Arrhythmias & EP

There’s abundant evidence linking higher alcohol intake levels to greater stroke risk and, separately, increasing risk for new-onset atrial fibrillation (AFib). Less settled is whether moderate to heavy drinking worsens the risk for stroke in patients already in AFib and whether giving up alcohol can attenuate that risk. A new observational study suggests the answer to both questions is yes.

The risk for ischemic stroke was only around 1% over about 5 years in a Korean nationwide cohort of almost 98,000 patients with new-onset AFib. About half the patients followed were nondrinkers, as they had been before the study, 13% became abstinent soon after their AFib diagnosis, and 36% were currently drinkers.

But stroke risk went up about 30% with “moderate” current alcohol intake, compared with no intake, and by more than 40% for current drinkers reporting “heavy” alcohol intake, researchers found in an adjusted analysis.

However, abstainers who had mild to moderate alcohol-intake levels before their AFib diagnosis “had a similar risk of ischemic stroke as nondrinkers,” write the authors, led by So-Ryoung Lee, MD, PhD, and colleagues, Seoul National University Hospital, Republic of Korea, in their report published June 7 in the European Heart Journal. In a secondary analysis, binge drinking was also independently associated with risk for ischemic stroke.

The findings suggest that “alcohol abstinence after the diagnosis of AFib could reduce the risk of ischemic stroke,” they conclude. “Lifestyle interventions, including attention to alcohol consumption, should be encouraged as part of a comprehensive approach in the management of patients with a new diagnosis of AFib” for lowering the risk for stroke and other clinical outcomes.

“These results are pretty comparable to those obtained in the more general population,” David Conen, MD, MPH, not connected to the analysis, told this news organization.

In the study’s population with new-onset AFib, there is an alcohol-dependent risk for stroke “that goes up with increasing alcohol intake, which is more or less similar to that found without atrial fibrillation in previous studies,” said Dr. Conen, from the Population Health Research Institute, McMaster University, Hamilton, Ont.

The study, “which overall I think is very well done,” he said, is noteworthy for also suggesting that binge drinking, which was scrutinized in a secondary analysis, appeared independently to worsen the risk for stroke in its AFib population.

Dr. Conen said the observed 1% overall risk for stroke was very similar to the rate he and his colleagues saw in a recent combined analysis of two European cohorts with AFib that was usually longer standing; the median was 3 years. That analysis, in contrast, showed no significant association between increasing levels of alcohol intake and risk for stroke or systemic embolism.

However, “our confidence limits did not exclude the possibility of a small to moderate association,” he said. Given that, and the current study from Korea, there might indeed be “a weak association between alcohol consumption and stroke” in patients with AFib.

“Their results are just more precise because of the larger sample size. That’s why they were able to show those associations,” said Dr. Conen, who was senior author on the earlier report, which covered a pooled analysis of 3,852 patients with AFib in the BEAT-AF and SWISS-AF cohort studies. It was published January 25 in CMAJ, with lead author Philipp Reddiess, MD, Cardiovascular Research Institute Basel, Switzerland.

The two published studies contrast in other ways that are worth noting and together suggest the stroke rate might have been 1% in both by chance, Dr. Conen said. “The populations were pretty different.”

In the earlier study, for example, the overwhelmingly European patients had more comorbidities and had been in AFib for much longer; their mean age was 71 years; and 84% were on oral anticoagulation (OAC).

In contrast, the Korean cohort averaged 61 years in age and only about 24% were taking oral anticoagulants. Given their distribution of CHA2DS2-VASc scores and mean score of 2.3, more than twice as many should have been on OAC, Dr. Conen speculated. “Even if you take into account that some patients may have contraindications, this is clearly an underanticoagulated population.”

The European cohort might have been “a little bit more representative because atrial fibrillation is a disease of the elderly,” Dr. Conen said, but “the Korean paper has the advantage of being a population-based study.”

It involved 97,869 patients from a Korean national data base who were newly diagnosed with AFib from 2010 to 2016. Of the total, 49,781 (51%) were continuously nondrinkers before and after their diagnosis; 12,789 (13%) abstained from alcohol only after their AFib diagnosis; and 35,299 (36%) were drinkers during the follow-up, either because they continued to drink or newly started after their diagnosis.

Of the cohort, 3,120 were diagnosed with new ischemic stroke over a follow-up of 310,926 person-years, for a rate of 1 per 100 person-years.

The adjusted hazard ratio (HR) for ischemic stroke over a 5-year follow-up, compared with nondrinkers, was:

• 1.127 (95% confidence interval, 1.003-1.266) among abstainers
• 1.280 (95% CI, 1.166-1.405) for current drinkers

The corresponding HR, compared with current drinkers, was:

• 0.781 (95% CI, 0.712-0.858) for nondrinkers
• 0.880 (95% CI, 0.782-0.990) among abstainers

No significant interactions with ischemic stroke risk were observed in groups by sex, age, CHA2DS2-VASc score, or smoking status. The risk rose consistently with current drinking levels.

The overall stroke rate of 1% per year is “very low,” and “the absolute differences are small, even though there is a clear significant trend from nondrinking to drinking,” Dr. Conen said.

However, “the difference becomes more sizable when you compare heavy drinking to abstinence.”

Dr. Lee reports no conflicts of interest; disclosures for the other authors are in their report. Dr. Conen reports receiving speaker fees from Servier Canada; disclosures for the other authors are in their report.

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

There’s abundant evidence linking higher alcohol intake levels to greater stroke risk and, separately, increasing risk for new-onset atrial fibrillation (AFib). Less settled is whether moderate to heavy drinking worsens the risk for stroke in patients already in AFib and whether giving up alcohol can attenuate that risk. A new observational study suggests the answer to both questions is yes.

The risk for ischemic stroke was only around 1% over about 5 years in a Korean nationwide cohort of almost 98,000 patients with new-onset AFib. About half the patients followed were nondrinkers, as they had been before the study, 13% became abstinent soon after their AFib diagnosis, and 36% were currently drinkers.

But stroke risk went up about 30% with “moderate” current alcohol intake, compared with no intake, and by more than 40% for current drinkers reporting “heavy” alcohol intake, researchers found in an adjusted analysis.

However, abstainers who had mild to moderate alcohol-intake levels before their AFib diagnosis “had a similar risk of ischemic stroke as nondrinkers,” write the authors, led by So-Ryoung Lee, MD, PhD, and colleagues, Seoul National University Hospital, Republic of Korea, in their report published June 7 in the European Heart Journal. In a secondary analysis, binge drinking was also independently associated with risk for ischemic stroke.

The findings suggest that “alcohol abstinence after the diagnosis of AFib could reduce the risk of ischemic stroke,” they conclude. “Lifestyle interventions, including attention to alcohol consumption, should be encouraged as part of a comprehensive approach in the management of patients with a new diagnosis of AFib” for lowering the risk for stroke and other clinical outcomes.

“These results are pretty comparable to those obtained in the more general population,” David Conen, MD, MPH, not connected to the analysis, told this news organization.

In the study’s population with new-onset AFib, there is an alcohol-dependent risk for stroke “that goes up with increasing alcohol intake, which is more or less similar to that found without atrial fibrillation in previous studies,” said Dr. Conen, from the Population Health Research Institute, McMaster University, Hamilton, Ont.

The study, “which overall I think is very well done,” he said, is noteworthy for also suggesting that binge drinking, which was scrutinized in a secondary analysis, appeared independently to worsen the risk for stroke in its AFib population.

Dr. Conen said the observed 1% overall risk for stroke was very similar to the rate he and his colleagues saw in a recent combined analysis of two European cohorts with AFib that was usually longer standing; the median was 3 years. That analysis, in contrast, showed no significant association between increasing levels of alcohol intake and risk for stroke or systemic embolism.

However, “our confidence limits did not exclude the possibility of a small to moderate association,” he said. Given that, and the current study from Korea, there might indeed be “a weak association between alcohol consumption and stroke” in patients with AFib.

“Their results are just more precise because of the larger sample size. That’s why they were able to show those associations,” said Dr. Conen, who was senior author on the earlier report, which covered a pooled analysis of 3,852 patients with AFib in the BEAT-AF and SWISS-AF cohort studies. It was published January 25 in CMAJ, with lead author Philipp Reddiess, MD, Cardiovascular Research Institute Basel, Switzerland.

The two published studies contrast in other ways that are worth noting and together suggest the stroke rate might have been 1% in both by chance, Dr. Conen said. “The populations were pretty different.”

In the earlier study, for example, the overwhelmingly European patients had more comorbidities and had been in AFib for much longer; their mean age was 71 years; and 84% were on oral anticoagulation (OAC).

In contrast, the Korean cohort averaged 61 years in age and only about 24% were taking oral anticoagulants. Given their distribution of CHA2DS2-VASc scores and mean score of 2.3, more than twice as many should have been on OAC, Dr. Conen speculated. “Even if you take into account that some patients may have contraindications, this is clearly an underanticoagulated population.”

The European cohort might have been “a little bit more representative because atrial fibrillation is a disease of the elderly,” Dr. Conen said, but “the Korean paper has the advantage of being a population-based study.”

It involved 97,869 patients from a Korean national data base who were newly diagnosed with AFib from 2010 to 2016. Of the total, 49,781 (51%) were continuously nondrinkers before and after their diagnosis; 12,789 (13%) abstained from alcohol only after their AFib diagnosis; and 35,299 (36%) were drinkers during the follow-up, either because they continued to drink or newly started after their diagnosis.

Of the cohort, 3,120 were diagnosed with new ischemic stroke over a follow-up of 310,926 person-years, for a rate of 1 per 100 person-years.

The adjusted hazard ratio (HR) for ischemic stroke over a 5-year follow-up, compared with nondrinkers, was:

• 1.127 (95% confidence interval, 1.003-1.266) among abstainers
• 1.280 (95% CI, 1.166-1.405) for current drinkers

The corresponding HR, compared with current drinkers, was:

• 0.781 (95% CI, 0.712-0.858) for nondrinkers
• 0.880 (95% CI, 0.782-0.990) among abstainers

No significant interactions with ischemic stroke risk were observed in groups by sex, age, CHA2DS2-VASc score, or smoking status. The risk rose consistently with current drinking levels.

The overall stroke rate of 1% per year is “very low,” and “the absolute differences are small, even though there is a clear significant trend from nondrinking to drinking,” Dr. Conen said.

However, “the difference becomes more sizable when you compare heavy drinking to abstinence.”

Dr. Lee reports no conflicts of interest; disclosures for the other authors are in their report. Dr. Conen reports receiving speaker fees from Servier Canada; disclosures for the other authors are in their report.

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

There’s abundant evidence linking higher alcohol intake levels to greater stroke risk and, separately, increasing risk for new-onset atrial fibrillation (AFib). Less settled is whether moderate to heavy drinking worsens the risk for stroke in patients already in AFib and whether giving up alcohol can attenuate that risk. A new observational study suggests the answer to both questions is yes.

The risk for ischemic stroke was only around 1% over about 5 years in a Korean nationwide cohort of almost 98,000 patients with new-onset AFib. About half the patients followed were nondrinkers, as they had been before the study, 13% became abstinent soon after their AFib diagnosis, and 36% were currently drinkers.

But stroke risk went up about 30% with “moderate” current alcohol intake, compared with no intake, and by more than 40% for current drinkers reporting “heavy” alcohol intake, researchers found in an adjusted analysis.

However, abstainers who had mild to moderate alcohol-intake levels before their AFib diagnosis “had a similar risk of ischemic stroke as nondrinkers,” write the authors, led by So-Ryoung Lee, MD, PhD, and colleagues, Seoul National University Hospital, Republic of Korea, in their report published June 7 in the European Heart Journal. In a secondary analysis, binge drinking was also independently associated with risk for ischemic stroke.

The findings suggest that “alcohol abstinence after the diagnosis of AFib could reduce the risk of ischemic stroke,” they conclude. “Lifestyle interventions, including attention to alcohol consumption, should be encouraged as part of a comprehensive approach in the management of patients with a new diagnosis of AFib” for lowering the risk for stroke and other clinical outcomes.

“These results are pretty comparable to those obtained in the more general population,” David Conen, MD, MPH, not connected to the analysis, told this news organization.

In the study’s population with new-onset AFib, there is an alcohol-dependent risk for stroke “that goes up with increasing alcohol intake, which is more or less similar to that found without atrial fibrillation in previous studies,” said Dr. Conen, from the Population Health Research Institute, McMaster University, Hamilton, Ont.

The study, “which overall I think is very well done,” he said, is noteworthy for also suggesting that binge drinking, which was scrutinized in a secondary analysis, appeared independently to worsen the risk for stroke in its AFib population.

Dr. Conen said the observed 1% overall risk for stroke was very similar to the rate he and his colleagues saw in a recent combined analysis of two European cohorts with AFib that was usually longer standing; the median was 3 years. That analysis, in contrast, showed no significant association between increasing levels of alcohol intake and risk for stroke or systemic embolism.

However, “our confidence limits did not exclude the possibility of a small to moderate association,” he said. Given that, and the current study from Korea, there might indeed be “a weak association between alcohol consumption and stroke” in patients with AFib.

“Their results are just more precise because of the larger sample size. That’s why they were able to show those associations,” said Dr. Conen, who was senior author on the earlier report, which covered a pooled analysis of 3,852 patients with AFib in the BEAT-AF and SWISS-AF cohort studies. It was published January 25 in CMAJ, with lead author Philipp Reddiess, MD, Cardiovascular Research Institute Basel, Switzerland.

The two published studies contrast in other ways that are worth noting and together suggest the stroke rate might have been 1% in both by chance, Dr. Conen said. “The populations were pretty different.”

In the earlier study, for example, the overwhelmingly European patients had more comorbidities and had been in AFib for much longer; their mean age was 71 years; and 84% were on oral anticoagulation (OAC).

In contrast, the Korean cohort averaged 61 years in age and only about 24% were taking oral anticoagulants. Given their distribution of CHA2DS2-VASc scores and mean score of 2.3, more than twice as many should have been on OAC, Dr. Conen speculated. “Even if you take into account that some patients may have contraindications, this is clearly an underanticoagulated population.”

The European cohort might have been “a little bit more representative because atrial fibrillation is a disease of the elderly,” Dr. Conen said, but “the Korean paper has the advantage of being a population-based study.”

It involved 97,869 patients from a Korean national data base who were newly diagnosed with AFib from 2010 to 2016. Of the total, 49,781 (51%) were continuously nondrinkers before and after their diagnosis; 12,789 (13%) abstained from alcohol only after their AFib diagnosis; and 35,299 (36%) were drinkers during the follow-up, either because they continued to drink or newly started after their diagnosis.

Of the cohort, 3,120 were diagnosed with new ischemic stroke over a follow-up of 310,926 person-years, for a rate of 1 per 100 person-years.

The adjusted hazard ratio (HR) for ischemic stroke over a 5-year follow-up, compared with nondrinkers, was:

• 1.127 (95% confidence interval, 1.003-1.266) among abstainers
• 1.280 (95% CI, 1.166-1.405) for current drinkers

The corresponding HR, compared with current drinkers, was:

• 0.781 (95% CI, 0.712-0.858) for nondrinkers
• 0.880 (95% CI, 0.782-0.990) among abstainers

No significant interactions with ischemic stroke risk were observed in groups by sex, age, CHA2DS2-VASc score, or smoking status. The risk rose consistently with current drinking levels.

The overall stroke rate of 1% per year is “very low,” and “the absolute differences are small, even though there is a clear significant trend from nondrinking to drinking,” Dr. Conen said.

However, “the difference becomes more sizable when you compare heavy drinking to abstinence.”

Dr. Lee reports no conflicts of interest; disclosures for the other authors are in their report. Dr. Conen reports receiving speaker fees from Servier Canada; disclosures for the other authors are in their report.

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

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

Agents that reverse the effect of direct oral anticoagulants (DOACs) are highly effective in patients with severe bleeding, but mortality rates remain high despite their use, a meta-analysis shows.

Effective hemostasis was achieved in 78.5% of patients treated with a reversal agent, whereas failure to achieve hemostasis was associated with more than a threefold higher relative risk for death (relative risk, 3.63; 95% confidence interval, 2.56-5.16).

“This has implications in practice because it emphasizes the need for achieving effective hemostasis, if not with only one agent, trying other agents or treatment modalities, because it is a strong predictor of survival,” lead author Antonio Gómez-Outes, MD, PhD, said in an interview.

The bad news, he said, is that the mortality rate was still significant, at 17.7%, and approximately half of patients with DOAC-related severe intracranial bleeding survived with long-term moderate/severe disability.

“The lesson is to prevent these bleeding events because once they appear, even if you give an antidote, the outcome is poor, particularly for intracranial bleeding,” said Dr. Gómez-Outes, division of pharmacology and clinical drug evaluation, Spanish Agency for Medicines and Medical Devices, Madrid.

To put this in context, mortality rates were close to 50% after intracranial bleeding a decade ago when there were no antidotes or reversal agents, he observed. “So to some extent, patient care has improved, and the outcome has improved, but there is a long road to improve regarding disability.”

More than 100,000 DOAC-related major bleeding cases occur each year in the United States and European Union, Dr. Gómez-Outes said, and about half are severe enough to require hospitalization and potentially the use of a reversal agent. These include idarucizumab (Praxbind) for dabigatran reversal and prothombin complex concentrates (4CCC) or andexanet alpha (Andexxa) for reversal of direct factor Xa inhibitors like rivaroxaban, apixaban, and edoxaban.

As reported in the June 22 issue of the Journal of the American College of Cardiology, the meta-analysis comprised 4,735 patients (mean age, 77 years; 57% male) with severe DOAC-related bleeding who received 4PCC (n = 2,688), idarucizumab (n = 1,111), or andexanet (n = 936) in 60 studies between January 2010 and December 2020.

Atrial fibrillation (AFib) was the most common reason for use of a DOAC (82%), followed by venous thromboembolism (14%). Rivaroxaban was used in 36%, apixaban in 32%, dabigatran in 31%, and edoxaban in 1%.

The index bleeding event was intracranial hemorrhage (ICH) in 55%. Anticoagulation was restarted in 57% of patients an average of 11 days after admission.

Mortality rates were 20.2% in patients with ICH and 15.4% in those with extracranial bleeding. There were no differences in death rates by reversal agent used, type of study, risk for bias, or study sponsorship in meta-regression analysis.

Rebleeding occurred in 13.2% of patients; 82.0% of these events were described as an ICH, and 78.0% occurred after anticoagulation was restarted.

The overall rate of thromboembolism was 4.6%. The risk was particularly high with andexanet, at 10.7%, and relatively low with idarucizumab (3.8%) and 4PCC (4.3%), the authors note.

“Our meta-analysis suggests specific reversal with andexanet is not superior to unspecific reversal with 4PCC, and that’s good news because many centers, in many countries, have no access to specific antidotes that are more costly,” Dr. Gómez-Outes said. “4PCC is an effective and relatively safe drug, so it’s still a good option for these patients.”

Labeling for andexanet includes a warning for thromboembolic events, but in the absence of direct comparisons, the findings should be interpreted with caution, he added. Further insights are expected from an ongoing randomized trial of andexanet and standard of care in 900 patients who present with acute ICH less than 15 hours after taking an oral factor Xa inhibitor. The preliminary completion date is set for 2023.

“The meta-analysis raises awareness about the rates of mortality and thromboembolism after reversal agent administration, although understanding the implications of these data is challenging,” Christopher Granger, MD, and Sean P. Pokomey, MD, MBA, Duke University Medical Center, Durham, N.C., say in an accompanying editorial.

The fact that failure to achieve hemostasis was associated with death is expected and might be related to the way hemostasis was defined, rather than the actual failure of the hemostatic treatments, they suggest. “The prothrombotic effects of each agent, including andexanet, need to be better understood, as clinicians work toward including reversal agents into algorithms for bleeding management.”

Effective hemostasis was defined in the studies through various methods as: “Excellent/good” using the Sarode and ANNEXA-4 scales; “yes” in the International Society on Thrombosis and Hemostasis Scale; and with other scales and through clinical judgment.

Although the size of the meta-analysis dwarfs previous reviews, the editorialists and authors point out that 47 of the 60 studies were retrospective, only two had control groups, and 45 had a high risk for bias.

In general, there was also poor reporting of key clinical data, such as postbleeding anticoagulation management, and a limitation of the mortality analysis is that it was based in selected patients with effective hemostasis assessed within 48 hours, which may not capture early deaths, the authors note.

“The morbidity and mortality from ischemic strokes as a result of undertreatment of stroke prevention in patients with AFib continue to dwarf the bleeding related mortality among patients with AFib and on DOACs, and thus the number one priority is to treat nearly all patients with AFib with a DOAC,” Dr. Granger and Dr. Pokomey conclude. “The availability of reversal agents for DOACs should provide reassurance, with another tool in our armamentarium, to providers to prescribe OACs for stroke prevention.”

No funding/grant support was received to conduct the study. Coauthor Ramón Lecumberri has received personal fees from Boehringer Ingelheim and Bristol Myers Squibb outside the submitted work. All other authors report no relevant financial relationships. Dr. Granger has received research and consulting fees from Bristol Myers Squibb, Pfizer, Boehringer Ingelheim, Bayer, Janssen, Boston Scientific, Apple, AstraZeneca, Novartis, AbbVie, Biomed, CeleCor, GSK, Novartis, Medtronic, Merck, Novo Nordisk, Philips, Rho, and the U.S. Food and Drug Administration. Dr. Pokomey has received modest consulting support from Bristol Myers Squibb, Pfizer, Boston Scientific, Medtronic, Janssen, and Zoll; modest research support from Gilead, Boston Scientific, Bristol Myers Squibb, Pfizer, and Janssen; and significant research support from the FDA.

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

Three or more weeks of oral anticoagulation (OAC) sometimes isn’t up to the job of clearing any potentially embolic left atrial (LA) thrombi before procedures like cardioversion or catheter ablation in patients with atrial fibrillation (AF). Such OAC-defiant LA thrombi aren’t common, nor are they rare enough to ignore, suggests a new meta-analysis that might also have identified features that predispose to them.

Such predictors of LA clots that persist despite OAC could potentially guide selective use of transesophageal echocardiography (TEE) instead of more routine policies to either use or not use TEE for thrombus rule-out before rhythm-control procedures, researchers propose.

Their prevalence was about 2.7% among the study’s more than 14,000 patients who received at least 3 weeks of OAC with either vitamin K antagonists (VKA) or direct oral anticoagulants (DOAC) before undergoing TEE.

But OAC-resistant LA thrombi were two- to four-times as common in patients with than without certain features, including AF other than paroxysmal and higher CHADS2 and CHA2DS2-VASc stroke risk-stratification scores.

“TEE imaging in select patients at an elevated risk of LA thrombus, despite anticoagulation status, may be a reasonable approach to minimize the risk of thromboembolic complications following cardioversion or catheter ablation,” propose the study’s authors, led by Antony Lurie, BMSC, Population Health Research Institute, Hamilton, Ont. Their report was published in the June 15 issue of the Journal of the American College of Cardiology.

Guidelines don’t encourage TEE before cardioversion in patients who have been on OAC for at least 3 weeks, the group notes, and policies on TEE use before AF ablation vary widely regardless of anticoagulation status.

The current study suggests that 3 weeks of OAC isn’t enough for a substantial number of patients, who might be put at thromboembolic risk if TEE were to be skipped before rhythm-control procedures.

Conversely, many patients unlikely to have LA thrombi get preprocedure TEE anyway. That can happen “irrespective of how long they’ve been anticoagulated, their pattern of atrial fibrillation, or their stroke risk,” senior author Jorge A. Wong, MD, MPH, Population Health Research Institute and McMaster University, Hamilton, Ont., told this news organization.

But “TEE is an invasive imaging modality, so it is associated with small element of risk.” The current study, Dr. Wong said, points to potential risk-stratification tools clinicians might use to guide more selective TEE screening.

“At sites where TEEs are done all the time for patients undergoing ablation, one could use several of these risk markers to perhaps tailor use of TEE in individuals,” Dr. Wong said. “For example, in people with paroxysmal atrial fibrillation, we found that the risk of left atrial appendage clot was approximately 1% or less.” Screening by TEE might reasonably be avoided in such patients.

“Fortunately, continued oral anticoagulation already yields low peri-procedural stroke rates,” observes an accompanying editorial from Paulus Kirchhof, MD, and Christoph Sinning, MD, from the University Heart & Vascular Center and German Centre of Cardiovascular Research, Hamburg.

“Based on this new analysis of existing data, a risk-based use of TEE imaging in anticoagulated patients could enable further improvement in the safe delivery of rhythm control interventions in patients with AF,” the editorialists agree.

The meta-analysis covered 10 prospective and 25 retrospective studies with a total of 14,653 patients that reported whether LA thrombus was present in patients with AF or atrial flutter (AFL) who underwent TEE after at least 3 weeks of VKA or DOAC therapy. Reports for 30 of the studies identified patients by rhythm-control procedure, and the remaining five didn’t specify TEE indications.

The weighted mean prevalence of LA thrombus at TEE was 2.73% (95% confidence interval, 1.95%-3.80%). The finding was not significantly changed in separate sensitivity analyses, the report says, including one limited to studies with low risk of bias and others excluding patients with valvular AF, interrupted OAC, heparin bridging, or subtherapeutic anticoagulation, respectively.

Patients treated with VKA and DOACs showed similar prevalences of LA thrombi, with means of 2.80% and 3.12%, respectively (P = .674). The prevalence was significantly higher in patients:

• with nonparoxysmal than with paroxysmal AF/AFL (4.81% vs. 1.03%; P < .001)
• undergoing cardioversion than ablation (5.55% vs. 1.65; P < .001)
• with CHA2DS2-VASc scores of at least 3 than with scores of 2 or less (6.31% vs. 1.06%; P < .001).

A limitation of the study, observe Dr. Kirchhof and Dr. Sinning, “is that all patients had a clinical indication for a TEE, which might be a selection bias. When a thrombus was found on TEE, clinical judgment led to postponing of the procedure,” thereby avoiding potential thromboembolism.

“Thus, the paper cannot demonstrate that presence of a thrombus on TEE is related to peri-procedural ischemic stroke,” they write.

The literature puts the risk for stroke or systemic embolism at well under 1% for patients anticoagulated with either VKA or DOACs for at least 3 weeks prior to cardioversion, in contrast to the nearly 3% prevalence of LA appendage thrombus by TEE in the current analysis, Dr. Wong observed.

“So we’re seeing a lot more left atrial appendage thrombus than we would see stroke,” but there wasn’t a way to determine whether that increases the stroke risk, he agreed.Dr. Wong, Dr. Lurie, and the other authors report no relevant conflicts. Dr. Kirchhof discloses receiving partial support “from several drug and device companies active in atrial fibrillation” and to being listed as inventor on two AF-related patents held by the University of Birmingham. Dr. Sinning reports no relevant relationships. 

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

Three or more weeks of oral anticoagulation (OAC) sometimes isn’t up to the job of clearing any potentially embolic left atrial (LA) thrombi before procedures like cardioversion or catheter ablation in patients with atrial fibrillation (AF). Such OAC-defiant LA thrombi aren’t common, nor are they rare enough to ignore, suggests a new meta-analysis that might also have identified features that predispose to them.

Such predictors of LA clots that persist despite OAC could potentially guide selective use of transesophageal echocardiography (TEE) instead of more routine policies to either use or not use TEE for thrombus rule-out before rhythm-control procedures, researchers propose.

Their prevalence was about 2.7% among the study’s more than 14,000 patients who received at least 3 weeks of OAC with either vitamin K antagonists (VKA) or direct oral anticoagulants (DOAC) before undergoing TEE.

But OAC-resistant LA thrombi were two- to four-times as common in patients with than without certain features, including AF other than paroxysmal and higher CHADS2 and CHA2DS2-VASc stroke risk-stratification scores.

“TEE imaging in select patients at an elevated risk of LA thrombus, despite anticoagulation status, may be a reasonable approach to minimize the risk of thromboembolic complications following cardioversion or catheter ablation,” propose the study’s authors, led by Antony Lurie, BMSC, Population Health Research Institute, Hamilton, Ont. Their report was published in the June 15 issue of the Journal of the American College of Cardiology.

Guidelines don’t encourage TEE before cardioversion in patients who have been on OAC for at least 3 weeks, the group notes, and policies on TEE use before AF ablation vary widely regardless of anticoagulation status.

The current study suggests that 3 weeks of OAC isn’t enough for a substantial number of patients, who might be put at thromboembolic risk if TEE were to be skipped before rhythm-control procedures.

Conversely, many patients unlikely to have LA thrombi get preprocedure TEE anyway. That can happen “irrespective of how long they’ve been anticoagulated, their pattern of atrial fibrillation, or their stroke risk,” senior author Jorge A. Wong, MD, MPH, Population Health Research Institute and McMaster University, Hamilton, Ont., told this news organization.

But “TEE is an invasive imaging modality, so it is associated with small element of risk.” The current study, Dr. Wong said, points to potential risk-stratification tools clinicians might use to guide more selective TEE screening.

“At sites where TEEs are done all the time for patients undergoing ablation, one could use several of these risk markers to perhaps tailor use of TEE in individuals,” Dr. Wong said. “For example, in people with paroxysmal atrial fibrillation, we found that the risk of left atrial appendage clot was approximately 1% or less.” Screening by TEE might reasonably be avoided in such patients.

“Fortunately, continued oral anticoagulation already yields low peri-procedural stroke rates,” observes an accompanying editorial from Paulus Kirchhof, MD, and Christoph Sinning, MD, from the University Heart & Vascular Center and German Centre of Cardiovascular Research, Hamburg.

“Based on this new analysis of existing data, a risk-based use of TEE imaging in anticoagulated patients could enable further improvement in the safe delivery of rhythm control interventions in patients with AF,” the editorialists agree.

The meta-analysis covered 10 prospective and 25 retrospective studies with a total of 14,653 patients that reported whether LA thrombus was present in patients with AF or atrial flutter (AFL) who underwent TEE after at least 3 weeks of VKA or DOAC therapy. Reports for 30 of the studies identified patients by rhythm-control procedure, and the remaining five didn’t specify TEE indications.

The weighted mean prevalence of LA thrombus at TEE was 2.73% (95% confidence interval, 1.95%-3.80%). The finding was not significantly changed in separate sensitivity analyses, the report says, including one limited to studies with low risk of bias and others excluding patients with valvular AF, interrupted OAC, heparin bridging, or subtherapeutic anticoagulation, respectively.

Patients treated with VKA and DOACs showed similar prevalences of LA thrombi, with means of 2.80% and 3.12%, respectively (P = .674). The prevalence was significantly higher in patients:

• with nonparoxysmal than with paroxysmal AF/AFL (4.81% vs. 1.03%; P < .001)
• undergoing cardioversion than ablation (5.55% vs. 1.65; P < .001)
• with CHA2DS2-VASc scores of at least 3 than with scores of 2 or less (6.31% vs. 1.06%; P < .001).

A limitation of the study, observe Dr. Kirchhof and Dr. Sinning, “is that all patients had a clinical indication for a TEE, which might be a selection bias. When a thrombus was found on TEE, clinical judgment led to postponing of the procedure,” thereby avoiding potential thromboembolism.

“Thus, the paper cannot demonstrate that presence of a thrombus on TEE is related to peri-procedural ischemic stroke,” they write.

The literature puts the risk for stroke or systemic embolism at well under 1% for patients anticoagulated with either VKA or DOACs for at least 3 weeks prior to cardioversion, in contrast to the nearly 3% prevalence of LA appendage thrombus by TEE in the current analysis, Dr. Wong observed.

“So we’re seeing a lot more left atrial appendage thrombus than we would see stroke,” but there wasn’t a way to determine whether that increases the stroke risk, he agreed.Dr. Wong, Dr. Lurie, and the other authors report no relevant conflicts. Dr. Kirchhof discloses receiving partial support “from several drug and device companies active in atrial fibrillation” and to being listed as inventor on two AF-related patents held by the University of Birmingham. Dr. Sinning reports no relevant relationships. 

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

Three or more weeks of oral anticoagulation (OAC) sometimes isn’t up to the job of clearing any potentially embolic left atrial (LA) thrombi before procedures like cardioversion or catheter ablation in patients with atrial fibrillation (AF). Such OAC-defiant LA thrombi aren’t common, nor are they rare enough to ignore, suggests a new meta-analysis that might also have identified features that predispose to them.

Such predictors of LA clots that persist despite OAC could potentially guide selective use of transesophageal echocardiography (TEE) instead of more routine policies to either use or not use TEE for thrombus rule-out before rhythm-control procedures, researchers propose.

Their prevalence was about 2.7% among the study’s more than 14,000 patients who received at least 3 weeks of OAC with either vitamin K antagonists (VKA) or direct oral anticoagulants (DOAC) before undergoing TEE.

But OAC-resistant LA thrombi were two- to four-times as common in patients with than without certain features, including AF other than paroxysmal and higher CHADS2 and CHA2DS2-VASc stroke risk-stratification scores.

“TEE imaging in select patients at an elevated risk of LA thrombus, despite anticoagulation status, may be a reasonable approach to minimize the risk of thromboembolic complications following cardioversion or catheter ablation,” propose the study’s authors, led by Antony Lurie, BMSC, Population Health Research Institute, Hamilton, Ont. Their report was published in the June 15 issue of the Journal of the American College of Cardiology.

Guidelines don’t encourage TEE before cardioversion in patients who have been on OAC for at least 3 weeks, the group notes, and policies on TEE use before AF ablation vary widely regardless of anticoagulation status.

The current study suggests that 3 weeks of OAC isn’t enough for a substantial number of patients, who might be put at thromboembolic risk if TEE were to be skipped before rhythm-control procedures.

Conversely, many patients unlikely to have LA thrombi get preprocedure TEE anyway. That can happen “irrespective of how long they’ve been anticoagulated, their pattern of atrial fibrillation, or their stroke risk,” senior author Jorge A. Wong, MD, MPH, Population Health Research Institute and McMaster University, Hamilton, Ont., told this news organization.

But “TEE is an invasive imaging modality, so it is associated with small element of risk.” The current study, Dr. Wong said, points to potential risk-stratification tools clinicians might use to guide more selective TEE screening.

“At sites where TEEs are done all the time for patients undergoing ablation, one could use several of these risk markers to perhaps tailor use of TEE in individuals,” Dr. Wong said. “For example, in people with paroxysmal atrial fibrillation, we found that the risk of left atrial appendage clot was approximately 1% or less.” Screening by TEE might reasonably be avoided in such patients.

“Fortunately, continued oral anticoagulation already yields low peri-procedural stroke rates,” observes an accompanying editorial from Paulus Kirchhof, MD, and Christoph Sinning, MD, from the University Heart & Vascular Center and German Centre of Cardiovascular Research, Hamburg.

“Based on this new analysis of existing data, a risk-based use of TEE imaging in anticoagulated patients could enable further improvement in the safe delivery of rhythm control interventions in patients with AF,” the editorialists agree.

The meta-analysis covered 10 prospective and 25 retrospective studies with a total of 14,653 patients that reported whether LA thrombus was present in patients with AF or atrial flutter (AFL) who underwent TEE after at least 3 weeks of VKA or DOAC therapy. Reports for 30 of the studies identified patients by rhythm-control procedure, and the remaining five didn’t specify TEE indications.

The weighted mean prevalence of LA thrombus at TEE was 2.73% (95% confidence interval, 1.95%-3.80%). The finding was not significantly changed in separate sensitivity analyses, the report says, including one limited to studies with low risk of bias and others excluding patients with valvular AF, interrupted OAC, heparin bridging, or subtherapeutic anticoagulation, respectively.

Patients treated with VKA and DOACs showed similar prevalences of LA thrombi, with means of 2.80% and 3.12%, respectively (P = .674). The prevalence was significantly higher in patients:

• with nonparoxysmal than with paroxysmal AF/AFL (4.81% vs. 1.03%; P < .001)
• undergoing cardioversion than ablation (5.55% vs. 1.65; P < .001)
• with CHA2DS2-VASc scores of at least 3 than with scores of 2 or less (6.31% vs. 1.06%; P < .001).

A limitation of the study, observe Dr. Kirchhof and Dr. Sinning, “is that all patients had a clinical indication for a TEE, which might be a selection bias. When a thrombus was found on TEE, clinical judgment led to postponing of the procedure,” thereby avoiding potential thromboembolism.

“Thus, the paper cannot demonstrate that presence of a thrombus on TEE is related to peri-procedural ischemic stroke,” they write.

The literature puts the risk for stroke or systemic embolism at well under 1% for patients anticoagulated with either VKA or DOACs for at least 3 weeks prior to cardioversion, in contrast to the nearly 3% prevalence of LA appendage thrombus by TEE in the current analysis, Dr. Wong observed.

“So we’re seeing a lot more left atrial appendage thrombus than we would see stroke,” but there wasn’t a way to determine whether that increases the stroke risk, he agreed.Dr. Wong, Dr. Lurie, and the other authors report no relevant conflicts. Dr. Kirchhof discloses receiving partial support “from several drug and device companies active in atrial fibrillation” and to being listed as inventor on two AF-related patents held by the University of Birmingham. Dr. Sinning reports no relevant relationships. 

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

Further evidence that powerful magnets in some Apple iPhones can interfere with cardiac implantable electronic devices (CIEDs) comes from a small study that also suggests some devices are more susceptible than others.

The iPhone 12 Pro Max with MagSafe technology interfered with CIEDs implanted in three consecutive patients presenting to an electrophysiology lab and in 8 of 11 implantable cardioverter defibrillators (ICDs) and pacemakers (72.7%) still in their original packaging.

The results, published in the Journal of the American Heart Association, are consistent with a widely publicized single-patient report this February and evidence of electromagnetic interference with fitness wristbands and e-cigarettes.

The MagSafe technology supports wireless charging and is optimized by a ring-shaped array of magnets. Although magnet mode activation has been shown to occur in CIEDs with exposure to a magnetic field as low as 10 gauss, the field strength of the iPhone 12 Pro Max can be greater than 50 G when in direct contact, the researchers determined.

“If this becomes a standard in a lot of the new smartphones or companies start to use stronger magnets ... then we will see more and more of these consumer electronic and device interactions,” senior author Michael Wu, MD, Brown University, Providence, R.I., told this news organization.

In a May advisory on these device interactions, the U.S. Food and Drug Administration also cautioned that the number of consumer electronics with strong magnets is expected to increase over time.

That trend appears to be already underway, with Forbes reporting in February that the MagSafe batteries will be “getting stronger” as part of upgrades to the iPhone 13 and Bloomberg reporting in advance of Apple’s annual developers conference this week that an upgraded version of MagSafe is in the works to support wireless charging for its iPad. MagSafe has not been used previously in iPads.

Although Apple has acknowledged that the iPhone 12 contains more magnets than previous iPhone models, it says “they’re not expected to pose a greater risk of magnetic interference to medical devices than prior iPhone models.” The company maintains a page that specifically warns about the potential for interactions and advises that consumers keep the iPhone and MagSafe accessories more than 15 cm (6 inches) away from medical devices.

Older-generation iPhones have not shown this risk, with only one case of interference reported with the iPhone 6 and an Apple Watch in 1,352 tests among 148 patients with CIEDs and leads from four different manufacturers.

In the present study, magnet reversion mode was triggered in all three patients when the iPhone 12 Pro Max was placed on the skin over the device.

The phone inhibited tachycardia therapies in Medtronic’s Amplia MRI Quad CRT-D and Abbott’s 1231-40 Fortify VR device.

The Boston Scientific V273 Intua CRT-P device, however, “appeared to be less susceptible, as we were only able to elicit transient temporary asynchronous pacing but no sustained response by the iPhone 12 Pro Max magnet,” Dr. Wu and colleagues note.

Among the 11 ex vivo CIEDs tested, placing the iPhone 12 Pro Max directly over the packaged device inhibited tachytherapies in Medtronic’s Visia AF MRI ICD and Abbott’s Fortify Assura DR ICD and Ellipse DR ICD.

The phone also led to asynchronous pacing in Medtronic’s Azure, Advisa MRI, and Adapta pacemakers and in Abbott’s Assurity MRI pacemaker.

Boston Scientific devices again “appeared to be less susceptible, as no clear magnet interference” was noted in the Dynagen ICD, Emblem MRI S-ICD, or Accolade MRI pacemaker, Dr. Wu reported. There was temporary asynchronous pacing but no sustained response in the company’s U125 Valitude pacemaker.

Using the Medtronic Visia AF MRI ICD, the researchers found that the iPhone 12 Pro Max was able to trigger magnet reversion mode at a distance up to 1.5 cm (0.6 inch) from the anterior aspect of the device ex vivo.

The difference in magnet response to the iPhone 12 Pro Max among the different devices is likely due to different hall-sensor magnet sensitivity, as all of the devices were susceptible to a standard donut magnet, Dr. Wu noted. Boston Scientific’s Accolade MRI pacemaker, for example, requires a magnet stronger than 70 G to activate magnet mode, according to the product manual.

“Even so, sometimes with our test, we were able to trigger a brief response,” he said. “The response isn’t as lasting as some of the other companies, but with the small sample size, I can only speculate and suggest that maybe it’s possible. But we always want a formal study through the company or other agencies to really pinpoint which company has more susceptible devices.”

As to whether manufacturers should build CIEDs less susceptible to today’s stronger magnets, Dr. Wu said it’s worth exploring, but there are pros and cons.

Although magnets in consumer devices have the potential to inhibit lifesaving therapies, a magnet is also very useful in certain medical settings, such as a quick way to ensure pacing without worrying about electrocautery noise during surgery or to deactivate a defibrillator if there’s noise resulting in inappropriate shocks.

“It would require an overhaul of a lot of the devices going forward, and I think that’s something that’s worth exploring, especially now that a lot of devices are using wireless communication, Bluetooth, and other communication technology,” he said.

Even though the study is small, Dr. Wu said, it does represent many of the available devices and has clinical implications, given that people often put their smartphones in a breast pocket.

“This report highlights the importance of public awareness regarding an interaction between CIEDs and a recently released smartphone model with magnetic charging capability,” Dr. Wu and colleagues conclude.

Apple was contacted for comment but had not responded at press time.

The authors reported no study funding or relevant conflicts of interests.

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

Further evidence that powerful magnets in some Apple iPhones can interfere with cardiac implantable electronic devices (CIEDs) comes from a small study that also suggests some devices are more susceptible than others.

The iPhone 12 Pro Max with MagSafe technology interfered with CIEDs implanted in three consecutive patients presenting to an electrophysiology lab and in 8 of 11 implantable cardioverter defibrillators (ICDs) and pacemakers (72.7%) still in their original packaging.

The results, published in the Journal of the American Heart Association, are consistent with a widely publicized single-patient report this February and evidence of electromagnetic interference with fitness wristbands and e-cigarettes.

The MagSafe technology supports wireless charging and is optimized by a ring-shaped array of magnets. Although magnet mode activation has been shown to occur in CIEDs with exposure to a magnetic field as low as 10 gauss, the field strength of the iPhone 12 Pro Max can be greater than 50 G when in direct contact, the researchers determined.

“If this becomes a standard in a lot of the new smartphones or companies start to use stronger magnets ... then we will see more and more of these consumer electronic and device interactions,” senior author Michael Wu, MD, Brown University, Providence, R.I., told this news organization.

In a May advisory on these device interactions, the U.S. Food and Drug Administration also cautioned that the number of consumer electronics with strong magnets is expected to increase over time.

That trend appears to be already underway, with Forbes reporting in February that the MagSafe batteries will be “getting stronger” as part of upgrades to the iPhone 13 and Bloomberg reporting in advance of Apple’s annual developers conference this week that an upgraded version of MagSafe is in the works to support wireless charging for its iPad. MagSafe has not been used previously in iPads.

Although Apple has acknowledged that the iPhone 12 contains more magnets than previous iPhone models, it says “they’re not expected to pose a greater risk of magnetic interference to medical devices than prior iPhone models.” The company maintains a page that specifically warns about the potential for interactions and advises that consumers keep the iPhone and MagSafe accessories more than 15 cm (6 inches) away from medical devices.

Older-generation iPhones have not shown this risk, with only one case of interference reported with the iPhone 6 and an Apple Watch in 1,352 tests among 148 patients with CIEDs and leads from four different manufacturers.

In the present study, magnet reversion mode was triggered in all three patients when the iPhone 12 Pro Max was placed on the skin over the device.

The phone inhibited tachycardia therapies in Medtronic’s Amplia MRI Quad CRT-D and Abbott’s 1231-40 Fortify VR device.

The Boston Scientific V273 Intua CRT-P device, however, “appeared to be less susceptible, as we were only able to elicit transient temporary asynchronous pacing but no sustained response by the iPhone 12 Pro Max magnet,” Dr. Wu and colleagues note.

Among the 11 ex vivo CIEDs tested, placing the iPhone 12 Pro Max directly over the packaged device inhibited tachytherapies in Medtronic’s Visia AF MRI ICD and Abbott’s Fortify Assura DR ICD and Ellipse DR ICD.

The phone also led to asynchronous pacing in Medtronic’s Azure, Advisa MRI, and Adapta pacemakers and in Abbott’s Assurity MRI pacemaker.

Boston Scientific devices again “appeared to be less susceptible, as no clear magnet interference” was noted in the Dynagen ICD, Emblem MRI S-ICD, or Accolade MRI pacemaker, Dr. Wu reported. There was temporary asynchronous pacing but no sustained response in the company’s U125 Valitude pacemaker.

Using the Medtronic Visia AF MRI ICD, the researchers found that the iPhone 12 Pro Max was able to trigger magnet reversion mode at a distance up to 1.5 cm (0.6 inch) from the anterior aspect of the device ex vivo.

The difference in magnet response to the iPhone 12 Pro Max among the different devices is likely due to different hall-sensor magnet sensitivity, as all of the devices were susceptible to a standard donut magnet, Dr. Wu noted. Boston Scientific’s Accolade MRI pacemaker, for example, requires a magnet stronger than 70 G to activate magnet mode, according to the product manual.

“Even so, sometimes with our test, we were able to trigger a brief response,” he said. “The response isn’t as lasting as some of the other companies, but with the small sample size, I can only speculate and suggest that maybe it’s possible. But we always want a formal study through the company or other agencies to really pinpoint which company has more susceptible devices.”

As to whether manufacturers should build CIEDs less susceptible to today’s stronger magnets, Dr. Wu said it’s worth exploring, but there are pros and cons.

Although magnets in consumer devices have the potential to inhibit lifesaving therapies, a magnet is also very useful in certain medical settings, such as a quick way to ensure pacing without worrying about electrocautery noise during surgery or to deactivate a defibrillator if there’s noise resulting in inappropriate shocks.

“It would require an overhaul of a lot of the devices going forward, and I think that’s something that’s worth exploring, especially now that a lot of devices are using wireless communication, Bluetooth, and other communication technology,” he said.

Even though the study is small, Dr. Wu said, it does represent many of the available devices and has clinical implications, given that people often put their smartphones in a breast pocket.

“This report highlights the importance of public awareness regarding an interaction between CIEDs and a recently released smartphone model with magnetic charging capability,” Dr. Wu and colleagues conclude.

Apple was contacted for comment but had not responded at press time.

The authors reported no study funding or relevant conflicts of interests.

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

Further evidence that powerful magnets in some Apple iPhones can interfere with cardiac implantable electronic devices (CIEDs) comes from a small study that also suggests some devices are more susceptible than others.

The iPhone 12 Pro Max with MagSafe technology interfered with CIEDs implanted in three consecutive patients presenting to an electrophysiology lab and in 8 of 11 implantable cardioverter defibrillators (ICDs) and pacemakers (72.7%) still in their original packaging.

The results, published in the Journal of the American Heart Association, are consistent with a widely publicized single-patient report this February and evidence of electromagnetic interference with fitness wristbands and e-cigarettes.

The MagSafe technology supports wireless charging and is optimized by a ring-shaped array of magnets. Although magnet mode activation has been shown to occur in CIEDs with exposure to a magnetic field as low as 10 gauss, the field strength of the iPhone 12 Pro Max can be greater than 50 G when in direct contact, the researchers determined.

“If this becomes a standard in a lot of the new smartphones or companies start to use stronger magnets ... then we will see more and more of these consumer electronic and device interactions,” senior author Michael Wu, MD, Brown University, Providence, R.I., told this news organization.

In a May advisory on these device interactions, the U.S. Food and Drug Administration also cautioned that the number of consumer electronics with strong magnets is expected to increase over time.

That trend appears to be already underway, with Forbes reporting in February that the MagSafe batteries will be “getting stronger” as part of upgrades to the iPhone 13 and Bloomberg reporting in advance of Apple’s annual developers conference this week that an upgraded version of MagSafe is in the works to support wireless charging for its iPad. MagSafe has not been used previously in iPads.

Although Apple has acknowledged that the iPhone 12 contains more magnets than previous iPhone models, it says “they’re not expected to pose a greater risk of magnetic interference to medical devices than prior iPhone models.” The company maintains a page that specifically warns about the potential for interactions and advises that consumers keep the iPhone and MagSafe accessories more than 15 cm (6 inches) away from medical devices.

Older-generation iPhones have not shown this risk, with only one case of interference reported with the iPhone 6 and an Apple Watch in 1,352 tests among 148 patients with CIEDs and leads from four different manufacturers.

In the present study, magnet reversion mode was triggered in all three patients when the iPhone 12 Pro Max was placed on the skin over the device.

The phone inhibited tachycardia therapies in Medtronic’s Amplia MRI Quad CRT-D and Abbott’s 1231-40 Fortify VR device.

The Boston Scientific V273 Intua CRT-P device, however, “appeared to be less susceptible, as we were only able to elicit transient temporary asynchronous pacing but no sustained response by the iPhone 12 Pro Max magnet,” Dr. Wu and colleagues note.

Among the 11 ex vivo CIEDs tested, placing the iPhone 12 Pro Max directly over the packaged device inhibited tachytherapies in Medtronic’s Visia AF MRI ICD and Abbott’s Fortify Assura DR ICD and Ellipse DR ICD.

The phone also led to asynchronous pacing in Medtronic’s Azure, Advisa MRI, and Adapta pacemakers and in Abbott’s Assurity MRI pacemaker.

Boston Scientific devices again “appeared to be less susceptible, as no clear magnet interference” was noted in the Dynagen ICD, Emblem MRI S-ICD, or Accolade MRI pacemaker, Dr. Wu reported. There was temporary asynchronous pacing but no sustained response in the company’s U125 Valitude pacemaker.

Using the Medtronic Visia AF MRI ICD, the researchers found that the iPhone 12 Pro Max was able to trigger magnet reversion mode at a distance up to 1.5 cm (0.6 inch) from the anterior aspect of the device ex vivo.

The difference in magnet response to the iPhone 12 Pro Max among the different devices is likely due to different hall-sensor magnet sensitivity, as all of the devices were susceptible to a standard donut magnet, Dr. Wu noted. Boston Scientific’s Accolade MRI pacemaker, for example, requires a magnet stronger than 70 G to activate magnet mode, according to the product manual.

“Even so, sometimes with our test, we were able to trigger a brief response,” he said. “The response isn’t as lasting as some of the other companies, but with the small sample size, I can only speculate and suggest that maybe it’s possible. But we always want a formal study through the company or other agencies to really pinpoint which company has more susceptible devices.”

As to whether manufacturers should build CIEDs less susceptible to today’s stronger magnets, Dr. Wu said it’s worth exploring, but there are pros and cons.

Although magnets in consumer devices have the potential to inhibit lifesaving therapies, a magnet is also very useful in certain medical settings, such as a quick way to ensure pacing without worrying about electrocautery noise during surgery or to deactivate a defibrillator if there’s noise resulting in inappropriate shocks.

“It would require an overhaul of a lot of the devices going forward, and I think that’s something that’s worth exploring, especially now that a lot of devices are using wireless communication, Bluetooth, and other communication technology,” he said.

Even though the study is small, Dr. Wu said, it does represent many of the available devices and has clinical implications, given that people often put their smartphones in a breast pocket.

“This report highlights the importance of public awareness regarding an interaction between CIEDs and a recently released smartphone model with magnetic charging capability,” Dr. Wu and colleagues conclude.

Apple was contacted for comment but had not responded at press time.

The authors reported no study funding or relevant conflicts of interests.

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

The improved Los Angeles medical dispatch system prompted more callers with limited English proficiency to initiate telecommunicator-assisted cardiopulmonary resuscitation (T-CPR), compared with the previous system, a new study shows.

Chalabala/iStock/Getty Images Plus

The Los Angeles Tiered Dispatch System (LA-TDS), adopted in late 2014, used simplified questions aimed at identifying cardiac arrest, compared with the city’s earlier Medical Priority Dispatch System (MPDS).

The result was substantially decreased call processing times, decreased “undertriage” of out-of-hospital cardiac arrest (OHCA), and improved overall T-CPR rates (Resuscitation. 2020 Oct;155:74-81).

But now, a secondary analysis of the data shows there was a much higher jump in T-CPR rates among a small subset of callers with limited English proficiency, compared with those proficient in English (JAMA Network Open. 2021;4[6]:e216827).

“This was an unanticipated, significant, and disproportionate change, but fortunately a very good change,” lead author Stephen Sanko, MD, said in an interview.

While the T-CPR rate among English-proficient callers increased from 55% with the MPDS to 67% with the LA-TDS (odds ratio, 1.66; P = .007), it rose from 28% to 69% (OR, 5.66; P = .003) among callers with limited English proficiency. In the adjusted analysis, the new LA-TDS was associated with a 69% higher prevalence of T-CPR among English-proficient callers, compared with a 350% greater prevalence among callers with limited English proficiency.

“The emergency communication process between a caller and 911 telecommunicator is more complex than we thought, and likely constitutes a unique subsubspecialty that interacts with fields as diverse as medicine, health equity, linguistics, sociology, consumer behavior and others,” said Dr. Sanko, who is from the division of emergency medical services at the University of Southern California in Los Angeles.

“Yet in spite of this complexity, we’re starting to be able to reproducibly classify elements of the emergency conversation that we believe are tied to outcomes we all care about. ... Modulators of health disparities are present as early as the dispatch conversation, and, importantly, they can be intervened upon to promote improved outcomes,” he continued.

The retrospective cohort study was a predefined secondary analysis of a previously published study comparing telecommunicator management of out-of-hospital cardiac arrest over 3 months with the MPDS versus 3 months with the LA-TDS. The primary outcome was the number of patients who received telecommunicator-assisted chest compressions from callers with limited English proficiency.

Of the 597 emergency calls that met the inclusion criteria, 289 (48%) were in the MPDS cohort and 308 (52%) were in the LA-TDS cohort. In the MPDS cohort, 263 callers had English proficiency and 26 had limited proficiency; in the latter cohort, those figures were 273 and 35, respectively.

There were no significant differences between cohorts in the use of real-time translation services, which were employed 27%-31% of the time.

The reason for the overall T-CPR improvement is likely that the LA-TDS was tailored to the community needs, said Dr. Sanko. “Most people, including doctors, think of 911 dispatch as something simple and straightforward, like ordering a pizza or calling a ride share. [But] LA-TDS is a ‘home grown’ dispatch system whose structure, questions, and emergency instructions were all developed by EMS medical directors and telecommunicators with extensive experience in our community.”

That being said, the researchers acknowledge that the reason behind the bigger T-CPR boost in LEP callers remains unclear. Although the link between language and system was statistically significant, they noted “it was not an a priori hypothesis and appeared to be largely attributable to the low T-CPR rates for callers with limited English proficiency using MPDS.” Additionally, such callers were “remarkably under-represented” in the sample, “which included approximately 600 calls over two quarters in a large city,” said Dr Sanko.

“We hypothesize that a more direct structure, earlier commitment to treating patients with abnormal life status indicators as being suspected cardiac arrest cases, and earlier reassurance may have improved caller confidence that telecommunicators knew what they were doing. This in turn may have translated into an increased likelihood of bystander caller willingness to perform immediate life-saving maneuvers.”

Despite a number of limitations, “the study is important and highlights instructive topics for discussion that suggest potential next-step opportunities,” noted Richard Chocron, MD, PhD, Miranda Lewis, MD, and Thomas Rea, MD, MPH, in an invited commentary that accompanied the publication. Dr. Chocron is from the Paris University, Paris Research Cardiovascular Center, INSERM; Dr. Lewis is from the Georges Pompidou European Hospital in Paris; and Dr. Rea is from the Division of Emergency Medical Services, Public Health–Seattle & King County. Both Dr. Lewis and Dr. Rea are also at the University of Washington, Seattle.

“Sanko et al. found that approximately 10% of all emergency calls were classified as limited English proficiency calls in a community in which 19% of the population was considered to have limited English proficiency,” they added. “This finding suggests the possibility that populations with limited English proficiency are less likely to activate 911 for incidence of cardiac arrest. If true, this finding would compound the health disparity observed among those with limited English proficiency. This topic is important in that it transcends the role of EMS personnel and engages a broad spectrum of societal stakeholders. We must listen, learn, and ultimately deliver public safety resources to groups who have not been well served by conventional approaches.”

None of the authors or editorialists reported any conflicts of interest.

The improved Los Angeles medical dispatch system prompted more callers with limited English proficiency to initiate telecommunicator-assisted cardiopulmonary resuscitation (T-CPR), compared with the previous system, a new study shows.

Chalabala/iStock/Getty Images Plus

The Los Angeles Tiered Dispatch System (LA-TDS), adopted in late 2014, used simplified questions aimed at identifying cardiac arrest, compared with the city’s earlier Medical Priority Dispatch System (MPDS).

The result was substantially decreased call processing times, decreased “undertriage” of out-of-hospital cardiac arrest (OHCA), and improved overall T-CPR rates (Resuscitation. 2020 Oct;155:74-81).

But now, a secondary analysis of the data shows there was a much higher jump in T-CPR rates among a small subset of callers with limited English proficiency, compared with those proficient in English (JAMA Network Open. 2021;4[6]:e216827).

“This was an unanticipated, significant, and disproportionate change, but fortunately a very good change,” lead author Stephen Sanko, MD, said in an interview.

While the T-CPR rate among English-proficient callers increased from 55% with the MPDS to 67% with the LA-TDS (odds ratio, 1.66; P = .007), it rose from 28% to 69% (OR, 5.66; P = .003) among callers with limited English proficiency. In the adjusted analysis, the new LA-TDS was associated with a 69% higher prevalence of T-CPR among English-proficient callers, compared with a 350% greater prevalence among callers with limited English proficiency.

“The emergency communication process between a caller and 911 telecommunicator is more complex than we thought, and likely constitutes a unique subsubspecialty that interacts with fields as diverse as medicine, health equity, linguistics, sociology, consumer behavior and others,” said Dr. Sanko, who is from the division of emergency medical services at the University of Southern California in Los Angeles.

“Yet in spite of this complexity, we’re starting to be able to reproducibly classify elements of the emergency conversation that we believe are tied to outcomes we all care about. ... Modulators of health disparities are present as early as the dispatch conversation, and, importantly, they can be intervened upon to promote improved outcomes,” he continued.

The retrospective cohort study was a predefined secondary analysis of a previously published study comparing telecommunicator management of out-of-hospital cardiac arrest over 3 months with the MPDS versus 3 months with the LA-TDS. The primary outcome was the number of patients who received telecommunicator-assisted chest compressions from callers with limited English proficiency.

Of the 597 emergency calls that met the inclusion criteria, 289 (48%) were in the MPDS cohort and 308 (52%) were in the LA-TDS cohort. In the MPDS cohort, 263 callers had English proficiency and 26 had limited proficiency; in the latter cohort, those figures were 273 and 35, respectively.

There were no significant differences between cohorts in the use of real-time translation services, which were employed 27%-31% of the time.

The reason for the overall T-CPR improvement is likely that the LA-TDS was tailored to the community needs, said Dr. Sanko. “Most people, including doctors, think of 911 dispatch as something simple and straightforward, like ordering a pizza or calling a ride share. [But] LA-TDS is a ‘home grown’ dispatch system whose structure, questions, and emergency instructions were all developed by EMS medical directors and telecommunicators with extensive experience in our community.”

That being said, the researchers acknowledge that the reason behind the bigger T-CPR boost in LEP callers remains unclear. Although the link between language and system was statistically significant, they noted “it was not an a priori hypothesis and appeared to be largely attributable to the low T-CPR rates for callers with limited English proficiency using MPDS.” Additionally, such callers were “remarkably under-represented” in the sample, “which included approximately 600 calls over two quarters in a large city,” said Dr Sanko.

“We hypothesize that a more direct structure, earlier commitment to treating patients with abnormal life status indicators as being suspected cardiac arrest cases, and earlier reassurance may have improved caller confidence that telecommunicators knew what they were doing. This in turn may have translated into an increased likelihood of bystander caller willingness to perform immediate life-saving maneuvers.”

Despite a number of limitations, “the study is important and highlights instructive topics for discussion that suggest potential next-step opportunities,” noted Richard Chocron, MD, PhD, Miranda Lewis, MD, and Thomas Rea, MD, MPH, in an invited commentary that accompanied the publication. Dr. Chocron is from the Paris University, Paris Research Cardiovascular Center, INSERM; Dr. Lewis is from the Georges Pompidou European Hospital in Paris; and Dr. Rea is from the Division of Emergency Medical Services, Public Health–Seattle & King County. Both Dr. Lewis and Dr. Rea are also at the University of Washington, Seattle.

“Sanko et al. found that approximately 10% of all emergency calls were classified as limited English proficiency calls in a community in which 19% of the population was considered to have limited English proficiency,” they added. “This finding suggests the possibility that populations with limited English proficiency are less likely to activate 911 for incidence of cardiac arrest. If true, this finding would compound the health disparity observed among those with limited English proficiency. This topic is important in that it transcends the role of EMS personnel and engages a broad spectrum of societal stakeholders. We must listen, learn, and ultimately deliver public safety resources to groups who have not been well served by conventional approaches.”

None of the authors or editorialists reported any conflicts of interest.

The improved Los Angeles medical dispatch system prompted more callers with limited English proficiency to initiate telecommunicator-assisted cardiopulmonary resuscitation (T-CPR), compared with the previous system, a new study shows.

Chalabala/iStock/Getty Images Plus

The Los Angeles Tiered Dispatch System (LA-TDS), adopted in late 2014, used simplified questions aimed at identifying cardiac arrest, compared with the city’s earlier Medical Priority Dispatch System (MPDS).

The result was substantially decreased call processing times, decreased “undertriage” of out-of-hospital cardiac arrest (OHCA), and improved overall T-CPR rates (Resuscitation. 2020 Oct;155:74-81).

But now, a secondary analysis of the data shows there was a much higher jump in T-CPR rates among a small subset of callers with limited English proficiency, compared with those proficient in English (JAMA Network Open. 2021;4[6]:e216827).

“This was an unanticipated, significant, and disproportionate change, but fortunately a very good change,” lead author Stephen Sanko, MD, said in an interview.

While the T-CPR rate among English-proficient callers increased from 55% with the MPDS to 67% with the LA-TDS (odds ratio, 1.66; P = .007), it rose from 28% to 69% (OR, 5.66; P = .003) among callers with limited English proficiency. In the adjusted analysis, the new LA-TDS was associated with a 69% higher prevalence of T-CPR among English-proficient callers, compared with a 350% greater prevalence among callers with limited English proficiency.

“The emergency communication process between a caller and 911 telecommunicator is more complex than we thought, and likely constitutes a unique subsubspecialty that interacts with fields as diverse as medicine, health equity, linguistics, sociology, consumer behavior and others,” said Dr. Sanko, who is from the division of emergency medical services at the University of Southern California in Los Angeles.

“Yet in spite of this complexity, we’re starting to be able to reproducibly classify elements of the emergency conversation that we believe are tied to outcomes we all care about. ... Modulators of health disparities are present as early as the dispatch conversation, and, importantly, they can be intervened upon to promote improved outcomes,” he continued.

The retrospective cohort study was a predefined secondary analysis of a previously published study comparing telecommunicator management of out-of-hospital cardiac arrest over 3 months with the MPDS versus 3 months with the LA-TDS. The primary outcome was the number of patients who received telecommunicator-assisted chest compressions from callers with limited English proficiency.

Of the 597 emergency calls that met the inclusion criteria, 289 (48%) were in the MPDS cohort and 308 (52%) were in the LA-TDS cohort. In the MPDS cohort, 263 callers had English proficiency and 26 had limited proficiency; in the latter cohort, those figures were 273 and 35, respectively.

There were no significant differences between cohorts in the use of real-time translation services, which were employed 27%-31% of the time.

The reason for the overall T-CPR improvement is likely that the LA-TDS was tailored to the community needs, said Dr. Sanko. “Most people, including doctors, think of 911 dispatch as something simple and straightforward, like ordering a pizza or calling a ride share. [But] LA-TDS is a ‘home grown’ dispatch system whose structure, questions, and emergency instructions were all developed by EMS medical directors and telecommunicators with extensive experience in our community.”

That being said, the researchers acknowledge that the reason behind the bigger T-CPR boost in LEP callers remains unclear. Although the link between language and system was statistically significant, they noted “it was not an a priori hypothesis and appeared to be largely attributable to the low T-CPR rates for callers with limited English proficiency using MPDS.” Additionally, such callers were “remarkably under-represented” in the sample, “which included approximately 600 calls over two quarters in a large city,” said Dr Sanko.

“We hypothesize that a more direct structure, earlier commitment to treating patients with abnormal life status indicators as being suspected cardiac arrest cases, and earlier reassurance may have improved caller confidence that telecommunicators knew what they were doing. This in turn may have translated into an increased likelihood of bystander caller willingness to perform immediate life-saving maneuvers.”

Despite a number of limitations, “the study is important and highlights instructive topics for discussion that suggest potential next-step opportunities,” noted Richard Chocron, MD, PhD, Miranda Lewis, MD, and Thomas Rea, MD, MPH, in an invited commentary that accompanied the publication. Dr. Chocron is from the Paris University, Paris Research Cardiovascular Center, INSERM; Dr. Lewis is from the Georges Pompidou European Hospital in Paris; and Dr. Rea is from the Division of Emergency Medical Services, Public Health–Seattle & King County. Both Dr. Lewis and Dr. Rea are also at the University of Washington, Seattle.

“Sanko et al. found that approximately 10% of all emergency calls were classified as limited English proficiency calls in a community in which 19% of the population was considered to have limited English proficiency,” they added. “This finding suggests the possibility that populations with limited English proficiency are less likely to activate 911 for incidence of cardiac arrest. If true, this finding would compound the health disparity observed among those with limited English proficiency. This topic is important in that it transcends the role of EMS personnel and engages a broad spectrum of societal stakeholders. We must listen, learn, and ultimately deliver public safety resources to groups who have not been well served by conventional approaches.”

None of the authors or editorialists reported any conflicts of interest.

The keys to effective resuscitation in the hospital setting include effective compression and early defibrillation, according to Jessica Nave Allen, MD, FHM, a hospitalist with Emory University Hospital in Atlanta. She spoke about best practices in resuscitation medicine recently at SHM Converge, the annual conference of the Society of Hospital Medicine.

“We know CPR [cardiopulmonary resuscitation] and shocking are the two biggest determinants of outcomes, so really strive to make those chest compressions really high quality,” said Dr. Allen. She urged hospitalists to consider mechanical piston compressions and even “reverse CPR” when appropriate.

Dr. Allen offered several other tips about effective in-hospital resuscitation.
 

Don’t overcrowd the hospital room

There shouldn’t be more than eight people inside the room during a code, she said. If you’re the code leader, “make sure that somebody has already started high-quality chest compressions. You want to make sure that somebody is already on the airway. It’s usually two people, one person to actually hold the mask down to make sure there’s a good seal, and the other person to deliver the breaths.”

Two to three people should be assigned to chest compressions, Dr. Allen said, “and you need one or two nurses for medication delivery and grabbing things from the runners. And then you need to have a recorder and the code leader. Everyone else who’s not in one of those formalized roles needs to be outside the room. That includes the pharmacist, who usually stands at the door if you don’t have a code pharmacist at your institution.”

A helpful mnemonic for the resuscitation process is I(CA)RAMBO, which was developed at Tufts Medical Center and published in 2020, she said. The mnemonic stands for the following:

• I: Identify yourself as code leader.
• CA: Compression, Airway.
• R: Roles (assign roles in the resuscitation).
• A: Access (intravenous access is preferred to intraosseous, per the American Heart Association’s , unless intravenous access is unavailable, Dr. Allen noted).
• M: Monitor (make sure pads are placed correctly; turn the defibrillator on).
• B: Backboard.
• O: Oxygen.

Focus on high-quality chest compressions

The number of chest compressions must be 100-120 per minute, Dr. Allen said. You can time them to the beat of a song, such as “Stayin’ Alive,” or with a metronome, she said, “but whatever it is, you need to stay in that window.”

The correct compression depth is 2-2.4 inches. “That’s very difficult to do during the middle of a code, which is why it’s important to allow full recoil,” she said. “This doesn’t mean taking your hands off of the chest: You should actually never take your hands off of the chest. But you should allow the chest wall to return to its normal state. Also, make sure you aren’t off the chest for more for 10 seconds whenever you’re doing a rhythm check.”

Audiovisual feedback devices can provide insight into the quality of chest compressions. For example, some defibrillators are equipped with sensors that urge users to push harder and faster when appropriate. “Studies have shown that the quality of chest compressions goes up when you use these devices,” she said.
 

Don’t be afraid of mechanical chest compression

Although early research raised questions about the quality of resuscitation outcomes when mechanical piston chest compression devices are used, a 2015 systematic review and meta-analysis found that “man was equal to machine,” Dr. Allen said. “The bottom line is that these devices may be a reasonable alternative to conventional CPR in specific settings.”

American Heart Association guidelines state that mechanical compressions may be appropriate in certain specific situations “where the delivery of high-quality manual compressions may be challenging or dangerous for the provider.”

According to Dr. Allen, “there are times when it’s useful,” such as for a patient with COVID-19, in the cath lab, or in a medical helicopter.
 

Move quickly to defibrillation

“Most of us know that you want to shock as early as possible in shockable rhythms,” Dr. Allen said. Support, she said, comes from a 2008 study that linked delayed defibrillation to lower survival rates. “We want to shock as soon as possible, because your chances of surviving go down for every minute you wait.”

Take special care for patients with confirmed or suspected COVID-19

“Not surprisingly, the goals here are to minimize exposure to staff,” Dr. Allen said.

Put on personal protective equipment before entering the room even if care is delayed, she advised, and reduce the number of staff members in the room below the typical maximum of eight. “In COVID, it should be a maximum of six, and some institutions have even gotten it down to four where the code leaders are outside the room with an iPad.”

Use mechanical compression devices, she advised, and place patients on ventilators as soon as possible. She added: “Use a HEPA [high-efficiency particulate air] filter for all your airway modalities.”

CPR may be challenging in some cases, such as when a large, intubated patient is prone and cannot be quickly or safely flipped over. In those cases, consider posterior chest compressions, also known as reverse CPR, at vertebral positions T7-T10. “We have done reverse CPR on several COVID patients throughout the Emory system,” she said.
 

Debrief right after codes

“You really want to debrief with the code team,” Dr. Allen said. “If you don’t already have a policy in place at your institution, you should help come up with one where you sit down with the team and talk about what could you have done better as a group. It’s not a time to place blame. It’s a time to learn.”

Dr. Allen has disclosed no relevant financial relationships.

This article was updated 7/26/21.

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

The keys to effective resuscitation in the hospital setting include effective compression and early defibrillation, according to Jessica Nave Allen, MD, FHM, a hospitalist with Emory University Hospital in Atlanta. She spoke about best practices in resuscitation medicine recently at SHM Converge, the annual conference of the Society of Hospital Medicine.

“We know CPR [cardiopulmonary resuscitation] and shocking are the two biggest determinants of outcomes, so really strive to make those chest compressions really high quality,” said Dr. Allen. She urged hospitalists to consider mechanical piston compressions and even “reverse CPR” when appropriate.

Dr. Allen offered several other tips about effective in-hospital resuscitation.
 

Don’t overcrowd the hospital room

There shouldn’t be more than eight people inside the room during a code, she said. If you’re the code leader, “make sure that somebody has already started high-quality chest compressions. You want to make sure that somebody is already on the airway. It’s usually two people, one person to actually hold the mask down to make sure there’s a good seal, and the other person to deliver the breaths.”

Two to three people should be assigned to chest compressions, Dr. Allen said, “and you need one or two nurses for medication delivery and grabbing things from the runners. And then you need to have a recorder and the code leader. Everyone else who’s not in one of those formalized roles needs to be outside the room. That includes the pharmacist, who usually stands at the door if you don’t have a code pharmacist at your institution.”

A helpful mnemonic for the resuscitation process is I(CA)RAMBO, which was developed at Tufts Medical Center and published in 2020, she said. The mnemonic stands for the following:

• I: Identify yourself as code leader.
• CA: Compression, Airway.
• R: Roles (assign roles in the resuscitation).
• A: Access (intravenous access is preferred to intraosseous, per the American Heart Association’s , unless intravenous access is unavailable, Dr. Allen noted).
• M: Monitor (make sure pads are placed correctly; turn the defibrillator on).
• B: Backboard.
• O: Oxygen.

Focus on high-quality chest compressions

The number of chest compressions must be 100-120 per minute, Dr. Allen said. You can time them to the beat of a song, such as “Stayin’ Alive,” or with a metronome, she said, “but whatever it is, you need to stay in that window.”

The correct compression depth is 2-2.4 inches. “That’s very difficult to do during the middle of a code, which is why it’s important to allow full recoil,” she said. “This doesn’t mean taking your hands off of the chest: You should actually never take your hands off of the chest. But you should allow the chest wall to return to its normal state. Also, make sure you aren’t off the chest for more for 10 seconds whenever you’re doing a rhythm check.”

Audiovisual feedback devices can provide insight into the quality of chest compressions. For example, some defibrillators are equipped with sensors that urge users to push harder and faster when appropriate. “Studies have shown that the quality of chest compressions goes up when you use these devices,” she said.
 

Don’t be afraid of mechanical chest compression

Although early research raised questions about the quality of resuscitation outcomes when mechanical piston chest compression devices are used, a 2015 systematic review and meta-analysis found that “man was equal to machine,” Dr. Allen said. “The bottom line is that these devices may be a reasonable alternative to conventional CPR in specific settings.”

American Heart Association guidelines state that mechanical compressions may be appropriate in certain specific situations “where the delivery of high-quality manual compressions may be challenging or dangerous for the provider.”

According to Dr. Allen, “there are times when it’s useful,” such as for a patient with COVID-19, in the cath lab, or in a medical helicopter.
 

Move quickly to defibrillation

“Most of us know that you want to shock as early as possible in shockable rhythms,” Dr. Allen said. Support, she said, comes from a 2008 study that linked delayed defibrillation to lower survival rates. “We want to shock as soon as possible, because your chances of surviving go down for every minute you wait.”

Take special care for patients with confirmed or suspected COVID-19

“Not surprisingly, the goals here are to minimize exposure to staff,” Dr. Allen said.

Put on personal protective equipment before entering the room even if care is delayed, she advised, and reduce the number of staff members in the room below the typical maximum of eight. “In COVID, it should be a maximum of six, and some institutions have even gotten it down to four where the code leaders are outside the room with an iPad.”

Use mechanical compression devices, she advised, and place patients on ventilators as soon as possible. She added: “Use a HEPA [high-efficiency particulate air] filter for all your airway modalities.”

CPR may be challenging in some cases, such as when a large, intubated patient is prone and cannot be quickly or safely flipped over. In those cases, consider posterior chest compressions, also known as reverse CPR, at vertebral positions T7-T10. “We have done reverse CPR on several COVID patients throughout the Emory system,” she said.
 

Debrief right after codes

“You really want to debrief with the code team,” Dr. Allen said. “If you don’t already have a policy in place at your institution, you should help come up with one where you sit down with the team and talk about what could you have done better as a group. It’s not a time to place blame. It’s a time to learn.”

Dr. Allen has disclosed no relevant financial relationships.

This article was updated 7/26/21.

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

The keys to effective resuscitation in the hospital setting include effective compression and early defibrillation, according to Jessica Nave Allen, MD, FHM, a hospitalist with Emory University Hospital in Atlanta. She spoke about best practices in resuscitation medicine recently at SHM Converge, the annual conference of the Society of Hospital Medicine.

“We know CPR [cardiopulmonary resuscitation] and shocking are the two biggest determinants of outcomes, so really strive to make those chest compressions really high quality,” said Dr. Allen. She urged hospitalists to consider mechanical piston compressions and even “reverse CPR” when appropriate.

Dr. Allen offered several other tips about effective in-hospital resuscitation.
 

Don’t overcrowd the hospital room

There shouldn’t be more than eight people inside the room during a code, she said. If you’re the code leader, “make sure that somebody has already started high-quality chest compressions. You want to make sure that somebody is already on the airway. It’s usually two people, one person to actually hold the mask down to make sure there’s a good seal, and the other person to deliver the breaths.”

Two to three people should be assigned to chest compressions, Dr. Allen said, “and you need one or two nurses for medication delivery and grabbing things from the runners. And then you need to have a recorder and the code leader. Everyone else who’s not in one of those formalized roles needs to be outside the room. That includes the pharmacist, who usually stands at the door if you don’t have a code pharmacist at your institution.”

A helpful mnemonic for the resuscitation process is I(CA)RAMBO, which was developed at Tufts Medical Center and published in 2020, she said. The mnemonic stands for the following:

• I: Identify yourself as code leader.
• CA: Compression, Airway.
• R: Roles (assign roles in the resuscitation).
• A: Access (intravenous access is preferred to intraosseous, per the American Heart Association’s , unless intravenous access is unavailable, Dr. Allen noted).
• M: Monitor (make sure pads are placed correctly; turn the defibrillator on).
• B: Backboard.
• O: Oxygen.

Focus on high-quality chest compressions

The number of chest compressions must be 100-120 per minute, Dr. Allen said. You can time them to the beat of a song, such as “Stayin’ Alive,” or with a metronome, she said, “but whatever it is, you need to stay in that window.”

The correct compression depth is 2-2.4 inches. “That’s very difficult to do during the middle of a code, which is why it’s important to allow full recoil,” she said. “This doesn’t mean taking your hands off of the chest: You should actually never take your hands off of the chest. But you should allow the chest wall to return to its normal state. Also, make sure you aren’t off the chest for more for 10 seconds whenever you’re doing a rhythm check.”

Audiovisual feedback devices can provide insight into the quality of chest compressions. For example, some defibrillators are equipped with sensors that urge users to push harder and faster when appropriate. “Studies have shown that the quality of chest compressions goes up when you use these devices,” she said.
 

Don’t be afraid of mechanical chest compression

Although early research raised questions about the quality of resuscitation outcomes when mechanical piston chest compression devices are used, a 2015 systematic review and meta-analysis found that “man was equal to machine,” Dr. Allen said. “The bottom line is that these devices may be a reasonable alternative to conventional CPR in specific settings.”

American Heart Association guidelines state that mechanical compressions may be appropriate in certain specific situations “where the delivery of high-quality manual compressions may be challenging or dangerous for the provider.”

According to Dr. Allen, “there are times when it’s useful,” such as for a patient with COVID-19, in the cath lab, or in a medical helicopter.
 

Move quickly to defibrillation

“Most of us know that you want to shock as early as possible in shockable rhythms,” Dr. Allen said. Support, she said, comes from a 2008 study that linked delayed defibrillation to lower survival rates. “We want to shock as soon as possible, because your chances of surviving go down for every minute you wait.”

Take special care for patients with confirmed or suspected COVID-19

“Not surprisingly, the goals here are to minimize exposure to staff,” Dr. Allen said.

Put on personal protective equipment before entering the room even if care is delayed, she advised, and reduce the number of staff members in the room below the typical maximum of eight. “In COVID, it should be a maximum of six, and some institutions have even gotten it down to four where the code leaders are outside the room with an iPad.”

Use mechanical compression devices, she advised, and place patients on ventilators as soon as possible. She added: “Use a HEPA [high-efficiency particulate air] filter for all your airway modalities.”

CPR may be challenging in some cases, such as when a large, intubated patient is prone and cannot be quickly or safely flipped over. In those cases, consider posterior chest compressions, also known as reverse CPR, at vertebral positions T7-T10. “We have done reverse CPR on several COVID patients throughout the Emory system,” she said.
 

Debrief right after codes

“You really want to debrief with the code team,” Dr. Allen said. “If you don’t already have a policy in place at your institution, you should help come up with one where you sit down with the team and talk about what could you have done better as a group. It’s not a time to place blame. It’s a time to learn.”

Dr. Allen has disclosed no relevant financial relationships.

This article was updated 7/26/21.

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

New data show for the first time that combining the DASH (Dietary Approaches to Stop Hypertension) diet with sodium restriction decreases myocardial injury and cardiac strain, which are associated with subclinical cardiac damage and long-term cardiovascular risk.

“The benefits of healthy eating are swift and direct. High sodium is not just about taste, it causes heart strain,” Stephen Juraschek, MD, PhD, from Beth Israel Deaconess Medical Center, Boston, said in an interview.

“We should consciously follow a diet enriched with fruit and vegetables and low in sodium. Collectively, we should think about how foods are promoted in society and what is an acceptable amount of sodium for food supplies,” said Dr. Juraschek.

The findings, from a secondary analysis of the DASH-Sodium trial, were published the Journal of the American College of Cardiology.
 

Renewed focus on diet

“These data should spur a renewed focus on the critical need for widespread adoption of the DASH–low-sodium diet in the United States,” wrote the coauthors of a linked editorial.

“The challenge remains moving the DASH–low-sodium diet from the research world into the real world, where its significant health benefits can be fully realized,” they added.

The researchers evaluated the impact of the DASH diet and sodium restriction, individually and combined, on biomarkers of cardiac injury (high-sensitivity cardiac troponin I [hs-cTnI]), cardiac strain (N-terminal of the prohormone brain natriuretic peptide [NT-proBNP]), and inflammation (high-sensitivity C-reactive protein [hs-CRP]).

The DASH-Sodium trial was a controlled feeding study that enrolled 412 adults (mean age, 48 years; 56% women, 56% Black) with untreated systolic blood pressure between 120 and 159 mm Hg and diastolic blood pressure between 80 and 95 mm Hg. Mean baseline BP was 135/86 mm Hg.

Participants were randomly allocated to a typical American diet (control) or the heart-healthy DASH diet. Further, participants in both groups were assigned to each of three sodium intake levels: low (0.5 mg/kcal), medium (1.1 mg/kcal) or high (1.6 mg/kcal) for 30 days using a crossover design with washout periods in between.

Compared with the control diet, the DASH diet reduced hs-cTnI by 18% and hs-CRP by 13% with no impact on NT-proBNP.

In contrast, lowering sodium from high to low levels reduced NT-proBNP independent of diet by 19%, but did not alter hs-cTnI and mildly increased hs-CRP (9%).

Combining the DASH diet with sodium reduction lowered hs-cTnI by 20% and NT-proBNP by 23%, with no significant change in hs-CRP, compared with the high-sodium-control diet.

“Together, these findings imply that two distinct dietary strategies might improve two key pathways of subclinical cardiac damage: injury and strain,” Dr. Juraschek and colleagues wrote.

“These findings should strengthen public resolve for public policies that promote the DASH dietary pattern and lower sodium intake in the United States and globally,” they concluded.

“We need to talk about DASH more. Most adults in the U.S. have never heard of it,” Dr. Juraschek said in an interview.

“We need to promote nutrition literacy with regard to nutrition facts. Labeling is not very transparent and hard to understand. Many people don’t know where salt is hiding in their diet,” he added.

It will also be important to address disparities in access to healthy foods and food insecurity, Dr. Juraschek said.

“If we don’t address food costs and access, disparities in healthy eating will persist. Greater equity is key. We should also be mindful about populations dependent on others for meal preparation [children in schools or older adults on meal plans]. This might be regulated in ways that promote healthier eating population wide, but for these patients, they may not have autonomy to choose what they eat,” Dr. Juraschek said.

In their editorial, Neha J. Pagidipati, MD, and Laura P. Svetkey, MD, from Duke University and Duke Clinical Research Institute, Durham, N.C., said an important caveat is that the beneficial effects of diet and sodium restriction on cardiac injury and strain occurred in people without any clinical evidence of coronary artery disease or heart failure at baseline, “suggesting that this dietary combination can improve subclinical metrics of cardiac health.”

“Further, the impact on these markers was seen within weeks, indicating a relatively rapid impact on cardiac damage,” they added.

The measurement of cardiac biomarkers was supported by the National Institutes of Health/National Heart, Lung, and Blood Institute. The original DASH trial was supported by the NHLBI, the Office of Research on Minority Health, and the National Center for Research Resources. Dr. Juraschek and coauthors disclosed no relevant conflicts of interest. Dr. Pagidipati has received research support to the institution from Amgen, AstraZeneca, Boehringer Ingelheim, Eli Lilly, Novartis, Novo Nordisk, Regeneron, Sanofi, and Verily Life Sciences; and has received consultation fees from Boehringer Ingelheim, Eli Lilly, AstraZeneca, and Novo Nordisk. Dr. Svetkey has no relevant disclosures.

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

New data show for the first time that combining the DASH (Dietary Approaches to Stop Hypertension) diet with sodium restriction decreases myocardial injury and cardiac strain, which are associated with subclinical cardiac damage and long-term cardiovascular risk.

“The benefits of healthy eating are swift and direct. High sodium is not just about taste, it causes heart strain,” Stephen Juraschek, MD, PhD, from Beth Israel Deaconess Medical Center, Boston, said in an interview.

“We should consciously follow a diet enriched with fruit and vegetables and low in sodium. Collectively, we should think about how foods are promoted in society and what is an acceptable amount of sodium for food supplies,” said Dr. Juraschek.

The findings, from a secondary analysis of the DASH-Sodium trial, were published the Journal of the American College of Cardiology.
 

Renewed focus on diet

“These data should spur a renewed focus on the critical need for widespread adoption of the DASH–low-sodium diet in the United States,” wrote the coauthors of a linked editorial.

“The challenge remains moving the DASH–low-sodium diet from the research world into the real world, where its significant health benefits can be fully realized,” they added.

The researchers evaluated the impact of the DASH diet and sodium restriction, individually and combined, on biomarkers of cardiac injury (high-sensitivity cardiac troponin I [hs-cTnI]), cardiac strain (N-terminal of the prohormone brain natriuretic peptide [NT-proBNP]), and inflammation (high-sensitivity C-reactive protein [hs-CRP]).

The DASH-Sodium trial was a controlled feeding study that enrolled 412 adults (mean age, 48 years; 56% women, 56% Black) with untreated systolic blood pressure between 120 and 159 mm Hg and diastolic blood pressure between 80 and 95 mm Hg. Mean baseline BP was 135/86 mm Hg.

Participants were randomly allocated to a typical American diet (control) or the heart-healthy DASH diet. Further, participants in both groups were assigned to each of three sodium intake levels: low (0.5 mg/kcal), medium (1.1 mg/kcal) or high (1.6 mg/kcal) for 30 days using a crossover design with washout periods in between.

Compared with the control diet, the DASH diet reduced hs-cTnI by 18% and hs-CRP by 13% with no impact on NT-proBNP.

In contrast, lowering sodium from high to low levels reduced NT-proBNP independent of diet by 19%, but did not alter hs-cTnI and mildly increased hs-CRP (9%).

Combining the DASH diet with sodium reduction lowered hs-cTnI by 20% and NT-proBNP by 23%, with no significant change in hs-CRP, compared with the high-sodium-control diet.

“Together, these findings imply that two distinct dietary strategies might improve two key pathways of subclinical cardiac damage: injury and strain,” Dr. Juraschek and colleagues wrote.

“These findings should strengthen public resolve for public policies that promote the DASH dietary pattern and lower sodium intake in the United States and globally,” they concluded.

“We need to talk about DASH more. Most adults in the U.S. have never heard of it,” Dr. Juraschek said in an interview.

“We need to promote nutrition literacy with regard to nutrition facts. Labeling is not very transparent and hard to understand. Many people don’t know where salt is hiding in their diet,” he added.

It will also be important to address disparities in access to healthy foods and food insecurity, Dr. Juraschek said.

“If we don’t address food costs and access, disparities in healthy eating will persist. Greater equity is key. We should also be mindful about populations dependent on others for meal preparation [children in schools or older adults on meal plans]. This might be regulated in ways that promote healthier eating population wide, but for these patients, they may not have autonomy to choose what they eat,” Dr. Juraschek said.

In their editorial, Neha J. Pagidipati, MD, and Laura P. Svetkey, MD, from Duke University and Duke Clinical Research Institute, Durham, N.C., said an important caveat is that the beneficial effects of diet and sodium restriction on cardiac injury and strain occurred in people without any clinical evidence of coronary artery disease or heart failure at baseline, “suggesting that this dietary combination can improve subclinical metrics of cardiac health.”

“Further, the impact on these markers was seen within weeks, indicating a relatively rapid impact on cardiac damage,” they added.

The measurement of cardiac biomarkers was supported by the National Institutes of Health/National Heart, Lung, and Blood Institute. The original DASH trial was supported by the NHLBI, the Office of Research on Minority Health, and the National Center for Research Resources. Dr. Juraschek and coauthors disclosed no relevant conflicts of interest. Dr. Pagidipati has received research support to the institution from Amgen, AstraZeneca, Boehringer Ingelheim, Eli Lilly, Novartis, Novo Nordisk, Regeneron, Sanofi, and Verily Life Sciences; and has received consultation fees from Boehringer Ingelheim, Eli Lilly, AstraZeneca, and Novo Nordisk. Dr. Svetkey has no relevant disclosures.

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

New data show for the first time that combining the DASH (Dietary Approaches to Stop Hypertension) diet with sodium restriction decreases myocardial injury and cardiac strain, which are associated with subclinical cardiac damage and long-term cardiovascular risk.

“The benefits of healthy eating are swift and direct. High sodium is not just about taste, it causes heart strain,” Stephen Juraschek, MD, PhD, from Beth Israel Deaconess Medical Center, Boston, said in an interview.

“We should consciously follow a diet enriched with fruit and vegetables and low in sodium. Collectively, we should think about how foods are promoted in society and what is an acceptable amount of sodium for food supplies,” said Dr. Juraschek.

The findings, from a secondary analysis of the DASH-Sodium trial, were published the Journal of the American College of Cardiology.
 

Renewed focus on diet

“These data should spur a renewed focus on the critical need for widespread adoption of the DASH–low-sodium diet in the United States,” wrote the coauthors of a linked editorial.

“The challenge remains moving the DASH–low-sodium diet from the research world into the real world, where its significant health benefits can be fully realized,” they added.

The researchers evaluated the impact of the DASH diet and sodium restriction, individually and combined, on biomarkers of cardiac injury (high-sensitivity cardiac troponin I [hs-cTnI]), cardiac strain (N-terminal of the prohormone brain natriuretic peptide [NT-proBNP]), and inflammation (high-sensitivity C-reactive protein [hs-CRP]).

The DASH-Sodium trial was a controlled feeding study that enrolled 412 adults (mean age, 48 years; 56% women, 56% Black) with untreated systolic blood pressure between 120 and 159 mm Hg and diastolic blood pressure between 80 and 95 mm Hg. Mean baseline BP was 135/86 mm Hg.

Participants were randomly allocated to a typical American diet (control) or the heart-healthy DASH diet. Further, participants in both groups were assigned to each of three sodium intake levels: low (0.5 mg/kcal), medium (1.1 mg/kcal) or high (1.6 mg/kcal) for 30 days using a crossover design with washout periods in between.

Compared with the control diet, the DASH diet reduced hs-cTnI by 18% and hs-CRP by 13% with no impact on NT-proBNP.

In contrast, lowering sodium from high to low levels reduced NT-proBNP independent of diet by 19%, but did not alter hs-cTnI and mildly increased hs-CRP (9%).

Combining the DASH diet with sodium reduction lowered hs-cTnI by 20% and NT-proBNP by 23%, with no significant change in hs-CRP, compared with the high-sodium-control diet.

“Together, these findings imply that two distinct dietary strategies might improve two key pathways of subclinical cardiac damage: injury and strain,” Dr. Juraschek and colleagues wrote.

“These findings should strengthen public resolve for public policies that promote the DASH dietary pattern and lower sodium intake in the United States and globally,” they concluded.

“We need to talk about DASH more. Most adults in the U.S. have never heard of it,” Dr. Juraschek said in an interview.

“We need to promote nutrition literacy with regard to nutrition facts. Labeling is not very transparent and hard to understand. Many people don’t know where salt is hiding in their diet,” he added.

It will also be important to address disparities in access to healthy foods and food insecurity, Dr. Juraschek said.

“If we don’t address food costs and access, disparities in healthy eating will persist. Greater equity is key. We should also be mindful about populations dependent on others for meal preparation [children in schools or older adults on meal plans]. This might be regulated in ways that promote healthier eating population wide, but for these patients, they may not have autonomy to choose what they eat,” Dr. Juraschek said.

In their editorial, Neha J. Pagidipati, MD, and Laura P. Svetkey, MD, from Duke University and Duke Clinical Research Institute, Durham, N.C., said an important caveat is that the beneficial effects of diet and sodium restriction on cardiac injury and strain occurred in people without any clinical evidence of coronary artery disease or heart failure at baseline, “suggesting that this dietary combination can improve subclinical metrics of cardiac health.”

“Further, the impact on these markers was seen within weeks, indicating a relatively rapid impact on cardiac damage,” they added.

The measurement of cardiac biomarkers was supported by the National Institutes of Health/National Heart, Lung, and Blood Institute. The original DASH trial was supported by the NHLBI, the Office of Research on Minority Health, and the National Center for Research Resources. Dr. Juraschek and coauthors disclosed no relevant conflicts of interest. Dr. Pagidipati has received research support to the institution from Amgen, AstraZeneca, Boehringer Ingelheim, Eli Lilly, Novartis, Novo Nordisk, Regeneron, Sanofi, and Verily Life Sciences; and has received consultation fees from Boehringer Ingelheim, Eli Lilly, AstraZeneca, and Novo Nordisk. Dr. Svetkey has no relevant disclosures.

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

The first randomized controlled trial to compare specific temperatures for therapeutic hypothermia in comatose survivors of out-of-hospital cardiac arrest showed no differences in major outcomes, according to a single-center, double-blind study.

In the CAPITAL-CHILL trial, cooling temperatures of 31° C and 34° C were compared to explore the hypothesis that a lower temperature would improve major outcomes, explained Michel Le May, MD.

No differences for the primary composite outcome of all-cause mortality or poor neurologic outcome at 180 days were observed, he reported at the annual scientific sessions of the American College of Cardiology.

The study was completed over a period of almost 7 years in patients presumed to have had an out-of-hospital cardiac arrest and who were unconscious when they reached a center affiliated with the Ottawa Heart Institute, where Dr. Le May directs the regional STEMI (ST-elevation myocardial infarction) program. The initial rhythm at the time of the cardiac arrest was not an entry criterion.

Of 389 patients enrolled, the intention-to-treat analysis included 184 randomized to a cooling temperature of 31° C group and 183 to a temperature of 34° C. The assigned target temperature, reached with an endovascular device, was known only by the managing nurses.
 

31° C and 34° C are equivalent

There was a small numerical disadvantage for the lower temperature assignment, but none reached statistical significance. This was true of the primary outcome (48.4% vs. 45.4% for the higher temperature) and its components of mortality (43.5% vs. 41.0%) and poor neurologic outcome (4.9% vs. 4.4%). Poor neurologic outcome was defined as a Disability Rating Scale score of greater than 5.

Deaths were most common in the early part of the 180-day follow-up in both arms. On a Kaplan-Meier survival graph, Dr. Le May showed curves that he characterized as “almost superimposable.”

There were no significant differences for any subgroup stratifications, such as age 75 years or older versus younger, males versus females, presence versus absence or an initial shockable rhythm, percutaneous coronary intervention (PCI) within 24 hours versus later, and STEMI versus non-STEMI. In these analyses, the higher temperature was associated with a potential trend for benefit among females and those with a shockable rhythm.

There was no signal for a difference in neurologic outcomes on the Disability Rating Scale or the Modified Rankin Scale. On the latter, for example, 46% of those in the 31° C group and 44% of these in the 34° C group had a score of four or greater at the end of follow-up.

The baseline characteristics of the two groups were similar. About 80% were male; the average age was roughly 62 years. More than 80% of the cardiac arrests were witnessed with CPR being administered by bystanders in nearly 70%. Nearly 40% had a STEMI.

Interventions were similar. Almost all patients underwent coronary angiography, of which nearly 60% received a percutaneous coronary intervention. More than 50% received a stent. The time from arrest to randomization was slightly longer in the 31° C group (228 vs. 204 minutes). The time to balloon inflation from arrival at the cardiac center was also slightly longer (73 vs. 60 minutes).

There was a trend for an increased rate of seizures in the 31° C group (12.5% vs. 7.1%; P = .08), but other secondary outcomes, including pneumonia (67.8% vs. 63.4%), renal replacement therapy (9.2% vs. 9.3%), and stroke (4.4% vs. 1.6%), were similar in the 31° C and 34° C groups, respectively.

Bleeding, whether measured by transfusion (19.6% vs. 22.4%) or TIMI major bleed (23.4% vs. 19.7%) were similar in the 31° C and 34° C groups, respectively. Thrombosis, whether measured by stent thrombosis (1.2% vs. 2.2%) or deep venous thrombosis (11.4% vs. 10.9%) were similar in these two groups, respectively.

The length of stay in the cardiac intensive care unit was significantly greater in the 31° C group (10 vs. 7 days; P = .004). Some of this increased length of stay can be attributed to the longer rewarming process required for the greater cooling, according to Dr. Le May, but he acknowledged that it is not clear this provides a full explanation.
 

More trials like CAPITAL-CHILL needed

The validity of these findings is supported by several strengths of the methodology, according to Jeanne E. Poole, MD, director of the arrhythmia service and electrophysiology laboratory, University of Washington, Seattle. This includes the reliance of an endovascular device, which can accelerate the time to the target temperature and assure the precision with which it is reached and maintained.

Dr. Poole did note that many of the primary and secondary measures, including the rates of stroke, seizures, and major bleeds, even though not significantly different, favored the higher temperature. The slightly longer door-to-balloon times might have been a factor. For the higher rate of pneumonia in the 31° C group, she questioned whether the longer period of ventilation linked to a longer period of rewarming might have been a factor.

However, Dr. Poole praised the CAPITAL-CHILL trial for drawing attention to a group of patients for whom survival rates remain “dismally low.” She indicated that these types of high-level trials are needed to look for strategies to improve outcomes.

Dr. Le May and Dr. Poole report no potential conflicts of interest.

The first randomized controlled trial to compare specific temperatures for therapeutic hypothermia in comatose survivors of out-of-hospital cardiac arrest showed no differences in major outcomes, according to a single-center, double-blind study.

In the CAPITAL-CHILL trial, cooling temperatures of 31° C and 34° C were compared to explore the hypothesis that a lower temperature would improve major outcomes, explained Michel Le May, MD.

No differences for the primary composite outcome of all-cause mortality or poor neurologic outcome at 180 days were observed, he reported at the annual scientific sessions of the American College of Cardiology.

The study was completed over a period of almost 7 years in patients presumed to have had an out-of-hospital cardiac arrest and who were unconscious when they reached a center affiliated with the Ottawa Heart Institute, where Dr. Le May directs the regional STEMI (ST-elevation myocardial infarction) program. The initial rhythm at the time of the cardiac arrest was not an entry criterion.

Of 389 patients enrolled, the intention-to-treat analysis included 184 randomized to a cooling temperature of 31° C group and 183 to a temperature of 34° C. The assigned target temperature, reached with an endovascular device, was known only by the managing nurses.
 

31° C and 34° C are equivalent

There was a small numerical disadvantage for the lower temperature assignment, but none reached statistical significance. This was true of the primary outcome (48.4% vs. 45.4% for the higher temperature) and its components of mortality (43.5% vs. 41.0%) and poor neurologic outcome (4.9% vs. 4.4%). Poor neurologic outcome was defined as a Disability Rating Scale score of greater than 5.

Deaths were most common in the early part of the 180-day follow-up in both arms. On a Kaplan-Meier survival graph, Dr. Le May showed curves that he characterized as “almost superimposable.”

There were no significant differences for any subgroup stratifications, such as age 75 years or older versus younger, males versus females, presence versus absence or an initial shockable rhythm, percutaneous coronary intervention (PCI) within 24 hours versus later, and STEMI versus non-STEMI. In these analyses, the higher temperature was associated with a potential trend for benefit among females and those with a shockable rhythm.

There was no signal for a difference in neurologic outcomes on the Disability Rating Scale or the Modified Rankin Scale. On the latter, for example, 46% of those in the 31° C group and 44% of these in the 34° C group had a score of four or greater at the end of follow-up.

The baseline characteristics of the two groups were similar. About 80% were male; the average age was roughly 62 years. More than 80% of the cardiac arrests were witnessed with CPR being administered by bystanders in nearly 70%. Nearly 40% had a STEMI.

Interventions were similar. Almost all patients underwent coronary angiography, of which nearly 60% received a percutaneous coronary intervention. More than 50% received a stent. The time from arrest to randomization was slightly longer in the 31° C group (228 vs. 204 minutes). The time to balloon inflation from arrival at the cardiac center was also slightly longer (73 vs. 60 minutes).

There was a trend for an increased rate of seizures in the 31° C group (12.5% vs. 7.1%; P = .08), but other secondary outcomes, including pneumonia (67.8% vs. 63.4%), renal replacement therapy (9.2% vs. 9.3%), and stroke (4.4% vs. 1.6%), were similar in the 31° C and 34° C groups, respectively.

Bleeding, whether measured by transfusion (19.6% vs. 22.4%) or TIMI major bleed (23.4% vs. 19.7%) were similar in the 31° C and 34° C groups, respectively. Thrombosis, whether measured by stent thrombosis (1.2% vs. 2.2%) or deep venous thrombosis (11.4% vs. 10.9%) were similar in these two groups, respectively.

The length of stay in the cardiac intensive care unit was significantly greater in the 31° C group (10 vs. 7 days; P = .004). Some of this increased length of stay can be attributed to the longer rewarming process required for the greater cooling, according to Dr. Le May, but he acknowledged that it is not clear this provides a full explanation.
 

More trials like CAPITAL-CHILL needed

The validity of these findings is supported by several strengths of the methodology, according to Jeanne E. Poole, MD, director of the arrhythmia service and electrophysiology laboratory, University of Washington, Seattle. This includes the reliance of an endovascular device, which can accelerate the time to the target temperature and assure the precision with which it is reached and maintained.

Dr. Poole did note that many of the primary and secondary measures, including the rates of stroke, seizures, and major bleeds, even though not significantly different, favored the higher temperature. The slightly longer door-to-balloon times might have been a factor. For the higher rate of pneumonia in the 31° C group, she questioned whether the longer period of ventilation linked to a longer period of rewarming might have been a factor.

However, Dr. Poole praised the CAPITAL-CHILL trial for drawing attention to a group of patients for whom survival rates remain “dismally low.” She indicated that these types of high-level trials are needed to look for strategies to improve outcomes.

Dr. Le May and Dr. Poole report no potential conflicts of interest.

The first randomized controlled trial to compare specific temperatures for therapeutic hypothermia in comatose survivors of out-of-hospital cardiac arrest showed no differences in major outcomes, according to a single-center, double-blind study.

In the CAPITAL-CHILL trial, cooling temperatures of 31° C and 34° C were compared to explore the hypothesis that a lower temperature would improve major outcomes, explained Michel Le May, MD.

No differences for the primary composite outcome of all-cause mortality or poor neurologic outcome at 180 days were observed, he reported at the annual scientific sessions of the American College of Cardiology.

The study was completed over a period of almost 7 years in patients presumed to have had an out-of-hospital cardiac arrest and who were unconscious when they reached a center affiliated with the Ottawa Heart Institute, where Dr. Le May directs the regional STEMI (ST-elevation myocardial infarction) program. The initial rhythm at the time of the cardiac arrest was not an entry criterion.

Of 389 patients enrolled, the intention-to-treat analysis included 184 randomized to a cooling temperature of 31° C group and 183 to a temperature of 34° C. The assigned target temperature, reached with an endovascular device, was known only by the managing nurses.
 

31° C and 34° C are equivalent

There was a small numerical disadvantage for the lower temperature assignment, but none reached statistical significance. This was true of the primary outcome (48.4% vs. 45.4% for the higher temperature) and its components of mortality (43.5% vs. 41.0%) and poor neurologic outcome (4.9% vs. 4.4%). Poor neurologic outcome was defined as a Disability Rating Scale score of greater than 5.

Deaths were most common in the early part of the 180-day follow-up in both arms. On a Kaplan-Meier survival graph, Dr. Le May showed curves that he characterized as “almost superimposable.”

There were no significant differences for any subgroup stratifications, such as age 75 years or older versus younger, males versus females, presence versus absence or an initial shockable rhythm, percutaneous coronary intervention (PCI) within 24 hours versus later, and STEMI versus non-STEMI. In these analyses, the higher temperature was associated with a potential trend for benefit among females and those with a shockable rhythm.

There was no signal for a difference in neurologic outcomes on the Disability Rating Scale or the Modified Rankin Scale. On the latter, for example, 46% of those in the 31° C group and 44% of these in the 34° C group had a score of four or greater at the end of follow-up.

The baseline characteristics of the two groups were similar. About 80% were male; the average age was roughly 62 years. More than 80% of the cardiac arrests were witnessed with CPR being administered by bystanders in nearly 70%. Nearly 40% had a STEMI.

Interventions were similar. Almost all patients underwent coronary angiography, of which nearly 60% received a percutaneous coronary intervention. More than 50% received a stent. The time from arrest to randomization was slightly longer in the 31° C group (228 vs. 204 minutes). The time to balloon inflation from arrival at the cardiac center was also slightly longer (73 vs. 60 minutes).

There was a trend for an increased rate of seizures in the 31° C group (12.5% vs. 7.1%; P = .08), but other secondary outcomes, including pneumonia (67.8% vs. 63.4%), renal replacement therapy (9.2% vs. 9.3%), and stroke (4.4% vs. 1.6%), were similar in the 31° C and 34° C groups, respectively.

Bleeding, whether measured by transfusion (19.6% vs. 22.4%) or TIMI major bleed (23.4% vs. 19.7%) were similar in the 31° C and 34° C groups, respectively. Thrombosis, whether measured by stent thrombosis (1.2% vs. 2.2%) or deep venous thrombosis (11.4% vs. 10.9%) were similar in these two groups, respectively.

The length of stay in the cardiac intensive care unit was significantly greater in the 31° C group (10 vs. 7 days; P = .004). Some of this increased length of stay can be attributed to the longer rewarming process required for the greater cooling, according to Dr. Le May, but he acknowledged that it is not clear this provides a full explanation.
 

More trials like CAPITAL-CHILL needed

The validity of these findings is supported by several strengths of the methodology, according to Jeanne E. Poole, MD, director of the arrhythmia service and electrophysiology laboratory, University of Washington, Seattle. This includes the reliance of an endovascular device, which can accelerate the time to the target temperature and assure the precision with which it is reached and maintained.

Dr. Poole did note that many of the primary and secondary measures, including the rates of stroke, seizures, and major bleeds, even though not significantly different, favored the higher temperature. The slightly longer door-to-balloon times might have been a factor. For the higher rate of pneumonia in the 31° C group, she questioned whether the longer period of ventilation linked to a longer period of rewarming might have been a factor.

However, Dr. Poole praised the CAPITAL-CHILL trial for drawing attention to a group of patients for whom survival rates remain “dismally low.” She indicated that these types of high-level trials are needed to look for strategies to improve outcomes.

Dr. Le May and Dr. Poole report no potential conflicts of interest.

Combined data from five implantable cardioverter-defibrillator (ICD) trials suggest that it is the underlying arrhythmic disorder, rather than the ICD therapy itself, that affects mortality in these patients.

Analysis of the MADIT II, MADIT-RISK, MADIT-CRT, MADIT-RIT, and RAID trials showed that the major determinant of mortality in patients receiving a primary prevention ICD was the arrhythmic substrate that leads to occurrence of fast ventricular tachycardia (VT), defined as ≥ 200 bpm, or ventricular fibrillation (VF), not adverse effects of the ICD shock therapy itself.

Patients experiencing an episode of VT had more than a twofold increased risk for death during a follow-up of 2½ years; however, ICD therapies for VT less than 200 bpm and inappropriate ICD shocks were not associated with a higher risk for death.

The findings were published online in the Journal of the American College of Cardiology.

“We know that patients receiving an ICD shock have increased mortality during subsequent follow-up,” first author Mehmet K. Aktas, MD, MBA, University of Rochester (N.Y.), said in an interview.

“There are conflicting data on the impact of ICD shocks on subsequent mortality, and in this study, we aimed to determine whether shocks per se increase subsequent mortality risk or whether the arrhythmic substrate that leads to ICD therapy results in subsequent risk of death,” Dr. Aktas said.

He and his team evaluated the association of ICD therapy with subsequent mortality according to the type of ICD therapy (model I), type of arrhythmia for which ICD therapy was delivered (model II), combined assessment of all arrhythmia and therapy types during follow-up (model III), and incremental risk associated with repeated ICD shocks (model IV).

The study cohort included 5,516 patients. Of these, 1,001 patients (18%) received appropriate ICD therapy and 561 (10%) received inappropriate ICD therapy during an average of 2.4 years.

Patients receiving an appropriate ICD therapy were more likely to be male and to have prior atrial arrhythmia and nonsustained VT compared with those without ICD therapy.

Patients receiving an inappropriate shock were more likely to be younger, to be African American, and to be less likely to have prior nonsustained VT, compared with those without ICD therapy.

Most patients (90%) were receiving beta-blockers and angiotensin-converting enzyme inhibitors or angiotensin receptor blockers regardless of device therapy during follow-up, and 10% of patients were treated with amiodarone.

In model I, at 3 years, the cumulative probability of death following an appropriate ICD shock was 38% compared with no appropriate ICD shock (P < .001). Inappropriate shock alone was not associated with mortality risk.

In model II, which looked at the type of arrhythmia for which ICD therapy was delivered, the cumulative death rate at 3 years following the first occurrence of ICD therapy for VT ≥ 200 beats/min or VF was 27%, compared with 10% in patients not experiencing VT ≥ 200 beats/min or VF (P < .001).

In model III, the highest risk for death was observed following shocks delivered after a failed antitachycardia pacing (ATP) for fast VT (hazard ratio [HR], 3.05), followed by ICD shock for VF (HR, 2.86), ICD shock for fast VT without a prior ATP (HR, 2.83), and ICD shock for slower VT (< 200 beats/min) without a prior ATP (HR, 2.39).

In contrast, other types of appropriate and inappropriate shock or ATP therapies were not associated with a significant risk increase.

In model IV, which assessed the association of shock therapy counts with the risk for death, two or more ICD appropriate shocks were not associated with increased risk after the first appropriate ICD shock.

“Our findings shed light on the mechanisms associated with increased mortality risk in primary prevention ICD recipients,” Dr. Aktas said.

“Studies that evaluate interventions focused on treating and stabilizing the myocardial substrate, which promotes ventricular tachyarrhythmias, such as catheter ablation, are needed to improve survival in heart failure patients,” he added.
 

Thoughtful study design

In an accompanying editorial, Rajat Deo, MD, and Naga Venkata K. Pothineni, MD, both from the University of Pennsylvania, Philadelphia, praised the researchers for their “thoughtful study design.”

“The take-home message that is most relevant to our clinical practice is clear: Sustained ventricular arrhythmias are a prognostic marker of death and heart failure hospitalization,” they wrote.

The editorialists also commented on the higher rate of inappropriate ICD therapies in African Americans.

“It is concerning to observe that Black patients had a markedly higher rate of inappropriate ICD therapies compared with White patients – and this was in the setting of some of the most respectable, established, and well-funded clinical trials,” they wrote.

Reasons for disparities in outcomes include access to appropriate and affordable medical therapies, access to specialty clinics and caregivers, remote ICD monitoring, and compliance issues.

“Future work will need to understand how the social determinants of health including race affect the treatment and outcomes of our primary prevention ICD population,” they wrote.

Identifying and characterizing the arrhythmic substrate will become a key component of sudden cardiac death risk stratification, the editorialists predicted.

“Concurrently, we must continue to partner with industry colleagues and work with our professional societies to ensure health equity across our patient population,” they concluded.

Dr. Aktas has received research grants from Boston Scientific and Medtronic. Dr. Deo and his coeditorialists report no relevant financial relationships. The MADIT trials were funded by an unrestricted research grant from Boston Scientific to the University of Rochester Medical Center. The RAID trial was funded by the National Institutes of Health.

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

Combined data from five implantable cardioverter-defibrillator (ICD) trials suggest that it is the underlying arrhythmic disorder, rather than the ICD therapy itself, that affects mortality in these patients.

Analysis of the MADIT II, MADIT-RISK, MADIT-CRT, MADIT-RIT, and RAID trials showed that the major determinant of mortality in patients receiving a primary prevention ICD was the arrhythmic substrate that leads to occurrence of fast ventricular tachycardia (VT), defined as ≥ 200 bpm, or ventricular fibrillation (VF), not adverse effects of the ICD shock therapy itself.

Patients experiencing an episode of VT had more than a twofold increased risk for death during a follow-up of 2½ years; however, ICD therapies for VT less than 200 bpm and inappropriate ICD shocks were not associated with a higher risk for death.

The findings were published online in the Journal of the American College of Cardiology.

“We know that patients receiving an ICD shock have increased mortality during subsequent follow-up,” first author Mehmet K. Aktas, MD, MBA, University of Rochester (N.Y.), said in an interview.

“There are conflicting data on the impact of ICD shocks on subsequent mortality, and in this study, we aimed to determine whether shocks per se increase subsequent mortality risk or whether the arrhythmic substrate that leads to ICD therapy results in subsequent risk of death,” Dr. Aktas said.

He and his team evaluated the association of ICD therapy with subsequent mortality according to the type of ICD therapy (model I), type of arrhythmia for which ICD therapy was delivered (model II), combined assessment of all arrhythmia and therapy types during follow-up (model III), and incremental risk associated with repeated ICD shocks (model IV).

The study cohort included 5,516 patients. Of these, 1,001 patients (18%) received appropriate ICD therapy and 561 (10%) received inappropriate ICD therapy during an average of 2.4 years.

Patients receiving an appropriate ICD therapy were more likely to be male and to have prior atrial arrhythmia and nonsustained VT compared with those without ICD therapy.

Patients receiving an inappropriate shock were more likely to be younger, to be African American, and to be less likely to have prior nonsustained VT, compared with those without ICD therapy.

Most patients (90%) were receiving beta-blockers and angiotensin-converting enzyme inhibitors or angiotensin receptor blockers regardless of device therapy during follow-up, and 10% of patients were treated with amiodarone.

In model I, at 3 years, the cumulative probability of death following an appropriate ICD shock was 38% compared with no appropriate ICD shock (P < .001). Inappropriate shock alone was not associated with mortality risk.

In model II, which looked at the type of arrhythmia for which ICD therapy was delivered, the cumulative death rate at 3 years following the first occurrence of ICD therapy for VT ≥ 200 beats/min or VF was 27%, compared with 10% in patients not experiencing VT ≥ 200 beats/min or VF (P < .001).

In model III, the highest risk for death was observed following shocks delivered after a failed antitachycardia pacing (ATP) for fast VT (hazard ratio [HR], 3.05), followed by ICD shock for VF (HR, 2.86), ICD shock for fast VT without a prior ATP (HR, 2.83), and ICD shock for slower VT (< 200 beats/min) without a prior ATP (HR, 2.39).

In contrast, other types of appropriate and inappropriate shock or ATP therapies were not associated with a significant risk increase.

In model IV, which assessed the association of shock therapy counts with the risk for death, two or more ICD appropriate shocks were not associated with increased risk after the first appropriate ICD shock.

“Our findings shed light on the mechanisms associated with increased mortality risk in primary prevention ICD recipients,” Dr. Aktas said.

“Studies that evaluate interventions focused on treating and stabilizing the myocardial substrate, which promotes ventricular tachyarrhythmias, such as catheter ablation, are needed to improve survival in heart failure patients,” he added.
 

Thoughtful study design

In an accompanying editorial, Rajat Deo, MD, and Naga Venkata K. Pothineni, MD, both from the University of Pennsylvania, Philadelphia, praised the researchers for their “thoughtful study design.”

“The take-home message that is most relevant to our clinical practice is clear: Sustained ventricular arrhythmias are a prognostic marker of death and heart failure hospitalization,” they wrote.

The editorialists also commented on the higher rate of inappropriate ICD therapies in African Americans.

“It is concerning to observe that Black patients had a markedly higher rate of inappropriate ICD therapies compared with White patients – and this was in the setting of some of the most respectable, established, and well-funded clinical trials,” they wrote.

Reasons for disparities in outcomes include access to appropriate and affordable medical therapies, access to specialty clinics and caregivers, remote ICD monitoring, and compliance issues.

“Future work will need to understand how the social determinants of health including race affect the treatment and outcomes of our primary prevention ICD population,” they wrote.

Identifying and characterizing the arrhythmic substrate will become a key component of sudden cardiac death risk stratification, the editorialists predicted.

“Concurrently, we must continue to partner with industry colleagues and work with our professional societies to ensure health equity across our patient population,” they concluded.

Dr. Aktas has received research grants from Boston Scientific and Medtronic. Dr. Deo and his coeditorialists report no relevant financial relationships. The MADIT trials were funded by an unrestricted research grant from Boston Scientific to the University of Rochester Medical Center. The RAID trial was funded by the National Institutes of Health.

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

Combined data from five implantable cardioverter-defibrillator (ICD) trials suggest that it is the underlying arrhythmic disorder, rather than the ICD therapy itself, that affects mortality in these patients.

Analysis of the MADIT II, MADIT-RISK, MADIT-CRT, MADIT-RIT, and RAID trials showed that the major determinant of mortality in patients receiving a primary prevention ICD was the arrhythmic substrate that leads to occurrence of fast ventricular tachycardia (VT), defined as ≥ 200 bpm, or ventricular fibrillation (VF), not adverse effects of the ICD shock therapy itself.

Patients experiencing an episode of VT had more than a twofold increased risk for death during a follow-up of 2½ years; however, ICD therapies for VT less than 200 bpm and inappropriate ICD shocks were not associated with a higher risk for death.

The findings were published online in the Journal of the American College of Cardiology.

“We know that patients receiving an ICD shock have increased mortality during subsequent follow-up,” first author Mehmet K. Aktas, MD, MBA, University of Rochester (N.Y.), said in an interview.

“There are conflicting data on the impact of ICD shocks on subsequent mortality, and in this study, we aimed to determine whether shocks per se increase subsequent mortality risk or whether the arrhythmic substrate that leads to ICD therapy results in subsequent risk of death,” Dr. Aktas said.

He and his team evaluated the association of ICD therapy with subsequent mortality according to the type of ICD therapy (model I), type of arrhythmia for which ICD therapy was delivered (model II), combined assessment of all arrhythmia and therapy types during follow-up (model III), and incremental risk associated with repeated ICD shocks (model IV).

The study cohort included 5,516 patients. Of these, 1,001 patients (18%) received appropriate ICD therapy and 561 (10%) received inappropriate ICD therapy during an average of 2.4 years.

Patients receiving an appropriate ICD therapy were more likely to be male and to have prior atrial arrhythmia and nonsustained VT compared with those without ICD therapy.

Patients receiving an inappropriate shock were more likely to be younger, to be African American, and to be less likely to have prior nonsustained VT, compared with those without ICD therapy.

Most patients (90%) were receiving beta-blockers and angiotensin-converting enzyme inhibitors or angiotensin receptor blockers regardless of device therapy during follow-up, and 10% of patients were treated with amiodarone.

In model I, at 3 years, the cumulative probability of death following an appropriate ICD shock was 38% compared with no appropriate ICD shock (P < .001). Inappropriate shock alone was not associated with mortality risk.

In model II, which looked at the type of arrhythmia for which ICD therapy was delivered, the cumulative death rate at 3 years following the first occurrence of ICD therapy for VT ≥ 200 beats/min or VF was 27%, compared with 10% in patients not experiencing VT ≥ 200 beats/min or VF (P < .001).

In model III, the highest risk for death was observed following shocks delivered after a failed antitachycardia pacing (ATP) for fast VT (hazard ratio [HR], 3.05), followed by ICD shock for VF (HR, 2.86), ICD shock for fast VT without a prior ATP (HR, 2.83), and ICD shock for slower VT (< 200 beats/min) without a prior ATP (HR, 2.39).

In contrast, other types of appropriate and inappropriate shock or ATP therapies were not associated with a significant risk increase.

In model IV, which assessed the association of shock therapy counts with the risk for death, two or more ICD appropriate shocks were not associated with increased risk after the first appropriate ICD shock.

“Our findings shed light on the mechanisms associated with increased mortality risk in primary prevention ICD recipients,” Dr. Aktas said.

“Studies that evaluate interventions focused on treating and stabilizing the myocardial substrate, which promotes ventricular tachyarrhythmias, such as catheter ablation, are needed to improve survival in heart failure patients,” he added.
 

Thoughtful study design

In an accompanying editorial, Rajat Deo, MD, and Naga Venkata K. Pothineni, MD, both from the University of Pennsylvania, Philadelphia, praised the researchers for their “thoughtful study design.”

“The take-home message that is most relevant to our clinical practice is clear: Sustained ventricular arrhythmias are a prognostic marker of death and heart failure hospitalization,” they wrote.

The editorialists also commented on the higher rate of inappropriate ICD therapies in African Americans.

“It is concerning to observe that Black patients had a markedly higher rate of inappropriate ICD therapies compared with White patients – and this was in the setting of some of the most respectable, established, and well-funded clinical trials,” they wrote.

Reasons for disparities in outcomes include access to appropriate and affordable medical therapies, access to specialty clinics and caregivers, remote ICD monitoring, and compliance issues.

“Future work will need to understand how the social determinants of health including race affect the treatment and outcomes of our primary prevention ICD population,” they wrote.

Identifying and characterizing the arrhythmic substrate will become a key component of sudden cardiac death risk stratification, the editorialists predicted.

“Concurrently, we must continue to partner with industry colleagues and work with our professional societies to ensure health equity across our patient population,” they concluded.

Dr. Aktas has received research grants from Boston Scientific and Medtronic. Dr. Deo and his coeditorialists report no relevant financial relationships. The MADIT trials were funded by an unrestricted research grant from Boston Scientific to the University of Rochester Medical Center. The RAID trial was funded by the National Institutes of Health.

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

Finerenone treatment of patients with type 2 diabetes and diabetic kidney disease was linked to a significant drop in the incidence of new-onset atrial fibrillation as a prespecified, exploratory endpoint of the FIDELIO-DKD pivotal trial that randomized more than 5,700 patients.

Treatment with finerenone linked with a 29% relative reduction compared with placebo in incident cases of atrial fibrillation (AFib), Gerasimos Filippatos, MD, reported at the annual scientific sessions of the American College of Cardiology.

The absolute reduction was modest, a 1.3% reduction from the 4.5% incidence rate on placebo to a 3.2% rate on finerenone during a median 2.6 years of follow-up. Concurrently with the report, the results appeared online (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.079).

The analyses Dr. Filippatos presented also showed that whether or not patients had a history of AFib, there was no impact on either the primary benefit from finerenone treatment seen in FIDELIO-DKD, which was a significant 18% relative risk reduction compared with placebo in the combined rate of kidney failure, a 40% or greater decline from baseline in estimated glomerular filtration rate, or renal death.

Likewise, prior AFib status had no effect on the study’s key secondary endpoint, a significant 14% relative risk reduction in the combined rate of cardiovascular death, nonfatal MI, nonfatal stroke, or hospitalization for heart failure.

The primary results from FIDELIO-DKD (Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease) appeared in a 2020 report (N Engl J Med. 2020 Dec 3;383[23];2219-29).
 

‘Side benefits can be very helpful’

“It’s important to know of finerenone’s benefits beyond the primary outcome of a trial because side benefits can be very helpful,” said Anne B. Curtis, MD, an electrophysiologist and professor and chair of medicine at the University of Buffalo (N.Y.) School of Medicine and Biomedical Sciences. “It’s not a huge benefit, but this could be an added benefit for selected patients,” she said during a press briefing. “Background studies had shown favorable remodeling of the heart [by finerenone] that could affect AFib.”

Possible mitigating effects by finerenone on inflammation and fibrosis might also mediate the drug’s apparent effect on AFib, said Dr. Filippatos, professor of cardiology and director of the Heart Failure and Cardio-Oncology Clinic at Attikon University Hospital and the University of Athens.

He noted that additional data addressing a possible AFib effect of finerenone will emerge soon from the FIGARO-DKD trial, which enrolled patients similar to those in FIDELIO-DKD but with more moderate stages of kidney disease, and from the FINEARTS-HF trial, which is examining the effect of finerenone in patients with heart failure with an ejection fraction of at least 40%.

“Heart failure and AFib go together tightly. It’s worth studying this specifically, so we can see whether there is an impact of finerenone on patients with heart failure who may not necessarily have kidney disease or diabetes,” Dr. Curtis said.
 

Hypothesis-generating findings

The new findings reported by Dr. Filippatos “should be considered hypothesis generating. Until we have more information, upstream therapies, including mineralocorticoid receptor antagonists [MRAs, the umbrella drug class that includes finerenone], should be used in appropriate patient populations based on defined benefits with the hope they will also reduce the development of AFib and atrial flutter over time,” Gerald V. Naccarelli, MD, and coauthors wrote in an editorial that accompanied the report (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.080).

The FIDELIO-DKD trial randomized 5,734 patients at 913 sites in 48 countries, including 461 patients with a history of AFib. The observed link of finerenone treatment with a reduced incidence of AFib appeared consistent regardless of patients’ age, sex, race, their kidney characteristics at baseline, baseline levels of systolic blood pressure, serum potassium, body mass index, A1c, or use of glucose-lowering medications.

Finerenone belongs to a new class of MRAs that have a nonsteroidal structure, in contrast with the MRAs spironolactone and eplerenone. This means that finerenone does not produce steroidal-associated adverse effects linked with certain other MRAs, such as gynecomastia, and may also differ in other actions.

FIDELIO-DKD was sponsored by Bayer, the company developing finerenone. Dr. Filippatos has received lecture fees from or participated in the direction of trials on behalf of Bayer, as well as for Amgen, Boehringer Ingelheim, Medtronic, Novartis, Servier, and Vifor. Dr. Curtis is an adviser to and receives honoraria from St. Jude Medical, and receives honoraria from Medtronic. Dr. Naccarelli has been a consultant to Acesion, ARCA, GlaxoSmithKline, Janssen, Milestone, Omeicos, and Sanofi. His coauthors had no disclosures.

[email protected]

Finerenone treatment of patients with type 2 diabetes and diabetic kidney disease was linked to a significant drop in the incidence of new-onset atrial fibrillation as a prespecified, exploratory endpoint of the FIDELIO-DKD pivotal trial that randomized more than 5,700 patients.

Treatment with finerenone linked with a 29% relative reduction compared with placebo in incident cases of atrial fibrillation (AFib), Gerasimos Filippatos, MD, reported at the annual scientific sessions of the American College of Cardiology.

The absolute reduction was modest, a 1.3% reduction from the 4.5% incidence rate on placebo to a 3.2% rate on finerenone during a median 2.6 years of follow-up. Concurrently with the report, the results appeared online (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.079).

The analyses Dr. Filippatos presented also showed that whether or not patients had a history of AFib, there was no impact on either the primary benefit from finerenone treatment seen in FIDELIO-DKD, which was a significant 18% relative risk reduction compared with placebo in the combined rate of kidney failure, a 40% or greater decline from baseline in estimated glomerular filtration rate, or renal death.

Likewise, prior AFib status had no effect on the study’s key secondary endpoint, a significant 14% relative risk reduction in the combined rate of cardiovascular death, nonfatal MI, nonfatal stroke, or hospitalization for heart failure.

The primary results from FIDELIO-DKD (Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease) appeared in a 2020 report (N Engl J Med. 2020 Dec 3;383[23];2219-29).
 

‘Side benefits can be very helpful’

“It’s important to know of finerenone’s benefits beyond the primary outcome of a trial because side benefits can be very helpful,” said Anne B. Curtis, MD, an electrophysiologist and professor and chair of medicine at the University of Buffalo (N.Y.) School of Medicine and Biomedical Sciences. “It’s not a huge benefit, but this could be an added benefit for selected patients,” she said during a press briefing. “Background studies had shown favorable remodeling of the heart [by finerenone] that could affect AFib.”

Possible mitigating effects by finerenone on inflammation and fibrosis might also mediate the drug’s apparent effect on AFib, said Dr. Filippatos, professor of cardiology and director of the Heart Failure and Cardio-Oncology Clinic at Attikon University Hospital and the University of Athens.

He noted that additional data addressing a possible AFib effect of finerenone will emerge soon from the FIGARO-DKD trial, which enrolled patients similar to those in FIDELIO-DKD but with more moderate stages of kidney disease, and from the FINEARTS-HF trial, which is examining the effect of finerenone in patients with heart failure with an ejection fraction of at least 40%.

“Heart failure and AFib go together tightly. It’s worth studying this specifically, so we can see whether there is an impact of finerenone on patients with heart failure who may not necessarily have kidney disease or diabetes,” Dr. Curtis said.
 

Hypothesis-generating findings

The new findings reported by Dr. Filippatos “should be considered hypothesis generating. Until we have more information, upstream therapies, including mineralocorticoid receptor antagonists [MRAs, the umbrella drug class that includes finerenone], should be used in appropriate patient populations based on defined benefits with the hope they will also reduce the development of AFib and atrial flutter over time,” Gerald V. Naccarelli, MD, and coauthors wrote in an editorial that accompanied the report (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.080).

The FIDELIO-DKD trial randomized 5,734 patients at 913 sites in 48 countries, including 461 patients with a history of AFib. The observed link of finerenone treatment with a reduced incidence of AFib appeared consistent regardless of patients’ age, sex, race, their kidney characteristics at baseline, baseline levels of systolic blood pressure, serum potassium, body mass index, A1c, or use of glucose-lowering medications.

Finerenone belongs to a new class of MRAs that have a nonsteroidal structure, in contrast with the MRAs spironolactone and eplerenone. This means that finerenone does not produce steroidal-associated adverse effects linked with certain other MRAs, such as gynecomastia, and may also differ in other actions.

FIDELIO-DKD was sponsored by Bayer, the company developing finerenone. Dr. Filippatos has received lecture fees from or participated in the direction of trials on behalf of Bayer, as well as for Amgen, Boehringer Ingelheim, Medtronic, Novartis, Servier, and Vifor. Dr. Curtis is an adviser to and receives honoraria from St. Jude Medical, and receives honoraria from Medtronic. Dr. Naccarelli has been a consultant to Acesion, ARCA, GlaxoSmithKline, Janssen, Milestone, Omeicos, and Sanofi. His coauthors had no disclosures.

[email protected]

Finerenone treatment of patients with type 2 diabetes and diabetic kidney disease was linked to a significant drop in the incidence of new-onset atrial fibrillation as a prespecified, exploratory endpoint of the FIDELIO-DKD pivotal trial that randomized more than 5,700 patients.

Treatment with finerenone linked with a 29% relative reduction compared with placebo in incident cases of atrial fibrillation (AFib), Gerasimos Filippatos, MD, reported at the annual scientific sessions of the American College of Cardiology.

The absolute reduction was modest, a 1.3% reduction from the 4.5% incidence rate on placebo to a 3.2% rate on finerenone during a median 2.6 years of follow-up. Concurrently with the report, the results appeared online (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.079).

The analyses Dr. Filippatos presented also showed that whether or not patients had a history of AFib, there was no impact on either the primary benefit from finerenone treatment seen in FIDELIO-DKD, which was a significant 18% relative risk reduction compared with placebo in the combined rate of kidney failure, a 40% or greater decline from baseline in estimated glomerular filtration rate, or renal death.

Likewise, prior AFib status had no effect on the study’s key secondary endpoint, a significant 14% relative risk reduction in the combined rate of cardiovascular death, nonfatal MI, nonfatal stroke, or hospitalization for heart failure.

The primary results from FIDELIO-DKD (Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease) appeared in a 2020 report (N Engl J Med. 2020 Dec 3;383[23];2219-29).
 

‘Side benefits can be very helpful’

“It’s important to know of finerenone’s benefits beyond the primary outcome of a trial because side benefits can be very helpful,” said Anne B. Curtis, MD, an electrophysiologist and professor and chair of medicine at the University of Buffalo (N.Y.) School of Medicine and Biomedical Sciences. “It’s not a huge benefit, but this could be an added benefit for selected patients,” she said during a press briefing. “Background studies had shown favorable remodeling of the heart [by finerenone] that could affect AFib.”

Possible mitigating effects by finerenone on inflammation and fibrosis might also mediate the drug’s apparent effect on AFib, said Dr. Filippatos, professor of cardiology and director of the Heart Failure and Cardio-Oncology Clinic at Attikon University Hospital and the University of Athens.

He noted that additional data addressing a possible AFib effect of finerenone will emerge soon from the FIGARO-DKD trial, which enrolled patients similar to those in FIDELIO-DKD but with more moderate stages of kidney disease, and from the FINEARTS-HF trial, which is examining the effect of finerenone in patients with heart failure with an ejection fraction of at least 40%.

“Heart failure and AFib go together tightly. It’s worth studying this specifically, so we can see whether there is an impact of finerenone on patients with heart failure who may not necessarily have kidney disease or diabetes,” Dr. Curtis said.
 

Hypothesis-generating findings

The new findings reported by Dr. Filippatos “should be considered hypothesis generating. Until we have more information, upstream therapies, including mineralocorticoid receptor antagonists [MRAs, the umbrella drug class that includes finerenone], should be used in appropriate patient populations based on defined benefits with the hope they will also reduce the development of AFib and atrial flutter over time,” Gerald V. Naccarelli, MD, and coauthors wrote in an editorial that accompanied the report (J Am Coll Cardiol. 2021 May 17. doi: 10.1016/j.jacc.2021.04.080).

The FIDELIO-DKD trial randomized 5,734 patients at 913 sites in 48 countries, including 461 patients with a history of AFib. The observed link of finerenone treatment with a reduced incidence of AFib appeared consistent regardless of patients’ age, sex, race, their kidney characteristics at baseline, baseline levels of systolic blood pressure, serum potassium, body mass index, A1c, or use of glucose-lowering medications.

Finerenone belongs to a new class of MRAs that have a nonsteroidal structure, in contrast with the MRAs spironolactone and eplerenone. This means that finerenone does not produce steroidal-associated adverse effects linked with certain other MRAs, such as gynecomastia, and may also differ in other actions.

FIDELIO-DKD was sponsored by Bayer, the company developing finerenone. Dr. Filippatos has received lecture fees from or participated in the direction of trials on behalf of Bayer, as well as for Amgen, Boehringer Ingelheim, Medtronic, Novartis, Servier, and Vifor. Dr. Curtis is an adviser to and receives honoraria from St. Jude Medical, and receives honoraria from Medtronic. Dr. Naccarelli has been a consultant to Acesion, ARCA, GlaxoSmithKline, Janssen, Milestone, Omeicos, and Sanofi. His coauthors had no disclosures.

[email protected]