacent to the procedure table and used a ceiling-mounted, upper-body lead shield and a lower-body shield extending from the table to the floor. The echocardiographer stood at the patient’s head and used a mobile accessory shield raised to a height that allowed the imager to extend their arms over the shield to manipulate a transesophageal echocardiogram probe throughout the case.

The median fluoroscopy time was 9.2 minutes for LAAO and 20.9 minutes for TEER. The median air kerma was 164 mGy and 109 mGy, respectively.

Interventional echocardiographers received a median per case radiation dose of 10.6 µSv, compared with 2.1 µSv for interventional cardiologists. The result was similar for TEER (10.5 vs. 0.9 µSv) and LAAO (10.6 vs. 3.5 µSv; P < .001 for all).

The odds of interventional echocardiographers having a radiation dose greater than 20 µSV were 7.5 times greater than for interventional cardiologists (P < .001).

“It’s not the direction of the association, but really the magnitude is what surprised us,” observed Dr. McNamara.

The team was pleasantly surprised, he said, that sonographers, a “vastly understudied group,” received significantly lower median radiation doses than interventional imagers during LAAO (0.2 µSV) and TEER procedures (0.0 µSv; P < .001 for both).

The average distances from the radiation source were 26 cm (10.2 inches) for the echocardiographer, 36 cm (14.2 inches) for the interventional cardiologist, and 250 cm (8.2 feet) for the sonographer.

“These folks [sonographers] were much further away than both the physicians performing these cases, and that is what we hypothesize drove their very low rates, but that should also help inform our mitigation techniques for physicians and for all other cath lab members in the room,” Dr. McNamara said.

He noted that Spectrum Health has been at the forefront in terms of research into radiation exposure and mitigation, has good institutional radiation safety education, and used dose-lowering fluoroscopy systems (AlluraClarity, Philips) with real-time image noise reduction technology and a frame rate of 15 frames per second for the study. “So we’re hopeful that this actually represents a somewhat best-case scenario for what is being done at multiple institutions throughout the nation.”

Nevertheless, there is a huge amount of variability in radiation exposure, Dr. McNamara observed. “First and foremost, we really just have to identify our problem and highlight that this is something that needs some advocacy from our [professional] groups.”

Sunil Rao, MD, the newly minted president of the Society of Cardiovascular Angiography and Interventions (SCAI), said, “This is a really important study, because it expands the potential occupational hazards outside of what we traditionally think of as the team that does interventional procedures ... we have to recognize that the procedures we’re doing in the cath lab have changed.”

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

Interventional echocardiographers have become an increasingly critical part of the structural heart team but may be paying the price in terms of radiation exposure, a new study suggests.

Results showed that interventional echocardiographers receive threefold higher head-level radiation doses than interventional cardiologists during left atrial appendage occlusion (LAAO) closures and 11-fold higher doses during mitral valve transcatheter edge-to-edge repair (TEER).

“Over the last 5-10 years there’s been exponential growth in these two procedures, TEER and LAAO, and while that’s been very exciting, I think there hasn’t been as much research into how to protect these individuals,” lead author David A. McNamara, MD, MPH, Spectrum Health, Grand Rapids, Mich., told this news organization. 

The study was published  in JAMA Network Open.

Previous studies have focused largely on radiation exposure and mitigation efforts during coronary interventions, but the room set-up for LAAO and TEER and shielding techniques to mitigate radiation exposure are vastly different, he noted.

A 2017 study reported that radiation exposure was significantly higher for imaging specialists than structural heart specialists and varied by procedure type.

For the current study, Dr. McNamara, an echocardiographer by training, and colleagues collected data from 30 consecutive LAAO and 30 consecutive TEER procedures performed at their institution between July 2016 and January 2018.

Interventional imagers, interventional cardiologists, and sonographers all wore a lead skirt, apron, and thyroid collar, as well as a dosimeter to collect radiation data.

Interventional cardiologists stood immediately adjacent to the procedure table and used a ceiling-mounted, upper-body lead shield and a lower-body shield extending from the table to the floor. The echocardiographer stood at the patient’s head and used a mobile accessory shield raised to a height that allowed the imager to extend their arms over the shield to manipulate a transesophageal echocardiogram probe throughout the case.

The median fluoroscopy time was 9.2 minutes for LAAO and 20.9 minutes for TEER. The median air kerma was 164 mGy and 109 mGy, respectively.

Interventional echocardiographers received a median per case radiation dose of 10.6 µSv, compared with 2.1 µSv for interventional cardiologists. The result was similar for TEER (10.5 vs. 0.9 µSv) and LAAO (10.6 vs. 3.5 µSv; P < .001 for all).

The odds of interventional echocardiographers having a radiation dose greater than 20 µSV were 7.5 times greater than for interventional cardiologists (P < .001).

“It’s not the direction of the association, but really the magnitude is what surprised us,” observed Dr. McNamara.

The team was pleasantly surprised, he said, that sonographers, a “vastly understudied group,” received significantly lower median radiation doses than interventional imagers during LAAO (0.2 µSV) and TEER procedures (0.0 µSv; P < .001 for both).

The average distances from the radiation source were 26 cm (10.2 inches) for the echocardiographer, 36 cm (14.2 inches) for the interventional cardiologist, and 250 cm (8.2 feet) for the sonographer.

“These folks [sonographers] were much further away than both the physicians performing these cases, and that is what we hypothesize drove their very low rates, but that should also help inform our mitigation techniques for physicians and for all other cath lab members in the room,” Dr. McNamara said.

He noted that Spectrum Health has been at the forefront in terms of research into radiation exposure and mitigation, has good institutional radiation safety education, and used dose-lowering fluoroscopy systems (AlluraClarity, Philips) with real-time image noise reduction technology and a frame rate of 15 frames per second for the study. “So we’re hopeful that this actually represents a somewhat best-case scenario for what is being done at multiple institutions throughout the nation.”

Nevertheless, there is a huge amount of variability in radiation exposure, Dr. McNamara observed. “First and foremost, we really just have to identify our problem and highlight that this is something that needs some advocacy from our [professional] groups.”

Sunil Rao, MD, the newly minted president of the Society of Cardiovascular Angiography and Interventions (SCAI), said, “This is a really important study, because it expands the potential occupational hazards outside of what we traditionally think of as the team that does interventional procedures ... we have to recognize that the procedures we’re doing in the cath lab have changed.”

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

Interventional echocardiographers have become an increasingly critical part of the structural heart team but may be paying the price in terms of radiation exposure, a new study suggests.

Results showed that interventional echocardiographers receive threefold higher head-level radiation doses than interventional cardiologists during left atrial appendage occlusion (LAAO) closures and 11-fold higher doses during mitral valve transcatheter edge-to-edge repair (TEER).

“Over the last 5-10 years there’s been exponential growth in these two procedures, TEER and LAAO, and while that’s been very exciting, I think there hasn’t been as much research into how to protect these individuals,” lead author David A. McNamara, MD, MPH, Spectrum Health, Grand Rapids, Mich., told this news organization. 

The study was published  in JAMA Network Open.

Previous studies have focused largely on radiation exposure and mitigation efforts during coronary interventions, but the room set-up for LAAO and TEER and shielding techniques to mitigate radiation exposure are vastly different, he noted.

A 2017 study reported that radiation exposure was significantly higher for imaging specialists than structural heart specialists and varied by procedure type.

For the current study, Dr. McNamara, an echocardiographer by training, and colleagues collected data from 30 consecutive LAAO and 30 consecutive TEER procedures performed at their institution between July 2016 and January 2018.

Interventional imagers, interventional cardiologists, and sonographers all wore a lead skirt, apron, and thyroid collar, as well as a dosimeter to collect radiation data.

Interventional cardiologists stood immediately adjacent to the procedure table and used a ceiling-mounted, upper-body lead shield and a lower-body shield extending from the table to the floor. The echocardiographer stood at the patient’s head and used a mobile accessory shield raised to a height that allowed the imager to extend their arms over the shield to manipulate a transesophageal echocardiogram probe throughout the case.

The median fluoroscopy time was 9.2 minutes for LAAO and 20.9 minutes for TEER. The median air kerma was 164 mGy and 109 mGy, respectively.

Interventional echocardiographers received a median per case radiation dose of 10.6 µSv, compared with 2.1 µSv for interventional cardiologists. The result was similar for TEER (10.5 vs. 0.9 µSv) and LAAO (10.6 vs. 3.5 µSv; P < .001 for all).

The odds of interventional echocardiographers having a radiation dose greater than 20 µSV were 7.5 times greater than for interventional cardiologists (P < .001).

“It’s not the direction of the association, but really the magnitude is what surprised us,” observed Dr. McNamara.

The team was pleasantly surprised, he said, that sonographers, a “vastly understudied group,” received significantly lower median radiation doses than interventional imagers during LAAO (0.2 µSV) and TEER procedures (0.0 µSv; P < .001 for both).

The average distances from the radiation source were 26 cm (10.2 inches) for the echocardiographer, 36 cm (14.2 inches) for the interventional cardiologist, and 250 cm (8.2 feet) for the sonographer.

“These folks [sonographers] were much further away than both the physicians performing these cases, and that is what we hypothesize drove their very low rates, but that should also help inform our mitigation techniques for physicians and for all other cath lab members in the room,” Dr. McNamara said.

He noted that Spectrum Health has been at the forefront in terms of research into radiation exposure and mitigation, has good institutional radiation safety education, and used dose-lowering fluoroscopy systems (AlluraClarity, Philips) with real-time image noise reduction technology and a frame rate of 15 frames per second for the study. “So we’re hopeful that this actually represents a somewhat best-case scenario for what is being done at multiple institutions throughout the nation.”

Nevertheless, there is a huge amount of variability in radiation exposure, Dr. McNamara observed. “First and foremost, we really just have to identify our problem and highlight that this is something that needs some advocacy from our [professional] groups.”

Sunil Rao, MD, the newly minted president of the Society of Cardiovascular Angiography and Interventions (SCAI), said, “This is a really important study, because it expands the potential occupational hazards outside of what we traditionally think of as the team that does interventional procedures ... we have to recognize that the procedures we’re doing in the cath lab have changed.”

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

Hospitals in low-income and rural areas of the United States are much less likely to adopt stroke certification than hospitals in high-income and urban communities, a new study shows.

Further, other results showed that, after adjustment for population and hospital size, access to stroke-certified hospitals is significantly lower in Black, racially segregated communities.

The study was published online  in JAMA Neurology.

Noting that stroke-certified hospitals provide higher-quality stroke care, the authors, led by Yu-Chu Shen, PhD, Naval Postgraduate School, Monterey, Calif., conclude that: “Our findings suggest that structural inequities in stroke care may be an important consideration in eliminating stroke disparities for vulnerable populations.”

©Aaron Kohr/Thinkstock.com

She said there is a tendency to think this is a result of some sort of bias on the part of health care professionals. “We wanted to look deep down in the system and whether the built environment of health care supply and geographic distribution of services contributed to access and treatment inequities.”

The study combined a dataset of hospital stroke certification from all general acute nonfederal hospitals in the continental United States from January 2009 to December 2019. National, hospital, and census data were used to identify historically underserved communities by racial and ethnic composition, income distribution, and rurality.

A total of 4,984 hospitals were assessed. Results showed that over the 11-year study period, the number of hospitals with stroke certification grew from 961 (19%) to 1,763 (36%).

Without controlling for population and hospital size, hospitals in predominantly Black, racially segregated areas were 1.67-fold more likely to adopt stroke care of any level than those in predominantly non-Black, racially segregated areas (hazard ratio, 1.67; 95% confidence interval, 1.41-1.97).

However, after adjustment for population and hospital size, the likelihood of adopting stroke care among hospitals serving Black, racially segregated communities was significantly lower than among those serving non-Black, racially segregated communities (HR, 0.74; 95% CI, 0.62-0.89).

“In other words, on a per-capita basis, a hospital serving a predominantly Black, racially segregated community was 26% less likely to adopt stroke certification of any level than a hospital in a predominantly non-Black, racially segregated community,” the authors state.

In terms of socioeconomic factors, hospitals serving low-income, economically integrated (HR, 0.23) and low-income, economically segregated (HR, 0.29) areas were far less likely to adopt any level of stroke care certification than hospitals serving high-income areas, regardless of income segregation.

Rural hospitals were also much less likely to adopt any level of stroke care than urban hospitals (HR, 0.10).

“Our results suggest that it might be necessary to incentivize hospitals operating in underserved communities to seek stroke certification or to entice hospitals with higher propensity to adopt stroke care to operate in such communities so access at the per-patient level becomes more equitable,” the authors say.

This project was supported by the Pilot Project Award from the National Bureau of Economic Research Center for Aging and Health Research, funded by the National Institute on Aging and by the National Center for Advancing Translational Sciences, National Institutes of Health. Dr. Shen and Dr. Hsia have received grants from the National Institute of Aging and the National Heart, Lung, and Blood Institute.

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

Hospitals in low-income and rural areas of the United States are much less likely to adopt stroke certification than hospitals in high-income and urban communities, a new study shows.

Further, other results showed that, after adjustment for population and hospital size, access to stroke-certified hospitals is significantly lower in Black, racially segregated communities.

The study was published online  in JAMA Neurology.

Noting that stroke-certified hospitals provide higher-quality stroke care, the authors, led by Yu-Chu Shen, PhD, Naval Postgraduate School, Monterey, Calif., conclude that: “Our findings suggest that structural inequities in stroke care may be an important consideration in eliminating stroke disparities for vulnerable populations.”

©Aaron Kohr/Thinkstock.com

She said there is a tendency to think this is a result of some sort of bias on the part of health care professionals. “We wanted to look deep down in the system and whether the built environment of health care supply and geographic distribution of services contributed to access and treatment inequities.”

The study combined a dataset of hospital stroke certification from all general acute nonfederal hospitals in the continental United States from January 2009 to December 2019. National, hospital, and census data were used to identify historically underserved communities by racial and ethnic composition, income distribution, and rurality.

A total of 4,984 hospitals were assessed. Results showed that over the 11-year study period, the number of hospitals with stroke certification grew from 961 (19%) to 1,763 (36%).

Without controlling for population and hospital size, hospitals in predominantly Black, racially segregated areas were 1.67-fold more likely to adopt stroke care of any level than those in predominantly non-Black, racially segregated areas (hazard ratio, 1.67; 95% confidence interval, 1.41-1.97).

However, after adjustment for population and hospital size, the likelihood of adopting stroke care among hospitals serving Black, racially segregated communities was significantly lower than among those serving non-Black, racially segregated communities (HR, 0.74; 95% CI, 0.62-0.89).

“In other words, on a per-capita basis, a hospital serving a predominantly Black, racially segregated community was 26% less likely to adopt stroke certification of any level than a hospital in a predominantly non-Black, racially segregated community,” the authors state.

In terms of socioeconomic factors, hospitals serving low-income, economically integrated (HR, 0.23) and low-income, economically segregated (HR, 0.29) areas were far less likely to adopt any level of stroke care certification than hospitals serving high-income areas, regardless of income segregation.

Rural hospitals were also much less likely to adopt any level of stroke care than urban hospitals (HR, 0.10).

“Our results suggest that it might be necessary to incentivize hospitals operating in underserved communities to seek stroke certification or to entice hospitals with higher propensity to adopt stroke care to operate in such communities so access at the per-patient level becomes more equitable,” the authors say.

This project was supported by the Pilot Project Award from the National Bureau of Economic Research Center for Aging and Health Research, funded by the National Institute on Aging and by the National Center for Advancing Translational Sciences, National Institutes of Health. Dr. Shen and Dr. Hsia have received grants from the National Institute of Aging and the National Heart, Lung, and Blood Institute.

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

Hospitals in low-income and rural areas of the United States are much less likely to adopt stroke certification than hospitals in high-income and urban communities, a new study shows.

Further, other results showed that, after adjustment for population and hospital size, access to stroke-certified hospitals is significantly lower in Black, racially segregated communities.

The study was published online  in JAMA Neurology.

Noting that stroke-certified hospitals provide higher-quality stroke care, the authors, led by Yu-Chu Shen, PhD, Naval Postgraduate School, Monterey, Calif., conclude that: “Our findings suggest that structural inequities in stroke care may be an important consideration in eliminating stroke disparities for vulnerable populations.”

©Aaron Kohr/Thinkstock.com

She said there is a tendency to think this is a result of some sort of bias on the part of health care professionals. “We wanted to look deep down in the system and whether the built environment of health care supply and geographic distribution of services contributed to access and treatment inequities.”

The study combined a dataset of hospital stroke certification from all general acute nonfederal hospitals in the continental United States from January 2009 to December 2019. National, hospital, and census data were used to identify historically underserved communities by racial and ethnic composition, income distribution, and rurality.

A total of 4,984 hospitals were assessed. Results showed that over the 11-year study period, the number of hospitals with stroke certification grew from 961 (19%) to 1,763 (36%).

Without controlling for population and hospital size, hospitals in predominantly Black, racially segregated areas were 1.67-fold more likely to adopt stroke care of any level than those in predominantly non-Black, racially segregated areas (hazard ratio, 1.67; 95% confidence interval, 1.41-1.97).

However, after adjustment for population and hospital size, the likelihood of adopting stroke care among hospitals serving Black, racially segregated communities was significantly lower than among those serving non-Black, racially segregated communities (HR, 0.74; 95% CI, 0.62-0.89).

“In other words, on a per-capita basis, a hospital serving a predominantly Black, racially segregated community was 26% less likely to adopt stroke certification of any level than a hospital in a predominantly non-Black, racially segregated community,” the authors state.

In terms of socioeconomic factors, hospitals serving low-income, economically integrated (HR, 0.23) and low-income, economically segregated (HR, 0.29) areas were far less likely to adopt any level of stroke care certification than hospitals serving high-income areas, regardless of income segregation.

Rural hospitals were also much less likely to adopt any level of stroke care than urban hospitals (HR, 0.10).

“Our results suggest that it might be necessary to incentivize hospitals operating in underserved communities to seek stroke certification or to entice hospitals with higher propensity to adopt stroke care to operate in such communities so access at the per-patient level becomes more equitable,” the authors say.

This project was supported by the Pilot Project Award from the National Bureau of Economic Research Center for Aging and Health Research, funded by the National Institute on Aging and by the National Center for Advancing Translational Sciences, National Institutes of Health. Dr. Shen and Dr. Hsia have received grants from the National Institute of Aging and the National Heart, Lung, and Blood Institute.

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