Arrhythmias & EP

More than 18 months after the Watchman FLX device was licensed by the Food and Drug Administration for closure of the left atrial appendage (LAA), a prospective analysis of registry data presented at CRT 2022, sponsored by MedStar Heart & Vascular Institute, supports its safely outside of the clinical trial setting.

The data, drawn from the LAA occlusion registry of the National Cardiovascular Data Registry, showed a mortality rate at 45 days of under 1.0%, which was consistent with the acceptably low rate of other adverse events, according to Samir R. Kapadia, MD, chair of cardiovascular medicine at the Cleveland Clinic.

Only 0.5% had a pericardial effusion within 45 days of LAA closure that required intervention. Of those without effusion, 95% had a leak of less than 3 mm and 82% had no leak at all, according to Dr. Kapadia.

Patients enrolled in this analysis, called SURPASS (Surveillance Post Approval Analysis Plan), had undergone left atrial closure with the device from August 2020 to September 2022. There were no exclusion criteria. Ultimately, 2 years of follow-up is planned.

With more than 16,000 patients enrolled, the data on 14,363 patients in this initial 45-day analysis represents “the largest number of Watchman FLX patients evaluated to date,” Dr. Kapadia reported.
 

Device implantation success 97.5%

The Watchman FLX, which is delivered to the left atrial appendage by a transcatheter approach, was deployed successfully in 97.5% of all 16,048 patients enrolled in the registry. In the 398 cases without successful deployment, the anatomy was not conducive in nearly 70%. Other reasons included failure to meet device-release criteria and change in patient condition.

The outcomes of interest at 45 days were ischemic strokes, systemic emboli, device-related thrombi, device embolization, and bleeding. The primary endpoints at 2 years will be strokes and thrombotic events.

For stroke, the incidence within 45 days was 0.39%. About 25% of the strokes were hemorrhagic and the remainder were ischemic. There was 1 systemic embolism (0.01%), 5 device embolizations (0.03%), and 30 device-related thrombotic events (0.24%). Major bleeding occurred in 508 patients (3.55%).

For context, Dr. Kapadia compared these results to those observed in the PINNACLE FLX trial, which was a nonrandomized but prospective study of the Watchman FLX published about 1 year ago. In PINNACLE FLX, the enrollment was open to patients indicated for oral anticoagulation but who had an appropriate rationale for seeking a nonpharmacological alternative.

Taken from different studies, the outcomes at 45 days should not be construed as a direct comparison, but the similarity of the results can be considered reassuring, according to Dr. Kapadia.

For the composite safety endpoint of all-cause death, ischemic stroke, systemic embolism, or implantation-related events requiring intervention, the rates in SURPASS (0.4%) and PINNACLE FLX (0.5%) were nearly identical. Device leak rates (82.0% vs. 82.8%), stroke rates (0.4% vs. 0.7%), and all-cause death rates (0.9% vs. 0.5%) were also similar.

The similarity of the SURPASS and PINNACLE FLX data provides another level of reassurance.

“The SURPASS registry confirms the safety of the Watchman Flex in the real-world experience when the device is being used by many different operators in a large patient population,” Dr. Kapadia said in an interview.

In “appropriately selected patients,” the SURPASS data confirm that the Watchman FLX device “provides a safe and effective treatment option,” he added.

Relative to the PINNACLE FLX study, which enrolled 400 patients, it is noteworthy that the median age in SURPASS was older (76 vs. 73.8 years), a potential disadvantage in demonstrating comparable safety. The proportion of non-White patients was similar (6.7% vs. 6.3%). SURPASS had a higher proportion of women (40% vs. 35.5%).

Mitchel L. Zoler/MDedge News

The SURPASS data are credible, according to Vivek Y. Reddy, MD, director of cardiac arrhythmia services, Mount Sinai Health System, New York.

“While there are certainly limitations to registry data, I do feel pretty confident that these procedural complication and success rates [in SURPASS] do indeed reflect reality,” said Dr. Reddy, who was a coauthor of the PINNACLE FLX trial. In general, the SURPASS data “mirror most of our clinical experiences in routine clinical practice.”

With these registry data backing up multiple clinical studies, Dr. Reddy concluded, “I do believe that it is fair to say that Watchman-FLX implantation is a quite safe procedure.”

Dr. Kapadia reported no potential conflicts of interest. Dr. Reddy reported a financial relationship with Boston Scientific.

More than 18 months after the Watchman FLX device was licensed by the Food and Drug Administration for closure of the left atrial appendage (LAA), a prospective analysis of registry data presented at CRT 2022, sponsored by MedStar Heart & Vascular Institute, supports its safely outside of the clinical trial setting.

The data, drawn from the LAA occlusion registry of the National Cardiovascular Data Registry, showed a mortality rate at 45 days of under 1.0%, which was consistent with the acceptably low rate of other adverse events, according to Samir R. Kapadia, MD, chair of cardiovascular medicine at the Cleveland Clinic.

Only 0.5% had a pericardial effusion within 45 days of LAA closure that required intervention. Of those without effusion, 95% had a leak of less than 3 mm and 82% had no leak at all, according to Dr. Kapadia.

Patients enrolled in this analysis, called SURPASS (Surveillance Post Approval Analysis Plan), had undergone left atrial closure with the device from August 2020 to September 2022. There were no exclusion criteria. Ultimately, 2 years of follow-up is planned.

With more than 16,000 patients enrolled, the data on 14,363 patients in this initial 45-day analysis represents “the largest number of Watchman FLX patients evaluated to date,” Dr. Kapadia reported.
 

Device implantation success 97.5%

The Watchman FLX, which is delivered to the left atrial appendage by a transcatheter approach, was deployed successfully in 97.5% of all 16,048 patients enrolled in the registry. In the 398 cases without successful deployment, the anatomy was not conducive in nearly 70%. Other reasons included failure to meet device-release criteria and change in patient condition.

The outcomes of interest at 45 days were ischemic strokes, systemic emboli, device-related thrombi, device embolization, and bleeding. The primary endpoints at 2 years will be strokes and thrombotic events.

For stroke, the incidence within 45 days was 0.39%. About 25% of the strokes were hemorrhagic and the remainder were ischemic. There was 1 systemic embolism (0.01%), 5 device embolizations (0.03%), and 30 device-related thrombotic events (0.24%). Major bleeding occurred in 508 patients (3.55%).

For context, Dr. Kapadia compared these results to those observed in the PINNACLE FLX trial, which was a nonrandomized but prospective study of the Watchman FLX published about 1 year ago. In PINNACLE FLX, the enrollment was open to patients indicated for oral anticoagulation but who had an appropriate rationale for seeking a nonpharmacological alternative.

Taken from different studies, the outcomes at 45 days should not be construed as a direct comparison, but the similarity of the results can be considered reassuring, according to Dr. Kapadia.

For the composite safety endpoint of all-cause death, ischemic stroke, systemic embolism, or implantation-related events requiring intervention, the rates in SURPASS (0.4%) and PINNACLE FLX (0.5%) were nearly identical. Device leak rates (82.0% vs. 82.8%), stroke rates (0.4% vs. 0.7%), and all-cause death rates (0.9% vs. 0.5%) were also similar.

The similarity of the SURPASS and PINNACLE FLX data provides another level of reassurance.

“The SURPASS registry confirms the safety of the Watchman Flex in the real-world experience when the device is being used by many different operators in a large patient population,” Dr. Kapadia said in an interview.

In “appropriately selected patients,” the SURPASS data confirm that the Watchman FLX device “provides a safe and effective treatment option,” he added.

Relative to the PINNACLE FLX study, which enrolled 400 patients, it is noteworthy that the median age in SURPASS was older (76 vs. 73.8 years), a potential disadvantage in demonstrating comparable safety. The proportion of non-White patients was similar (6.7% vs. 6.3%). SURPASS had a higher proportion of women (40% vs. 35.5%).

Mitchel L. Zoler/MDedge News

The SURPASS data are credible, according to Vivek Y. Reddy, MD, director of cardiac arrhythmia services, Mount Sinai Health System, New York.

“While there are certainly limitations to registry data, I do feel pretty confident that these procedural complication and success rates [in SURPASS] do indeed reflect reality,” said Dr. Reddy, who was a coauthor of the PINNACLE FLX trial. In general, the SURPASS data “mirror most of our clinical experiences in routine clinical practice.”

With these registry data backing up multiple clinical studies, Dr. Reddy concluded, “I do believe that it is fair to say that Watchman-FLX implantation is a quite safe procedure.”

Dr. Kapadia reported no potential conflicts of interest. Dr. Reddy reported a financial relationship with Boston Scientific.

More than 18 months after the Watchman FLX device was licensed by the Food and Drug Administration for closure of the left atrial appendage (LAA), a prospective analysis of registry data presented at CRT 2022, sponsored by MedStar Heart & Vascular Institute, supports its safely outside of the clinical trial setting.

The data, drawn from the LAA occlusion registry of the National Cardiovascular Data Registry, showed a mortality rate at 45 days of under 1.0%, which was consistent with the acceptably low rate of other adverse events, according to Samir R. Kapadia, MD, chair of cardiovascular medicine at the Cleveland Clinic.

Only 0.5% had a pericardial effusion within 45 days of LAA closure that required intervention. Of those without effusion, 95% had a leak of less than 3 mm and 82% had no leak at all, according to Dr. Kapadia.

Patients enrolled in this analysis, called SURPASS (Surveillance Post Approval Analysis Plan), had undergone left atrial closure with the device from August 2020 to September 2022. There were no exclusion criteria. Ultimately, 2 years of follow-up is planned.

With more than 16,000 patients enrolled, the data on 14,363 patients in this initial 45-day analysis represents “the largest number of Watchman FLX patients evaluated to date,” Dr. Kapadia reported.
 

Device implantation success 97.5%

The Watchman FLX, which is delivered to the left atrial appendage by a transcatheter approach, was deployed successfully in 97.5% of all 16,048 patients enrolled in the registry. In the 398 cases without successful deployment, the anatomy was not conducive in nearly 70%. Other reasons included failure to meet device-release criteria and change in patient condition.

The outcomes of interest at 45 days were ischemic strokes, systemic emboli, device-related thrombi, device embolization, and bleeding. The primary endpoints at 2 years will be strokes and thrombotic events.

For stroke, the incidence within 45 days was 0.39%. About 25% of the strokes were hemorrhagic and the remainder were ischemic. There was 1 systemic embolism (0.01%), 5 device embolizations (0.03%), and 30 device-related thrombotic events (0.24%). Major bleeding occurred in 508 patients (3.55%).

For context, Dr. Kapadia compared these results to those observed in the PINNACLE FLX trial, which was a nonrandomized but prospective study of the Watchman FLX published about 1 year ago. In PINNACLE FLX, the enrollment was open to patients indicated for oral anticoagulation but who had an appropriate rationale for seeking a nonpharmacological alternative.

Taken from different studies, the outcomes at 45 days should not be construed as a direct comparison, but the similarity of the results can be considered reassuring, according to Dr. Kapadia.

For the composite safety endpoint of all-cause death, ischemic stroke, systemic embolism, or implantation-related events requiring intervention, the rates in SURPASS (0.4%) and PINNACLE FLX (0.5%) were nearly identical. Device leak rates (82.0% vs. 82.8%), stroke rates (0.4% vs. 0.7%), and all-cause death rates (0.9% vs. 0.5%) were also similar.

The similarity of the SURPASS and PINNACLE FLX data provides another level of reassurance.

“The SURPASS registry confirms the safety of the Watchman Flex in the real-world experience when the device is being used by many different operators in a large patient population,” Dr. Kapadia said in an interview.

In “appropriately selected patients,” the SURPASS data confirm that the Watchman FLX device “provides a safe and effective treatment option,” he added.

Relative to the PINNACLE FLX study, which enrolled 400 patients, it is noteworthy that the median age in SURPASS was older (76 vs. 73.8 years), a potential disadvantage in demonstrating comparable safety. The proportion of non-White patients was similar (6.7% vs. 6.3%). SURPASS had a higher proportion of women (40% vs. 35.5%).

Mitchel L. Zoler/MDedge News

The SURPASS data are credible, according to Vivek Y. Reddy, MD, director of cardiac arrhythmia services, Mount Sinai Health System, New York.

“While there are certainly limitations to registry data, I do feel pretty confident that these procedural complication and success rates [in SURPASS] do indeed reflect reality,” said Dr. Reddy, who was a coauthor of the PINNACLE FLX trial. In general, the SURPASS data “mirror most of our clinical experiences in routine clinical practice.”

With these registry data backing up multiple clinical studies, Dr. Reddy concluded, “I do believe that it is fair to say that Watchman-FLX implantation is a quite safe procedure.”

Dr. Kapadia reported no potential conflicts of interest. Dr. Reddy reported a financial relationship with Boston Scientific.

Should screening elderly patients for atrial fibrillation (AFib) during primary care visits be as routine as checking blood pressure, respiration, and other vital signs? A new study says the answer is “maybe” for some people.

The use of handheld, single-lead electrocardiograms (ECGs) did not increase diagnoses of AFib overall in patients aged 65 and older, but it did in patients 85 and up, researchers reported in Circulation.

“Incorporating single-lead ECGs into routine medical assessments as a new vital sign was widely feasible. Over 90% of people who were offered screening agreed to it and underwent screening,” said Steven Lubitz, MD, of the Cardiac Arrhythmia Service and Cardiovascular Research Center at Massachusetts General Hospital, Boston, who led the study.

Because advanced age is associated with a substantially increased risk of both AFib and stroke, point-of-care screening might be an efficient use of handheld ECGs, Dr. Lubitz said.

“The technology simply requires patients to place their fingers on the device to record an electrocardiogram and can be easily embedded in the routine clinical practice of primary care physicians,” he said in an interview.

The typical person has a 30% lifetime risk of developing AFib, and the chances of experiencing a stroke associated with the arrhythmia can be reduced significantly with anticoagulants, Dr. Lubitz said.

Professional organizations are split about the utility of screening for AFib. The European Society of Cardiology recommends opportunistic screening with either pulse palpation or ECG rhythm strip at clinic visits for patients 65 and older. The National Heart Foundation of Australia and the Cardiac Society of Australia and New Zealand have issued similar guidelines.

However, screening for AFib is not considered standard of care in the United States – although Dr. Lubitz predicted that that would change.

“I think the guidelines in the United States will evolve in the next few years, because I think we’re getting closer to understanding who we should be screening for atrial fibrillation and how we should be screening,” Dr. Lubitz told this news organization.
 

‘Very reassuring’ results

The randomized controlled trial found that for patients 85 and older, use of handheld ECGs led to a nearly 2% increase in new diagnoses of AFib in the screening group compared to conventional care.

The researchers also demonstrated an increased likelihood of diagnosing AFib during the patient’s primary-care encounter than at other sites, such as the emergency department or inpatient settings that might be more costly and resource-intensive. Moreover, the study reported that point-of-care screening was associated with high rates of oral anticoagulation prescriptions written for patients with newly diagnosed AFib, a finding Dr. Lubitz called “very reassuring.”

The Mass General researchers used single-lead devices attached to a tablet computer to screen more than 35,000 men and women from 16 primary care sites affiliated with the hospital’s practice-based research network.

Half the sites were randomly selected to include the screening intervention, where medical assistants used handheld ECGs at the start of the visit while checking routine vital signs.

The 1-year study screened 91% of eligible patients, demonstrating that single-lead rhythm assessment is feasible as part of routine primary care practice, Dr. Lubitz said. This finding supports other studies suggesting that handheld devices can enable rapid and scalable mass screening.

“We demonstrated that integration into routine practice by clinical personnel – in this case, medical assistants – is feasible. No study has measured and demonstrated such a high integration with routine care, reflecting both patient interest in screening and feasibility of incorporating screening into busy clinical practices,” Dr. Lubitz said.

Mobile ECGs with the handheld device take about 30 seconds to perform. In contrast, standard ECGs used in outpatient practices are bulky, and recording the ECG can take roughly 10 minutes.

Anthony Leazzo, DO, chairman of family practice at Northwestern Medicine Delnor Hospital, in Geneva, Ill., noted that smartwatches provide an alternative technology for detecting AFib.

But “a handheld, one-lead device would be more beneficial and should be more sensitive by measuring electrical activity similar to a normal ECG,” he said.

However, Dr. Leazzo said using such technology would need to be cost-effective because the patients at highest risk for AFib usually are on fixed incomes. Consumer versions of the devices can cost under $100. Dr. Lubitz said the actual cost for devices and a software platform used for a medical enterprise may differ.

Handheld ECGs are gradually being integrated into clinical practices, a trend driven by the rapid growth of telemedicine to remotely assess patients, Dr. Lubitz said.

“Our work affirmed that single-lead devices generate information for the physician that is actionable, though the proportion of newly detected AFib cases using a point-of-care ECG screening approach is likely to be very small,” Dr. Lubitz said in an interview. “For that reason, we think handheld devices are best deployed for people at the highest risk of AFib and stroke, and age is an excellent surrogate for that determination.”

The study was funded by Bristol-Myers Squibb–Pfizer Alliance.

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

Should screening elderly patients for atrial fibrillation (AFib) during primary care visits be as routine as checking blood pressure, respiration, and other vital signs? A new study says the answer is “maybe” for some people.

The use of handheld, single-lead electrocardiograms (ECGs) did not increase diagnoses of AFib overall in patients aged 65 and older, but it did in patients 85 and up, researchers reported in Circulation.

“Incorporating single-lead ECGs into routine medical assessments as a new vital sign was widely feasible. Over 90% of people who were offered screening agreed to it and underwent screening,” said Steven Lubitz, MD, of the Cardiac Arrhythmia Service and Cardiovascular Research Center at Massachusetts General Hospital, Boston, who led the study.

Because advanced age is associated with a substantially increased risk of both AFib and stroke, point-of-care screening might be an efficient use of handheld ECGs, Dr. Lubitz said.

“The technology simply requires patients to place their fingers on the device to record an electrocardiogram and can be easily embedded in the routine clinical practice of primary care physicians,” he said in an interview.

The typical person has a 30% lifetime risk of developing AFib, and the chances of experiencing a stroke associated with the arrhythmia can be reduced significantly with anticoagulants, Dr. Lubitz said.

Professional organizations are split about the utility of screening for AFib. The European Society of Cardiology recommends opportunistic screening with either pulse palpation or ECG rhythm strip at clinic visits for patients 65 and older. The National Heart Foundation of Australia and the Cardiac Society of Australia and New Zealand have issued similar guidelines.

However, screening for AFib is not considered standard of care in the United States – although Dr. Lubitz predicted that that would change.

“I think the guidelines in the United States will evolve in the next few years, because I think we’re getting closer to understanding who we should be screening for atrial fibrillation and how we should be screening,” Dr. Lubitz told this news organization.
 

‘Very reassuring’ results

The randomized controlled trial found that for patients 85 and older, use of handheld ECGs led to a nearly 2% increase in new diagnoses of AFib in the screening group compared to conventional care.

The researchers also demonstrated an increased likelihood of diagnosing AFib during the patient’s primary-care encounter than at other sites, such as the emergency department or inpatient settings that might be more costly and resource-intensive. Moreover, the study reported that point-of-care screening was associated with high rates of oral anticoagulation prescriptions written for patients with newly diagnosed AFib, a finding Dr. Lubitz called “very reassuring.”

The Mass General researchers used single-lead devices attached to a tablet computer to screen more than 35,000 men and women from 16 primary care sites affiliated with the hospital’s practice-based research network.

Half the sites were randomly selected to include the screening intervention, where medical assistants used handheld ECGs at the start of the visit while checking routine vital signs.

The 1-year study screened 91% of eligible patients, demonstrating that single-lead rhythm assessment is feasible as part of routine primary care practice, Dr. Lubitz said. This finding supports other studies suggesting that handheld devices can enable rapid and scalable mass screening.

“We demonstrated that integration into routine practice by clinical personnel – in this case, medical assistants – is feasible. No study has measured and demonstrated such a high integration with routine care, reflecting both patient interest in screening and feasibility of incorporating screening into busy clinical practices,” Dr. Lubitz said.

Mobile ECGs with the handheld device take about 30 seconds to perform. In contrast, standard ECGs used in outpatient practices are bulky, and recording the ECG can take roughly 10 minutes.

Anthony Leazzo, DO, chairman of family practice at Northwestern Medicine Delnor Hospital, in Geneva, Ill., noted that smartwatches provide an alternative technology for detecting AFib.

But “a handheld, one-lead device would be more beneficial and should be more sensitive by measuring electrical activity similar to a normal ECG,” he said.

However, Dr. Leazzo said using such technology would need to be cost-effective because the patients at highest risk for AFib usually are on fixed incomes. Consumer versions of the devices can cost under $100. Dr. Lubitz said the actual cost for devices and a software platform used for a medical enterprise may differ.

Handheld ECGs are gradually being integrated into clinical practices, a trend driven by the rapid growth of telemedicine to remotely assess patients, Dr. Lubitz said.

“Our work affirmed that single-lead devices generate information for the physician that is actionable, though the proportion of newly detected AFib cases using a point-of-care ECG screening approach is likely to be very small,” Dr. Lubitz said in an interview. “For that reason, we think handheld devices are best deployed for people at the highest risk of AFib and stroke, and age is an excellent surrogate for that determination.”

The study was funded by Bristol-Myers Squibb–Pfizer Alliance.

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

Should screening elderly patients for atrial fibrillation (AFib) during primary care visits be as routine as checking blood pressure, respiration, and other vital signs? A new study says the answer is “maybe” for some people.

The use of handheld, single-lead electrocardiograms (ECGs) did not increase diagnoses of AFib overall in patients aged 65 and older, but it did in patients 85 and up, researchers reported in Circulation.

“Incorporating single-lead ECGs into routine medical assessments as a new vital sign was widely feasible. Over 90% of people who were offered screening agreed to it and underwent screening,” said Steven Lubitz, MD, of the Cardiac Arrhythmia Service and Cardiovascular Research Center at Massachusetts General Hospital, Boston, who led the study.

Because advanced age is associated with a substantially increased risk of both AFib and stroke, point-of-care screening might be an efficient use of handheld ECGs, Dr. Lubitz said.

“The technology simply requires patients to place their fingers on the device to record an electrocardiogram and can be easily embedded in the routine clinical practice of primary care physicians,” he said in an interview.

The typical person has a 30% lifetime risk of developing AFib, and the chances of experiencing a stroke associated with the arrhythmia can be reduced significantly with anticoagulants, Dr. Lubitz said.

Professional organizations are split about the utility of screening for AFib. The European Society of Cardiology recommends opportunistic screening with either pulse palpation or ECG rhythm strip at clinic visits for patients 65 and older. The National Heart Foundation of Australia and the Cardiac Society of Australia and New Zealand have issued similar guidelines.

However, screening for AFib is not considered standard of care in the United States – although Dr. Lubitz predicted that that would change.

“I think the guidelines in the United States will evolve in the next few years, because I think we’re getting closer to understanding who we should be screening for atrial fibrillation and how we should be screening,” Dr. Lubitz told this news organization.
 

‘Very reassuring’ results

The randomized controlled trial found that for patients 85 and older, use of handheld ECGs led to a nearly 2% increase in new diagnoses of AFib in the screening group compared to conventional care.

The researchers also demonstrated an increased likelihood of diagnosing AFib during the patient’s primary-care encounter than at other sites, such as the emergency department or inpatient settings that might be more costly and resource-intensive. Moreover, the study reported that point-of-care screening was associated with high rates of oral anticoagulation prescriptions written for patients with newly diagnosed AFib, a finding Dr. Lubitz called “very reassuring.”

The Mass General researchers used single-lead devices attached to a tablet computer to screen more than 35,000 men and women from 16 primary care sites affiliated with the hospital’s practice-based research network.

Half the sites were randomly selected to include the screening intervention, where medical assistants used handheld ECGs at the start of the visit while checking routine vital signs.

The 1-year study screened 91% of eligible patients, demonstrating that single-lead rhythm assessment is feasible as part of routine primary care practice, Dr. Lubitz said. This finding supports other studies suggesting that handheld devices can enable rapid and scalable mass screening.

“We demonstrated that integration into routine practice by clinical personnel – in this case, medical assistants – is feasible. No study has measured and demonstrated such a high integration with routine care, reflecting both patient interest in screening and feasibility of incorporating screening into busy clinical practices,” Dr. Lubitz said.

Mobile ECGs with the handheld device take about 30 seconds to perform. In contrast, standard ECGs used in outpatient practices are bulky, and recording the ECG can take roughly 10 minutes.

Anthony Leazzo, DO, chairman of family practice at Northwestern Medicine Delnor Hospital, in Geneva, Ill., noted that smartwatches provide an alternative technology for detecting AFib.

But “a handheld, one-lead device would be more beneficial and should be more sensitive by measuring electrical activity similar to a normal ECG,” he said.

However, Dr. Leazzo said using such technology would need to be cost-effective because the patients at highest risk for AFib usually are on fixed incomes. Consumer versions of the devices can cost under $100. Dr. Lubitz said the actual cost for devices and a software platform used for a medical enterprise may differ.

Handheld ECGs are gradually being integrated into clinical practices, a trend driven by the rapid growth of telemedicine to remotely assess patients, Dr. Lubitz said.

“Our work affirmed that single-lead devices generate information for the physician that is actionable, though the proportion of newly detected AFib cases using a point-of-care ECG screening approach is likely to be very small,” Dr. Lubitz said in an interview. “For that reason, we think handheld devices are best deployed for people at the highest risk of AFib and stroke, and age is an excellent surrogate for that determination.”

The study was funded by Bristol-Myers Squibb–Pfizer Alliance.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Survival after in-hospital cardiac arrest was roughly one-third lower in patients with COVID-19 infections compared to uninfected patients, based on data from nearly 25,000 individuals.

Survival rates of less than 3% were reported in the United States and China for patients who suffered in-hospital cardiac arrest (IHCA) while infected with COVID-19 early in the pandemic, but the data came from small, single-center studies in overwhelmed hospitals, wrote Saket Girotra, MD, of the University of Iowa, Iowa City, and fellow American Heart Association Get With the Guidelines–Resuscitation Investigators. Whether these early reports reflect the broader experience of patients with COVID-19 in hospitals in the United States remains unknown.

In a study published as a research letter in JAMA Network Open, the researchers reviewed data from the American Heart Association Get With the Guidelines–Resuscitation registry. The registry collects detailed information on patients aged 18 years and older who experience cardiac arrest at participating hospitals in the United States. The study population included 24,915 patients aged 18 years and older from 286 hospitals who experienced IHCA during March–December 2020. The mean age of the patients was 64.7 years; 61.1% were White, 24.8% were Black, 3.8% were of other race or ethnicity, and 10.3% were of unknown race or ethnicity.

The primary outcomes were survival to discharge and return of spontaneous circulation (ROSC) for at least 20 minutes.

A total of 5,916 patients (23.7%) had suspected or confirmed COVID-19 infections, and infected patients were more likely to be younger, male, and Black. Patients with COVID-19 infections also were significantly more likely than noninfected patients to have nonshockable rhythm, pneumonia, respiratory insufficiency, or sepsis, and to be on mechanical ventilation or vasopressors when the IHCA occurred, the researchers noted.

Survival rates to hospital discharge were 11.9% for COVID-19 patients, compared with 23.5% for noninfected patients (adjusted relative risk, 0.65; P < .001). ROSC was 53.7% and 63.6%, for infected and noninfected patients, respectively (aRR, 0.86; P < .001).

COVID-19 patients also were more likely than noninfected patients to receive delayed defibrillation, the researchers said. “Although delays in resuscitation, especially defibrillation, may have contributed to lower survival, the negative association of COVID-19 with survival in this study was consistent across subgroups, including patients who received timely treatment with defibrillation and epinephrine.”

The extremely low survival rate in early pandemic studies likely reflected the overwhelming burden on health systems at the time, the researchers said in their discussion.

The study findings were limited by several factors, including potential confounding from unmeasured variables, the use of a quality improvement registry that may not reflect nonparticipating hospitals, and potential false-positive COVID-19 cases. However, the result support findings from recent studies of multiple centers and extend clinical knowledge by comparing infected and noninfected patients from a larger group of hospitals than previously studied, the researchers said.

“We believe that these data will be relevant to health care providers and hospital administrators as the COVID-19 pandemic continues,” they concluded.
 

Think beyond COVID-19 for cardiac care

“Early during the pandemic, questions were raised whether COVID-19 patients should be treated with CPR,” Dr. Girotra said in an interview. “This was because initial studies had found a dismal survival of 0%-3% in COVID patients treated with CPR. The potential of transmitting the virus to health care professionals during CPR further heightened these concerns. We wanted to know whether the poor survival reported in these initial studies were broadly representative.”

Dr. Girotra said that some of the study findings were surprising. “We found that of all patients with IHCA in 2020 in our study, one in four were suspected or confirmed to have COVID-19 infection. We were surprised by the magnitude of COVID’s impact on the cardiac arrest incidence.”

The implications for clinical decision-making are to think outside of COVID-19 infection, said Dr. Girotra. In the current study, “Although overall survival of cardiac arrest in COVID-positive patients was 30% lower, compared to non-COVID patients, it was not as poor as previously reported. COVID-19 infection alone should not be considered the sole factor for making decisions regarding CPR.

“Over the past 2 decades, we have experienced large gains in survival for in-hospital cardiac arrest. However, the COVID-19 pandemic has eroded these gains,” said Dr. Girotra. “Future studies are needed to monitor the impact of any new variants on cardiac arrest care,” as well as studies “to see whether we return to the prepandemic levels of IHCA survival once the pandemic recedes.”

Dr. Girotra has no relevant financial disclosures.

Survival after in-hospital cardiac arrest was roughly one-third lower in patients with COVID-19 infections compared to uninfected patients, based on data from nearly 25,000 individuals.

Survival rates of less than 3% were reported in the United States and China for patients who suffered in-hospital cardiac arrest (IHCA) while infected with COVID-19 early in the pandemic, but the data came from small, single-center studies in overwhelmed hospitals, wrote Saket Girotra, MD, of the University of Iowa, Iowa City, and fellow American Heart Association Get With the Guidelines–Resuscitation Investigators. Whether these early reports reflect the broader experience of patients with COVID-19 in hospitals in the United States remains unknown.

In a study published as a research letter in JAMA Network Open, the researchers reviewed data from the American Heart Association Get With the Guidelines–Resuscitation registry. The registry collects detailed information on patients aged 18 years and older who experience cardiac arrest at participating hospitals in the United States. The study population included 24,915 patients aged 18 years and older from 286 hospitals who experienced IHCA during March–December 2020. The mean age of the patients was 64.7 years; 61.1% were White, 24.8% were Black, 3.8% were of other race or ethnicity, and 10.3% were of unknown race or ethnicity.

The primary outcomes were survival to discharge and return of spontaneous circulation (ROSC) for at least 20 minutes.

A total of 5,916 patients (23.7%) had suspected or confirmed COVID-19 infections, and infected patients were more likely to be younger, male, and Black. Patients with COVID-19 infections also were significantly more likely than noninfected patients to have nonshockable rhythm, pneumonia, respiratory insufficiency, or sepsis, and to be on mechanical ventilation or vasopressors when the IHCA occurred, the researchers noted.

Survival rates to hospital discharge were 11.9% for COVID-19 patients, compared with 23.5% for noninfected patients (adjusted relative risk, 0.65; P < .001). ROSC was 53.7% and 63.6%, for infected and noninfected patients, respectively (aRR, 0.86; P < .001).

COVID-19 patients also were more likely than noninfected patients to receive delayed defibrillation, the researchers said. “Although delays in resuscitation, especially defibrillation, may have contributed to lower survival, the negative association of COVID-19 with survival in this study was consistent across subgroups, including patients who received timely treatment with defibrillation and epinephrine.”

The extremely low survival rate in early pandemic studies likely reflected the overwhelming burden on health systems at the time, the researchers said in their discussion.

The study findings were limited by several factors, including potential confounding from unmeasured variables, the use of a quality improvement registry that may not reflect nonparticipating hospitals, and potential false-positive COVID-19 cases. However, the result support findings from recent studies of multiple centers and extend clinical knowledge by comparing infected and noninfected patients from a larger group of hospitals than previously studied, the researchers said.

“We believe that these data will be relevant to health care providers and hospital administrators as the COVID-19 pandemic continues,” they concluded.
 

Think beyond COVID-19 for cardiac care

“Early during the pandemic, questions were raised whether COVID-19 patients should be treated with CPR,” Dr. Girotra said in an interview. “This was because initial studies had found a dismal survival of 0%-3% in COVID patients treated with CPR. The potential of transmitting the virus to health care professionals during CPR further heightened these concerns. We wanted to know whether the poor survival reported in these initial studies were broadly representative.”

Dr. Girotra said that some of the study findings were surprising. “We found that of all patients with IHCA in 2020 in our study, one in four were suspected or confirmed to have COVID-19 infection. We were surprised by the magnitude of COVID’s impact on the cardiac arrest incidence.”

The implications for clinical decision-making are to think outside of COVID-19 infection, said Dr. Girotra. In the current study, “Although overall survival of cardiac arrest in COVID-positive patients was 30% lower, compared to non-COVID patients, it was not as poor as previously reported. COVID-19 infection alone should not be considered the sole factor for making decisions regarding CPR.

“Over the past 2 decades, we have experienced large gains in survival for in-hospital cardiac arrest. However, the COVID-19 pandemic has eroded these gains,” said Dr. Girotra. “Future studies are needed to monitor the impact of any new variants on cardiac arrest care,” as well as studies “to see whether we return to the prepandemic levels of IHCA survival once the pandemic recedes.”

Dr. Girotra has no relevant financial disclosures.

Survival after in-hospital cardiac arrest was roughly one-third lower in patients with COVID-19 infections compared to uninfected patients, based on data from nearly 25,000 individuals.

Survival rates of less than 3% were reported in the United States and China for patients who suffered in-hospital cardiac arrest (IHCA) while infected with COVID-19 early in the pandemic, but the data came from small, single-center studies in overwhelmed hospitals, wrote Saket Girotra, MD, of the University of Iowa, Iowa City, and fellow American Heart Association Get With the Guidelines–Resuscitation Investigators. Whether these early reports reflect the broader experience of patients with COVID-19 in hospitals in the United States remains unknown.

In a study published as a research letter in JAMA Network Open, the researchers reviewed data from the American Heart Association Get With the Guidelines–Resuscitation registry. The registry collects detailed information on patients aged 18 years and older who experience cardiac arrest at participating hospitals in the United States. The study population included 24,915 patients aged 18 years and older from 286 hospitals who experienced IHCA during March–December 2020. The mean age of the patients was 64.7 years; 61.1% were White, 24.8% were Black, 3.8% were of other race or ethnicity, and 10.3% were of unknown race or ethnicity.

The primary outcomes were survival to discharge and return of spontaneous circulation (ROSC) for at least 20 minutes.

A total of 5,916 patients (23.7%) had suspected or confirmed COVID-19 infections, and infected patients were more likely to be younger, male, and Black. Patients with COVID-19 infections also were significantly more likely than noninfected patients to have nonshockable rhythm, pneumonia, respiratory insufficiency, or sepsis, and to be on mechanical ventilation or vasopressors when the IHCA occurred, the researchers noted.

Survival rates to hospital discharge were 11.9% for COVID-19 patients, compared with 23.5% for noninfected patients (adjusted relative risk, 0.65; P < .001). ROSC was 53.7% and 63.6%, for infected and noninfected patients, respectively (aRR, 0.86; P < .001).

COVID-19 patients also were more likely than noninfected patients to receive delayed defibrillation, the researchers said. “Although delays in resuscitation, especially defibrillation, may have contributed to lower survival, the negative association of COVID-19 with survival in this study was consistent across subgroups, including patients who received timely treatment with defibrillation and epinephrine.”

The extremely low survival rate in early pandemic studies likely reflected the overwhelming burden on health systems at the time, the researchers said in their discussion.

The study findings were limited by several factors, including potential confounding from unmeasured variables, the use of a quality improvement registry that may not reflect nonparticipating hospitals, and potential false-positive COVID-19 cases. However, the result support findings from recent studies of multiple centers and extend clinical knowledge by comparing infected and noninfected patients from a larger group of hospitals than previously studied, the researchers said.

“We believe that these data will be relevant to health care providers and hospital administrators as the COVID-19 pandemic continues,” they concluded.
 

Think beyond COVID-19 for cardiac care

“Early during the pandemic, questions were raised whether COVID-19 patients should be treated with CPR,” Dr. Girotra said in an interview. “This was because initial studies had found a dismal survival of 0%-3% in COVID patients treated with CPR. The potential of transmitting the virus to health care professionals during CPR further heightened these concerns. We wanted to know whether the poor survival reported in these initial studies were broadly representative.”

Dr. Girotra said that some of the study findings were surprising. “We found that of all patients with IHCA in 2020 in our study, one in four were suspected or confirmed to have COVID-19 infection. We were surprised by the magnitude of COVID’s impact on the cardiac arrest incidence.”

The implications for clinical decision-making are to think outside of COVID-19 infection, said Dr. Girotra. In the current study, “Although overall survival of cardiac arrest in COVID-positive patients was 30% lower, compared to non-COVID patients, it was not as poor as previously reported. COVID-19 infection alone should not be considered the sole factor for making decisions regarding CPR.

“Over the past 2 decades, we have experienced large gains in survival for in-hospital cardiac arrest. However, the COVID-19 pandemic has eroded these gains,” said Dr. Girotra. “Future studies are needed to monitor the impact of any new variants on cardiac arrest care,” as well as studies “to see whether we return to the prepandemic levels of IHCA survival once the pandemic recedes.”

Dr. Girotra has no relevant financial disclosures.

Building on several previous reports that the newest models of mobile telephones and other electronics that use magnets pose a threat to the function of defibrillators and other implantable cardiovascular devices, a new study implicates any device that emits a 10-gauss (G) magnetic field more than a couple of inches.

“Beside the devices described in our manuscript, this can be any portable consumer product [with magnets] like electric cigarettes or smart watches,” explained study author Sven Knecht, DSc, a research electrophysiologist associated with the department of cardiology, University Hospital Basel (Switzerland).

In the newly published article, the investigators evaluated earphones, earphone charging cases, and two electronic pens used to draw on electronic tablets. These particular devices are of interest because, like mobile phones, they are of a size and shape to fit in a breast pocket adjacent to where many cardiovascular devices are implanted.

The study joins several previous studies that have shown the same risk, but this study used three-dimensional (3D) mapping of the magnetic field rather than a one-axis sensor, which is a standard adopted by the U.S. Food and Drug Administration, according to the investigators.
 

3D mapping assessment used

Because of the 3D nature of magnetic fields, 3D mapping serves as a better tool to assess the risk of the magnetic force as the intensity gradient diminishes with distance from the source, the authors contended. The 3D maps used in this study have a resolution to 2 mm.

The ex vivo measurements of the magnetic field, which could be displayed in a configurable 3D volume in relation to the electronic products were performed on five different explanted cardioverter defibrillators from two manufacturers.

In the ex vivo setting, the ability of the earphones, earphone charging cases, and electronic pens to interfere with defibrillator function was compared to that of the Apple iPhone 12 Max, which was the subject of a small in vivo study published in 2021. When the iPhone 12 Max was placed on the skin over a cardiac implantable device in that study, clinically identifiable interference could be detected in all 3 patients evaluated.

Based on previous work, the International Organization for Standardization has established that a minimal field strength of 10 G is needed to interfere with an implantable device, but the actual risk from any specific device is determined by the distance at which this strength of magnetic field is projected.

In the 3D analysis, the 10-G intensity was found to project 20 mm from the surface of the ear phones, ear phone charging case, and one of the electronic pens and to project 29 mm from the other electronic pen. When tested against the five defibrillators, magnetic reversion mode was triggered by the portable electronics at distances ranging from 8 to 18 mm.

In an interview, Dr. Knecht explained that this study adds more devices to the list of those associated with potential for interfering with implantable cardiovascular devices, but added that the more important point is that any device that contains magnets emitting a force of 10 G or greater for more than a few inches can be expected to be associated with clinically meaningful interference. The devices tested in this study were produced by Apple and Microsoft, but a focus on specific devices obscures the main message.

“All portable electronics with an embedded permanent magnet creating a 10-G magnetic field have a theoretical capability of triggering implantable devices,” he said.

For pacemakers, the interference is likely to trigger constant pacing, which would not be expected to pose a significant health threat if detected with a reasonable period, according to Dr. Knecht. Interference is potentially more serious for defibrillators, which might fail during magnetic interference to provide the shock needed to terminate a serious arrhythmia.

The combination of events – interference at the time of an arrhythmia – make this risk “very low,” but Dr. Knecht said it is sufficient to mean that patients receiving an implantable cardiovascular device should be made aware of the risk and the need to avoid placing portable electronic products near the implanted device.

When in vivo evidence of a disturbance with the iPhone 12 was reported in 2021, it amplified existing concern. The American Heart Association maintains a list of electronic products with the potential to interfere with implantable devices on its website. But, again, understanding the potential for risk and the need to keep electronic products with magnets at a safe distance from cardiovascular implantable devices is more important than trying to memorize the ever-growing list of devices with this capability.

“Prudent education of patients receiving an implantable device is important,” said N.A. Mark Estes III, MD, professor of medicine in the division of cardiology at the University of Pittsburgh. However, in an interview, he warned that the growing list of implicated devices makes a complete survey impractical, and, even if achievable, likely to leave patients “feeling overwhelmed.”
 

In Dr. Estes’s practice, he does provide printed information about the risks of electronics to interfere with implantable devices as well as a list of dos and don’ts. He agreed that the absolute risk of interference from a device causing significant clinical complications is low, but the goal is to “bring it as close to zero as possible.”

“No clinical case of a meaningful interaction of an electronic product and dysfunction of an implantable device has ever been documented,” he said. Given the widespread use of the new generation of cellphones that contain magnets powerful enough to induce dysfunction in an implantable device, “this speaks to the fact that the risk continues to be very low.”

Dr. Knecht and coinvestigators, along with Dr. Estes, reported no potential conflicts of interest.

Building on several previous reports that the newest models of mobile telephones and other electronics that use magnets pose a threat to the function of defibrillators and other implantable cardiovascular devices, a new study implicates any device that emits a 10-gauss (G) magnetic field more than a couple of inches.

“Beside the devices described in our manuscript, this can be any portable consumer product [with magnets] like electric cigarettes or smart watches,” explained study author Sven Knecht, DSc, a research electrophysiologist associated with the department of cardiology, University Hospital Basel (Switzerland).

In the newly published article, the investigators evaluated earphones, earphone charging cases, and two electronic pens used to draw on electronic tablets. These particular devices are of interest because, like mobile phones, they are of a size and shape to fit in a breast pocket adjacent to where many cardiovascular devices are implanted.

The study joins several previous studies that have shown the same risk, but this study used three-dimensional (3D) mapping of the magnetic field rather than a one-axis sensor, which is a standard adopted by the U.S. Food and Drug Administration, according to the investigators.
 

3D mapping assessment used

Because of the 3D nature of magnetic fields, 3D mapping serves as a better tool to assess the risk of the magnetic force as the intensity gradient diminishes with distance from the source, the authors contended. The 3D maps used in this study have a resolution to 2 mm.

The ex vivo measurements of the magnetic field, which could be displayed in a configurable 3D volume in relation to the electronic products were performed on five different explanted cardioverter defibrillators from two manufacturers.

In the ex vivo setting, the ability of the earphones, earphone charging cases, and electronic pens to interfere with defibrillator function was compared to that of the Apple iPhone 12 Max, which was the subject of a small in vivo study published in 2021. When the iPhone 12 Max was placed on the skin over a cardiac implantable device in that study, clinically identifiable interference could be detected in all 3 patients evaluated.

Based on previous work, the International Organization for Standardization has established that a minimal field strength of 10 G is needed to interfere with an implantable device, but the actual risk from any specific device is determined by the distance at which this strength of magnetic field is projected.

In the 3D analysis, the 10-G intensity was found to project 20 mm from the surface of the ear phones, ear phone charging case, and one of the electronic pens and to project 29 mm from the other electronic pen. When tested against the five defibrillators, magnetic reversion mode was triggered by the portable electronics at distances ranging from 8 to 18 mm.

In an interview, Dr. Knecht explained that this study adds more devices to the list of those associated with potential for interfering with implantable cardiovascular devices, but added that the more important point is that any device that contains magnets emitting a force of 10 G or greater for more than a few inches can be expected to be associated with clinically meaningful interference. The devices tested in this study were produced by Apple and Microsoft, but a focus on specific devices obscures the main message.

“All portable electronics with an embedded permanent magnet creating a 10-G magnetic field have a theoretical capability of triggering implantable devices,” he said.

For pacemakers, the interference is likely to trigger constant pacing, which would not be expected to pose a significant health threat if detected with a reasonable period, according to Dr. Knecht. Interference is potentially more serious for defibrillators, which might fail during magnetic interference to provide the shock needed to terminate a serious arrhythmia.

The combination of events – interference at the time of an arrhythmia – make this risk “very low,” but Dr. Knecht said it is sufficient to mean that patients receiving an implantable cardiovascular device should be made aware of the risk and the need to avoid placing portable electronic products near the implanted device.

When in vivo evidence of a disturbance with the iPhone 12 was reported in 2021, it amplified existing concern. The American Heart Association maintains a list of electronic products with the potential to interfere with implantable devices on its website. But, again, understanding the potential for risk and the need to keep electronic products with magnets at a safe distance from cardiovascular implantable devices is more important than trying to memorize the ever-growing list of devices with this capability.

“Prudent education of patients receiving an implantable device is important,” said N.A. Mark Estes III, MD, professor of medicine in the division of cardiology at the University of Pittsburgh. However, in an interview, he warned that the growing list of implicated devices makes a complete survey impractical, and, even if achievable, likely to leave patients “feeling overwhelmed.”
 

In Dr. Estes’s practice, he does provide printed information about the risks of electronics to interfere with implantable devices as well as a list of dos and don’ts. He agreed that the absolute risk of interference from a device causing significant clinical complications is low, but the goal is to “bring it as close to zero as possible.”

“No clinical case of a meaningful interaction of an electronic product and dysfunction of an implantable device has ever been documented,” he said. Given the widespread use of the new generation of cellphones that contain magnets powerful enough to induce dysfunction in an implantable device, “this speaks to the fact that the risk continues to be very low.”

Dr. Knecht and coinvestigators, along with Dr. Estes, reported no potential conflicts of interest.

Building on several previous reports that the newest models of mobile telephones and other electronics that use magnets pose a threat to the function of defibrillators and other implantable cardiovascular devices, a new study implicates any device that emits a 10-gauss (G) magnetic field more than a couple of inches.

“Beside the devices described in our manuscript, this can be any portable consumer product [with magnets] like electric cigarettes or smart watches,” explained study author Sven Knecht, DSc, a research electrophysiologist associated with the department of cardiology, University Hospital Basel (Switzerland).

In the newly published article, the investigators evaluated earphones, earphone charging cases, and two electronic pens used to draw on electronic tablets. These particular devices are of interest because, like mobile phones, they are of a size and shape to fit in a breast pocket adjacent to where many cardiovascular devices are implanted.

The study joins several previous studies that have shown the same risk, but this study used three-dimensional (3D) mapping of the magnetic field rather than a one-axis sensor, which is a standard adopted by the U.S. Food and Drug Administration, according to the investigators.
 

3D mapping assessment used

Because of the 3D nature of magnetic fields, 3D mapping serves as a better tool to assess the risk of the magnetic force as the intensity gradient diminishes with distance from the source, the authors contended. The 3D maps used in this study have a resolution to 2 mm.

The ex vivo measurements of the magnetic field, which could be displayed in a configurable 3D volume in relation to the electronic products were performed on five different explanted cardioverter defibrillators from two manufacturers.

In the ex vivo setting, the ability of the earphones, earphone charging cases, and electronic pens to interfere with defibrillator function was compared to that of the Apple iPhone 12 Max, which was the subject of a small in vivo study published in 2021. When the iPhone 12 Max was placed on the skin over a cardiac implantable device in that study, clinically identifiable interference could be detected in all 3 patients evaluated.

Based on previous work, the International Organization for Standardization has established that a minimal field strength of 10 G is needed to interfere with an implantable device, but the actual risk from any specific device is determined by the distance at which this strength of magnetic field is projected.

In the 3D analysis, the 10-G intensity was found to project 20 mm from the surface of the ear phones, ear phone charging case, and one of the electronic pens and to project 29 mm from the other electronic pen. When tested against the five defibrillators, magnetic reversion mode was triggered by the portable electronics at distances ranging from 8 to 18 mm.

In an interview, Dr. Knecht explained that this study adds more devices to the list of those associated with potential for interfering with implantable cardiovascular devices, but added that the more important point is that any device that contains magnets emitting a force of 10 G or greater for more than a few inches can be expected to be associated with clinically meaningful interference. The devices tested in this study were produced by Apple and Microsoft, but a focus on specific devices obscures the main message.

“All portable electronics with an embedded permanent magnet creating a 10-G magnetic field have a theoretical capability of triggering implantable devices,” he said.

For pacemakers, the interference is likely to trigger constant pacing, which would not be expected to pose a significant health threat if detected with a reasonable period, according to Dr. Knecht. Interference is potentially more serious for defibrillators, which might fail during magnetic interference to provide the shock needed to terminate a serious arrhythmia.

The combination of events – interference at the time of an arrhythmia – make this risk “very low,” but Dr. Knecht said it is sufficient to mean that patients receiving an implantable cardiovascular device should be made aware of the risk and the need to avoid placing portable electronic products near the implanted device.

When in vivo evidence of a disturbance with the iPhone 12 was reported in 2021, it amplified existing concern. The American Heart Association maintains a list of electronic products with the potential to interfere with implantable devices on its website. But, again, understanding the potential for risk and the need to keep electronic products with magnets at a safe distance from cardiovascular implantable devices is more important than trying to memorize the ever-growing list of devices with this capability.

“Prudent education of patients receiving an implantable device is important,” said N.A. Mark Estes III, MD, professor of medicine in the division of cardiology at the University of Pittsburgh. However, in an interview, he warned that the growing list of implicated devices makes a complete survey impractical, and, even if achievable, likely to leave patients “feeling overwhelmed.”
 

In Dr. Estes’s practice, he does provide printed information about the risks of electronics to interfere with implantable devices as well as a list of dos and don’ts. He agreed that the absolute risk of interference from a device causing significant clinical complications is low, but the goal is to “bring it as close to zero as possible.”

“No clinical case of a meaningful interaction of an electronic product and dysfunction of an implantable device has ever been documented,” he said. Given the widespread use of the new generation of cellphones that contain magnets powerful enough to induce dysfunction in an implantable device, “this speaks to the fact that the risk continues to be very low.”

Dr. Knecht and coinvestigators, along with Dr. Estes, reported no potential conflicts of interest.

Low-value health care services that provide little or no benefit to patients are “common, potentially harmful, and costly,” and there is a critical need to reduce this kind of care, the American Heart Association said in a newly released scientific statement.

Each year, nearly half of patients in the United States will receive at least one low-value test or procedure, with the attendant risk of avoidable complications from cascades of care and excess costs to individuals and society, the authors noted. Reducing low-value care is particularly important in cardiology, given the high prevalence and costs of cardiovascular disease in the United States.

The statement was published online Feb. 22, 2022, in Circulation: Cardiovascular Quality and Outcomes.
 

High burden with uncertain benefit

“Cardiovascular disease is common and can present suddenly, such as a heart attack or abnormal heart rhythm,” Vinay Kini, MD, chair of the statement writing group and assistant professor of medicine at Weill Cornell Medicine, New York, said in a news release.

“Our desire to be vigilant about treating and preventing cardiovascular disease may sometimes lead to use of tests and procedures where the benefits to patients may be uncertain,” Dr. Kini said. “This may impose burdens on patients, in the form of increased risk of physical harm from the low-value procedure or potential complications, as well as follow-up care and out-of-pocket financial costs.”

For example, studies have shown that up to one in five echocardiograms and up to half of all stress tests performed in the United States may be rated as rarely appropriate, based on established guidelines for their use.

In addition, up to 15% of percutaneous coronary interventions (PCIs) are classified as rarely appropriate, the writing group said.

Annually, among Medicare fee-for-service beneficiaries, low-value stress testing in patients with stable coronary artery disease is estimated to cost between $212 million and $2.1 billion, while costs of PCI for stable CAD range from $212 million to $2.8 billion, the writing group noted.

“At best, spending on low-value care potentially diverts resources from higher-value services that would benefit patients more effectively at the same or reduced cost. At worst, low-value care results in physical harm in the form of preventable morbidity and mortality,” they said.

“Thus, reducing low-value care is one of the few patient-centered solutions that directly address both the need to control health care spending and the societal imperative to devote its limited resources to beneficial health care services that improve health,” they added.

The group outlines several ways to reduce low-value cardiovascular care targeting patients, providers, and payers/policymakers.

For patients, education and shared decision-making may help reduce low-value care and dispel misconceptions about the intended purpose of test or treatment, they suggested.

For clinicians, a “layered” approach to reducing low-value care may be most effective, such as through education, audit and feedback, and behavioral science tools (“nudges”) to shift behaviors and practices, they said.

For payers and policy leaders, interventions to reduce low-value care include national insurance coverage determinations; prior authorization; alternative payment models that reward lower costs and higher-quality health care; value-based insurance designs that financially penalize low-value care; and medical liability reform to reduce defensive medical practices.

Low-value cardiovascular care is a complex problem, the writing group acknowledged, and achieving meaningful reductions in low-value cardiovascular care will require a multidisciplinary approach that includes continuous research, implementation, evaluation, and adjustment while ensuring equitable access to care.

“Each approach has benefits and drawbacks,” Dr. Kini said. “For example, prior authorization imposes a large burden on health care professionals to obtain insurance approval for tests and treatments. Prior authorization and some value-based payment models may unintentionally worsen existing racial and ethnic health care disparities.

“A one-size-fits-all approach to reducing low-value care is unlikely to succeed; rather, acting through multiple perspectives and frequently measuring impacts and potential unintended consequences is critical,” he concluded.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA’s Council on Quality of Care and Outcomes Research.

The research had no commercial funding. Dr. Kini disclosed no relevant financial relationships.

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

Low-value health care services that provide little or no benefit to patients are “common, potentially harmful, and costly,” and there is a critical need to reduce this kind of care, the American Heart Association said in a newly released scientific statement.

Each year, nearly half of patients in the United States will receive at least one low-value test or procedure, with the attendant risk of avoidable complications from cascades of care and excess costs to individuals and society, the authors noted. Reducing low-value care is particularly important in cardiology, given the high prevalence and costs of cardiovascular disease in the United States.

The statement was published online Feb. 22, 2022, in Circulation: Cardiovascular Quality and Outcomes.
 

High burden with uncertain benefit

“Cardiovascular disease is common and can present suddenly, such as a heart attack or abnormal heart rhythm,” Vinay Kini, MD, chair of the statement writing group and assistant professor of medicine at Weill Cornell Medicine, New York, said in a news release.

“Our desire to be vigilant about treating and preventing cardiovascular disease may sometimes lead to use of tests and procedures where the benefits to patients may be uncertain,” Dr. Kini said. “This may impose burdens on patients, in the form of increased risk of physical harm from the low-value procedure or potential complications, as well as follow-up care and out-of-pocket financial costs.”

For example, studies have shown that up to one in five echocardiograms and up to half of all stress tests performed in the United States may be rated as rarely appropriate, based on established guidelines for their use.

In addition, up to 15% of percutaneous coronary interventions (PCIs) are classified as rarely appropriate, the writing group said.

Annually, among Medicare fee-for-service beneficiaries, low-value stress testing in patients with stable coronary artery disease is estimated to cost between $212 million and $2.1 billion, while costs of PCI for stable CAD range from $212 million to $2.8 billion, the writing group noted.

“At best, spending on low-value care potentially diverts resources from higher-value services that would benefit patients more effectively at the same or reduced cost. At worst, low-value care results in physical harm in the form of preventable morbidity and mortality,” they said.

“Thus, reducing low-value care is one of the few patient-centered solutions that directly address both the need to control health care spending and the societal imperative to devote its limited resources to beneficial health care services that improve health,” they added.

The group outlines several ways to reduce low-value cardiovascular care targeting patients, providers, and payers/policymakers.

For patients, education and shared decision-making may help reduce low-value care and dispel misconceptions about the intended purpose of test or treatment, they suggested.

For clinicians, a “layered” approach to reducing low-value care may be most effective, such as through education, audit and feedback, and behavioral science tools (“nudges”) to shift behaviors and practices, they said.

For payers and policy leaders, interventions to reduce low-value care include national insurance coverage determinations; prior authorization; alternative payment models that reward lower costs and higher-quality health care; value-based insurance designs that financially penalize low-value care; and medical liability reform to reduce defensive medical practices.

Low-value cardiovascular care is a complex problem, the writing group acknowledged, and achieving meaningful reductions in low-value cardiovascular care will require a multidisciplinary approach that includes continuous research, implementation, evaluation, and adjustment while ensuring equitable access to care.

“Each approach has benefits and drawbacks,” Dr. Kini said. “For example, prior authorization imposes a large burden on health care professionals to obtain insurance approval for tests and treatments. Prior authorization and some value-based payment models may unintentionally worsen existing racial and ethnic health care disparities.

“A one-size-fits-all approach to reducing low-value care is unlikely to succeed; rather, acting through multiple perspectives and frequently measuring impacts and potential unintended consequences is critical,” he concluded.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA’s Council on Quality of Care and Outcomes Research.

The research had no commercial funding. Dr. Kini disclosed no relevant financial relationships.

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

Low-value health care services that provide little or no benefit to patients are “common, potentially harmful, and costly,” and there is a critical need to reduce this kind of care, the American Heart Association said in a newly released scientific statement.

Each year, nearly half of patients in the United States will receive at least one low-value test or procedure, with the attendant risk of avoidable complications from cascades of care and excess costs to individuals and society, the authors noted. Reducing low-value care is particularly important in cardiology, given the high prevalence and costs of cardiovascular disease in the United States.

The statement was published online Feb. 22, 2022, in Circulation: Cardiovascular Quality and Outcomes.
 

High burden with uncertain benefit

“Cardiovascular disease is common and can present suddenly, such as a heart attack or abnormal heart rhythm,” Vinay Kini, MD, chair of the statement writing group and assistant professor of medicine at Weill Cornell Medicine, New York, said in a news release.

“Our desire to be vigilant about treating and preventing cardiovascular disease may sometimes lead to use of tests and procedures where the benefits to patients may be uncertain,” Dr. Kini said. “This may impose burdens on patients, in the form of increased risk of physical harm from the low-value procedure or potential complications, as well as follow-up care and out-of-pocket financial costs.”

For example, studies have shown that up to one in five echocardiograms and up to half of all stress tests performed in the United States may be rated as rarely appropriate, based on established guidelines for their use.

In addition, up to 15% of percutaneous coronary interventions (PCIs) are classified as rarely appropriate, the writing group said.

Annually, among Medicare fee-for-service beneficiaries, low-value stress testing in patients with stable coronary artery disease is estimated to cost between $212 million and $2.1 billion, while costs of PCI for stable CAD range from $212 million to $2.8 billion, the writing group noted.

“At best, spending on low-value care potentially diverts resources from higher-value services that would benefit patients more effectively at the same or reduced cost. At worst, low-value care results in physical harm in the form of preventable morbidity and mortality,” they said.

“Thus, reducing low-value care is one of the few patient-centered solutions that directly address both the need to control health care spending and the societal imperative to devote its limited resources to beneficial health care services that improve health,” they added.

The group outlines several ways to reduce low-value cardiovascular care targeting patients, providers, and payers/policymakers.

For patients, education and shared decision-making may help reduce low-value care and dispel misconceptions about the intended purpose of test or treatment, they suggested.

For clinicians, a “layered” approach to reducing low-value care may be most effective, such as through education, audit and feedback, and behavioral science tools (“nudges”) to shift behaviors and practices, they said.

For payers and policy leaders, interventions to reduce low-value care include national insurance coverage determinations; prior authorization; alternative payment models that reward lower costs and higher-quality health care; value-based insurance designs that financially penalize low-value care; and medical liability reform to reduce defensive medical practices.

Low-value cardiovascular care is a complex problem, the writing group acknowledged, and achieving meaningful reductions in low-value cardiovascular care will require a multidisciplinary approach that includes continuous research, implementation, evaluation, and adjustment while ensuring equitable access to care.

“Each approach has benefits and drawbacks,” Dr. Kini said. “For example, prior authorization imposes a large burden on health care professionals to obtain insurance approval for tests and treatments. Prior authorization and some value-based payment models may unintentionally worsen existing racial and ethnic health care disparities.

“A one-size-fits-all approach to reducing low-value care is unlikely to succeed; rather, acting through multiple perspectives and frequently measuring impacts and potential unintended consequences is critical,” he concluded.

The scientific statement was prepared by the volunteer writing group on behalf of the AHA’s Council on Quality of Care and Outcomes Research.

The research had no commercial funding. Dr. Kini disclosed no relevant financial relationships.

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

Patients with both diabetes and atrial fibrillation may derive greater benefits from non-vitamin K oral anticoagulants than from warfarin, suggests a new study.

The new research, which was published in Annals of Internal Medicine, found that taking non–vitamin K oral anticoagulants was associated with reduced diabetes complications and lower mortality vs. taking warfarin in the group examined.

In their paper, the researchers present the outcomes of a retrospective cohort study involving 30,209 patients with atrial fibrillation and diabetes. Of these, 19,909 were treated with non–vitamin K oral anticoagulants (NOACs) – dabigatran, rivaroxaban, apixaban, or edoxaban – and 10,300 were treated with warfarin.

Dr. Huei-Kai Huang from the Hualien (Taiwan) Tzu Chi Hospital and coauthors wrote that, while diabetes mellitus is an important risk factor for stroke, there’s not yet a good understanding of the effect of different oral anticoagulants on the risk for diabetes-related complications in patients with atrial fibrillation and diabetes.

“Recent evidence has suggested that NOAC and warfarin may have different effects on glycemic control through the vitamin K–related mechanisms,” coauthor Yu-Kang Tu, PhD, from the College of Public Health at the National Taiwan University in Taipei said in an interview. “It was therefore natural to further evaluate whether NOAC could help decrease various diabetes-related complications, compared with warfarin.”

Hazards with NOACS vs. warfarin

The researchers found that patients treated with NOACs had a 16% lower hazard of macrovascular complications – a composite of coronary artery disease, stroke, and peripheral vascular disease (95% confidence interval, 0.78-0.91; P < .001) – and a 21% lower hazard of microvascular complications including dialysis and lower-extremity amputations (95% CI, 0.73-0.85; P < .001).

NOAC therapy was also associated a 22% lower hazard of death (95% CI, 0.75-0.82; P < .001) and a 9% lower hazard for glycemic emergency (95% CI, 0.83-0.99; P = .043), which the authors defined as a composite of diabetic ketoacidosis, hyperosmolar hyperglycemic state, and hypoglycemia.

In particular, patients treated with NOACs showed significantly lower hazards for coronary artery disease, stroke, dialysis, amputation of lower extremities, and death from cardiovascular and noncardiovascular causes, compared with warfarin users.

The study also found that patients on higher volumes of NOAC medication had greater reductions in mortality and diabetes complications.

“Although our main findings can be explained by the potential differences in underlying mechanisms of action between NOAC and warfarin, we were still surprised with the significantly lower risks of retinopathy, neuropathy, and hypoglycemia in patients taking NOAC with high medication possession ratio,” Dr. Tu said.

Study provides more diabetes-specific outcomes data

Commenting on the findings, Dr. Peter Rossing, head of complications research at the Steno Diabetes Center in Copenhagen said there has long been discussion about whether the newer and more expensive NOACs offer greater benefits to patient with diabetes – beyond stroke prevention – compared with the older and cheaper warfarin. As such, this study was important in providing more diabetes-specific outcomes data and in a large population.

“The effect size they find is certainly meaningful and relevant and should support decision-making,” Dr. Rossing noted in an interview. The finding of reduced risk of amputation and mortality “fits in line with theory that maybe if you block vitamin K, you get calcification, you get vascular damage that leads to failure of the kidney and leads to limb amputations, and that is potentially prevented or not developed when you give the NOACs.”

Dr. John Camm, professor of clinical cardiology at St George’s University of London, said the findings of the benefits of NOACs in this patient group ,were confirmation of earlier, smaller studies, and were important not just for patients with atrial fibrillation and diabetes, but also those prone to diabetes.

“We know from previous studies from the same database, and also from Korea, [for example], that patients who are treated with NOACs as opposed to warfarin develop less diabetes,” he explained.

Dr. Camm said many guidelines around the world now suggest NOACs, and, in some cases, even advise against using vitamin K antagonists as a first option, except in certain situations, such as when patients have rheumatic heart disease, mild to moderate mitral stenosis in rheumatic disease, or prosthetic heart valves.

The researchers applied two methods to account for covariates that may have influenced whether patients received one class of treatment or the other. These achieved ‘appropriate balance’ of baseline characteristics such as comorbidities and baseline medication use for diabetes and other conditions, Dr. Tu and colleagues wrote.

The benefits of NOACs were less evident in younger patients, and the reductions in mortality and diabetes complications associated with NOACs did not reach statistical significance in those aged under 65 years. Regarding this, Dr. Camm noted that there was a debate as to whether patients under 65 years with atrial fibrillation and diabetes should be put on an anticoagulant.

The study was funded by Hualien Tzu Chi Hospital. No conflicts of interest were declared.

Patients with both diabetes and atrial fibrillation may derive greater benefits from non-vitamin K oral anticoagulants than from warfarin, suggests a new study.

The new research, which was published in Annals of Internal Medicine, found that taking non–vitamin K oral anticoagulants was associated with reduced diabetes complications and lower mortality vs. taking warfarin in the group examined.

In their paper, the researchers present the outcomes of a retrospective cohort study involving 30,209 patients with atrial fibrillation and diabetes. Of these, 19,909 were treated with non–vitamin K oral anticoagulants (NOACs) – dabigatran, rivaroxaban, apixaban, or edoxaban – and 10,300 were treated with warfarin.

Dr. Huei-Kai Huang from the Hualien (Taiwan) Tzu Chi Hospital and coauthors wrote that, while diabetes mellitus is an important risk factor for stroke, there’s not yet a good understanding of the effect of different oral anticoagulants on the risk for diabetes-related complications in patients with atrial fibrillation and diabetes.

“Recent evidence has suggested that NOAC and warfarin may have different effects on glycemic control through the vitamin K–related mechanisms,” coauthor Yu-Kang Tu, PhD, from the College of Public Health at the National Taiwan University in Taipei said in an interview. “It was therefore natural to further evaluate whether NOAC could help decrease various diabetes-related complications, compared with warfarin.”

Hazards with NOACS vs. warfarin

The researchers found that patients treated with NOACs had a 16% lower hazard of macrovascular complications – a composite of coronary artery disease, stroke, and peripheral vascular disease (95% confidence interval, 0.78-0.91; P < .001) – and a 21% lower hazard of microvascular complications including dialysis and lower-extremity amputations (95% CI, 0.73-0.85; P < .001).

NOAC therapy was also associated a 22% lower hazard of death (95% CI, 0.75-0.82; P < .001) and a 9% lower hazard for glycemic emergency (95% CI, 0.83-0.99; P = .043), which the authors defined as a composite of diabetic ketoacidosis, hyperosmolar hyperglycemic state, and hypoglycemia.

In particular, patients treated with NOACs showed significantly lower hazards for coronary artery disease, stroke, dialysis, amputation of lower extremities, and death from cardiovascular and noncardiovascular causes, compared with warfarin users.

The study also found that patients on higher volumes of NOAC medication had greater reductions in mortality and diabetes complications.

“Although our main findings can be explained by the potential differences in underlying mechanisms of action between NOAC and warfarin, we were still surprised with the significantly lower risks of retinopathy, neuropathy, and hypoglycemia in patients taking NOAC with high medication possession ratio,” Dr. Tu said.

Study provides more diabetes-specific outcomes data

Commenting on the findings, Dr. Peter Rossing, head of complications research at the Steno Diabetes Center in Copenhagen said there has long been discussion about whether the newer and more expensive NOACs offer greater benefits to patient with diabetes – beyond stroke prevention – compared with the older and cheaper warfarin. As such, this study was important in providing more diabetes-specific outcomes data and in a large population.

“The effect size they find is certainly meaningful and relevant and should support decision-making,” Dr. Rossing noted in an interview. The finding of reduced risk of amputation and mortality “fits in line with theory that maybe if you block vitamin K, you get calcification, you get vascular damage that leads to failure of the kidney and leads to limb amputations, and that is potentially prevented or not developed when you give the NOACs.”

Dr. John Camm, professor of clinical cardiology at St George’s University of London, said the findings of the benefits of NOACs in this patient group ,were confirmation of earlier, smaller studies, and were important not just for patients with atrial fibrillation and diabetes, but also those prone to diabetes.

“We know from previous studies from the same database, and also from Korea, [for example], that patients who are treated with NOACs as opposed to warfarin develop less diabetes,” he explained.

Dr. Camm said many guidelines around the world now suggest NOACs, and, in some cases, even advise against using vitamin K antagonists as a first option, except in certain situations, such as when patients have rheumatic heart disease, mild to moderate mitral stenosis in rheumatic disease, or prosthetic heart valves.

The researchers applied two methods to account for covariates that may have influenced whether patients received one class of treatment or the other. These achieved ‘appropriate balance’ of baseline characteristics such as comorbidities and baseline medication use for diabetes and other conditions, Dr. Tu and colleagues wrote.

The benefits of NOACs were less evident in younger patients, and the reductions in mortality and diabetes complications associated with NOACs did not reach statistical significance in those aged under 65 years. Regarding this, Dr. Camm noted that there was a debate as to whether patients under 65 years with atrial fibrillation and diabetes should be put on an anticoagulant.

The study was funded by Hualien Tzu Chi Hospital. No conflicts of interest were declared.

Patients with both diabetes and atrial fibrillation may derive greater benefits from non-vitamin K oral anticoagulants than from warfarin, suggests a new study.

The new research, which was published in Annals of Internal Medicine, found that taking non–vitamin K oral anticoagulants was associated with reduced diabetes complications and lower mortality vs. taking warfarin in the group examined.

In their paper, the researchers present the outcomes of a retrospective cohort study involving 30,209 patients with atrial fibrillation and diabetes. Of these, 19,909 were treated with non–vitamin K oral anticoagulants (NOACs) – dabigatran, rivaroxaban, apixaban, or edoxaban – and 10,300 were treated with warfarin.

Dr. Huei-Kai Huang from the Hualien (Taiwan) Tzu Chi Hospital and coauthors wrote that, while diabetes mellitus is an important risk factor for stroke, there’s not yet a good understanding of the effect of different oral anticoagulants on the risk for diabetes-related complications in patients with atrial fibrillation and diabetes.

“Recent evidence has suggested that NOAC and warfarin may have different effects on glycemic control through the vitamin K–related mechanisms,” coauthor Yu-Kang Tu, PhD, from the College of Public Health at the National Taiwan University in Taipei said in an interview. “It was therefore natural to further evaluate whether NOAC could help decrease various diabetes-related complications, compared with warfarin.”

Hazards with NOACS vs. warfarin

The researchers found that patients treated with NOACs had a 16% lower hazard of macrovascular complications – a composite of coronary artery disease, stroke, and peripheral vascular disease (95% confidence interval, 0.78-0.91; P < .001) – and a 21% lower hazard of microvascular complications including dialysis and lower-extremity amputations (95% CI, 0.73-0.85; P < .001).

NOAC therapy was also associated a 22% lower hazard of death (95% CI, 0.75-0.82; P < .001) and a 9% lower hazard for glycemic emergency (95% CI, 0.83-0.99; P = .043), which the authors defined as a composite of diabetic ketoacidosis, hyperosmolar hyperglycemic state, and hypoglycemia.

In particular, patients treated with NOACs showed significantly lower hazards for coronary artery disease, stroke, dialysis, amputation of lower extremities, and death from cardiovascular and noncardiovascular causes, compared with warfarin users.

The study also found that patients on higher volumes of NOAC medication had greater reductions in mortality and diabetes complications.

“Although our main findings can be explained by the potential differences in underlying mechanisms of action between NOAC and warfarin, we were still surprised with the significantly lower risks of retinopathy, neuropathy, and hypoglycemia in patients taking NOAC with high medication possession ratio,” Dr. Tu said.

Study provides more diabetes-specific outcomes data

Commenting on the findings, Dr. Peter Rossing, head of complications research at the Steno Diabetes Center in Copenhagen said there has long been discussion about whether the newer and more expensive NOACs offer greater benefits to patient with diabetes – beyond stroke prevention – compared with the older and cheaper warfarin. As such, this study was important in providing more diabetes-specific outcomes data and in a large population.

“The effect size they find is certainly meaningful and relevant and should support decision-making,” Dr. Rossing noted in an interview. The finding of reduced risk of amputation and mortality “fits in line with theory that maybe if you block vitamin K, you get calcification, you get vascular damage that leads to failure of the kidney and leads to limb amputations, and that is potentially prevented or not developed when you give the NOACs.”

Dr. John Camm, professor of clinical cardiology at St George’s University of London, said the findings of the benefits of NOACs in this patient group ,were confirmation of earlier, smaller studies, and were important not just for patients with atrial fibrillation and diabetes, but also those prone to diabetes.

“We know from previous studies from the same database, and also from Korea, [for example], that patients who are treated with NOACs as opposed to warfarin develop less diabetes,” he explained.

Dr. Camm said many guidelines around the world now suggest NOACs, and, in some cases, even advise against using vitamin K antagonists as a first option, except in certain situations, such as when patients have rheumatic heart disease, mild to moderate mitral stenosis in rheumatic disease, or prosthetic heart valves.

The researchers applied two methods to account for covariates that may have influenced whether patients received one class of treatment or the other. These achieved ‘appropriate balance’ of baseline characteristics such as comorbidities and baseline medication use for diabetes and other conditions, Dr. Tu and colleagues wrote.

The benefits of NOACs were less evident in younger patients, and the reductions in mortality and diabetes complications associated with NOACs did not reach statistical significance in those aged under 65 years. Regarding this, Dr. Camm noted that there was a debate as to whether patients under 65 years with atrial fibrillation and diabetes should be put on an anticoagulant.

The study was funded by Hualien Tzu Chi Hospital. No conflicts of interest were declared.

The Society for Cardiovascular Angiography and Interventions (SCAI) has refined its cardiogenic shock (CS) classification system based on the literature and clinician feedback from real-world experience.

Mitchel L. Zoler/MDedge News

“In the 2 years since publication in 2019, the initial definition has been broadly accepted and eagerly appreciated, allowing a very intuitive way to stage these patients for better communication, triage, and treatment,” Srihari S. Naidu, MD, professor of medicine, New York Medical College, Valhalla, said in an interview.

“But the initial definition was based on consensus opinion, with a lack of real fundamental data on segregating patients into different stages. Now we have a lot more data utilizing the definition, and it became very clear that there were a couple of limitations in the initial definition,” Dr. Naidu explained.

The refined CS classification system – authored by Dr. Naidu and a multidisciplinary panel of experts from specialties that included cardiac critical care, interventional cardiology, surgery, nursing, emergency medicine, and heart failure – was published online Jan. 31 in the Journal of the Society for Cardiovascular Angiography and Interventions, with simultaneous publication in the Journal of the American College of Cardiology.  

It maintains the five-stage pyramid of CS, starting with “at risk” and moving through “beginning,” “classic,” “deteriorating,” and “extremis” but now includes gradations of severity within each stage and pathways by which patients progress or recover.

“Progression across the SCAI shock stage continuum is a dynamic process, incorporating new information as available, and patient trajectories are important both for communication among clinicians and for decisionmaking regarding the next level of care and therapeutics,” the panel writes.

The second iteration adds a streamlined table incorporating commonly seen variables, based on lessons learned from validation studies and clinician experience.

“While keeping the same initial framework of looking at the three components of staging – the physical exam, the biochemical markers, and hemodynamics – we’ve made it very clear that there are some factors in each of these that are most typically seen. And then there are other factors that are consistent with that stage but don’t necessarily have to be seen, ... are not typically seen in that stage, or [are] not always present at that stage,” Dr. Naidu told this news organization.

The refined CS classification system provides more granularity on cardiac arrest as a risk modifier, which now excludes very brief episodes with rapid response to defibrillation and comprises only those patients who have impaired mental status with unknown neurologic recovery status after cardiopulmonary resuscitation.

Lactate level and thresholds have been highlighted to detect hypoperfusion but may be dissociated from hemodynamics in cases such as chronic heart failure.

In addition, patients may have other manifestations of end-organ hypoperfusion with a normal lactate level, and there are also important causes of an elevated lactate level other than shock.

The revision proposes a three-axis model of CS evaluation and prognostication that integrates shock severity, clinical phenotype, and risk modifiers as distinct elements that should be applied to individualize patient management.

The revision also places more emphasis on the trajectory of the patient with CS through hospitalization, including a “hub and spoke” model for transfer of higher-risk patients, including those with a deteriorating SCAI shock stage.

“It is our desire and belief that the revised SCAI SHOCK stage classification system will enhance both clinical care and CS research trial design,” the panel writes.

This statement has been endorsed by the American College of Cardiology, American College of Emergency Physicians, American Heart Association, European Society of Cardiology Association for Acute Cardiovascular Care, International Society for Heart and Lung Transplantation, Society of Critical Care Medicine, and Society of Thoracic Surgeons.

This research had no commercial funding. Dr. Naidu has disclosed no relevant financial relationships. A complete list of author disclosures is available with the original article.

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

The Society for Cardiovascular Angiography and Interventions (SCAI) has refined its cardiogenic shock (CS) classification system based on the literature and clinician feedback from real-world experience.

Mitchel L. Zoler/MDedge News

“In the 2 years since publication in 2019, the initial definition has been broadly accepted and eagerly appreciated, allowing a very intuitive way to stage these patients for better communication, triage, and treatment,” Srihari S. Naidu, MD, professor of medicine, New York Medical College, Valhalla, said in an interview.

“But the initial definition was based on consensus opinion, with a lack of real fundamental data on segregating patients into different stages. Now we have a lot more data utilizing the definition, and it became very clear that there were a couple of limitations in the initial definition,” Dr. Naidu explained.

The refined CS classification system – authored by Dr. Naidu and a multidisciplinary panel of experts from specialties that included cardiac critical care, interventional cardiology, surgery, nursing, emergency medicine, and heart failure – was published online Jan. 31 in the Journal of the Society for Cardiovascular Angiography and Interventions, with simultaneous publication in the Journal of the American College of Cardiology.  

It maintains the five-stage pyramid of CS, starting with “at risk” and moving through “beginning,” “classic,” “deteriorating,” and “extremis” but now includes gradations of severity within each stage and pathways by which patients progress or recover.

“Progression across the SCAI shock stage continuum is a dynamic process, incorporating new information as available, and patient trajectories are important both for communication among clinicians and for decisionmaking regarding the next level of care and therapeutics,” the panel writes.

The second iteration adds a streamlined table incorporating commonly seen variables, based on lessons learned from validation studies and clinician experience.

“While keeping the same initial framework of looking at the three components of staging – the physical exam, the biochemical markers, and hemodynamics – we’ve made it very clear that there are some factors in each of these that are most typically seen. And then there are other factors that are consistent with that stage but don’t necessarily have to be seen, ... are not typically seen in that stage, or [are] not always present at that stage,” Dr. Naidu told this news organization.

The refined CS classification system provides more granularity on cardiac arrest as a risk modifier, which now excludes very brief episodes with rapid response to defibrillation and comprises only those patients who have impaired mental status with unknown neurologic recovery status after cardiopulmonary resuscitation.

Lactate level and thresholds have been highlighted to detect hypoperfusion but may be dissociated from hemodynamics in cases such as chronic heart failure.

In addition, patients may have other manifestations of end-organ hypoperfusion with a normal lactate level, and there are also important causes of an elevated lactate level other than shock.

The revision proposes a three-axis model of CS evaluation and prognostication that integrates shock severity, clinical phenotype, and risk modifiers as distinct elements that should be applied to individualize patient management.

The revision also places more emphasis on the trajectory of the patient with CS through hospitalization, including a “hub and spoke” model for transfer of higher-risk patients, including those with a deteriorating SCAI shock stage.

“It is our desire and belief that the revised SCAI SHOCK stage classification system will enhance both clinical care and CS research trial design,” the panel writes.

This statement has been endorsed by the American College of Cardiology, American College of Emergency Physicians, American Heart Association, European Society of Cardiology Association for Acute Cardiovascular Care, International Society for Heart and Lung Transplantation, Society of Critical Care Medicine, and Society of Thoracic Surgeons.

This research had no commercial funding. Dr. Naidu has disclosed no relevant financial relationships. A complete list of author disclosures is available with the original article.

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

The Society for Cardiovascular Angiography and Interventions (SCAI) has refined its cardiogenic shock (CS) classification system based on the literature and clinician feedback from real-world experience.

Mitchel L. Zoler/MDedge News

“In the 2 years since publication in 2019, the initial definition has been broadly accepted and eagerly appreciated, allowing a very intuitive way to stage these patients for better communication, triage, and treatment,” Srihari S. Naidu, MD, professor of medicine, New York Medical College, Valhalla, said in an interview.

“But the initial definition was based on consensus opinion, with a lack of real fundamental data on segregating patients into different stages. Now we have a lot more data utilizing the definition, and it became very clear that there were a couple of limitations in the initial definition,” Dr. Naidu explained.

The refined CS classification system – authored by Dr. Naidu and a multidisciplinary panel of experts from specialties that included cardiac critical care, interventional cardiology, surgery, nursing, emergency medicine, and heart failure – was published online Jan. 31 in the Journal of the Society for Cardiovascular Angiography and Interventions, with simultaneous publication in the Journal of the American College of Cardiology.  

It maintains the five-stage pyramid of CS, starting with “at risk” and moving through “beginning,” “classic,” “deteriorating,” and “extremis” but now includes gradations of severity within each stage and pathways by which patients progress or recover.

“Progression across the SCAI shock stage continuum is a dynamic process, incorporating new information as available, and patient trajectories are important both for communication among clinicians and for decisionmaking regarding the next level of care and therapeutics,” the panel writes.

The second iteration adds a streamlined table incorporating commonly seen variables, based on lessons learned from validation studies and clinician experience.

“While keeping the same initial framework of looking at the three components of staging – the physical exam, the biochemical markers, and hemodynamics – we’ve made it very clear that there are some factors in each of these that are most typically seen. And then there are other factors that are consistent with that stage but don’t necessarily have to be seen, ... are not typically seen in that stage, or [are] not always present at that stage,” Dr. Naidu told this news organization.

The refined CS classification system provides more granularity on cardiac arrest as a risk modifier, which now excludes very brief episodes with rapid response to defibrillation and comprises only those patients who have impaired mental status with unknown neurologic recovery status after cardiopulmonary resuscitation.

Lactate level and thresholds have been highlighted to detect hypoperfusion but may be dissociated from hemodynamics in cases such as chronic heart failure.

In addition, patients may have other manifestations of end-organ hypoperfusion with a normal lactate level, and there are also important causes of an elevated lactate level other than shock.

The revision proposes a three-axis model of CS evaluation and prognostication that integrates shock severity, clinical phenotype, and risk modifiers as distinct elements that should be applied to individualize patient management.

The revision also places more emphasis on the trajectory of the patient with CS through hospitalization, including a “hub and spoke” model for transfer of higher-risk patients, including those with a deteriorating SCAI shock stage.

“It is our desire and belief that the revised SCAI SHOCK stage classification system will enhance both clinical care and CS research trial design,” the panel writes.

This statement has been endorsed by the American College of Cardiology, American College of Emergency Physicians, American Heart Association, European Society of Cardiology Association for Acute Cardiovascular Care, International Society for Heart and Lung Transplantation, Society of Critical Care Medicine, and Society of Thoracic Surgeons.

This research had no commercial funding. Dr. Naidu has disclosed no relevant financial relationships. A complete list of author disclosures is available with the original article.

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

People who have had COVID-19 have an increased risk for, and 12-month burden of, cardiovascular disease (CVD) that is substantial and spans an array of cardiovascular disorders, a deep dive into federal data suggests.

“I went into this thinking that this is most likely happening in people to start with who have a higher risk of cardiovascular disorders, smokers, people with high BMI, diabetes, but what we found is something different,” Ziyad Al-Aly, MD, said in an interview. “It’s evident in people at high risk, but it was also as clear as the sun even in people who have no cardiovascular risk whatsoever.”

Rates were increased in younger adults, never smokers, White and Black people, and males and females, he said. “So the risk confirmed by the SARS-CoV-2 virus seems to spare almost no one.”

Although cardiovascular outcomes increased with the severity of the acute infection, the excess risks and burdens were also evident in those who never required hospitalization, a group that represents the majority of people with COVID-19, observed Dr. Al-Aly, who directs the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System.

“This study is very important because it underscores not just the acute cardiovascular risk associated with COVID but the increased risk of chronic cardiovascular outcomes as well,” cardiologist C. Michael Gibson, MD, professor of medicine, Harvard Medical School, Boston, said in an interview. “Given the number of patients in the U.S. who have been infected with COVID, this could represent a significant chronic burden on the health care system, particularly as health care professionals leave the profession.”

For the study, the investigators used national VA databases to build a cohort of 153,760 veterans who were alive 30 days after testing positive for COVID-19 between March 1, 2020, and January 2021. They were compared with a contemporary cohort of 5.6 million veterans with no evidence of SARS-CoV-2 infection and a historical cohort of 5.8 million veterans using the system in 2017 prior to the pandemic. Median follow-up was 347, 348, and 347 days, respectively.

As reported in Nature Medicine, the risk for a major adverse cardiovascular event, a composite of myocardial infarction, stroke, and all-cause mortality, was 4% higher in people who had been infected with COVID-19 than in those who had not.

“People say 4% is small, but actually it’s really, really big if you think about it in the context of the huge number of people who have had COVID-19 in the United States, and also globally,” Dr. Al-Aly said.

Compared with the contemporary control group, people who had COVID-19 had an increased risk (hazard ratio [HR]) and burden per 1,000 people at 1 year for the following cardiovascular outcomes:

• Stroke: HR, 1.52; burden, 4.03
• Transient ischemic attack: HR, 1.49; burden, 1.84
• Dysrhythmias: HR, 1.69; burden, 19.86
• Ischemic heart disease: HR, 1.66; burden, 7.28
• Heart failure: HR, 1.72; burden, 11.61
• Nonischemic cardiomyopathy: HR, 1.62; burden 3.56
• Pulmonary embolism: HR, 2.93; burden, 5.47
• Deep vein thrombosis: HR, 2.09; burden, 4.18
• Pericarditis: HR, 1.85, burden, 0.98
• Myocarditis: HR, 5.38; burden, 0.31

Recent reports have raised concerns about an association between COVID-19 vaccines and myocarditis and pericarditis, particularly in young males. Although very few of the participants were vaccinated prior to becoming infected, as vaccines were not yet widely available, the researchers performed two analyses censoring participants at the time of the first dose of any COVID-19 vaccine and adjusting for vaccination as a time-varying covariate.

The absolute numbers of myocarditis and pericarditis were still higher than the contemporary and historical cohorts. These numbers are much larger than those reported for myocarditis after vaccines, which are generally around 40 cases per 1 million people, observed Dr. Al-Aly.

The overall results were also consistent when compared with the historical control subjects.

“What we’re seeing in our report and others is that SARS-CoV-2 can leave a sort of scar or imprint on people, and some of these conditions are likely chronic conditions,” Dr. Al-Aly said. “So you’re going to have a generation of people who will bear the scar of COVID for their lifetime and I think that requires recognition and attention, so we’re aware of the magnitude of the problem and prepared to deal with it.”

With more than 76 million COVID-19 cases in the United States, that effort will likely have to be at the federal level, similar to President Joe Biden’s recent relaunch of the “Cancer Moonshot,” he added. “We need a greater and broader recognition at the federal level to try and recognize that when you have an earthquake, you don’t just deal with the earthquake when the earth is shaking, but you also need to deal with the aftermath.”

Dr. Gibson pointed out that this was a study of predominantly males and, thus, it’s unclear if the results can be extended to females. Nevertheless, he added, “long COVID may include outcomes beyond the central nervous system and we should educate patients about the risk of late cardiovascular outcomes.”

The authors noted the largely White, male cohort may limit generalizability of the findings. Other limitations include the possibility that some people may have had COVID-19 but were not tested, the datasets lacked information on cause of death, and possible residual confounding not accounted for in the adjusted analyses.

The research was funded by the U.S. Department of Veterans Affairs and two American Society of Nephrology and Kidney Cure fellowship awards. The authors declared no competing interests. Dr. Gibson reports having no relevant conflicts of interest.

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

People who have had COVID-19 have an increased risk for, and 12-month burden of, cardiovascular disease (CVD) that is substantial and spans an array of cardiovascular disorders, a deep dive into federal data suggests.

“I went into this thinking that this is most likely happening in people to start with who have a higher risk of cardiovascular disorders, smokers, people with high BMI, diabetes, but what we found is something different,” Ziyad Al-Aly, MD, said in an interview. “It’s evident in people at high risk, but it was also as clear as the sun even in people who have no cardiovascular risk whatsoever.”

Rates were increased in younger adults, never smokers, White and Black people, and males and females, he said. “So the risk confirmed by the SARS-CoV-2 virus seems to spare almost no one.”

Although cardiovascular outcomes increased with the severity of the acute infection, the excess risks and burdens were also evident in those who never required hospitalization, a group that represents the majority of people with COVID-19, observed Dr. Al-Aly, who directs the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System.

“This study is very important because it underscores not just the acute cardiovascular risk associated with COVID but the increased risk of chronic cardiovascular outcomes as well,” cardiologist C. Michael Gibson, MD, professor of medicine, Harvard Medical School, Boston, said in an interview. “Given the number of patients in the U.S. who have been infected with COVID, this could represent a significant chronic burden on the health care system, particularly as health care professionals leave the profession.”

For the study, the investigators used national VA databases to build a cohort of 153,760 veterans who were alive 30 days after testing positive for COVID-19 between March 1, 2020, and January 2021. They were compared with a contemporary cohort of 5.6 million veterans with no evidence of SARS-CoV-2 infection and a historical cohort of 5.8 million veterans using the system in 2017 prior to the pandemic. Median follow-up was 347, 348, and 347 days, respectively.

As reported in Nature Medicine, the risk for a major adverse cardiovascular event, a composite of myocardial infarction, stroke, and all-cause mortality, was 4% higher in people who had been infected with COVID-19 than in those who had not.

“People say 4% is small, but actually it’s really, really big if you think about it in the context of the huge number of people who have had COVID-19 in the United States, and also globally,” Dr. Al-Aly said.

Compared with the contemporary control group, people who had COVID-19 had an increased risk (hazard ratio [HR]) and burden per 1,000 people at 1 year for the following cardiovascular outcomes:

• Stroke: HR, 1.52; burden, 4.03
• Transient ischemic attack: HR, 1.49; burden, 1.84
• Dysrhythmias: HR, 1.69; burden, 19.86
• Ischemic heart disease: HR, 1.66; burden, 7.28
• Heart failure: HR, 1.72; burden, 11.61
• Nonischemic cardiomyopathy: HR, 1.62; burden 3.56
• Pulmonary embolism: HR, 2.93; burden, 5.47
• Deep vein thrombosis: HR, 2.09; burden, 4.18
• Pericarditis: HR, 1.85, burden, 0.98
• Myocarditis: HR, 5.38; burden, 0.31

Recent reports have raised concerns about an association between COVID-19 vaccines and myocarditis and pericarditis, particularly in young males. Although very few of the participants were vaccinated prior to becoming infected, as vaccines were not yet widely available, the researchers performed two analyses censoring participants at the time of the first dose of any COVID-19 vaccine and adjusting for vaccination as a time-varying covariate.

The absolute numbers of myocarditis and pericarditis were still higher than the contemporary and historical cohorts. These numbers are much larger than those reported for myocarditis after vaccines, which are generally around 40 cases per 1 million people, observed Dr. Al-Aly.

The overall results were also consistent when compared with the historical control subjects.

“What we’re seeing in our report and others is that SARS-CoV-2 can leave a sort of scar or imprint on people, and some of these conditions are likely chronic conditions,” Dr. Al-Aly said. “So you’re going to have a generation of people who will bear the scar of COVID for their lifetime and I think that requires recognition and attention, so we’re aware of the magnitude of the problem and prepared to deal with it.”

With more than 76 million COVID-19 cases in the United States, that effort will likely have to be at the federal level, similar to President Joe Biden’s recent relaunch of the “Cancer Moonshot,” he added. “We need a greater and broader recognition at the federal level to try and recognize that when you have an earthquake, you don’t just deal with the earthquake when the earth is shaking, but you also need to deal with the aftermath.”

Dr. Gibson pointed out that this was a study of predominantly males and, thus, it’s unclear if the results can be extended to females. Nevertheless, he added, “long COVID may include outcomes beyond the central nervous system and we should educate patients about the risk of late cardiovascular outcomes.”

The authors noted the largely White, male cohort may limit generalizability of the findings. Other limitations include the possibility that some people may have had COVID-19 but were not tested, the datasets lacked information on cause of death, and possible residual confounding not accounted for in the adjusted analyses.

The research was funded by the U.S. Department of Veterans Affairs and two American Society of Nephrology and Kidney Cure fellowship awards. The authors declared no competing interests. Dr. Gibson reports having no relevant conflicts of interest.

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

People who have had COVID-19 have an increased risk for, and 12-month burden of, cardiovascular disease (CVD) that is substantial and spans an array of cardiovascular disorders, a deep dive into federal data suggests.

“I went into this thinking that this is most likely happening in people to start with who have a higher risk of cardiovascular disorders, smokers, people with high BMI, diabetes, but what we found is something different,” Ziyad Al-Aly, MD, said in an interview. “It’s evident in people at high risk, but it was also as clear as the sun even in people who have no cardiovascular risk whatsoever.”

Rates were increased in younger adults, never smokers, White and Black people, and males and females, he said. “So the risk confirmed by the SARS-CoV-2 virus seems to spare almost no one.”

Although cardiovascular outcomes increased with the severity of the acute infection, the excess risks and burdens were also evident in those who never required hospitalization, a group that represents the majority of people with COVID-19, observed Dr. Al-Aly, who directs the Clinical Epidemiology Center at the Veterans Affairs St. Louis Health Care System.

“This study is very important because it underscores not just the acute cardiovascular risk associated with COVID but the increased risk of chronic cardiovascular outcomes as well,” cardiologist C. Michael Gibson, MD, professor of medicine, Harvard Medical School, Boston, said in an interview. “Given the number of patients in the U.S. who have been infected with COVID, this could represent a significant chronic burden on the health care system, particularly as health care professionals leave the profession.”

For the study, the investigators used national VA databases to build a cohort of 153,760 veterans who were alive 30 days after testing positive for COVID-19 between March 1, 2020, and January 2021. They were compared with a contemporary cohort of 5.6 million veterans with no evidence of SARS-CoV-2 infection and a historical cohort of 5.8 million veterans using the system in 2017 prior to the pandemic. Median follow-up was 347, 348, and 347 days, respectively.

As reported in Nature Medicine, the risk for a major adverse cardiovascular event, a composite of myocardial infarction, stroke, and all-cause mortality, was 4% higher in people who had been infected with COVID-19 than in those who had not.

“People say 4% is small, but actually it’s really, really big if you think about it in the context of the huge number of people who have had COVID-19 in the United States, and also globally,” Dr. Al-Aly said.

Compared with the contemporary control group, people who had COVID-19 had an increased risk (hazard ratio [HR]) and burden per 1,000 people at 1 year for the following cardiovascular outcomes:

• Stroke: HR, 1.52; burden, 4.03
• Transient ischemic attack: HR, 1.49; burden, 1.84
• Dysrhythmias: HR, 1.69; burden, 19.86
• Ischemic heart disease: HR, 1.66; burden, 7.28
• Heart failure: HR, 1.72; burden, 11.61
• Nonischemic cardiomyopathy: HR, 1.62; burden 3.56
• Pulmonary embolism: HR, 2.93; burden, 5.47
• Deep vein thrombosis: HR, 2.09; burden, 4.18
• Pericarditis: HR, 1.85, burden, 0.98
• Myocarditis: HR, 5.38; burden, 0.31

Recent reports have raised concerns about an association between COVID-19 vaccines and myocarditis and pericarditis, particularly in young males. Although very few of the participants were vaccinated prior to becoming infected, as vaccines were not yet widely available, the researchers performed two analyses censoring participants at the time of the first dose of any COVID-19 vaccine and adjusting for vaccination as a time-varying covariate.

The absolute numbers of myocarditis and pericarditis were still higher than the contemporary and historical cohorts. These numbers are much larger than those reported for myocarditis after vaccines, which are generally around 40 cases per 1 million people, observed Dr. Al-Aly.

The overall results were also consistent when compared with the historical control subjects.

“What we’re seeing in our report and others is that SARS-CoV-2 can leave a sort of scar or imprint on people, and some of these conditions are likely chronic conditions,” Dr. Al-Aly said. “So you’re going to have a generation of people who will bear the scar of COVID for their lifetime and I think that requires recognition and attention, so we’re aware of the magnitude of the problem and prepared to deal with it.”

With more than 76 million COVID-19 cases in the United States, that effort will likely have to be at the federal level, similar to President Joe Biden’s recent relaunch of the “Cancer Moonshot,” he added. “We need a greater and broader recognition at the federal level to try and recognize that when you have an earthquake, you don’t just deal with the earthquake when the earth is shaking, but you also need to deal with the aftermath.”

Dr. Gibson pointed out that this was a study of predominantly males and, thus, it’s unclear if the results can be extended to females. Nevertheless, he added, “long COVID may include outcomes beyond the central nervous system and we should educate patients about the risk of late cardiovascular outcomes.”

The authors noted the largely White, male cohort may limit generalizability of the findings. Other limitations include the possibility that some people may have had COVID-19 but were not tested, the datasets lacked information on cause of death, and possible residual confounding not accounted for in the adjusted analyses.

The research was funded by the U.S. Department of Veterans Affairs and two American Society of Nephrology and Kidney Cure fellowship awards. The authors declared no competing interests. Dr. Gibson reports having no relevant conflicts of interest.

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

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.

Nearly one-third of adults over age 65 developed one or more new medical conditions in the weeks following a COVID-19 infection, according to new research.

The findings of the observational study, which were published in the BMJ, show the risk of a new condition being triggered by COVID is more than twice as high in seniors, compared with younger patients. Plus, the researchers observed an even higher risk among those who were hospitalized, with nearly half (46%) of patients having developed new conditions after the acute COVID-19 infection period.

Respiratory failure with shortness of breath was the most common postacute sequela, but a wide range of heart, kidney, lung, liver, cognitive, mental health, and other conditions were diagnosed at least 3 weeks after initial infection and persisted beyond 30 days.

This is one of the first studies to specifically describe the incidence and severity of new conditions triggered by COVID-19 infection in a general sample of older adults, said study author Ken Cohen MD, FACP, executive director of translational research at Optum Labs and national senior medical director at Optum Care.

“Much of what has been published on the postacute sequelae of COVID-19 has been predominantly from a younger population, and many of the patients had been hospitalized,” Dr. Cohen noted. “This was the first study to focus on a large population of seniors, most of whom did not require hospitalization.”

Dr. Cohen and colleagues reviewed the health insurance records of more than 133,000 Medicare beneficiaries aged 65 or older who were diagnosed with COVID-19 before April 2020. They also matched individuals by age, race, sex, hospitalization status, and other factors to comparison groups without COVID-19 (one from 2020 and one from 2019), and to a group diagnosed with other lower respiratory tract viral infections before the pandemic.
 

Risk of developing new conditions was higher in hospitalized

After acute COVID-19 infection, 32% of seniors sought medical care for at least one new medical condition in 2020, compared with 21% of uninfected people in the same year.

The most commonly observed conditions included:

• Respiratory failure (7.55% higher risk).
• Fatigue (5.66% higher risk).
• High blood pressure (4.43% higher risk).
• Memory problems (2.63% higher risk).
• Kidney injury (2.59% higher risk).
• Mental health diagnoses (2.5% higher risk).
• Blood-clotting disorders (1.47 % higher risk).
• Heart rhythm disorders (2.9% higher risk).

The risk of developing new conditions was even higher among those 23,486 who were hospitalized in 2020. Those individuals showed a 23.6% higher risk for developing at least one new condition, compared with uninfected seniors in the same year. Also, patients older than 75 had a higher risk for neurological disorders, including dementia, encephalopathy, and memory problems. The researchers also found that respiratory failure and kidney injury were significantly more likely to affect men and Black patients.

When those who had COVID were compared with the group with other lower respiratory viral infections before the pandemic, only the risks of respiratory failure (2.39% higher), dementia (0.71% higher), and fatigue (0.18% higher) were higher.

Primary care providers can learn from these data to better evaluate and manage their geriatric patients with COVID-19 infection, said Amit Shah, MD, a geriatrician with the Mayo Clinic in Phoenix, in an interview.

“We must assess older patients who have had COVID-19 for more than just improvement from the respiratory symptoms of COVID-19 in post-COVID follow-up visits,” he said. “Older individuals with frailty have vulnerability to subsequent complications from severe illnesses and it is common to see post-illness diagnoses, such as new diagnosis of delirium; dementia; or renal, respiratory, or cardiac issues that is precipitated by the original illness. This study confirms that this is likely the case with COVID-19 as well.

“Primary care physicians should be vigilant for these complications, including attention to the rehabilitation needs of older patients with longer-term postviral fatigue from COVID-19,” Dr. Shah added.
 

Data predates ‘Omicron wave’

It remains uncertain whether sequelae will differ with the Omicron variant, but the findings remain applicable, Dr. Cohen said.

“We know that illness from the Omicron variant is on average less severe in those that have been vaccinated. However, throughout the Omicron wave, individuals who have not been vaccinated continue to have significant rates of serious illness and hospitalization,” he said.

“Our findings showed that serious illness with hospitalization was associated with a higher rate of sequelae. It can therefore be inferred that the rates of sequelae seen in our study would continue to occur in unvaccinated individuals who contract Omicron, but might occur less frequently in vaccinated individuals who contract Omicron and have less severe illness.”

Dr. Cohen serves as a consultant for Pfizer. Dr. Shah has disclosed no relevant financial relationships.