User login
Clinical outcomes over several years in the randomized trial – called DISCHARGE, with an enrollment of more than 3,500 – were statistically similar whether the patients were assigned to CTA or invasive coronary angiography (ICA) as their initial evaluation. Symptoms and quality-of-life measures were also similar.
But the patients assigned to the initial-CTA strategy, of whom fewer than a fourth went on to cardiac cath, showed far fewer procedure-related complications and less often went to coronary revascularization during the median follow-up of 3.5 years, the group reported March 4 in the New England Journal of Medicine.
Based on the findings, CTA “is a safe alternative to cardiac catheterization for patients with suspected CAD [coronary artery disease] that will likely change clinical practice worldwide by replacing invasive testing in patients with stable chest pain who can be expected to benefit” those with an intermediate pretest probability for obstructive disease, principal investigator Marc Dewey, MD, Charité – Universitätsmedizin Berlin, told this news organization.
None of the patient subgroups explored in the trial showed a significant clinical benefit from one strategy over the other, Dr. Dewey commented in an email.
The trial’s results don’t apply to patients unlike those entered, and in particular, he said, “ICA should remain the first test option in patients with high clinical pretest probability of obstructive CAD.”
Dr. Dewey is senior author on the study’s publication, which was timed to coincide with his presentation of the results at ECR 2022 Overture, an all-virtual scientific session of the European Congress of Radiology.
“This is the definitive study,” Matthew Budoff, MD, Lundquist Institute at Harbor-UCLA, Torrance, California, said in an interview. It suggests in a large population that the initial CTA strategy “is as good and maybe safer” in stable patients at intermediate risk compared with initial ICA. “I would say close to 75% or 80% of the patients that we see would fall into that range of risk” and be suitable for the testing algorithm used in the study, said Dr. Budoff, who was not part of the trial.
Invasive angiography would generally still be the initial approach for patients at greater than intermediate risk, such as those with breakthrough angina or electrocardiographic changes, he said. “I still think there’s a huge role for invasive angiography. It’s just a bit smaller now than it used to be for the lower-risk patient.”
The DISCHARGE trial, agreed cardiothoracic radiology specialist Rozemarijn Vliegenthart, MD, PhD, University of Groningen, the Netherlands, “shows that in patients with intermediate pretest probability, CTA should be used as a gatekeeper before invasive coronary angiography, instead of directly referring for invasive coronary angiography.”
It shows that “a CT-first approach” is both safe and clinically effective and even a trend suggesting better clinical outcomes, compared with ICA. And it demonstrates that “still, many diagnostic invasive coronary angiographies are performed unnecessarily,” Dr. Vliegenthart said as the invited discussant following Dr. Dewey’s presentation.
DISCOVER is only the latest in a series of major studies to explore how CTA best fits in with ICA, stress imaging, and other tests for evaluating patients with chest pain. For example, “the PROMISE trial and the SCOT-HEART trial found that CT was as good as or even better than functional testing. DISCHARGE, I think, confirms the safety of the CT strategy” and reaffirms that it is “at least as good” as an ICA-first approach, cardiologist Klaus F. Kofoed, MD, PhD, DMSc, Rigshospitalet University of Copenhagen, said when co-presenting the trial’s results with Dr. Dewey.
“We can now say CT may be suitable in intermediate-risk patients referred for ICA, particularly those with a clinical constellation suggesting a higher event risk, with abnormal or inconclusive functional test results, or with persistent symptoms despite medical treatment,” said Dr. Kofoed, who is on the DISCOVER steering committee.
The trial’s 3,561 patients with stable chest pain – at 26 experienced centers in 16 countries – were randomly assigned to undergo CTA or ICA as their initial diagnostic imaging approach. Entry required them to be at intermediate risk, defined as an estimated 10% to 60% probability of having obstructive CAD. Of note, women made up about 56% of both groups.
Imaging was positive for obstructive disease in 26% of the 1,808 patients in the CTA group and in the same proportion of the 1,753 who were assigned to ICA. Nonobstructive CAD was identified in 36% and 22%, respectively.
Importantly, 404 (22.3%) patients in the CTA group then underwent ICA, which identified obstructive CAD in 293 (72.5%).
With a complete follow-up in about 99% of patients, the report notes, the rate of the primary endpoint of major adverse cardiac events, or MACE (cardiovascular death, nonfatal myocardial infarction, or nonfatal stroke) was 2.1% in the CTA group and in 3.0% in the ICA group. The adjusted hazard ratio of 0.70 (95% confidence interval, 0.46-1.07; P = .10) fell short of significance.
The corresponding HR for an “expanded primary outcome” that also included transient ischemic attack or major procedure-related complications was 0.60 (95% CI, 0.42-0.85) in favor of the CTA group.
As a “pragmatic trial,” DISCHARGE relied on clinically identified events for the endpoint assessments and did not require, for example, laboratory biomarker or neurologic imaging for confirmation, the report notes.
Major procedure-related complications during the initial management phase occurred in 0.5% of the CTA group, and 1.9% of those assigned to initial ICA (HR, 0.26; 95% CI, 0.13-0.55).
Coronary revascularization was less common in the CTA group during the trial’s follow-up, 14.2% versus 18.0% for those assigned to ICA (HR, 0.76; 95% CI, 0.65-0.90).
But the prevalences of angina during the final 4 weeks of follow-up, the group reported, were statistically similar at 8.8% and 7.5% for patients assigned to CTA and ICA, respectively.
The trial showed “no material difference” between the initial CTA versus ICA strategies for its MACE primary endpoint, observed Joseph Loscalzo, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, Mass., in an accompanying editorial.
“This result is probably a consequence of the lack of effect of revascularization on cardiovascular events among most patients with stable angina and the limited number of those with high-risk anatomy who would benefit from revascularization in the trial,” he writes.
That CTA was performed “significantly earlier than angiography, 3 days versus 12 days after enrollment,” may have led to earlier coronary revascularization in that group, and therefore is “a better outcome in patients whose anatomy would benefit from it.”
Dr. Loscalzo questioned several aspects of the trial design, which, for example, led to a more than 35% prevalence of patients with nonanginal chest pain among those randomized. Different criteria for classifying patients as “intermediate risk” might also have contributed to the fairly low prevalence of patients in either group ultimately identified with obstructive CAD, he proposes. That low prevalence “suggests that the overall trial population had a low risk of obstructive CAD rather than an intermediate risk.”
DISCHARGE was supported by grants from the European Union Seventh Framework Program, the Berlin Institute of Health, Rigshospitalet of the University of Copenhagen, the British Heart Foundation, and the German Research Foundation. Disclosures for the authors and editorialist are available at NEJM.org. Dr. Budoff has disclosed receiving grant support from General Electric. Dr. Vliegenthart discloses receiving grants from Siemens Healthineers and honorarium for speaking from Siemens Healthineers and Bayer.
A version of this article first appeared on Medscape.com.
Clinical outcomes over several years in the randomized trial – called DISCHARGE, with an enrollment of more than 3,500 – were statistically similar whether the patients were assigned to CTA or invasive coronary angiography (ICA) as their initial evaluation. Symptoms and quality-of-life measures were also similar.
But the patients assigned to the initial-CTA strategy, of whom fewer than a fourth went on to cardiac cath, showed far fewer procedure-related complications and less often went to coronary revascularization during the median follow-up of 3.5 years, the group reported March 4 in the New England Journal of Medicine.
Based on the findings, CTA “is a safe alternative to cardiac catheterization for patients with suspected CAD [coronary artery disease] that will likely change clinical practice worldwide by replacing invasive testing in patients with stable chest pain who can be expected to benefit” those with an intermediate pretest probability for obstructive disease, principal investigator Marc Dewey, MD, Charité – Universitätsmedizin Berlin, told this news organization.
None of the patient subgroups explored in the trial showed a significant clinical benefit from one strategy over the other, Dr. Dewey commented in an email.
The trial’s results don’t apply to patients unlike those entered, and in particular, he said, “ICA should remain the first test option in patients with high clinical pretest probability of obstructive CAD.”
Dr. Dewey is senior author on the study’s publication, which was timed to coincide with his presentation of the results at ECR 2022 Overture, an all-virtual scientific session of the European Congress of Radiology.
“This is the definitive study,” Matthew Budoff, MD, Lundquist Institute at Harbor-UCLA, Torrance, California, said in an interview. It suggests in a large population that the initial CTA strategy “is as good and maybe safer” in stable patients at intermediate risk compared with initial ICA. “I would say close to 75% or 80% of the patients that we see would fall into that range of risk” and be suitable for the testing algorithm used in the study, said Dr. Budoff, who was not part of the trial.
Invasive angiography would generally still be the initial approach for patients at greater than intermediate risk, such as those with breakthrough angina or electrocardiographic changes, he said. “I still think there’s a huge role for invasive angiography. It’s just a bit smaller now than it used to be for the lower-risk patient.”
The DISCHARGE trial, agreed cardiothoracic radiology specialist Rozemarijn Vliegenthart, MD, PhD, University of Groningen, the Netherlands, “shows that in patients with intermediate pretest probability, CTA should be used as a gatekeeper before invasive coronary angiography, instead of directly referring for invasive coronary angiography.”
It shows that “a CT-first approach” is both safe and clinically effective and even a trend suggesting better clinical outcomes, compared with ICA. And it demonstrates that “still, many diagnostic invasive coronary angiographies are performed unnecessarily,” Dr. Vliegenthart said as the invited discussant following Dr. Dewey’s presentation.
DISCOVER is only the latest in a series of major studies to explore how CTA best fits in with ICA, stress imaging, and other tests for evaluating patients with chest pain. For example, “the PROMISE trial and the SCOT-HEART trial found that CT was as good as or even better than functional testing. DISCHARGE, I think, confirms the safety of the CT strategy” and reaffirms that it is “at least as good” as an ICA-first approach, cardiologist Klaus F. Kofoed, MD, PhD, DMSc, Rigshospitalet University of Copenhagen, said when co-presenting the trial’s results with Dr. Dewey.
“We can now say CT may be suitable in intermediate-risk patients referred for ICA, particularly those with a clinical constellation suggesting a higher event risk, with abnormal or inconclusive functional test results, or with persistent symptoms despite medical treatment,” said Dr. Kofoed, who is on the DISCOVER steering committee.
The trial’s 3,561 patients with stable chest pain – at 26 experienced centers in 16 countries – were randomly assigned to undergo CTA or ICA as their initial diagnostic imaging approach. Entry required them to be at intermediate risk, defined as an estimated 10% to 60% probability of having obstructive CAD. Of note, women made up about 56% of both groups.
Imaging was positive for obstructive disease in 26% of the 1,808 patients in the CTA group and in the same proportion of the 1,753 who were assigned to ICA. Nonobstructive CAD was identified in 36% and 22%, respectively.
Importantly, 404 (22.3%) patients in the CTA group then underwent ICA, which identified obstructive CAD in 293 (72.5%).
With a complete follow-up in about 99% of patients, the report notes, the rate of the primary endpoint of major adverse cardiac events, or MACE (cardiovascular death, nonfatal myocardial infarction, or nonfatal stroke) was 2.1% in the CTA group and in 3.0% in the ICA group. The adjusted hazard ratio of 0.70 (95% confidence interval, 0.46-1.07; P = .10) fell short of significance.
The corresponding HR for an “expanded primary outcome” that also included transient ischemic attack or major procedure-related complications was 0.60 (95% CI, 0.42-0.85) in favor of the CTA group.
As a “pragmatic trial,” DISCHARGE relied on clinically identified events for the endpoint assessments and did not require, for example, laboratory biomarker or neurologic imaging for confirmation, the report notes.
Major procedure-related complications during the initial management phase occurred in 0.5% of the CTA group, and 1.9% of those assigned to initial ICA (HR, 0.26; 95% CI, 0.13-0.55).
Coronary revascularization was less common in the CTA group during the trial’s follow-up, 14.2% versus 18.0% for those assigned to ICA (HR, 0.76; 95% CI, 0.65-0.90).
But the prevalences of angina during the final 4 weeks of follow-up, the group reported, were statistically similar at 8.8% and 7.5% for patients assigned to CTA and ICA, respectively.
The trial showed “no material difference” between the initial CTA versus ICA strategies for its MACE primary endpoint, observed Joseph Loscalzo, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, Mass., in an accompanying editorial.
“This result is probably a consequence of the lack of effect of revascularization on cardiovascular events among most patients with stable angina and the limited number of those with high-risk anatomy who would benefit from revascularization in the trial,” he writes.
That CTA was performed “significantly earlier than angiography, 3 days versus 12 days after enrollment,” may have led to earlier coronary revascularization in that group, and therefore is “a better outcome in patients whose anatomy would benefit from it.”
Dr. Loscalzo questioned several aspects of the trial design, which, for example, led to a more than 35% prevalence of patients with nonanginal chest pain among those randomized. Different criteria for classifying patients as “intermediate risk” might also have contributed to the fairly low prevalence of patients in either group ultimately identified with obstructive CAD, he proposes. That low prevalence “suggests that the overall trial population had a low risk of obstructive CAD rather than an intermediate risk.”
DISCHARGE was supported by grants from the European Union Seventh Framework Program, the Berlin Institute of Health, Rigshospitalet of the University of Copenhagen, the British Heart Foundation, and the German Research Foundation. Disclosures for the authors and editorialist are available at NEJM.org. Dr. Budoff has disclosed receiving grant support from General Electric. Dr. Vliegenthart discloses receiving grants from Siemens Healthineers and honorarium for speaking from Siemens Healthineers and Bayer.
A version of this article first appeared on Medscape.com.
Clinical outcomes over several years in the randomized trial – called DISCHARGE, with an enrollment of more than 3,500 – were statistically similar whether the patients were assigned to CTA or invasive coronary angiography (ICA) as their initial evaluation. Symptoms and quality-of-life measures were also similar.
But the patients assigned to the initial-CTA strategy, of whom fewer than a fourth went on to cardiac cath, showed far fewer procedure-related complications and less often went to coronary revascularization during the median follow-up of 3.5 years, the group reported March 4 in the New England Journal of Medicine.
Based on the findings, CTA “is a safe alternative to cardiac catheterization for patients with suspected CAD [coronary artery disease] that will likely change clinical practice worldwide by replacing invasive testing in patients with stable chest pain who can be expected to benefit” those with an intermediate pretest probability for obstructive disease, principal investigator Marc Dewey, MD, Charité – Universitätsmedizin Berlin, told this news organization.
None of the patient subgroups explored in the trial showed a significant clinical benefit from one strategy over the other, Dr. Dewey commented in an email.
The trial’s results don’t apply to patients unlike those entered, and in particular, he said, “ICA should remain the first test option in patients with high clinical pretest probability of obstructive CAD.”
Dr. Dewey is senior author on the study’s publication, which was timed to coincide with his presentation of the results at ECR 2022 Overture, an all-virtual scientific session of the European Congress of Radiology.
“This is the definitive study,” Matthew Budoff, MD, Lundquist Institute at Harbor-UCLA, Torrance, California, said in an interview. It suggests in a large population that the initial CTA strategy “is as good and maybe safer” in stable patients at intermediate risk compared with initial ICA. “I would say close to 75% or 80% of the patients that we see would fall into that range of risk” and be suitable for the testing algorithm used in the study, said Dr. Budoff, who was not part of the trial.
Invasive angiography would generally still be the initial approach for patients at greater than intermediate risk, such as those with breakthrough angina or electrocardiographic changes, he said. “I still think there’s a huge role for invasive angiography. It’s just a bit smaller now than it used to be for the lower-risk patient.”
The DISCHARGE trial, agreed cardiothoracic radiology specialist Rozemarijn Vliegenthart, MD, PhD, University of Groningen, the Netherlands, “shows that in patients with intermediate pretest probability, CTA should be used as a gatekeeper before invasive coronary angiography, instead of directly referring for invasive coronary angiography.”
It shows that “a CT-first approach” is both safe and clinically effective and even a trend suggesting better clinical outcomes, compared with ICA. And it demonstrates that “still, many diagnostic invasive coronary angiographies are performed unnecessarily,” Dr. Vliegenthart said as the invited discussant following Dr. Dewey’s presentation.
DISCOVER is only the latest in a series of major studies to explore how CTA best fits in with ICA, stress imaging, and other tests for evaluating patients with chest pain. For example, “the PROMISE trial and the SCOT-HEART trial found that CT was as good as or even better than functional testing. DISCHARGE, I think, confirms the safety of the CT strategy” and reaffirms that it is “at least as good” as an ICA-first approach, cardiologist Klaus F. Kofoed, MD, PhD, DMSc, Rigshospitalet University of Copenhagen, said when co-presenting the trial’s results with Dr. Dewey.
“We can now say CT may be suitable in intermediate-risk patients referred for ICA, particularly those with a clinical constellation suggesting a higher event risk, with abnormal or inconclusive functional test results, or with persistent symptoms despite medical treatment,” said Dr. Kofoed, who is on the DISCOVER steering committee.
The trial’s 3,561 patients with stable chest pain – at 26 experienced centers in 16 countries – were randomly assigned to undergo CTA or ICA as their initial diagnostic imaging approach. Entry required them to be at intermediate risk, defined as an estimated 10% to 60% probability of having obstructive CAD. Of note, women made up about 56% of both groups.
Imaging was positive for obstructive disease in 26% of the 1,808 patients in the CTA group and in the same proportion of the 1,753 who were assigned to ICA. Nonobstructive CAD was identified in 36% and 22%, respectively.
Importantly, 404 (22.3%) patients in the CTA group then underwent ICA, which identified obstructive CAD in 293 (72.5%).
With a complete follow-up in about 99% of patients, the report notes, the rate of the primary endpoint of major adverse cardiac events, or MACE (cardiovascular death, nonfatal myocardial infarction, or nonfatal stroke) was 2.1% in the CTA group and in 3.0% in the ICA group. The adjusted hazard ratio of 0.70 (95% confidence interval, 0.46-1.07; P = .10) fell short of significance.
The corresponding HR for an “expanded primary outcome” that also included transient ischemic attack or major procedure-related complications was 0.60 (95% CI, 0.42-0.85) in favor of the CTA group.
As a “pragmatic trial,” DISCHARGE relied on clinically identified events for the endpoint assessments and did not require, for example, laboratory biomarker or neurologic imaging for confirmation, the report notes.
Major procedure-related complications during the initial management phase occurred in 0.5% of the CTA group, and 1.9% of those assigned to initial ICA (HR, 0.26; 95% CI, 0.13-0.55).
Coronary revascularization was less common in the CTA group during the trial’s follow-up, 14.2% versus 18.0% for those assigned to ICA (HR, 0.76; 95% CI, 0.65-0.90).
But the prevalences of angina during the final 4 weeks of follow-up, the group reported, were statistically similar at 8.8% and 7.5% for patients assigned to CTA and ICA, respectively.
The trial showed “no material difference” between the initial CTA versus ICA strategies for its MACE primary endpoint, observed Joseph Loscalzo, MD, PhD, Brigham and Women’s Hospital and Harvard Medical School, Boston, Mass., in an accompanying editorial.
“This result is probably a consequence of the lack of effect of revascularization on cardiovascular events among most patients with stable angina and the limited number of those with high-risk anatomy who would benefit from revascularization in the trial,” he writes.
That CTA was performed “significantly earlier than angiography, 3 days versus 12 days after enrollment,” may have led to earlier coronary revascularization in that group, and therefore is “a better outcome in patients whose anatomy would benefit from it.”
Dr. Loscalzo questioned several aspects of the trial design, which, for example, led to a more than 35% prevalence of patients with nonanginal chest pain among those randomized. Different criteria for classifying patients as “intermediate risk” might also have contributed to the fairly low prevalence of patients in either group ultimately identified with obstructive CAD, he proposes. That low prevalence “suggests that the overall trial population had a low risk of obstructive CAD rather than an intermediate risk.”
DISCHARGE was supported by grants from the European Union Seventh Framework Program, the Berlin Institute of Health, Rigshospitalet of the University of Copenhagen, the British Heart Foundation, and the German Research Foundation. Disclosures for the authors and editorialist are available at NEJM.org. Dr. Budoff has disclosed receiving grant support from General Electric. Dr. Vliegenthart discloses receiving grants from Siemens Healthineers and honorarium for speaking from Siemens Healthineers and Bayer.
A version of this article first appeared on Medscape.com.