Arrhythmias & EP

New atrial fibrillation (AFib) management guidelines from the European Society of Cardiology (ESC) call for diagnostic confirmation and structured characterization of AFib and the need to streamline integrated care with the Atrial fibrillation Better Care (ABC) pathway.

“It’s as simple as CC to ABC,” quipped one task force member during the virtual unveiling of the guidelines at the ESC Congress 2020.

The guidelines were developed in collaboration with the European Association of Cardio-Thoracic Surgery (EACTS) and published simultaneously August 29 in the European Heart Journal.

Acknowledging the slew of novel screening tools now available and their reported sensitivity and specificity rates, the document supports opportunistic screening for AFib by pulse taking or electrocardiogram (ECG) rhythm strip in patients at least 65 years of age, with a class 1 recommendation, evidence level B.

Systematic ECG screening should also be considered to detect AFib in individuals at least 75 years of age or in those at high risk for stroke (class IIa, level B).

Other new class I screening recommendations are to inform individuals undergoing screening about the significance and treatment implications of detecting AFib and to have a structured referral platform in place for further physician-led evaluation.

A definite diagnosis of clinical AFib is established only after confirmation by a conventional 12-lead ECG or single-lead ECG strip with at least 30 seconds of AFib.

In line with ESC’s 2016 AFib guidelines, the new iteration classifies AFib as first diagnosed, paroxysmal, persistent, long-standing persistent, and permanent. But it’s also important to classify the clinical profile of AFib, task force member Giuseppe Boriani, MD, PhD, University of Modena, Italy, said in the first of five presentations.

“So the novelty of the 2020 guidelines is related to the proposal of the 4S-AF scheme for a structured characterization of atrial fibrillation that takes into account Stroke risk, severity of Symptoms, Severity of atrial fibrillation burden, and Substrate severity,” he said.

This represents a paradigm shift from a single-domain conventional classification of AFib toward a structured characterization that streamlines assessment, informs treatment decision-making, and facilitates communication among physicians of various specialties, said Tatjana Potpara, MD, PhD, guideline co-chair and head of the Department for Intensive Arrhythmia Care, Clinical Centre of Serbia, Belgrade.

“The beauty of this approach is that, at present, the assessment of the ‘S’ components are performed using available tools, but in the future, the 4S-AF has a great potential to incorporate whatever becomes available for a more precision assessment of substrate or symptoms or arrhythmia burden and so forth,” she said.


 

ABC pathway

The guidelines advocate the previously described ABC pathway for integrated care management, which includes ‘A’ for Anticoagulation/Avoid stroke, ‘B’ for Better symptom control, and ‘C’ for Comorbidity/Cardiovascular risk factor optimization.

The document strengthens support for formal risk score–based assessment of bleeding risk in all patients, including use of the HAS-BLED score to help address modifiable bleeding risk factors and to identify patients at high bleeding risk (HAS-BLED score ≥3) for early and more frequent follow-up.

These assessments should be done regularly, given that both stroke and bleeding risk are dynamic and change over time with aging and comorbidities, Dr. Potpara stressed. In patients with AFib initially at low risk for stroke, the next assessment should be optimally performed at 4-6 months.

The guideline also targets weight loss in patients who are obese and have AFib, particularly those being evaluated for ablation, and good blood pressure control in patients with AFib and hypertension to reduce AFib recurrences and risk for stroke and bleeding (both class I, up from IIa). 

It’s particularly important that these risk factors are addressed, and that modifiable risk factors that go along with increased AFib occurrence and persistence are addressed and communicated to patients, said Gerhard Hindricks, MD, PhD, guideline cochair and medical director of the Rhythmology Department, Heart Centre Leipzig (Germany).

“I have to confess, as an interventional electrophysiologist, there has been a time where I have not appreciated these risk factors intensely enough,” he said. “But we have learned, also in the field of catheter ablation, that weight loss is an essential basis for a good procedure. If we can motivate patients to lose weight and then come to the intervention with better outcome, it’s a true benefit for the patient and addresses patient values. So I’m particularly happy we have introduced that with such intensity in the guidelines.”
 

Rate and rhythm control

The guidelines make no recommendation of one novel oral anticoagulant (NOAC) over another. However, in patients already receiving vitamin K antagonists with low time in the therapeutic range, they recommend switching to a different NOAC but ensuring good adherence and persistence with therapy (class I recommendation) or efforts to improve time in therapeutic range (class IIa).

Catheter ablation takes on a more prominent role for rhythm control and is now recommended after one antiarrhythmic drug therapy fails to improve symptoms of AF recurrence in patients with paroxysmal AFib, or persistent AFib with or without major risk factors for recurrence. The class I recommendation is based on results from the CAPTAF and CABANA trials, said task force member Carina Blomström-Lundqvist, MD, PhD, Uppsala University, Sweden.

Catheter ablation is also now a first-line therapy for patients with AFib who have a high likelihood of tachycardia-induced cardiomyopathy, independent of symptom status. “In this subset of patients, catheter ablation may offer a lot with respect to restoration of left ventricular function,” observed Dr. Hindricks.

Complete electrical isolation of the pulmonary veins is recommended during all AFib catheter ablation procedures (class I).

“Even as a medical conservative, I think it is totally reasonable to move to catheter ablation after a failed drug trial,” commented John Mandrola, MD, Baptist Health, Louisville, Ky., who was not a part of the guideline development. 

Although the chance of a second drug working after one failure is low, he noted that operators in the United States have dofetilide, which is not used much in Europe, and sometimes works surprisingly well.

“That said, the caveat is that moving to catheter ablation after drug failure is only appropriate if we have addressed all the pertinent risk factors: sleep apnea, weight loss, lack of fitness, blood pressure control, and alcohol excess,” he said. 

As for tachycardia-mediated cardiomyopathy, this too can be reasonable, Dr. Mandrola said. “I often get people ‘out of a hole’ with amiodarone plus cardioversion for a few months and then proceed to ablation.”

Notably, the 2020 iteration sharpens its recommendation that amiodarone not be used first-line for long-term rhythm control in all patients with AFib, including those with heart failure with reduced ejection fraction, given its extracardiac toxicity (class I, up from IIa).
 

Quality counts

In response to growing evidence that guideline-adherence is associated with significantly better outcomes in AFib, the 2020 ESC/EACTS guidelines explicitly included a recommendation on the need to measure quality of care to identify opportunities for improvement.

With this framework in mind, a task force with 23 people – including members from ESC and heart rhythm societies in the United States, Asia Pacific, and Latin America, along with patient representatives – was created to develop a list of quality indicators (QIs), ultimately settling on 17 main QIs and 17 secondary ones, said Elena Arbelo, MD, PhD, MSc, University of Barcelona.

The QIs are classified into six domains: patient assessment, anticoagulation, rate control, rhythm control, risk factor modification, and, importantly, outcome measures. A full list is accessible in a paper, simultaneously published in EP EuroPace.

Five patient-reported outcomes fall under the outcomes domain but only one – health-related quality of life – is a main quality indicator. The remaining outcomes are still important but are listed as secondary because of the lack of evidence to sustain or defend their systematic implementation, particularly evidence on how to measure them appropriately, Dr. Arbelo said.

“Hopefully, following the [class I] recommendation by the 2020 ESC guidelines to routinely collect patient-reported outcomes will allow us to collect further evidence and in the future have sufficient evidence to include these as a main outcome,” she said.

The QI work was driven in parallel with the guidelines and had a huge impact on its development, including inclusion of clear recommendations on how to measure quality, Dr. Hindricks said. “I believe that the whole issue of quality management in the treatment of patients with a focus on patient values cannot be overestimated.”

Disclosure information for all writing committee members is in the report. Dr. Mandrola is a writer and podcaster for Medscape.
 

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

New atrial fibrillation (AFib) management guidelines from the European Society of Cardiology (ESC) call for diagnostic confirmation and structured characterization of AFib and the need to streamline integrated care with the Atrial fibrillation Better Care (ABC) pathway.

“It’s as simple as CC to ABC,” quipped one task force member during the virtual unveiling of the guidelines at the ESC Congress 2020.

The guidelines were developed in collaboration with the European Association of Cardio-Thoracic Surgery (EACTS) and published simultaneously August 29 in the European Heart Journal.

Acknowledging the slew of novel screening tools now available and their reported sensitivity and specificity rates, the document supports opportunistic screening for AFib by pulse taking or electrocardiogram (ECG) rhythm strip in patients at least 65 years of age, with a class 1 recommendation, evidence level B.

Systematic ECG screening should also be considered to detect AFib in individuals at least 75 years of age or in those at high risk for stroke (class IIa, level B).

Other new class I screening recommendations are to inform individuals undergoing screening about the significance and treatment implications of detecting AFib and to have a structured referral platform in place for further physician-led evaluation.

A definite diagnosis of clinical AFib is established only after confirmation by a conventional 12-lead ECG or single-lead ECG strip with at least 30 seconds of AFib.

In line with ESC’s 2016 AFib guidelines, the new iteration classifies AFib as first diagnosed, paroxysmal, persistent, long-standing persistent, and permanent. But it’s also important to classify the clinical profile of AFib, task force member Giuseppe Boriani, MD, PhD, University of Modena, Italy, said in the first of five presentations.

“So the novelty of the 2020 guidelines is related to the proposal of the 4S-AF scheme for a structured characterization of atrial fibrillation that takes into account Stroke risk, severity of Symptoms, Severity of atrial fibrillation burden, and Substrate severity,” he said.

This represents a paradigm shift from a single-domain conventional classification of AFib toward a structured characterization that streamlines assessment, informs treatment decision-making, and facilitates communication among physicians of various specialties, said Tatjana Potpara, MD, PhD, guideline co-chair and head of the Department for Intensive Arrhythmia Care, Clinical Centre of Serbia, Belgrade.

“The beauty of this approach is that, at present, the assessment of the ‘S’ components are performed using available tools, but in the future, the 4S-AF has a great potential to incorporate whatever becomes available for a more precision assessment of substrate or symptoms or arrhythmia burden and so forth,” she said.


 

ABC pathway

The guidelines advocate the previously described ABC pathway for integrated care management, which includes ‘A’ for Anticoagulation/Avoid stroke, ‘B’ for Better symptom control, and ‘C’ for Comorbidity/Cardiovascular risk factor optimization.

The document strengthens support for formal risk score–based assessment of bleeding risk in all patients, including use of the HAS-BLED score to help address modifiable bleeding risk factors and to identify patients at high bleeding risk (HAS-BLED score ≥3) for early and more frequent follow-up.

These assessments should be done regularly, given that both stroke and bleeding risk are dynamic and change over time with aging and comorbidities, Dr. Potpara stressed. In patients with AFib initially at low risk for stroke, the next assessment should be optimally performed at 4-6 months.

The guideline also targets weight loss in patients who are obese and have AFib, particularly those being evaluated for ablation, and good blood pressure control in patients with AFib and hypertension to reduce AFib recurrences and risk for stroke and bleeding (both class I, up from IIa). 

It’s particularly important that these risk factors are addressed, and that modifiable risk factors that go along with increased AFib occurrence and persistence are addressed and communicated to patients, said Gerhard Hindricks, MD, PhD, guideline cochair and medical director of the Rhythmology Department, Heart Centre Leipzig (Germany).

“I have to confess, as an interventional electrophysiologist, there has been a time where I have not appreciated these risk factors intensely enough,” he said. “But we have learned, also in the field of catheter ablation, that weight loss is an essential basis for a good procedure. If we can motivate patients to lose weight and then come to the intervention with better outcome, it’s a true benefit for the patient and addresses patient values. So I’m particularly happy we have introduced that with such intensity in the guidelines.”
 

Rate and rhythm control

The guidelines make no recommendation of one novel oral anticoagulant (NOAC) over another. However, in patients already receiving vitamin K antagonists with low time in the therapeutic range, they recommend switching to a different NOAC but ensuring good adherence and persistence with therapy (class I recommendation) or efforts to improve time in therapeutic range (class IIa).

Catheter ablation takes on a more prominent role for rhythm control and is now recommended after one antiarrhythmic drug therapy fails to improve symptoms of AF recurrence in patients with paroxysmal AFib, or persistent AFib with or without major risk factors for recurrence. The class I recommendation is based on results from the CAPTAF and CABANA trials, said task force member Carina Blomström-Lundqvist, MD, PhD, Uppsala University, Sweden.

Catheter ablation is also now a first-line therapy for patients with AFib who have a high likelihood of tachycardia-induced cardiomyopathy, independent of symptom status. “In this subset of patients, catheter ablation may offer a lot with respect to restoration of left ventricular function,” observed Dr. Hindricks.

Complete electrical isolation of the pulmonary veins is recommended during all AFib catheter ablation procedures (class I).

“Even as a medical conservative, I think it is totally reasonable to move to catheter ablation after a failed drug trial,” commented John Mandrola, MD, Baptist Health, Louisville, Ky., who was not a part of the guideline development. 

Although the chance of a second drug working after one failure is low, he noted that operators in the United States have dofetilide, which is not used much in Europe, and sometimes works surprisingly well.

“That said, the caveat is that moving to catheter ablation after drug failure is only appropriate if we have addressed all the pertinent risk factors: sleep apnea, weight loss, lack of fitness, blood pressure control, and alcohol excess,” he said. 

As for tachycardia-mediated cardiomyopathy, this too can be reasonable, Dr. Mandrola said. “I often get people ‘out of a hole’ with amiodarone plus cardioversion for a few months and then proceed to ablation.”

Notably, the 2020 iteration sharpens its recommendation that amiodarone not be used first-line for long-term rhythm control in all patients with AFib, including those with heart failure with reduced ejection fraction, given its extracardiac toxicity (class I, up from IIa).
 

Quality counts

In response to growing evidence that guideline-adherence is associated with significantly better outcomes in AFib, the 2020 ESC/EACTS guidelines explicitly included a recommendation on the need to measure quality of care to identify opportunities for improvement.

With this framework in mind, a task force with 23 people – including members from ESC and heart rhythm societies in the United States, Asia Pacific, and Latin America, along with patient representatives – was created to develop a list of quality indicators (QIs), ultimately settling on 17 main QIs and 17 secondary ones, said Elena Arbelo, MD, PhD, MSc, University of Barcelona.

The QIs are classified into six domains: patient assessment, anticoagulation, rate control, rhythm control, risk factor modification, and, importantly, outcome measures. A full list is accessible in a paper, simultaneously published in EP EuroPace.

Five patient-reported outcomes fall under the outcomes domain but only one – health-related quality of life – is a main quality indicator. The remaining outcomes are still important but are listed as secondary because of the lack of evidence to sustain or defend their systematic implementation, particularly evidence on how to measure them appropriately, Dr. Arbelo said.

“Hopefully, following the [class I] recommendation by the 2020 ESC guidelines to routinely collect patient-reported outcomes will allow us to collect further evidence and in the future have sufficient evidence to include these as a main outcome,” she said.

The QI work was driven in parallel with the guidelines and had a huge impact on its development, including inclusion of clear recommendations on how to measure quality, Dr. Hindricks said. “I believe that the whole issue of quality management in the treatment of patients with a focus on patient values cannot be overestimated.”

Disclosure information for all writing committee members is in the report. Dr. Mandrola is a writer and podcaster for Medscape.
 

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

New atrial fibrillation (AFib) management guidelines from the European Society of Cardiology (ESC) call for diagnostic confirmation and structured characterization of AFib and the need to streamline integrated care with the Atrial fibrillation Better Care (ABC) pathway.

“It’s as simple as CC to ABC,” quipped one task force member during the virtual unveiling of the guidelines at the ESC Congress 2020.

The guidelines were developed in collaboration with the European Association of Cardio-Thoracic Surgery (EACTS) and published simultaneously August 29 in the European Heart Journal.

Acknowledging the slew of novel screening tools now available and their reported sensitivity and specificity rates, the document supports opportunistic screening for AFib by pulse taking or electrocardiogram (ECG) rhythm strip in patients at least 65 years of age, with a class 1 recommendation, evidence level B.

Systematic ECG screening should also be considered to detect AFib in individuals at least 75 years of age or in those at high risk for stroke (class IIa, level B).

Other new class I screening recommendations are to inform individuals undergoing screening about the significance and treatment implications of detecting AFib and to have a structured referral platform in place for further physician-led evaluation.

A definite diagnosis of clinical AFib is established only after confirmation by a conventional 12-lead ECG or single-lead ECG strip with at least 30 seconds of AFib.

In line with ESC’s 2016 AFib guidelines, the new iteration classifies AFib as first diagnosed, paroxysmal, persistent, long-standing persistent, and permanent. But it’s also important to classify the clinical profile of AFib, task force member Giuseppe Boriani, MD, PhD, University of Modena, Italy, said in the first of five presentations.

“So the novelty of the 2020 guidelines is related to the proposal of the 4S-AF scheme for a structured characterization of atrial fibrillation that takes into account Stroke risk, severity of Symptoms, Severity of atrial fibrillation burden, and Substrate severity,” he said.

This represents a paradigm shift from a single-domain conventional classification of AFib toward a structured characterization that streamlines assessment, informs treatment decision-making, and facilitates communication among physicians of various specialties, said Tatjana Potpara, MD, PhD, guideline co-chair and head of the Department for Intensive Arrhythmia Care, Clinical Centre of Serbia, Belgrade.

“The beauty of this approach is that, at present, the assessment of the ‘S’ components are performed using available tools, but in the future, the 4S-AF has a great potential to incorporate whatever becomes available for a more precision assessment of substrate or symptoms or arrhythmia burden and so forth,” she said.


 

ABC pathway

The guidelines advocate the previously described ABC pathway for integrated care management, which includes ‘A’ for Anticoagulation/Avoid stroke, ‘B’ for Better symptom control, and ‘C’ for Comorbidity/Cardiovascular risk factor optimization.

The document strengthens support for formal risk score–based assessment of bleeding risk in all patients, including use of the HAS-BLED score to help address modifiable bleeding risk factors and to identify patients at high bleeding risk (HAS-BLED score ≥3) for early and more frequent follow-up.

These assessments should be done regularly, given that both stroke and bleeding risk are dynamic and change over time with aging and comorbidities, Dr. Potpara stressed. In patients with AFib initially at low risk for stroke, the next assessment should be optimally performed at 4-6 months.

The guideline also targets weight loss in patients who are obese and have AFib, particularly those being evaluated for ablation, and good blood pressure control in patients with AFib and hypertension to reduce AFib recurrences and risk for stroke and bleeding (both class I, up from IIa). 

It’s particularly important that these risk factors are addressed, and that modifiable risk factors that go along with increased AFib occurrence and persistence are addressed and communicated to patients, said Gerhard Hindricks, MD, PhD, guideline cochair and medical director of the Rhythmology Department, Heart Centre Leipzig (Germany).

“I have to confess, as an interventional electrophysiologist, there has been a time where I have not appreciated these risk factors intensely enough,” he said. “But we have learned, also in the field of catheter ablation, that weight loss is an essential basis for a good procedure. If we can motivate patients to lose weight and then come to the intervention with better outcome, it’s a true benefit for the patient and addresses patient values. So I’m particularly happy we have introduced that with such intensity in the guidelines.”
 

Rate and rhythm control

The guidelines make no recommendation of one novel oral anticoagulant (NOAC) over another. However, in patients already receiving vitamin K antagonists with low time in the therapeutic range, they recommend switching to a different NOAC but ensuring good adherence and persistence with therapy (class I recommendation) or efforts to improve time in therapeutic range (class IIa).

Catheter ablation takes on a more prominent role for rhythm control and is now recommended after one antiarrhythmic drug therapy fails to improve symptoms of AF recurrence in patients with paroxysmal AFib, or persistent AFib with or without major risk factors for recurrence. The class I recommendation is based on results from the CAPTAF and CABANA trials, said task force member Carina Blomström-Lundqvist, MD, PhD, Uppsala University, Sweden.

Catheter ablation is also now a first-line therapy for patients with AFib who have a high likelihood of tachycardia-induced cardiomyopathy, independent of symptom status. “In this subset of patients, catheter ablation may offer a lot with respect to restoration of left ventricular function,” observed Dr. Hindricks.

Complete electrical isolation of the pulmonary veins is recommended during all AFib catheter ablation procedures (class I).

“Even as a medical conservative, I think it is totally reasonable to move to catheter ablation after a failed drug trial,” commented John Mandrola, MD, Baptist Health, Louisville, Ky., who was not a part of the guideline development. 

Although the chance of a second drug working after one failure is low, he noted that operators in the United States have dofetilide, which is not used much in Europe, and sometimes works surprisingly well.

“That said, the caveat is that moving to catheter ablation after drug failure is only appropriate if we have addressed all the pertinent risk factors: sleep apnea, weight loss, lack of fitness, blood pressure control, and alcohol excess,” he said. 

As for tachycardia-mediated cardiomyopathy, this too can be reasonable, Dr. Mandrola said. “I often get people ‘out of a hole’ with amiodarone plus cardioversion for a few months and then proceed to ablation.”

Notably, the 2020 iteration sharpens its recommendation that amiodarone not be used first-line for long-term rhythm control in all patients with AFib, including those with heart failure with reduced ejection fraction, given its extracardiac toxicity (class I, up from IIa).
 

Quality counts

In response to growing evidence that guideline-adherence is associated with significantly better outcomes in AFib, the 2020 ESC/EACTS guidelines explicitly included a recommendation on the need to measure quality of care to identify opportunities for improvement.

With this framework in mind, a task force with 23 people – including members from ESC and heart rhythm societies in the United States, Asia Pacific, and Latin America, along with patient representatives – was created to develop a list of quality indicators (QIs), ultimately settling on 17 main QIs and 17 secondary ones, said Elena Arbelo, MD, PhD, MSc, University of Barcelona.

The QIs are classified into six domains: patient assessment, anticoagulation, rate control, rhythm control, risk factor modification, and, importantly, outcome measures. A full list is accessible in a paper, simultaneously published in EP EuroPace.

Five patient-reported outcomes fall under the outcomes domain but only one – health-related quality of life – is a main quality indicator. The remaining outcomes are still important but are listed as secondary because of the lack of evidence to sustain or defend their systematic implementation, particularly evidence on how to measure them appropriately, Dr. Arbelo said.

“Hopefully, following the [class I] recommendation by the 2020 ESC guidelines to routinely collect patient-reported outcomes will allow us to collect further evidence and in the future have sufficient evidence to include these as a main outcome,” she said.

The QI work was driven in parallel with the guidelines and had a huge impact on its development, including inclusion of clear recommendations on how to measure quality, Dr. Hindricks said. “I believe that the whole issue of quality management in the treatment of patients with a focus on patient values cannot be overestimated.”

Disclosure information for all writing committee members is in the report. Dr. Mandrola is a writer and podcaster for Medscape.
 

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

Initiation of rhythm control with antiarrhythmic drugs and/or ablation in patients with early, recently diagnosed atrial fibrillation (AFib) led to a significantly lower risk of major adverse cardiovascular outcomes, compared with a rate-control strategy, during more than 5 years of follow-up in the large randomized EAST-AFNET 4 trial, Paulus Kirchhof, MD, said at the virtual annual congress of the European Society of Cardiology.

Previous trials of rate versus rhythm control in AFib, such as AFFIRM (Atrial Fibrillation Follow-up Investigation of Rhythm Management), failed to show an advantage for rhythm over rate control in terms of clinical outcomes. Why was EAST-AFNET 4 different? Dr. Kirchhof offered two major reasons: The study incorporated AFib ablation as an option in the rhythm control strategy, and treatment started soon after diagnosis of the arrhythmia. Indeed, nearly 40% of patients had their first-ever AFib episode at the time of randomization, and the median time from diagnosis to randomization was just 36 days.

“Once you are in AFib for a few months, the atrium suffers severe damage, some of it irreversible, so it becomes more difficult to restore and maintain sinus rhythm when you wait longer,” explained Dr. Kirchhof, director of the department of cardiology at the University Heart and Vascular Center in Hamburg (Ger.) and professor of cardiovascular medicine at the University of Birmingham, England.

Also, epidemiologic studies show that the risk of cardiovascular complications is heightened in the first year following diagnosis of AFib. “So there’s a window of opportunity to prevent complications,” he added.

The impetus for conducting EAST-AFNET 4 (Early Treatment of Atrial Fibrillation for Stroke Prevention Trial ) was straightforward, according to the cardiologist: “The question of whether rhythm control is beneficial or not has been in the field for several decades. Most people, like me, always believed that maintaining sinus rhythm would help, but we didn’t have the data to show it.”
 

Early rhythm control shows sustained benefits

EAST-AFNET 4 was a prospective, open, blinded-outcome-assessement trial. It included 2,789 patients with early AFib and an average CHA₂DS₂-VASc score of 3.4 who were randomized at 135 sites in 11 European countries to early rhythm control or guideline-recommended rate control. At a median 5.1 years of follow-up, the primary outcome – a composite of cardiovascular death, stroke, acute coronary syndrome, or hospitalization for worsening heart failure – occurred at a pace of 3.9% per year in the rhythm control group and 5% per year with rate control. This translated to a statistically significant and clinically meaningful 21% relative risk reduction favoring early rhythm control.

The 28% reduction in cardiovascular death with rhythm control was statistically significant, as was the 35% reduction in stroke. However, the 19% reduction in heart failure hospitalizations and 17% decrease in hospitalizations for acute coronary syndrome were not.

The co–primary endpoint – the mean number of nights spent in the hospital per year, which served as a proxy for the cost of treatment to a health care system – didn’t differ between the two treatment arms, at roughly 5 nights per year.

The clinical benefit of early rhythm control was consistent across all 19 prespecified patient subgroups, including those who were asymptomatic and patients with or without heart failure.

Serious adverse events related to rhythm control therapy – most often drug-related bradycardia – occurred in 4.9% of patients over the course of 5.1 years, compared to a 1.4% serious event rate in patients assigned to rate control. Dr. Kirchhof called the roughly 1% per year serious event rate in the rhythm control group quite acceptable.

“To put that in perspective, the annualized rate of severe bleeds on oral anticoagulation – a very beneficial therapy used by more than 90% of participants at 2 years – is about 2%,” the cardiologist noted.

Only 8% of patients randomized to rhythm control received AFib ablation as initial therapy, consistent with current clinical practice. By 2 years, 19.4% of the rhythm control group had undergone AFib ablation. Also at that time, 15% of the rate control group was receiving rhythm control therapy to help manage AFib-related symptoms.

One of the big surprises in the study, he said, was that nearly three-quarters of patients in both groups were asymptomatic at 2 years.

“I think that shows how well we control symptoms, even without rhythm control,” he observed.
 

Results ‘move the field forward’

Dr. Kirchhof stressed that this was a trial of two different treatment strategies, and it’s not yet possible to single out any specific component of the rhythm control strategy as being responsible for the improved outcomes.

“I cannot tell you whether the outcome difference was due to AFib ablation or early treatment or the fact that we’re now better at using antiarrhythmic drugs than we were 20 years ago,” he said.

Asked if the EAST-AFNET 4 findings warrant more aggressive screening for AFib in order to detect and intervene early in the arrhythmia, Dr. Kirchhof replied with an unambiguous yes.

“My conclusion is that every patient with newly diagnosed AFib and a CHA₂DS₂-VASc score of 2 or more should not only receive anticoagulation and rate control, but should also be offered rhythm control therapy at the time of diagnosis, which also means that all of these people have to be seen by a cardiologist who has expertise in the domain of AFib management. It’s a big clinical challenge, but it leads to a 21% improvement in outcomes, and I think we have to do what’s best for our patients,” he said.

In an interview, Kalyanam Shivkumar, MD, PhD, called EAST-AFNET 4 “a very important study.”

“It moves the field forward, for sure. I think it will change clinical practice, and it should,” commented Dr. Shivkumar, who was not involved in the study.

“Now there are so many wearable technologies out there – the Apple Watch and others – which will enable rhythm abnormalities to be detected early on. This bodes well for the field,” said Dr. Shivkumar, who is editor-in-chief of JACC: Clinical Electrophysiology. He is also professor of medicine, radiology, and bioengineering at the University of California, Los Angeles, and director of the UCLA Cardiac Arrhythmia Center.

Dr. Kirchhof reported receiving research grants to conduct the EAST-AFNET 4 trial from the German Ministry of Education and Research, the German Center for Cardiovascular Research, the Atrial Fibrillation Network, the European Heart Rhythm Association, St. Jude Medical, Abbott, Sanofi, the German Heart Foundation, the European Union, the British Heart Foundation, and the Leducq Foundation.

Simultaneous with his presentation at ESC Congress 2020, the study results were published online at NEJM.org.
 

[email protected]

SOURCE: Kirchhof P. ESC Congress 2020. N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2019422.

Initiation of rhythm control with antiarrhythmic drugs and/or ablation in patients with early, recently diagnosed atrial fibrillation (AFib) led to a significantly lower risk of major adverse cardiovascular outcomes, compared with a rate-control strategy, during more than 5 years of follow-up in the large randomized EAST-AFNET 4 trial, Paulus Kirchhof, MD, said at the virtual annual congress of the European Society of Cardiology.

Previous trials of rate versus rhythm control in AFib, such as AFFIRM (Atrial Fibrillation Follow-up Investigation of Rhythm Management), failed to show an advantage for rhythm over rate control in terms of clinical outcomes. Why was EAST-AFNET 4 different? Dr. Kirchhof offered two major reasons: The study incorporated AFib ablation as an option in the rhythm control strategy, and treatment started soon after diagnosis of the arrhythmia. Indeed, nearly 40% of patients had their first-ever AFib episode at the time of randomization, and the median time from diagnosis to randomization was just 36 days.

“Once you are in AFib for a few months, the atrium suffers severe damage, some of it irreversible, so it becomes more difficult to restore and maintain sinus rhythm when you wait longer,” explained Dr. Kirchhof, director of the department of cardiology at the University Heart and Vascular Center in Hamburg (Ger.) and professor of cardiovascular medicine at the University of Birmingham, England.

Also, epidemiologic studies show that the risk of cardiovascular complications is heightened in the first year following diagnosis of AFib. “So there’s a window of opportunity to prevent complications,” he added.

The impetus for conducting EAST-AFNET 4 (Early Treatment of Atrial Fibrillation for Stroke Prevention Trial ) was straightforward, according to the cardiologist: “The question of whether rhythm control is beneficial or not has been in the field for several decades. Most people, like me, always believed that maintaining sinus rhythm would help, but we didn’t have the data to show it.”
 

Early rhythm control shows sustained benefits

EAST-AFNET 4 was a prospective, open, blinded-outcome-assessement trial. It included 2,789 patients with early AFib and an average CHA₂DS₂-VASc score of 3.4 who were randomized at 135 sites in 11 European countries to early rhythm control or guideline-recommended rate control. At a median 5.1 years of follow-up, the primary outcome – a composite of cardiovascular death, stroke, acute coronary syndrome, or hospitalization for worsening heart failure – occurred at a pace of 3.9% per year in the rhythm control group and 5% per year with rate control. This translated to a statistically significant and clinically meaningful 21% relative risk reduction favoring early rhythm control.

The 28% reduction in cardiovascular death with rhythm control was statistically significant, as was the 35% reduction in stroke. However, the 19% reduction in heart failure hospitalizations and 17% decrease in hospitalizations for acute coronary syndrome were not.

The co–primary endpoint – the mean number of nights spent in the hospital per year, which served as a proxy for the cost of treatment to a health care system – didn’t differ between the two treatment arms, at roughly 5 nights per year.

The clinical benefit of early rhythm control was consistent across all 19 prespecified patient subgroups, including those who were asymptomatic and patients with or without heart failure.

Serious adverse events related to rhythm control therapy – most often drug-related bradycardia – occurred in 4.9% of patients over the course of 5.1 years, compared to a 1.4% serious event rate in patients assigned to rate control. Dr. Kirchhof called the roughly 1% per year serious event rate in the rhythm control group quite acceptable.

“To put that in perspective, the annualized rate of severe bleeds on oral anticoagulation – a very beneficial therapy used by more than 90% of participants at 2 years – is about 2%,” the cardiologist noted.

Only 8% of patients randomized to rhythm control received AFib ablation as initial therapy, consistent with current clinical practice. By 2 years, 19.4% of the rhythm control group had undergone AFib ablation. Also at that time, 15% of the rate control group was receiving rhythm control therapy to help manage AFib-related symptoms.

One of the big surprises in the study, he said, was that nearly three-quarters of patients in both groups were asymptomatic at 2 years.

“I think that shows how well we control symptoms, even without rhythm control,” he observed.
 

Results ‘move the field forward’

Dr. Kirchhof stressed that this was a trial of two different treatment strategies, and it’s not yet possible to single out any specific component of the rhythm control strategy as being responsible for the improved outcomes.

“I cannot tell you whether the outcome difference was due to AFib ablation or early treatment or the fact that we’re now better at using antiarrhythmic drugs than we were 20 years ago,” he said.

Asked if the EAST-AFNET 4 findings warrant more aggressive screening for AFib in order to detect and intervene early in the arrhythmia, Dr. Kirchhof replied with an unambiguous yes.

“My conclusion is that every patient with newly diagnosed AFib and a CHA₂DS₂-VASc score of 2 or more should not only receive anticoagulation and rate control, but should also be offered rhythm control therapy at the time of diagnosis, which also means that all of these people have to be seen by a cardiologist who has expertise in the domain of AFib management. It’s a big clinical challenge, but it leads to a 21% improvement in outcomes, and I think we have to do what’s best for our patients,” he said.

In an interview, Kalyanam Shivkumar, MD, PhD, called EAST-AFNET 4 “a very important study.”

“It moves the field forward, for sure. I think it will change clinical practice, and it should,” commented Dr. Shivkumar, who was not involved in the study.

“Now there are so many wearable technologies out there – the Apple Watch and others – which will enable rhythm abnormalities to be detected early on. This bodes well for the field,” said Dr. Shivkumar, who is editor-in-chief of JACC: Clinical Electrophysiology. He is also professor of medicine, radiology, and bioengineering at the University of California, Los Angeles, and director of the UCLA Cardiac Arrhythmia Center.

Dr. Kirchhof reported receiving research grants to conduct the EAST-AFNET 4 trial from the German Ministry of Education and Research, the German Center for Cardiovascular Research, the Atrial Fibrillation Network, the European Heart Rhythm Association, St. Jude Medical, Abbott, Sanofi, the German Heart Foundation, the European Union, the British Heart Foundation, and the Leducq Foundation.

Simultaneous with his presentation at ESC Congress 2020, the study results were published online at NEJM.org.
 

[email protected]

SOURCE: Kirchhof P. ESC Congress 2020. N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2019422.

Initiation of rhythm control with antiarrhythmic drugs and/or ablation in patients with early, recently diagnosed atrial fibrillation (AFib) led to a significantly lower risk of major adverse cardiovascular outcomes, compared with a rate-control strategy, during more than 5 years of follow-up in the large randomized EAST-AFNET 4 trial, Paulus Kirchhof, MD, said at the virtual annual congress of the European Society of Cardiology.

Previous trials of rate versus rhythm control in AFib, such as AFFIRM (Atrial Fibrillation Follow-up Investigation of Rhythm Management), failed to show an advantage for rhythm over rate control in terms of clinical outcomes. Why was EAST-AFNET 4 different? Dr. Kirchhof offered two major reasons: The study incorporated AFib ablation as an option in the rhythm control strategy, and treatment started soon after diagnosis of the arrhythmia. Indeed, nearly 40% of patients had their first-ever AFib episode at the time of randomization, and the median time from diagnosis to randomization was just 36 days.

“Once you are in AFib for a few months, the atrium suffers severe damage, some of it irreversible, so it becomes more difficult to restore and maintain sinus rhythm when you wait longer,” explained Dr. Kirchhof, director of the department of cardiology at the University Heart and Vascular Center in Hamburg (Ger.) and professor of cardiovascular medicine at the University of Birmingham, England.

Also, epidemiologic studies show that the risk of cardiovascular complications is heightened in the first year following diagnosis of AFib. “So there’s a window of opportunity to prevent complications,” he added.

The impetus for conducting EAST-AFNET 4 (Early Treatment of Atrial Fibrillation for Stroke Prevention Trial ) was straightforward, according to the cardiologist: “The question of whether rhythm control is beneficial or not has been in the field for several decades. Most people, like me, always believed that maintaining sinus rhythm would help, but we didn’t have the data to show it.”
 

Early rhythm control shows sustained benefits

EAST-AFNET 4 was a prospective, open, blinded-outcome-assessement trial. It included 2,789 patients with early AFib and an average CHA₂DS₂-VASc score of 3.4 who were randomized at 135 sites in 11 European countries to early rhythm control or guideline-recommended rate control. At a median 5.1 years of follow-up, the primary outcome – a composite of cardiovascular death, stroke, acute coronary syndrome, or hospitalization for worsening heart failure – occurred at a pace of 3.9% per year in the rhythm control group and 5% per year with rate control. This translated to a statistically significant and clinically meaningful 21% relative risk reduction favoring early rhythm control.

The 28% reduction in cardiovascular death with rhythm control was statistically significant, as was the 35% reduction in stroke. However, the 19% reduction in heart failure hospitalizations and 17% decrease in hospitalizations for acute coronary syndrome were not.

The co–primary endpoint – the mean number of nights spent in the hospital per year, which served as a proxy for the cost of treatment to a health care system – didn’t differ between the two treatment arms, at roughly 5 nights per year.

The clinical benefit of early rhythm control was consistent across all 19 prespecified patient subgroups, including those who were asymptomatic and patients with or without heart failure.

Serious adverse events related to rhythm control therapy – most often drug-related bradycardia – occurred in 4.9% of patients over the course of 5.1 years, compared to a 1.4% serious event rate in patients assigned to rate control. Dr. Kirchhof called the roughly 1% per year serious event rate in the rhythm control group quite acceptable.

“To put that in perspective, the annualized rate of severe bleeds on oral anticoagulation – a very beneficial therapy used by more than 90% of participants at 2 years – is about 2%,” the cardiologist noted.

Only 8% of patients randomized to rhythm control received AFib ablation as initial therapy, consistent with current clinical practice. By 2 years, 19.4% of the rhythm control group had undergone AFib ablation. Also at that time, 15% of the rate control group was receiving rhythm control therapy to help manage AFib-related symptoms.

One of the big surprises in the study, he said, was that nearly three-quarters of patients in both groups were asymptomatic at 2 years.

“I think that shows how well we control symptoms, even without rhythm control,” he observed.
 

Results ‘move the field forward’

Dr. Kirchhof stressed that this was a trial of two different treatment strategies, and it’s not yet possible to single out any specific component of the rhythm control strategy as being responsible for the improved outcomes.

“I cannot tell you whether the outcome difference was due to AFib ablation or early treatment or the fact that we’re now better at using antiarrhythmic drugs than we were 20 years ago,” he said.

Asked if the EAST-AFNET 4 findings warrant more aggressive screening for AFib in order to detect and intervene early in the arrhythmia, Dr. Kirchhof replied with an unambiguous yes.

“My conclusion is that every patient with newly diagnosed AFib and a CHA₂DS₂-VASc score of 2 or more should not only receive anticoagulation and rate control, but should also be offered rhythm control therapy at the time of diagnosis, which also means that all of these people have to be seen by a cardiologist who has expertise in the domain of AFib management. It’s a big clinical challenge, but it leads to a 21% improvement in outcomes, and I think we have to do what’s best for our patients,” he said.

In an interview, Kalyanam Shivkumar, MD, PhD, called EAST-AFNET 4 “a very important study.”

“It moves the field forward, for sure. I think it will change clinical practice, and it should,” commented Dr. Shivkumar, who was not involved in the study.

“Now there are so many wearable technologies out there – the Apple Watch and others – which will enable rhythm abnormalities to be detected early on. This bodes well for the field,” said Dr. Shivkumar, who is editor-in-chief of JACC: Clinical Electrophysiology. He is also professor of medicine, radiology, and bioengineering at the University of California, Los Angeles, and director of the UCLA Cardiac Arrhythmia Center.

Dr. Kirchhof reported receiving research grants to conduct the EAST-AFNET 4 trial from the German Ministry of Education and Research, the German Center for Cardiovascular Research, the Atrial Fibrillation Network, the European Heart Rhythm Association, St. Jude Medical, Abbott, Sanofi, the German Heart Foundation, the European Union, the British Heart Foundation, and the Leducq Foundation.

Simultaneous with his presentation at ESC Congress 2020, the study results were published online at NEJM.org.
 

[email protected]

SOURCE: Kirchhof P. ESC Congress 2020. N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2019422.

The coronavirus may have quashed plans to socialize and stroll the canals of Amsterdam while at this year’s European Society of Cardiology (ESC) Congress, but organizers are promising a historic digital experience that will “once again, be a celebration of discovery and ground-breaking science.”

“My message — if I have to choose only one thing why ESC 2020 will be a historic event — is that the physician working at the Cleveland Clinic, who was planning to attend this year in Amsterdam, as well as the colleague in a bush hospital in Uganda, who would have never have dreamed to be part of the ESC Congress, both will have for the first time the same access at the same time to knowledge shared at the worldwide leading cardiovascular meeting,” Marco Roffi, MD, co-chair of the scientific program, told theheart.org | Medscape Cardiology.

Taking a page from the American College of Cardiology, which set the virtual bar early in the pandemic with its highly interactive ACC 2020, ESC is taking some 80 Hot Line, clinical practice guidelines, and special sessions live with question-and-answer interactions and panel discussions.

The latest COVID-19 research and four new guideline documents — including recommendations on atrial fibrillation (AF), non-ST-segment elevation acute coronary syndromes, sports cardiology and exercise in patients with cardiovascular disease, and adult congenital heart disease — will be featured at the ESC Congress 2020, scheduled for August 29 to September 1.

Presentations will be shorter and sessions more focused, but more than 500 scientific and educational sessions will be streamed in addition to more than 4000 abstracts available live or on demand as full presentations or e-posters, said Roffi, University Hospital of Geneva, Switzerland.

To pull off the virtual event, a digital studio in Amsterdam will host hundreds of key opinion leaders, and ESC employed more than 1000 satellite studios around the world to gather contributions from scientists and experts with the help of 70 behind-the-scenes experts.

Nevertheless, a “strategic decision” was made to provide free access to the event and its content for 30 days — a strategy that has attracted some 58,000 registrants thus far, up from a record 32,000 attendees at last year’s congress in Paris, Roffi said.

“Obviously, the income will not be the same as a physical congress, but we felt there was too much at stake to make a compromise,” he said. “We believe we are the leaders in cardiovascular meetings in the physical ones and we want to keep this position even in the new era. And we believe this is the beginning of a new era in whatever form will be.”

Hot Line Sessions 1-3, Saturday (14:00 CEST)

The Hot Line sessions will feature 13 clinical trials and kick off with EMPEROR-Reduced, which compared the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance, Boehringer Ingelheim/Eli Lilly) added to standard care in patients with heart failure with reduced ejection fraction (HFrEF), with and without diabetes.

Eli Lilly and Boehringer Ingelheim already announced the trial met its composite primary endpoint of reducing cardiovascular (CV) death or HF hospitalization risk but the details will be important given the SGLT2 inhibitors› rapid shift beyond diabetes to HF and chronic kidney disease (CKD).

Results presented at ESC 2019 from the landmark DAPA-HF trial led to the recent new indication for dapagliflozin (Farxiga, AstraZeneca) for HFrEF in the absence of diabetes. New data will be released in a Sunday Hot Line session looking at the SGLT2 inhibitor among diabetic and nondiabetic CKD patients in DAPA-CKD, which was halted early because of overwhelming efficacy.

As the indication evolved, the SGLT2 inhibitors became truly cardiovascular disease drugs, Roffi said, “so all the cardiologists will have to become familiar with these agents.”

Hot Line 2 will look at the oral cardiac myosin inhibitor mavacamten as an alternative to surgery or percutaneous interventions to treat obstructive hypertrophic cardiomyopathy (HCM). The first-in-class investigational agent is thought to reduce the hypercontractility characteristic of HCM by inhibiting excessive actin-myosin cross-bridges, and it showed promise in the recent phase 2 dose-finding MAVERICK HCM trial.

Investigators are expected to flesh out details from the 251-patient phase 3 EXPLORER-HCM trial, which reported functional and symptomatic gains with once-daily dosing in top-line results released by developer MyoKardia.

“This is really a revolutionary way to treat — hopefully successfully — this very complex disease,” Roffi said.

Rounding out the day is the EAST-AFNET 4 trial, which has been almost 10 years in the making and examined whether early rhythm control with antiarrhythmic drugs and catheter ablation can prevent adverse outcomes in patients with AF compared with usual care alone based on the ESC 2010 AF treatment guidelines.

Hot Line Sessions 4-6, Sunday (14:00 CEST)

Hot Line 4 features the ATPCI study examining the addition of the oral antianginal agent trimetazidine to standard of care in 6007 patients with angina after recent successful percutaneous coronary intervention.

Next up is POPULAR-TAVI looking at aspirin with or without clopidogrel in patients undergoing transcatheter aortic valve implantation (TAVI).

“This is a dilemma that we have every day in the cath lab when we perform a TAVI because we have in front of us patients who, by definition, are at high bleeding risk, are old, and have comorbidities such as renal insufficiencies,” Roffi said. “I like this very much because it’s a very practical study. Whatever the response will be of this study, it will impact clinical practice.”

Hot Line 6 is devoted to the PARALLAX trial comparing sacubitril/valsartan (Entresto, Novartis) with individualized medical therapy in 2569 heart failure with preserved ejection fraction (HFpEF) patients. The primary outcomes are 12-week change in N-terminal pro-brain natriuretic peptide and 24-week change in 6-minute walk distance.

Hot Line Sessions 7-9, Monday (14:00 CEST)

The next day starts with the timely topic of inflammation with the LoDoCo2 trial, in which 5522 patients with stable coronary artery disease were randomized to low-dose colchicine 0.5 mg daily or placebo on top of optimal medical therapy. The primary composite endpoint is CV death, myocardial infarction (MI), ischemic stroke, and ischemia-driven revascularization.

Additional colchicine data also will be presented in a late-breaking science session on Saturday that includes the Australian COPS trial in acute coronary syndromes and new analyses from COLCOT, which demonstrated a 23% reduction in the risk of first ischemic CV events following an MI but no mortality benefit. The low-cost anti-inflammatory drug is also being tested in the mammoth 6000-patient phase 3 Colchicine Coronavirus SARS-CoV-2 (COLCORONA) trial, expected to be completed by the end of September.

Hot Line 8 switches gears with the open-label randomized HOME-PE trial comparing outpatient management of pulmonary embolism (PE) in 1975 select patients based on either the simplified Pulmonary Embolism Severity Index (PESI) score, featured in the most recent ESC acute PE guidelines, or the HESTIA criteria, developed in the HESTIA study. The event-driven primary end point is the composite of recurrent venous thromboembolism, major bleeding, and all-cause death at 30 days.

Last up on Monday is a new analysis on the effects of lowering blood pressure for prevention of CV events across various BP levels from the BPLTTC, which is the largest resource of patient-level randomized clinical trial data, at more than 350,000 patients.


Tuesday Hot Line Sessions 10-12 (14:00 CEST)

The final day of the Congress ends with bang, with the randomized BRACE-CORONA trial examining the effect of continuing or suspending angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) in 700 patients with SARS-CoV-2 infection.

Although several cardiovascular societies including ESC recommend continuation of renin-angiotensin-aldosterone system (RAAS) antagonists in COVID-19 patients, randomized data are lacking and patients have been rattled by early observations suggesting that ACE2 upregulation from RAAS antagonists could increase the risk of developing severe COVID-19.

“BRACE-CORONA will answer the question that everybody’s been asking, whether or not you should continue ARBs and ACE inhibitors in COVID-19 patients. This is a randomized trial and we are all very excited about it,” Roffi said.

COVID-19 will also be discussed in a late-breaking science session on Sunday and in three industry Q&A sessions scattered over the 4 days.

Rounding out the last Hot Line session is IMPACT-AFib, a claims database analysis of early vs delayed educational interventions to improve oral anticoagulation use in a whopping 80,000 patients with AF, and REALITY, a much-needed cost-effectiveness analysis of liberal vs restrictive transfusion strategies in 630 patients with acute MI and anemia.
 

This article first appeared on Medscape.com.

The coronavirus may have quashed plans to socialize and stroll the canals of Amsterdam while at this year’s European Society of Cardiology (ESC) Congress, but organizers are promising a historic digital experience that will “once again, be a celebration of discovery and ground-breaking science.”

“My message — if I have to choose only one thing why ESC 2020 will be a historic event — is that the physician working at the Cleveland Clinic, who was planning to attend this year in Amsterdam, as well as the colleague in a bush hospital in Uganda, who would have never have dreamed to be part of the ESC Congress, both will have for the first time the same access at the same time to knowledge shared at the worldwide leading cardiovascular meeting,” Marco Roffi, MD, co-chair of the scientific program, told theheart.org | Medscape Cardiology.

Taking a page from the American College of Cardiology, which set the virtual bar early in the pandemic with its highly interactive ACC 2020, ESC is taking some 80 Hot Line, clinical practice guidelines, and special sessions live with question-and-answer interactions and panel discussions.

The latest COVID-19 research and four new guideline documents — including recommendations on atrial fibrillation (AF), non-ST-segment elevation acute coronary syndromes, sports cardiology and exercise in patients with cardiovascular disease, and adult congenital heart disease — will be featured at the ESC Congress 2020, scheduled for August 29 to September 1.

Presentations will be shorter and sessions more focused, but more than 500 scientific and educational sessions will be streamed in addition to more than 4000 abstracts available live or on demand as full presentations or e-posters, said Roffi, University Hospital of Geneva, Switzerland.

To pull off the virtual event, a digital studio in Amsterdam will host hundreds of key opinion leaders, and ESC employed more than 1000 satellite studios around the world to gather contributions from scientists and experts with the help of 70 behind-the-scenes experts.

Nevertheless, a “strategic decision” was made to provide free access to the event and its content for 30 days — a strategy that has attracted some 58,000 registrants thus far, up from a record 32,000 attendees at last year’s congress in Paris, Roffi said.

“Obviously, the income will not be the same as a physical congress, but we felt there was too much at stake to make a compromise,” he said. “We believe we are the leaders in cardiovascular meetings in the physical ones and we want to keep this position even in the new era. And we believe this is the beginning of a new era in whatever form will be.”

Hot Line Sessions 1-3, Saturday (14:00 CEST)

The Hot Line sessions will feature 13 clinical trials and kick off with EMPEROR-Reduced, which compared the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance, Boehringer Ingelheim/Eli Lilly) added to standard care in patients with heart failure with reduced ejection fraction (HFrEF), with and without diabetes.

Eli Lilly and Boehringer Ingelheim already announced the trial met its composite primary endpoint of reducing cardiovascular (CV) death or HF hospitalization risk but the details will be important given the SGLT2 inhibitors› rapid shift beyond diabetes to HF and chronic kidney disease (CKD).

Results presented at ESC 2019 from the landmark DAPA-HF trial led to the recent new indication for dapagliflozin (Farxiga, AstraZeneca) for HFrEF in the absence of diabetes. New data will be released in a Sunday Hot Line session looking at the SGLT2 inhibitor among diabetic and nondiabetic CKD patients in DAPA-CKD, which was halted early because of overwhelming efficacy.

As the indication evolved, the SGLT2 inhibitors became truly cardiovascular disease drugs, Roffi said, “so all the cardiologists will have to become familiar with these agents.”

Hot Line 2 will look at the oral cardiac myosin inhibitor mavacamten as an alternative to surgery or percutaneous interventions to treat obstructive hypertrophic cardiomyopathy (HCM). The first-in-class investigational agent is thought to reduce the hypercontractility characteristic of HCM by inhibiting excessive actin-myosin cross-bridges, and it showed promise in the recent phase 2 dose-finding MAVERICK HCM trial.

Investigators are expected to flesh out details from the 251-patient phase 3 EXPLORER-HCM trial, which reported functional and symptomatic gains with once-daily dosing in top-line results released by developer MyoKardia.

“This is really a revolutionary way to treat — hopefully successfully — this very complex disease,” Roffi said.

Rounding out the day is the EAST-AFNET 4 trial, which has been almost 10 years in the making and examined whether early rhythm control with antiarrhythmic drugs and catheter ablation can prevent adverse outcomes in patients with AF compared with usual care alone based on the ESC 2010 AF treatment guidelines.

Hot Line Sessions 4-6, Sunday (14:00 CEST)

Hot Line 4 features the ATPCI study examining the addition of the oral antianginal agent trimetazidine to standard of care in 6007 patients with angina after recent successful percutaneous coronary intervention.

Next up is POPULAR-TAVI looking at aspirin with or without clopidogrel in patients undergoing transcatheter aortic valve implantation (TAVI).

“This is a dilemma that we have every day in the cath lab when we perform a TAVI because we have in front of us patients who, by definition, are at high bleeding risk, are old, and have comorbidities such as renal insufficiencies,” Roffi said. “I like this very much because it’s a very practical study. Whatever the response will be of this study, it will impact clinical practice.”

Hot Line 6 is devoted to the PARALLAX trial comparing sacubitril/valsartan (Entresto, Novartis) with individualized medical therapy in 2569 heart failure with preserved ejection fraction (HFpEF) patients. The primary outcomes are 12-week change in N-terminal pro-brain natriuretic peptide and 24-week change in 6-minute walk distance.

Hot Line Sessions 7-9, Monday (14:00 CEST)

The next day starts with the timely topic of inflammation with the LoDoCo2 trial, in which 5522 patients with stable coronary artery disease were randomized to low-dose colchicine 0.5 mg daily or placebo on top of optimal medical therapy. The primary composite endpoint is CV death, myocardial infarction (MI), ischemic stroke, and ischemia-driven revascularization.

Additional colchicine data also will be presented in a late-breaking science session on Saturday that includes the Australian COPS trial in acute coronary syndromes and new analyses from COLCOT, which demonstrated a 23% reduction in the risk of first ischemic CV events following an MI but no mortality benefit. The low-cost anti-inflammatory drug is also being tested in the mammoth 6000-patient phase 3 Colchicine Coronavirus SARS-CoV-2 (COLCORONA) trial, expected to be completed by the end of September.

Hot Line 8 switches gears with the open-label randomized HOME-PE trial comparing outpatient management of pulmonary embolism (PE) in 1975 select patients based on either the simplified Pulmonary Embolism Severity Index (PESI) score, featured in the most recent ESC acute PE guidelines, or the HESTIA criteria, developed in the HESTIA study. The event-driven primary end point is the composite of recurrent venous thromboembolism, major bleeding, and all-cause death at 30 days.

Last up on Monday is a new analysis on the effects of lowering blood pressure for prevention of CV events across various BP levels from the BPLTTC, which is the largest resource of patient-level randomized clinical trial data, at more than 350,000 patients.


Tuesday Hot Line Sessions 10-12 (14:00 CEST)

The final day of the Congress ends with bang, with the randomized BRACE-CORONA trial examining the effect of continuing or suspending angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) in 700 patients with SARS-CoV-2 infection.

Although several cardiovascular societies including ESC recommend continuation of renin-angiotensin-aldosterone system (RAAS) antagonists in COVID-19 patients, randomized data are lacking and patients have been rattled by early observations suggesting that ACE2 upregulation from RAAS antagonists could increase the risk of developing severe COVID-19.

“BRACE-CORONA will answer the question that everybody’s been asking, whether or not you should continue ARBs and ACE inhibitors in COVID-19 patients. This is a randomized trial and we are all very excited about it,” Roffi said.

COVID-19 will also be discussed in a late-breaking science session on Sunday and in three industry Q&A sessions scattered over the 4 days.

Rounding out the last Hot Line session is IMPACT-AFib, a claims database analysis of early vs delayed educational interventions to improve oral anticoagulation use in a whopping 80,000 patients with AF, and REALITY, a much-needed cost-effectiveness analysis of liberal vs restrictive transfusion strategies in 630 patients with acute MI and anemia.
 

This article first appeared on Medscape.com.

The coronavirus may have quashed plans to socialize and stroll the canals of Amsterdam while at this year’s European Society of Cardiology (ESC) Congress, but organizers are promising a historic digital experience that will “once again, be a celebration of discovery and ground-breaking science.”

“My message — if I have to choose only one thing why ESC 2020 will be a historic event — is that the physician working at the Cleveland Clinic, who was planning to attend this year in Amsterdam, as well as the colleague in a bush hospital in Uganda, who would have never have dreamed to be part of the ESC Congress, both will have for the first time the same access at the same time to knowledge shared at the worldwide leading cardiovascular meeting,” Marco Roffi, MD, co-chair of the scientific program, told theheart.org | Medscape Cardiology.

Taking a page from the American College of Cardiology, which set the virtual bar early in the pandemic with its highly interactive ACC 2020, ESC is taking some 80 Hot Line, clinical practice guidelines, and special sessions live with question-and-answer interactions and panel discussions.

The latest COVID-19 research and four new guideline documents — including recommendations on atrial fibrillation (AF), non-ST-segment elevation acute coronary syndromes, sports cardiology and exercise in patients with cardiovascular disease, and adult congenital heart disease — will be featured at the ESC Congress 2020, scheduled for August 29 to September 1.

Presentations will be shorter and sessions more focused, but more than 500 scientific and educational sessions will be streamed in addition to more than 4000 abstracts available live or on demand as full presentations or e-posters, said Roffi, University Hospital of Geneva, Switzerland.

To pull off the virtual event, a digital studio in Amsterdam will host hundreds of key opinion leaders, and ESC employed more than 1000 satellite studios around the world to gather contributions from scientists and experts with the help of 70 behind-the-scenes experts.

Nevertheless, a “strategic decision” was made to provide free access to the event and its content for 30 days — a strategy that has attracted some 58,000 registrants thus far, up from a record 32,000 attendees at last year’s congress in Paris, Roffi said.

“Obviously, the income will not be the same as a physical congress, but we felt there was too much at stake to make a compromise,” he said. “We believe we are the leaders in cardiovascular meetings in the physical ones and we want to keep this position even in the new era. And we believe this is the beginning of a new era in whatever form will be.”

Hot Line Sessions 1-3, Saturday (14:00 CEST)

The Hot Line sessions will feature 13 clinical trials and kick off with EMPEROR-Reduced, which compared the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin (Jardiance, Boehringer Ingelheim/Eli Lilly) added to standard care in patients with heart failure with reduced ejection fraction (HFrEF), with and without diabetes.

Eli Lilly and Boehringer Ingelheim already announced the trial met its composite primary endpoint of reducing cardiovascular (CV) death or HF hospitalization risk but the details will be important given the SGLT2 inhibitors› rapid shift beyond diabetes to HF and chronic kidney disease (CKD).

Results presented at ESC 2019 from the landmark DAPA-HF trial led to the recent new indication for dapagliflozin (Farxiga, AstraZeneca) for HFrEF in the absence of diabetes. New data will be released in a Sunday Hot Line session looking at the SGLT2 inhibitor among diabetic and nondiabetic CKD patients in DAPA-CKD, which was halted early because of overwhelming efficacy.

As the indication evolved, the SGLT2 inhibitors became truly cardiovascular disease drugs, Roffi said, “so all the cardiologists will have to become familiar with these agents.”

Hot Line 2 will look at the oral cardiac myosin inhibitor mavacamten as an alternative to surgery or percutaneous interventions to treat obstructive hypertrophic cardiomyopathy (HCM). The first-in-class investigational agent is thought to reduce the hypercontractility characteristic of HCM by inhibiting excessive actin-myosin cross-bridges, and it showed promise in the recent phase 2 dose-finding MAVERICK HCM trial.

Investigators are expected to flesh out details from the 251-patient phase 3 EXPLORER-HCM trial, which reported functional and symptomatic gains with once-daily dosing in top-line results released by developer MyoKardia.

“This is really a revolutionary way to treat — hopefully successfully — this very complex disease,” Roffi said.

Rounding out the day is the EAST-AFNET 4 trial, which has been almost 10 years in the making and examined whether early rhythm control with antiarrhythmic drugs and catheter ablation can prevent adverse outcomes in patients with AF compared with usual care alone based on the ESC 2010 AF treatment guidelines.

Hot Line Sessions 4-6, Sunday (14:00 CEST)

Hot Line 4 features the ATPCI study examining the addition of the oral antianginal agent trimetazidine to standard of care in 6007 patients with angina after recent successful percutaneous coronary intervention.

Next up is POPULAR-TAVI looking at aspirin with or without clopidogrel in patients undergoing transcatheter aortic valve implantation (TAVI).

“This is a dilemma that we have every day in the cath lab when we perform a TAVI because we have in front of us patients who, by definition, are at high bleeding risk, are old, and have comorbidities such as renal insufficiencies,” Roffi said. “I like this very much because it’s a very practical study. Whatever the response will be of this study, it will impact clinical practice.”

Hot Line 6 is devoted to the PARALLAX trial comparing sacubitril/valsartan (Entresto, Novartis) with individualized medical therapy in 2569 heart failure with preserved ejection fraction (HFpEF) patients. The primary outcomes are 12-week change in N-terminal pro-brain natriuretic peptide and 24-week change in 6-minute walk distance.

Hot Line Sessions 7-9, Monday (14:00 CEST)

The next day starts with the timely topic of inflammation with the LoDoCo2 trial, in which 5522 patients with stable coronary artery disease were randomized to low-dose colchicine 0.5 mg daily or placebo on top of optimal medical therapy. The primary composite endpoint is CV death, myocardial infarction (MI), ischemic stroke, and ischemia-driven revascularization.

Additional colchicine data also will be presented in a late-breaking science session on Saturday that includes the Australian COPS trial in acute coronary syndromes and new analyses from COLCOT, which demonstrated a 23% reduction in the risk of first ischemic CV events following an MI but no mortality benefit. The low-cost anti-inflammatory drug is also being tested in the mammoth 6000-patient phase 3 Colchicine Coronavirus SARS-CoV-2 (COLCORONA) trial, expected to be completed by the end of September.

Hot Line 8 switches gears with the open-label randomized HOME-PE trial comparing outpatient management of pulmonary embolism (PE) in 1975 select patients based on either the simplified Pulmonary Embolism Severity Index (PESI) score, featured in the most recent ESC acute PE guidelines, or the HESTIA criteria, developed in the HESTIA study. The event-driven primary end point is the composite of recurrent venous thromboembolism, major bleeding, and all-cause death at 30 days.

Last up on Monday is a new analysis on the effects of lowering blood pressure for prevention of CV events across various BP levels from the BPLTTC, which is the largest resource of patient-level randomized clinical trial data, at more than 350,000 patients.


Tuesday Hot Line Sessions 10-12 (14:00 CEST)

The final day of the Congress ends with bang, with the randomized BRACE-CORONA trial examining the effect of continuing or suspending angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blockers (ARBs) in 700 patients with SARS-CoV-2 infection.

Although several cardiovascular societies including ESC recommend continuation of renin-angiotensin-aldosterone system (RAAS) antagonists in COVID-19 patients, randomized data are lacking and patients have been rattled by early observations suggesting that ACE2 upregulation from RAAS antagonists could increase the risk of developing severe COVID-19.

“BRACE-CORONA will answer the question that everybody’s been asking, whether or not you should continue ARBs and ACE inhibitors in COVID-19 patients. This is a randomized trial and we are all very excited about it,” Roffi said.

COVID-19 will also be discussed in a late-breaking science session on Sunday and in three industry Q&A sessions scattered over the 4 days.

Rounding out the last Hot Line session is IMPACT-AFib, a claims database analysis of early vs delayed educational interventions to improve oral anticoagulation use in a whopping 80,000 patients with AF, and REALITY, a much-needed cost-effectiveness analysis of liberal vs restrictive transfusion strategies in 630 patients with acute MI and anemia.
 

This article first appeared on Medscape.com.

A machine-learning model that uses readily available clinical and electrocardiography data may have the potential to identify left ventricular (LV) diastolic dysfunction, a key biomarker in predicting heart failure, without echocardiography, but a workable clinical platform is still far off, a team of North American researchers reported.

“This cost-effective strategy may be a valuable first clinical step for assessing the presence of LV dysfunction and may potentially aid in the early diagnosis and management of heart failure patients,” Nobuyuki Kagiyama, MD, PhD, of West Virginia University, Morgantown, and colleagues, wrote in the Journal of the American Academy of Cardiology.

The researchers reported on a multicenter, prospective study that evaluated 1,202 patients from three centers in the United States and one in Canada. To develop machine-learning models, the study pooled 814 patients from the U.S. institutions as an internal cohort. They were then randomly divided into a training set and an internal test set on an 80:20 basis (651 and 163). The 388 Canadian patients were reserved as an external set to test the model.

All patients had 12-lead ECG and simultaneous body surface signal-processed ECG (spECG) along with comprehensive two-dimensional Doppler ECG on the same day.
 

How the model works

The machine-learning model estimated echocardiographic LV relaxation velocities (e’) values using traditional ECG and spECG features. The model also took into account 10 basic clinical features: age; sex; systolic and diastolic blood pressure; and comorbid conditions such as cerebrovascular and cardiovascular disease, diabetes, hypertension, dyslipidemia, and chronic kidney disease.

Patient characteristics were starkly different between the internal (United States) and external (Canadian) cohorts, with the latter being 10 years older on average (65 vs. 44; P < .001), predominantly male (58.2% vs. 47.3%; P < .001) and with significantly lower rates of coronary artery disease (1.8% vs. 21.1%; P < .001), although average blood pressure was similar between the two groups.

The study used area under the curve (AUC) to calculate the predictability of the machine-learning estimated e’ values versus the guideline-based reduced e’, finding close correlation between the internal (AUC, 0.83; sensitivity, 78%; specificity, 77%; negative predictive value, 73%; and positive predictive value, 82%) and external test sets (AUC, 0.84; sensitivity, 90%; specificity, 61%; NPV, 81%; and PPV, 77%).

Similar variations between the two cohorts were reported for global LV diastolic dysfunction and reduced LV ejection fraction.

The final model used 18 features in all, including 3 clinical features (age, dyslipidemia, and hypertension), 7 scores from spECG features, and 8 from traditional ECG features.
 

Interpreting the results

Dr. Kagiyama and colleagues noted that, because impaired myocardial relaxation is an early sign of cardiac tissue deterioration, screening for it can aid in early detection of subclinical LVDD and earlier treatment for hypertension and diabetes. But they acknowledged that further studies are needed.

In an invited editorial, Khurram Nasir, MD, MPH, MSc, of Houston Methodist DeBakey Heart and Vascular Center and Rohan Khera, MD, MS, of Yale University, New Haven, Conn., wrote that the machine-learning model has a way to go.

They noted that the 73%-77% accuracy of the model in identifying diastolic dysfunction impedes its imminent use. “Although we are excited about the prospects of such developments, we hold out for better evidence for their actual use,” they wrote, adding that the algorithms have limited use in the clinic because most patients already get “definitive testing” if they need it.

Developing a machine-learning model that obviates the need for ECG for evaluating LV diastolic dysfunction seems dubious at this time, said Luigi Di Biase, MD, PhD, section head of electrophysiology and director of arrhythmia services at Montefiore Medical Center and professor at Albert Einstein College of Medicine, both in New York. “The echo is not a difficult test. It’s the most proven usable tool that we have in cardiology because it’s easy to reproduce, low cost, and noninvasive – so we have all that we want in medicine.”

But machine learning does have potential, added Dr. Di Biase, who’s also a member of the American College of Cardiology’s Electrophysiology Section Leadership Council. “If this application could predict the people that would develop diastolic dysfunction that leads to heart failure – because an echo at that time may be negative but there may be other features that tell me this patient will develop disease – then it would have a much different clinical impact.”

The National Science Foundation provided funding for the study. Heart Test Laboratories, doing business as Heart Sciences, provided funding and spECG devices. Dr. Kagiyama reported receiving a research grant from Hitachi Healthcare. A coauthor disclosed financial relationships with Heart Sciences, Ultronics, and Kencor Health.

Dr. Nasir, Dr. Khera, and Dr. Di Biase have no relevant financial relationships to disclose.

SOURCE: Kagiyama N et al. J Am Coll Cardiol. 2020;76:930-41.

A machine-learning model that uses readily available clinical and electrocardiography data may have the potential to identify left ventricular (LV) diastolic dysfunction, a key biomarker in predicting heart failure, without echocardiography, but a workable clinical platform is still far off, a team of North American researchers reported.

“This cost-effective strategy may be a valuable first clinical step for assessing the presence of LV dysfunction and may potentially aid in the early diagnosis and management of heart failure patients,” Nobuyuki Kagiyama, MD, PhD, of West Virginia University, Morgantown, and colleagues, wrote in the Journal of the American Academy of Cardiology.

The researchers reported on a multicenter, prospective study that evaluated 1,202 patients from three centers in the United States and one in Canada. To develop machine-learning models, the study pooled 814 patients from the U.S. institutions as an internal cohort. They were then randomly divided into a training set and an internal test set on an 80:20 basis (651 and 163). The 388 Canadian patients were reserved as an external set to test the model.

All patients had 12-lead ECG and simultaneous body surface signal-processed ECG (spECG) along with comprehensive two-dimensional Doppler ECG on the same day.
 

How the model works

The machine-learning model estimated echocardiographic LV relaxation velocities (e’) values using traditional ECG and spECG features. The model also took into account 10 basic clinical features: age; sex; systolic and diastolic blood pressure; and comorbid conditions such as cerebrovascular and cardiovascular disease, diabetes, hypertension, dyslipidemia, and chronic kidney disease.

Patient characteristics were starkly different between the internal (United States) and external (Canadian) cohorts, with the latter being 10 years older on average (65 vs. 44; P < .001), predominantly male (58.2% vs. 47.3%; P < .001) and with significantly lower rates of coronary artery disease (1.8% vs. 21.1%; P < .001), although average blood pressure was similar between the two groups.

The study used area under the curve (AUC) to calculate the predictability of the machine-learning estimated e’ values versus the guideline-based reduced e’, finding close correlation between the internal (AUC, 0.83; sensitivity, 78%; specificity, 77%; negative predictive value, 73%; and positive predictive value, 82%) and external test sets (AUC, 0.84; sensitivity, 90%; specificity, 61%; NPV, 81%; and PPV, 77%).

Similar variations between the two cohorts were reported for global LV diastolic dysfunction and reduced LV ejection fraction.

The final model used 18 features in all, including 3 clinical features (age, dyslipidemia, and hypertension), 7 scores from spECG features, and 8 from traditional ECG features.
 

Interpreting the results

Dr. Kagiyama and colleagues noted that, because impaired myocardial relaxation is an early sign of cardiac tissue deterioration, screening for it can aid in early detection of subclinical LVDD and earlier treatment for hypertension and diabetes. But they acknowledged that further studies are needed.

In an invited editorial, Khurram Nasir, MD, MPH, MSc, of Houston Methodist DeBakey Heart and Vascular Center and Rohan Khera, MD, MS, of Yale University, New Haven, Conn., wrote that the machine-learning model has a way to go.

They noted that the 73%-77% accuracy of the model in identifying diastolic dysfunction impedes its imminent use. “Although we are excited about the prospects of such developments, we hold out for better evidence for their actual use,” they wrote, adding that the algorithms have limited use in the clinic because most patients already get “definitive testing” if they need it.

Developing a machine-learning model that obviates the need for ECG for evaluating LV diastolic dysfunction seems dubious at this time, said Luigi Di Biase, MD, PhD, section head of electrophysiology and director of arrhythmia services at Montefiore Medical Center and professor at Albert Einstein College of Medicine, both in New York. “The echo is not a difficult test. It’s the most proven usable tool that we have in cardiology because it’s easy to reproduce, low cost, and noninvasive – so we have all that we want in medicine.”

But machine learning does have potential, added Dr. Di Biase, who’s also a member of the American College of Cardiology’s Electrophysiology Section Leadership Council. “If this application could predict the people that would develop diastolic dysfunction that leads to heart failure – because an echo at that time may be negative but there may be other features that tell me this patient will develop disease – then it would have a much different clinical impact.”

The National Science Foundation provided funding for the study. Heart Test Laboratories, doing business as Heart Sciences, provided funding and spECG devices. Dr. Kagiyama reported receiving a research grant from Hitachi Healthcare. A coauthor disclosed financial relationships with Heart Sciences, Ultronics, and Kencor Health.

Dr. Nasir, Dr. Khera, and Dr. Di Biase have no relevant financial relationships to disclose.

SOURCE: Kagiyama N et al. J Am Coll Cardiol. 2020;76:930-41.

A machine-learning model that uses readily available clinical and electrocardiography data may have the potential to identify left ventricular (LV) diastolic dysfunction, a key biomarker in predicting heart failure, without echocardiography, but a workable clinical platform is still far off, a team of North American researchers reported.

“This cost-effective strategy may be a valuable first clinical step for assessing the presence of LV dysfunction and may potentially aid in the early diagnosis and management of heart failure patients,” Nobuyuki Kagiyama, MD, PhD, of West Virginia University, Morgantown, and colleagues, wrote in the Journal of the American Academy of Cardiology.

The researchers reported on a multicenter, prospective study that evaluated 1,202 patients from three centers in the United States and one in Canada. To develop machine-learning models, the study pooled 814 patients from the U.S. institutions as an internal cohort. They were then randomly divided into a training set and an internal test set on an 80:20 basis (651 and 163). The 388 Canadian patients were reserved as an external set to test the model.

All patients had 12-lead ECG and simultaneous body surface signal-processed ECG (spECG) along with comprehensive two-dimensional Doppler ECG on the same day.
 

How the model works

The machine-learning model estimated echocardiographic LV relaxation velocities (e’) values using traditional ECG and spECG features. The model also took into account 10 basic clinical features: age; sex; systolic and diastolic blood pressure; and comorbid conditions such as cerebrovascular and cardiovascular disease, diabetes, hypertension, dyslipidemia, and chronic kidney disease.

Patient characteristics were starkly different between the internal (United States) and external (Canadian) cohorts, with the latter being 10 years older on average (65 vs. 44; P < .001), predominantly male (58.2% vs. 47.3%; P < .001) and with significantly lower rates of coronary artery disease (1.8% vs. 21.1%; P < .001), although average blood pressure was similar between the two groups.

The study used area under the curve (AUC) to calculate the predictability of the machine-learning estimated e’ values versus the guideline-based reduced e’, finding close correlation between the internal (AUC, 0.83; sensitivity, 78%; specificity, 77%; negative predictive value, 73%; and positive predictive value, 82%) and external test sets (AUC, 0.84; sensitivity, 90%; specificity, 61%; NPV, 81%; and PPV, 77%).

Similar variations between the two cohorts were reported for global LV diastolic dysfunction and reduced LV ejection fraction.

The final model used 18 features in all, including 3 clinical features (age, dyslipidemia, and hypertension), 7 scores from spECG features, and 8 from traditional ECG features.
 

Interpreting the results

Dr. Kagiyama and colleagues noted that, because impaired myocardial relaxation is an early sign of cardiac tissue deterioration, screening for it can aid in early detection of subclinical LVDD and earlier treatment for hypertension and diabetes. But they acknowledged that further studies are needed.

In an invited editorial, Khurram Nasir, MD, MPH, MSc, of Houston Methodist DeBakey Heart and Vascular Center and Rohan Khera, MD, MS, of Yale University, New Haven, Conn., wrote that the machine-learning model has a way to go.

They noted that the 73%-77% accuracy of the model in identifying diastolic dysfunction impedes its imminent use. “Although we are excited about the prospects of such developments, we hold out for better evidence for their actual use,” they wrote, adding that the algorithms have limited use in the clinic because most patients already get “definitive testing” if they need it.

Developing a machine-learning model that obviates the need for ECG for evaluating LV diastolic dysfunction seems dubious at this time, said Luigi Di Biase, MD, PhD, section head of electrophysiology and director of arrhythmia services at Montefiore Medical Center and professor at Albert Einstein College of Medicine, both in New York. “The echo is not a difficult test. It’s the most proven usable tool that we have in cardiology because it’s easy to reproduce, low cost, and noninvasive – so we have all that we want in medicine.”

But machine learning does have potential, added Dr. Di Biase, who’s also a member of the American College of Cardiology’s Electrophysiology Section Leadership Council. “If this application could predict the people that would develop diastolic dysfunction that leads to heart failure – because an echo at that time may be negative but there may be other features that tell me this patient will develop disease – then it would have a much different clinical impact.”

The National Science Foundation provided funding for the study. Heart Test Laboratories, doing business as Heart Sciences, provided funding and spECG devices. Dr. Kagiyama reported receiving a research grant from Hitachi Healthcare. A coauthor disclosed financial relationships with Heart Sciences, Ultronics, and Kencor Health.

Dr. Nasir, Dr. Khera, and Dr. Di Biase have no relevant financial relationships to disclose.

SOURCE: Kagiyama N et al. J Am Coll Cardiol. 2020;76:930-41.

The COVID-19 pandemic has created unique and unprecedented challenges for the clinical research world, with potentially long-lasting consequences.

A new analysis of the extent of disruption shows that the average rate of stopped trials nearly doubled during the first 5 months of 2020, compared with the 2 previous years.

“Typically, clinical research precedes clinical practice by several years, so this disruption we’re seeing now will be felt for many years to come,” said Mario Guadino, MD, of Weill Cornell Medicine, New York.

The analysis was published online July 31 in the Journal of the American College of Cardiology.

The researchers used Python software to query meta-data from all trials reported on ClinicalTrials.gov. Of 321,218 non-COVID-19 trials queried, 28,672 (8.9%) were reported as stopped, defined as a switch in trial status from “recruiting” to “active and not recruiting,” “completed,” “suspended,” “terminated,” or “withdrawn.”

The average rate of discontinuation was 638 trials/month from January 2017 to December 2019, rising to 1,147 trials/month between January 2020 and May 2020 (P < .001 for trend).

Once stopped (as opposed to paused), restarting a trial is a tricky prospect, said Dr. Guadino. “You can’t stop and restart a trial because it creates a lot of issues, so we should expect many of these stopped trials to never be completed.”

He said these figures likely represent an underestimate of the true impact of the pandemic because there is typically a delay in the updating of the status of a trial on ClinicalTrials.gov.

“We are likely looking only at the tip of the iceberg,” he added. “My impression is that the number of trials that will be affected and even canceled will be very high.”

As for cardiology trials, one of the report’s authors, Deepak Bhatt, MD, Brigham and Women’s Hospital, Boston, without naming specific trials, had this to say: “Several cardiovascular trials were paused, and some were permanently discontinued. It may be a while before we fully appreciate just how much information was lost and how much might be salvaged.”

He’s not worried, however, that upcoming cardiology meetings, which have moved online for the foreseeable future, might get a bit boring. “Fortunately, there is enough good work going on in the cardiovascular and cardiometabolic space that I believe there will still be ample randomized and observational data of high quality to present at the major meetings,” Dr. Bhatt said in an email.

The researchers found a weak correlation between the national population-adjusted numbers of COVID-19 cases and the proportion of non-COVID-19 trials stopped by country.

Even for trials that stopped recruiting for a period of time but are continuing, there are myriad issues involving compliance, data integrity, statistical interpretability, etc.

“Even if there is just a temporary disruption, that will most likely lead to reduced enrollment, missing follow-up visits, and protocol deviations, all things that would be red flags during normal times and impact the quality of the clinical trial,” said Dr. Guadino.

“And if your outcome of interest is mortality, well, how exactly do you measure that during a pandemic?” he added.
 

Stopped for lack of funding

Besides the logistical issues, another reason trials may be in jeopardy is funding. A warning early in the pandemic from the research community in Canada that funding was quickly drying up, leaving both jobs and data at risk, led to an aid package from the government to keep the lights on.

The National Institutes of Health (NIH), the Canadian Institutes of Health Research, and similar groups “have devoted large sums of money to research in COVID, which is of course very appropriate, but that clearly reduces the amount of funding that is available for other researchers,” said Dr. Guadino.

Some funding agencies around the world have canceled or put on hold all non-COVID-19 clinical trials still at the design state, Dr. Guadino said in an interview.

The NIH, he stressed, has not canceled funding and has been “extremely open and cooperative” in trying to help trialists navigate the many COVID-generated issues. They’ve even issued guidance on how to manage trials during COVID-19.

Of note, in the survey, the majority of the trials stopped (95.4%) had nongovernmental funding.

“The data are not very granular, so we’re only able to make some very simple, descriptive comments, but it does seem like the more fragile trials – those that are smaller and industry-funded – are the ones more likely to be disrupted,” said Dr. Guadino.

In some cases, he said, priorities have shifted to COVID-19. “If a small company is sponsoring a trial and they decide they want to sponsor something related to COVID, or they realize that because of the slow enrollment, the trial becomes too expensive to complete, they may opt to just abandon it,” said Dr. Guadino.

At what cost? It will take years to sort that out, he said.

This study received no funding. Dr. Guadino and Dr. Bhatt are both active trialists, participating in both industry- and government-sponsored clinical research.
 

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

The COVID-19 pandemic has created unique and unprecedented challenges for the clinical research world, with potentially long-lasting consequences.

A new analysis of the extent of disruption shows that the average rate of stopped trials nearly doubled during the first 5 months of 2020, compared with the 2 previous years.

“Typically, clinical research precedes clinical practice by several years, so this disruption we’re seeing now will be felt for many years to come,” said Mario Guadino, MD, of Weill Cornell Medicine, New York.

The analysis was published online July 31 in the Journal of the American College of Cardiology.

The researchers used Python software to query meta-data from all trials reported on ClinicalTrials.gov. Of 321,218 non-COVID-19 trials queried, 28,672 (8.9%) were reported as stopped, defined as a switch in trial status from “recruiting” to “active and not recruiting,” “completed,” “suspended,” “terminated,” or “withdrawn.”

The average rate of discontinuation was 638 trials/month from January 2017 to December 2019, rising to 1,147 trials/month between January 2020 and May 2020 (P < .001 for trend).

Once stopped (as opposed to paused), restarting a trial is a tricky prospect, said Dr. Guadino. “You can’t stop and restart a trial because it creates a lot of issues, so we should expect many of these stopped trials to never be completed.”

He said these figures likely represent an underestimate of the true impact of the pandemic because there is typically a delay in the updating of the status of a trial on ClinicalTrials.gov.

“We are likely looking only at the tip of the iceberg,” he added. “My impression is that the number of trials that will be affected and even canceled will be very high.”

As for cardiology trials, one of the report’s authors, Deepak Bhatt, MD, Brigham and Women’s Hospital, Boston, without naming specific trials, had this to say: “Several cardiovascular trials were paused, and some were permanently discontinued. It may be a while before we fully appreciate just how much information was lost and how much might be salvaged.”

He’s not worried, however, that upcoming cardiology meetings, which have moved online for the foreseeable future, might get a bit boring. “Fortunately, there is enough good work going on in the cardiovascular and cardiometabolic space that I believe there will still be ample randomized and observational data of high quality to present at the major meetings,” Dr. Bhatt said in an email.

The researchers found a weak correlation between the national population-adjusted numbers of COVID-19 cases and the proportion of non-COVID-19 trials stopped by country.

Even for trials that stopped recruiting for a period of time but are continuing, there are myriad issues involving compliance, data integrity, statistical interpretability, etc.

“Even if there is just a temporary disruption, that will most likely lead to reduced enrollment, missing follow-up visits, and protocol deviations, all things that would be red flags during normal times and impact the quality of the clinical trial,” said Dr. Guadino.

“And if your outcome of interest is mortality, well, how exactly do you measure that during a pandemic?” he added.
 

Stopped for lack of funding

Besides the logistical issues, another reason trials may be in jeopardy is funding. A warning early in the pandemic from the research community in Canada that funding was quickly drying up, leaving both jobs and data at risk, led to an aid package from the government to keep the lights on.

The National Institutes of Health (NIH), the Canadian Institutes of Health Research, and similar groups “have devoted large sums of money to research in COVID, which is of course very appropriate, but that clearly reduces the amount of funding that is available for other researchers,” said Dr. Guadino.

Some funding agencies around the world have canceled or put on hold all non-COVID-19 clinical trials still at the design state, Dr. Guadino said in an interview.

The NIH, he stressed, has not canceled funding and has been “extremely open and cooperative” in trying to help trialists navigate the many COVID-generated issues. They’ve even issued guidance on how to manage trials during COVID-19.

Of note, in the survey, the majority of the trials stopped (95.4%) had nongovernmental funding.

“The data are not very granular, so we’re only able to make some very simple, descriptive comments, but it does seem like the more fragile trials – those that are smaller and industry-funded – are the ones more likely to be disrupted,” said Dr. Guadino.

In some cases, he said, priorities have shifted to COVID-19. “If a small company is sponsoring a trial and they decide they want to sponsor something related to COVID, or they realize that because of the slow enrollment, the trial becomes too expensive to complete, they may opt to just abandon it,” said Dr. Guadino.

At what cost? It will take years to sort that out, he said.

This study received no funding. Dr. Guadino and Dr. Bhatt are both active trialists, participating in both industry- and government-sponsored clinical research.
 

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

The COVID-19 pandemic has created unique and unprecedented challenges for the clinical research world, with potentially long-lasting consequences.

A new analysis of the extent of disruption shows that the average rate of stopped trials nearly doubled during the first 5 months of 2020, compared with the 2 previous years.

“Typically, clinical research precedes clinical practice by several years, so this disruption we’re seeing now will be felt for many years to come,” said Mario Guadino, MD, of Weill Cornell Medicine, New York.

The analysis was published online July 31 in the Journal of the American College of Cardiology.

The researchers used Python software to query meta-data from all trials reported on ClinicalTrials.gov. Of 321,218 non-COVID-19 trials queried, 28,672 (8.9%) were reported as stopped, defined as a switch in trial status from “recruiting” to “active and not recruiting,” “completed,” “suspended,” “terminated,” or “withdrawn.”

The average rate of discontinuation was 638 trials/month from January 2017 to December 2019, rising to 1,147 trials/month between January 2020 and May 2020 (P < .001 for trend).

Once stopped (as opposed to paused), restarting a trial is a tricky prospect, said Dr. Guadino. “You can’t stop and restart a trial because it creates a lot of issues, so we should expect many of these stopped trials to never be completed.”

He said these figures likely represent an underestimate of the true impact of the pandemic because there is typically a delay in the updating of the status of a trial on ClinicalTrials.gov.

“We are likely looking only at the tip of the iceberg,” he added. “My impression is that the number of trials that will be affected and even canceled will be very high.”

As for cardiology trials, one of the report’s authors, Deepak Bhatt, MD, Brigham and Women’s Hospital, Boston, without naming specific trials, had this to say: “Several cardiovascular trials were paused, and some were permanently discontinued. It may be a while before we fully appreciate just how much information was lost and how much might be salvaged.”

He’s not worried, however, that upcoming cardiology meetings, which have moved online for the foreseeable future, might get a bit boring. “Fortunately, there is enough good work going on in the cardiovascular and cardiometabolic space that I believe there will still be ample randomized and observational data of high quality to present at the major meetings,” Dr. Bhatt said in an email.

The researchers found a weak correlation between the national population-adjusted numbers of COVID-19 cases and the proportion of non-COVID-19 trials stopped by country.

Even for trials that stopped recruiting for a period of time but are continuing, there are myriad issues involving compliance, data integrity, statistical interpretability, etc.

“Even if there is just a temporary disruption, that will most likely lead to reduced enrollment, missing follow-up visits, and protocol deviations, all things that would be red flags during normal times and impact the quality of the clinical trial,” said Dr. Guadino.

“And if your outcome of interest is mortality, well, how exactly do you measure that during a pandemic?” he added.
 

Stopped for lack of funding

Besides the logistical issues, another reason trials may be in jeopardy is funding. A warning early in the pandemic from the research community in Canada that funding was quickly drying up, leaving both jobs and data at risk, led to an aid package from the government to keep the lights on.

The National Institutes of Health (NIH), the Canadian Institutes of Health Research, and similar groups “have devoted large sums of money to research in COVID, which is of course very appropriate, but that clearly reduces the amount of funding that is available for other researchers,” said Dr. Guadino.

Some funding agencies around the world have canceled or put on hold all non-COVID-19 clinical trials still at the design state, Dr. Guadino said in an interview.

The NIH, he stressed, has not canceled funding and has been “extremely open and cooperative” in trying to help trialists navigate the many COVID-generated issues. They’ve even issued guidance on how to manage trials during COVID-19.

Of note, in the survey, the majority of the trials stopped (95.4%) had nongovernmental funding.

“The data are not very granular, so we’re only able to make some very simple, descriptive comments, but it does seem like the more fragile trials – those that are smaller and industry-funded – are the ones more likely to be disrupted,” said Dr. Guadino.

In some cases, he said, priorities have shifted to COVID-19. “If a small company is sponsoring a trial and they decide they want to sponsor something related to COVID, or they realize that because of the slow enrollment, the trial becomes too expensive to complete, they may opt to just abandon it,” said Dr. Guadino.

At what cost? It will take years to sort that out, he said.

This study received no funding. Dr. Guadino and Dr. Bhatt are both active trialists, participating in both industry- and government-sponsored clinical research.
 

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

Increasingly recognized as an independent risk factor for new-onset atrial fibrillation (AFib), new research suggests for the first time that nonalcoholic fatty liver disease (NAFLD) also confers a higher risk for arrhythmia recurrence after AFib ablation.

Over 29 months of postablation follow-up, 56% of patients with NAFLD suffered bouts of arrhythmia, compared with 31% of patients without NAFLD, matched on the basis of age, sex, body mass index (BMI), ejection fraction within 5%, and AFib type (P < .0001).

The presence of NAFLD was an independent predictor of arrhythmia recurrence in multivariable analyses adjusted for several confounders, including hemoglobin A1c, BMI, and AFib type (hazard ratio, 3.0; 95% confidence interval, 1.94-4.68).

The association is concerning given that one in four adults in the United States has NAFLD, and up to 6.1 million Americans are estimated to have Afib. Previous studies, such as ARREST-AF and LEGACY, however, have demonstrated the benefits of aggressive preablation cardiometabolic risk factor modification on long-term AFib ablation success.

Indeed, none of the NAFLD patients in the present study who lost at least 10% of their body weight had recurrent arrhythmia, compared with 31% who lost less than 10%, and 91% who gained weight prior to ablation (P < .0001).

All 22 patients whose A1c increased during the 12 months prior to ablation had recurrent arrhythmia, compared with 36% of patients whose A1c improved (P < .0001).

“I don’t think the findings of the study were particularly surprising, given what we know. It’s just further reinforcement of the essential role of risk-factor modification,” lead author Eoin Donnellan, MD, Cleveland Clinic, said in an interview.

The results were published Augus 12 in JACC Clinical Electrophysiology.

For the study, the researchers examined data from 267 consecutive patients with a mean BMI of 32.7 kg/m² who underwent radiofrequency ablation (98%) or cryoablation (2%) at the Cleveland Clinic between January 2013 and December 2017.

All patients were followed for at least 12 months after ablation and had scheduled clinic visits at 3, 6, and 12 months after pulmonary vein isolation, and annually thereafter.

NAFLD was diagnosed in 89 patients prior to ablation on the basis of CT imaging and abdominal ultrasound or MRI. On the basis of NAFLD-Fibrosis Score (NAFLD-FS), 13 patients had a low probability of liver fibrosis (F0-F2), 54 had an indeterminate probability, and 22 a high probability of fibrosis (F3-F4).

Compared with patients with no or early fibrosis (F0-F2), patients with advanced liver fibrosis (F3-F4) had almost a threefold increase in AFib recurrence (82% vs. 31%; P = .003).

“Cardiologists should make an effort to risk-stratify NAFLD patients either by NAFLD-FS or [an] alternative option, such as transient elastography or MR elastography, given these observations, rather than viewing it as either present or absence [sic] and involve expert multidisciplinary team care early in the clinical course of NAFLD patients with evidence of advanced fibrosis,” Dr. Donnellan and colleagues wrote.

Coauthor Thomas G. Cotter, MD, department of gastroenterology and hepatology, University of Chicago, said in an interview that cardiologists could use just the NAFLD-FS as part of an algorithm for an AFib.

“Because if it shows low risk, then it’s very, very likely the patient will be fine,” he said. “To use more advanced noninvasive testing, there are subtleties in the interpretation that would require referral to a liver doctor or a gastroenterologist and the cost of referring might bulk up the costs. But the NAFLD-FS is freely available and is a validated tool.”

Although it hasn’t specifically been validated in patients with AFib, the NAFLD-FS has been shown to correlate with the development of coronary artery disease  (CAD) and was recommended for clinical use in U.S. multisociety guidelines for NAFLD.

The score is calculated using six readily available clinical variables (age, BMI, hyperglycemia or diabetes, AST/ALT, platelets, and albumin). It does not include family history or alcohol consumption, which should be carefully detailed given the large overlap between NAFLD and alcohol-related liver disease, Dr. Cotter observed.

Of note, the study excluded patients with alcohol consumption of more than 30 g/day in men and more than 20 g/day in women, chronic viral hepatitis, Wilson’s disease, and hereditary hemochromatosis.

Finally, CT imaging revealed that epicardial fat volume (EFV) was greater in patients with NAFLD than in those without NAFLD (248 vs. 223 mL; P = .01).

Although increased amounts of epicardial fat have been associated with CAD, there was no significant difference in EFV between patients who did and did not develop recurrent arrhythmia (238 vs. 229 mL; P = .5). Nor was EFV associated with arrhythmia recurrence on Cox proportional hazards analysis (HR, 1.001; P = .17).

“We hypothesized that the increased risk of arrhythmia recurrence may be mediated in part by an increased epicardial fat volume,” Dr. Donnellan said. “The existing literature exploring the link between epicardial fat volume and A[Fib] burden and recurrence is conflicting. But in both this study and our bariatric surgery study, epicardial fat volume was not a significant predictor of arrhythmia recurrence on multivariable analysis.”

It’s likely that the increased recurrence risk is caused by several mechanisms, including NAFLD’s deleterious impact on cardiac structure and function, the bidirectional relationship between NAFLD and sleep apnea, and transcription of proinflammatory cytokines and low-grade systemic inflammation, he suggested.

“Patients with NAFLD represent a particularly high-risk population for arrhythmia recurrence. NAFLD is a reversible disease, and a multidisciplinary approach incorporating dietary and lifestyle interventions should by instituted prior to ablation,” Dr. Donnellan and colleagues concluded.

They noted that serial abdominal imaging to assess for preablation changes in NAFLD was limited in patients and that only 56% of control subjects underwent dedicated abdominal imaging to rule out hepatic steatosis. Also, the heterogeneity of imaging modalities used to diagnose NAFLD may have influenced the results and the study’s single-center, retrospective design limits their generalizability.

The authors reported having no relevant financial relationships.

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

Increasingly recognized as an independent risk factor for new-onset atrial fibrillation (AFib), new research suggests for the first time that nonalcoholic fatty liver disease (NAFLD) also confers a higher risk for arrhythmia recurrence after AFib ablation.

Over 29 months of postablation follow-up, 56% of patients with NAFLD suffered bouts of arrhythmia, compared with 31% of patients without NAFLD, matched on the basis of age, sex, body mass index (BMI), ejection fraction within 5%, and AFib type (P < .0001).

The presence of NAFLD was an independent predictor of arrhythmia recurrence in multivariable analyses adjusted for several confounders, including hemoglobin A1c, BMI, and AFib type (hazard ratio, 3.0; 95% confidence interval, 1.94-4.68).

The association is concerning given that one in four adults in the United States has NAFLD, and up to 6.1 million Americans are estimated to have Afib. Previous studies, such as ARREST-AF and LEGACY, however, have demonstrated the benefits of aggressive preablation cardiometabolic risk factor modification on long-term AFib ablation success.

Indeed, none of the NAFLD patients in the present study who lost at least 10% of their body weight had recurrent arrhythmia, compared with 31% who lost less than 10%, and 91% who gained weight prior to ablation (P < .0001).

All 22 patients whose A1c increased during the 12 months prior to ablation had recurrent arrhythmia, compared with 36% of patients whose A1c improved (P < .0001).

“I don’t think the findings of the study were particularly surprising, given what we know. It’s just further reinforcement of the essential role of risk-factor modification,” lead author Eoin Donnellan, MD, Cleveland Clinic, said in an interview.

The results were published Augus 12 in JACC Clinical Electrophysiology.

For the study, the researchers examined data from 267 consecutive patients with a mean BMI of 32.7 kg/m² who underwent radiofrequency ablation (98%) or cryoablation (2%) at the Cleveland Clinic between January 2013 and December 2017.

All patients were followed for at least 12 months after ablation and had scheduled clinic visits at 3, 6, and 12 months after pulmonary vein isolation, and annually thereafter.

NAFLD was diagnosed in 89 patients prior to ablation on the basis of CT imaging and abdominal ultrasound or MRI. On the basis of NAFLD-Fibrosis Score (NAFLD-FS), 13 patients had a low probability of liver fibrosis (F0-F2), 54 had an indeterminate probability, and 22 a high probability of fibrosis (F3-F4).

Compared with patients with no or early fibrosis (F0-F2), patients with advanced liver fibrosis (F3-F4) had almost a threefold increase in AFib recurrence (82% vs. 31%; P = .003).

“Cardiologists should make an effort to risk-stratify NAFLD patients either by NAFLD-FS or [an] alternative option, such as transient elastography or MR elastography, given these observations, rather than viewing it as either present or absence [sic] and involve expert multidisciplinary team care early in the clinical course of NAFLD patients with evidence of advanced fibrosis,” Dr. Donnellan and colleagues wrote.

Coauthor Thomas G. Cotter, MD, department of gastroenterology and hepatology, University of Chicago, said in an interview that cardiologists could use just the NAFLD-FS as part of an algorithm for an AFib.

“Because if it shows low risk, then it’s very, very likely the patient will be fine,” he said. “To use more advanced noninvasive testing, there are subtleties in the interpretation that would require referral to a liver doctor or a gastroenterologist and the cost of referring might bulk up the costs. But the NAFLD-FS is freely available and is a validated tool.”

Although it hasn’t specifically been validated in patients with AFib, the NAFLD-FS has been shown to correlate with the development of coronary artery disease  (CAD) and was recommended for clinical use in U.S. multisociety guidelines for NAFLD.

The score is calculated using six readily available clinical variables (age, BMI, hyperglycemia or diabetes, AST/ALT, platelets, and albumin). It does not include family history or alcohol consumption, which should be carefully detailed given the large overlap between NAFLD and alcohol-related liver disease, Dr. Cotter observed.

Of note, the study excluded patients with alcohol consumption of more than 30 g/day in men and more than 20 g/day in women, chronic viral hepatitis, Wilson’s disease, and hereditary hemochromatosis.

Finally, CT imaging revealed that epicardial fat volume (EFV) was greater in patients with NAFLD than in those without NAFLD (248 vs. 223 mL; P = .01).

Although increased amounts of epicardial fat have been associated with CAD, there was no significant difference in EFV between patients who did and did not develop recurrent arrhythmia (238 vs. 229 mL; P = .5). Nor was EFV associated with arrhythmia recurrence on Cox proportional hazards analysis (HR, 1.001; P = .17).

“We hypothesized that the increased risk of arrhythmia recurrence may be mediated in part by an increased epicardial fat volume,” Dr. Donnellan said. “The existing literature exploring the link between epicardial fat volume and A[Fib] burden and recurrence is conflicting. But in both this study and our bariatric surgery study, epicardial fat volume was not a significant predictor of arrhythmia recurrence on multivariable analysis.”

It’s likely that the increased recurrence risk is caused by several mechanisms, including NAFLD’s deleterious impact on cardiac structure and function, the bidirectional relationship between NAFLD and sleep apnea, and transcription of proinflammatory cytokines and low-grade systemic inflammation, he suggested.

“Patients with NAFLD represent a particularly high-risk population for arrhythmia recurrence. NAFLD is a reversible disease, and a multidisciplinary approach incorporating dietary and lifestyle interventions should by instituted prior to ablation,” Dr. Donnellan and colleagues concluded.

They noted that serial abdominal imaging to assess for preablation changes in NAFLD was limited in patients and that only 56% of control subjects underwent dedicated abdominal imaging to rule out hepatic steatosis. Also, the heterogeneity of imaging modalities used to diagnose NAFLD may have influenced the results and the study’s single-center, retrospective design limits their generalizability.

The authors reported having no relevant financial relationships.

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

Increasingly recognized as an independent risk factor for new-onset atrial fibrillation (AFib), new research suggests for the first time that nonalcoholic fatty liver disease (NAFLD) also confers a higher risk for arrhythmia recurrence after AFib ablation.

Over 29 months of postablation follow-up, 56% of patients with NAFLD suffered bouts of arrhythmia, compared with 31% of patients without NAFLD, matched on the basis of age, sex, body mass index (BMI), ejection fraction within 5%, and AFib type (P < .0001).

The presence of NAFLD was an independent predictor of arrhythmia recurrence in multivariable analyses adjusted for several confounders, including hemoglobin A1c, BMI, and AFib type (hazard ratio, 3.0; 95% confidence interval, 1.94-4.68).

The association is concerning given that one in four adults in the United States has NAFLD, and up to 6.1 million Americans are estimated to have Afib. Previous studies, such as ARREST-AF and LEGACY, however, have demonstrated the benefits of aggressive preablation cardiometabolic risk factor modification on long-term AFib ablation success.

Indeed, none of the NAFLD patients in the present study who lost at least 10% of their body weight had recurrent arrhythmia, compared with 31% who lost less than 10%, and 91% who gained weight prior to ablation (P < .0001).

All 22 patients whose A1c increased during the 12 months prior to ablation had recurrent arrhythmia, compared with 36% of patients whose A1c improved (P < .0001).

“I don’t think the findings of the study were particularly surprising, given what we know. It’s just further reinforcement of the essential role of risk-factor modification,” lead author Eoin Donnellan, MD, Cleveland Clinic, said in an interview.

The results were published Augus 12 in JACC Clinical Electrophysiology.

For the study, the researchers examined data from 267 consecutive patients with a mean BMI of 32.7 kg/m² who underwent radiofrequency ablation (98%) or cryoablation (2%) at the Cleveland Clinic between January 2013 and December 2017.

All patients were followed for at least 12 months after ablation and had scheduled clinic visits at 3, 6, and 12 months after pulmonary vein isolation, and annually thereafter.

NAFLD was diagnosed in 89 patients prior to ablation on the basis of CT imaging and abdominal ultrasound or MRI. On the basis of NAFLD-Fibrosis Score (NAFLD-FS), 13 patients had a low probability of liver fibrosis (F0-F2), 54 had an indeterminate probability, and 22 a high probability of fibrosis (F3-F4).

Compared with patients with no or early fibrosis (F0-F2), patients with advanced liver fibrosis (F3-F4) had almost a threefold increase in AFib recurrence (82% vs. 31%; P = .003).

“Cardiologists should make an effort to risk-stratify NAFLD patients either by NAFLD-FS or [an] alternative option, such as transient elastography or MR elastography, given these observations, rather than viewing it as either present or absence [sic] and involve expert multidisciplinary team care early in the clinical course of NAFLD patients with evidence of advanced fibrosis,” Dr. Donnellan and colleagues wrote.

Coauthor Thomas G. Cotter, MD, department of gastroenterology and hepatology, University of Chicago, said in an interview that cardiologists could use just the NAFLD-FS as part of an algorithm for an AFib.

“Because if it shows low risk, then it’s very, very likely the patient will be fine,” he said. “To use more advanced noninvasive testing, there are subtleties in the interpretation that would require referral to a liver doctor or a gastroenterologist and the cost of referring might bulk up the costs. But the NAFLD-FS is freely available and is a validated tool.”

Although it hasn’t specifically been validated in patients with AFib, the NAFLD-FS has been shown to correlate with the development of coronary artery disease  (CAD) and was recommended for clinical use in U.S. multisociety guidelines for NAFLD.

The score is calculated using six readily available clinical variables (age, BMI, hyperglycemia or diabetes, AST/ALT, platelets, and albumin). It does not include family history or alcohol consumption, which should be carefully detailed given the large overlap between NAFLD and alcohol-related liver disease, Dr. Cotter observed.

Of note, the study excluded patients with alcohol consumption of more than 30 g/day in men and more than 20 g/day in women, chronic viral hepatitis, Wilson’s disease, and hereditary hemochromatosis.

Finally, CT imaging revealed that epicardial fat volume (EFV) was greater in patients with NAFLD than in those without NAFLD (248 vs. 223 mL; P = .01).

Although increased amounts of epicardial fat have been associated with CAD, there was no significant difference in EFV between patients who did and did not develop recurrent arrhythmia (238 vs. 229 mL; P = .5). Nor was EFV associated with arrhythmia recurrence on Cox proportional hazards analysis (HR, 1.001; P = .17).

“We hypothesized that the increased risk of arrhythmia recurrence may be mediated in part by an increased epicardial fat volume,” Dr. Donnellan said. “The existing literature exploring the link between epicardial fat volume and A[Fib] burden and recurrence is conflicting. But in both this study and our bariatric surgery study, epicardial fat volume was not a significant predictor of arrhythmia recurrence on multivariable analysis.”

It’s likely that the increased recurrence risk is caused by several mechanisms, including NAFLD’s deleterious impact on cardiac structure and function, the bidirectional relationship between NAFLD and sleep apnea, and transcription of proinflammatory cytokines and low-grade systemic inflammation, he suggested.

“Patients with NAFLD represent a particularly high-risk population for arrhythmia recurrence. NAFLD is a reversible disease, and a multidisciplinary approach incorporating dietary and lifestyle interventions should by instituted prior to ablation,” Dr. Donnellan and colleagues concluded.

They noted that serial abdominal imaging to assess for preablation changes in NAFLD was limited in patients and that only 56% of control subjects underwent dedicated abdominal imaging to rule out hepatic steatosis. Also, the heterogeneity of imaging modalities used to diagnose NAFLD may have influenced the results and the study’s single-center, retrospective design limits their generalizability.

The authors reported having no relevant financial relationships.

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

A new analysis from Michigan’s largest health system provides sobering verification of the risks for QT interval prolongation in COVID-19 patients treated with hydroxychloroquine and azithromycin (HCQ/AZM).

One in five patients (21%) had a corrected QT (QTc) interval of at least 500 msec, a value that increases the risk for torsade de pointes in the general population and at which cardiovascular leaders have suggested withholding HCQ/AZM in COVID-19 patients.

“One of the most striking findings was when we looked at the other drugs being administered to these patients; 61% were being administered drugs that had QT-prolonging effects concomitantly with the HCQ and AZM therapy. So they were inadvertently doubling down on the QT-prolonging effects of these drugs,” senior author David E. Haines, MD, director of the Heart Rhythm Center at William Beaumont Hospital, Royal Oak, Mich., said in an interview.

A total of 34 medications overlapped with HCQ/AZM therapy are known or suspected to increase the risk for torsade de pointes, a potentially life-threatening ventricular tachycardia. The most common of these were propofol coadministered in 123 patients, ondansetron in 114, dexmedetomidine in 54, haloperidol in 44, amiodarone in 43, and tramadol in 26.

“This speaks to the medical complexity of this patient population, but also suggests inadequate awareness of the QT-prolonging effects of many common medications,” the researchers say.

The study was published Aug. 5 in JACC Clinical Electrophysiology.

Both hydroxychloroquine and azithromycin increase the risk for QTc-interval prolongation by blocking the KCHN2-encoded hERG potassium channel. Several reports have linked the drugs to a triggering of QT prolongation in patients with COVID-19.

For the present study, Dr. Haines and colleagues examined data from 586 consecutive patients admitted with COVID-19 to the Beaumont Hospitals in Royal Oak and Troy, Mich., between March 13 and April 6. A baseline QTc interval was measured with 12-lead ECG prior to treatment initiation with hydroxychloroquine 400 mg twice daily for two doses, then 200 mg twice daily for 4 days, and azithromycin 500 mg once followed by 250 mg daily for 4 days.

Because of limited availability at the time, lead II ECG telemetry monitoring over the 5-day course of HCQ/AZM was recommended only in patients with baseline QTc intervals of at least 440 msec.

Patients without an interpretable baseline ECG or available telemetry/ECG monitoring for at least 1 day were also excluded, leaving 415 patients (mean age, 64 years; 45% female) in the study population. More than half (52%) were Black, 52% had hypertension, 30% had diabetes, and 14% had cancer.

As seen in previous studies, the QTc interval increased progressively and significantly after the administration of HCQ/AZM, from 443 msec to 473 msec.

The average time to maximum QTc was 2.9 days in a subset of 135 patients with QTc measurements prior to starting therapy and on days 1 through 5.

In multivariate analysis, independent predictors of a potentially hazardous QTc interval of at least 500 msec were:

• Age older than 65 years (odds ratio, 3.0; 95% confidence interval, 1.62-5.54).
• History of  (OR, 4.65; 95% CI, 2.01-10.74).
• Admission  of at least 1.5 mg/dL (OR, 2.22; 95% CI, 1.28-3.84).
• Peak troponin I level above 0.04 mg/mL (OR, 3.89; 95% CI, 2.22-6.83).
• Body mass index below 30 kg/m² (OR for a BMI of 30 kg/m² or higher, 0.45; 95% CI, 0.26-0.78).

Concomitant use of drugs with known risk for torsade de pointes was a significant risk factor in univariate analysis (OR, 1.73; P = .036), but fell out in the multivariate model.

No patients experienced high-grade arrhythmias during the study. In all, 112 of the 586 patients died during hospitalization, including 85 (21%) of the 415 study patients.

The change in QTc interval from baseline was greater in patients who died. Despite this, the only independent predictor of mortality was older age. One possible explanation is that the decision to monitor patients with baseline QTc intervals of at least 440 msec may have skewed the study population toward people with moderate or slightly long QTc intervals prior to the initiation of HCQ/AZM, Dr. Haines suggested. Monitoring and treatment duration were short, and clinicians also likely adjusted medications when excess QTc prolongation was observed.

Although it’s been months since data collection was completed in April, and the paper was written in record-breaking time, the study “is still very relevant because the drug is still out there,” observed Dr. Haines. “Even though it may not be used in as widespread a fashion as it had been when we first submitted the paper, it is still being used routinely by many hospitals and many practitioners.”

The use of hydroxychloroquine is “going through the roof” because of COVID-19, commented Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, HCA Midwest Health, Overland Park, Kan., who was not involved in the study.

“This study is very relevant, and I’m glad they shared their experience, and it’s pretty consistent with the data presented by other people. The question of whether hydroxychloroquine helps people with COVID is up for debate, but there is more evidence today that it is not as helpful as it was 3 months ago,” said Dr. Lakkireddy, who is also chair of the American College of Cardiology Electrophysiology Council.

He expressed concern for patients who may be taking HCQ with other medications that have QT-prolonging effects, and for the lack of long-term protocols in place for the drug.

In the coming weeks, however, the ACC and rheumatology leaders will be publishing an expert consensus statement that addresses key issues, such as how to best to use HCQ, maintenance HCQ, electrolyte monitoring, the optimal timing of electrocardiography and cardiac magnetic imaging, and symptoms to look for if cardiac involvement is suspected, Dr. Lakkireddy said.

Asked whether HCQ and AZM should be used in COVID-19 patients, Dr. Haines said in an interview that the “QT-prolonging effects are real, the arrhythmogenic potential is real, and the benefit to patients is nil or marginal. So I think that use of these drugs is appropriate and reasonable if it is done in a setting of a controlled trial, and I support that. But the routine use of these drugs probably is not warranted based on the data that we have available.”

Still, hydroxychloroquine continues to be dragged into the spotlight in recent days as an effective treatment for COVID-19, despite discredited research and the U.S. Food and Drug Administration’s June 15 revocation of its emergency-use authorization to allow use of HCQ and chloroquine to treat certain hospitalized COVID-19 patients.

“The unfortunate politicization of this issue has really muddied the waters because the general public doesn’t know what to believe or who to believe. The fact that treatment for a disease as serious as COVID should be modulated by political affiliation is just crazy to me,” said Dr. Haines. “We should be using the best science and taking careful observations, and whatever the recommendations derived from that should be uniformly adopted by everybody, irrespective of your political affiliation.”

Dr. Haines has received honoraria from Biosense Webster, Farapulse, and Sagentia, and is a consultant for Affera, Boston Scientific, Integer, Medtronic, Philips Healthcare, and Zoll. Dr. Lakkireddy has served as a consultant to Abbott, Biosense Webster, Biotronik, Boston Scientific, and Medtronic. 

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

A new analysis from Michigan’s largest health system provides sobering verification of the risks for QT interval prolongation in COVID-19 patients treated with hydroxychloroquine and azithromycin (HCQ/AZM).

One in five patients (21%) had a corrected QT (QTc) interval of at least 500 msec, a value that increases the risk for torsade de pointes in the general population and at which cardiovascular leaders have suggested withholding HCQ/AZM in COVID-19 patients.

“One of the most striking findings was when we looked at the other drugs being administered to these patients; 61% were being administered drugs that had QT-prolonging effects concomitantly with the HCQ and AZM therapy. So they were inadvertently doubling down on the QT-prolonging effects of these drugs,” senior author David E. Haines, MD, director of the Heart Rhythm Center at William Beaumont Hospital, Royal Oak, Mich., said in an interview.

A total of 34 medications overlapped with HCQ/AZM therapy are known or suspected to increase the risk for torsade de pointes, a potentially life-threatening ventricular tachycardia. The most common of these were propofol coadministered in 123 patients, ondansetron in 114, dexmedetomidine in 54, haloperidol in 44, amiodarone in 43, and tramadol in 26.

“This speaks to the medical complexity of this patient population, but also suggests inadequate awareness of the QT-prolonging effects of many common medications,” the researchers say.

The study was published Aug. 5 in JACC Clinical Electrophysiology.

Both hydroxychloroquine and azithromycin increase the risk for QTc-interval prolongation by blocking the KCHN2-encoded hERG potassium channel. Several reports have linked the drugs to a triggering of QT prolongation in patients with COVID-19.

For the present study, Dr. Haines and colleagues examined data from 586 consecutive patients admitted with COVID-19 to the Beaumont Hospitals in Royal Oak and Troy, Mich., between March 13 and April 6. A baseline QTc interval was measured with 12-lead ECG prior to treatment initiation with hydroxychloroquine 400 mg twice daily for two doses, then 200 mg twice daily for 4 days, and azithromycin 500 mg once followed by 250 mg daily for 4 days.

Because of limited availability at the time, lead II ECG telemetry monitoring over the 5-day course of HCQ/AZM was recommended only in patients with baseline QTc intervals of at least 440 msec.

Patients without an interpretable baseline ECG or available telemetry/ECG monitoring for at least 1 day were also excluded, leaving 415 patients (mean age, 64 years; 45% female) in the study population. More than half (52%) were Black, 52% had hypertension, 30% had diabetes, and 14% had cancer.

As seen in previous studies, the QTc interval increased progressively and significantly after the administration of HCQ/AZM, from 443 msec to 473 msec.

The average time to maximum QTc was 2.9 days in a subset of 135 patients with QTc measurements prior to starting therapy and on days 1 through 5.

In multivariate analysis, independent predictors of a potentially hazardous QTc interval of at least 500 msec were:

• Age older than 65 years (odds ratio, 3.0; 95% confidence interval, 1.62-5.54).
• History of  (OR, 4.65; 95% CI, 2.01-10.74).
• Admission  of at least 1.5 mg/dL (OR, 2.22; 95% CI, 1.28-3.84).
• Peak troponin I level above 0.04 mg/mL (OR, 3.89; 95% CI, 2.22-6.83).
• Body mass index below 30 kg/m² (OR for a BMI of 30 kg/m² or higher, 0.45; 95% CI, 0.26-0.78).

Concomitant use of drugs with known risk for torsade de pointes was a significant risk factor in univariate analysis (OR, 1.73; P = .036), but fell out in the multivariate model.

No patients experienced high-grade arrhythmias during the study. In all, 112 of the 586 patients died during hospitalization, including 85 (21%) of the 415 study patients.

The change in QTc interval from baseline was greater in patients who died. Despite this, the only independent predictor of mortality was older age. One possible explanation is that the decision to monitor patients with baseline QTc intervals of at least 440 msec may have skewed the study population toward people with moderate or slightly long QTc intervals prior to the initiation of HCQ/AZM, Dr. Haines suggested. Monitoring and treatment duration were short, and clinicians also likely adjusted medications when excess QTc prolongation was observed.

Although it’s been months since data collection was completed in April, and the paper was written in record-breaking time, the study “is still very relevant because the drug is still out there,” observed Dr. Haines. “Even though it may not be used in as widespread a fashion as it had been when we first submitted the paper, it is still being used routinely by many hospitals and many practitioners.”

The use of hydroxychloroquine is “going through the roof” because of COVID-19, commented Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, HCA Midwest Health, Overland Park, Kan., who was not involved in the study.

“This study is very relevant, and I’m glad they shared their experience, and it’s pretty consistent with the data presented by other people. The question of whether hydroxychloroquine helps people with COVID is up for debate, but there is more evidence today that it is not as helpful as it was 3 months ago,” said Dr. Lakkireddy, who is also chair of the American College of Cardiology Electrophysiology Council.

He expressed concern for patients who may be taking HCQ with other medications that have QT-prolonging effects, and for the lack of long-term protocols in place for the drug.

In the coming weeks, however, the ACC and rheumatology leaders will be publishing an expert consensus statement that addresses key issues, such as how to best to use HCQ, maintenance HCQ, electrolyte monitoring, the optimal timing of electrocardiography and cardiac magnetic imaging, and symptoms to look for if cardiac involvement is suspected, Dr. Lakkireddy said.

Asked whether HCQ and AZM should be used in COVID-19 patients, Dr. Haines said in an interview that the “QT-prolonging effects are real, the arrhythmogenic potential is real, and the benefit to patients is nil or marginal. So I think that use of these drugs is appropriate and reasonable if it is done in a setting of a controlled trial, and I support that. But the routine use of these drugs probably is not warranted based on the data that we have available.”

Still, hydroxychloroquine continues to be dragged into the spotlight in recent days as an effective treatment for COVID-19, despite discredited research and the U.S. Food and Drug Administration’s June 15 revocation of its emergency-use authorization to allow use of HCQ and chloroquine to treat certain hospitalized COVID-19 patients.

“The unfortunate politicization of this issue has really muddied the waters because the general public doesn’t know what to believe or who to believe. The fact that treatment for a disease as serious as COVID should be modulated by political affiliation is just crazy to me,” said Dr. Haines. “We should be using the best science and taking careful observations, and whatever the recommendations derived from that should be uniformly adopted by everybody, irrespective of your political affiliation.”

Dr. Haines has received honoraria from Biosense Webster, Farapulse, and Sagentia, and is a consultant for Affera, Boston Scientific, Integer, Medtronic, Philips Healthcare, and Zoll. Dr. Lakkireddy has served as a consultant to Abbott, Biosense Webster, Biotronik, Boston Scientific, and Medtronic. 

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

A new analysis from Michigan’s largest health system provides sobering verification of the risks for QT interval prolongation in COVID-19 patients treated with hydroxychloroquine and azithromycin (HCQ/AZM).

One in five patients (21%) had a corrected QT (QTc) interval of at least 500 msec, a value that increases the risk for torsade de pointes in the general population and at which cardiovascular leaders have suggested withholding HCQ/AZM in COVID-19 patients.

“One of the most striking findings was when we looked at the other drugs being administered to these patients; 61% were being administered drugs that had QT-prolonging effects concomitantly with the HCQ and AZM therapy. So they were inadvertently doubling down on the QT-prolonging effects of these drugs,” senior author David E. Haines, MD, director of the Heart Rhythm Center at William Beaumont Hospital, Royal Oak, Mich., said in an interview.

A total of 34 medications overlapped with HCQ/AZM therapy are known or suspected to increase the risk for torsade de pointes, a potentially life-threatening ventricular tachycardia. The most common of these were propofol coadministered in 123 patients, ondansetron in 114, dexmedetomidine in 54, haloperidol in 44, amiodarone in 43, and tramadol in 26.

“This speaks to the medical complexity of this patient population, but also suggests inadequate awareness of the QT-prolonging effects of many common medications,” the researchers say.

The study was published Aug. 5 in JACC Clinical Electrophysiology.

Both hydroxychloroquine and azithromycin increase the risk for QTc-interval prolongation by blocking the KCHN2-encoded hERG potassium channel. Several reports have linked the drugs to a triggering of QT prolongation in patients with COVID-19.

For the present study, Dr. Haines and colleagues examined data from 586 consecutive patients admitted with COVID-19 to the Beaumont Hospitals in Royal Oak and Troy, Mich., between March 13 and April 6. A baseline QTc interval was measured with 12-lead ECG prior to treatment initiation with hydroxychloroquine 400 mg twice daily for two doses, then 200 mg twice daily for 4 days, and azithromycin 500 mg once followed by 250 mg daily for 4 days.

Because of limited availability at the time, lead II ECG telemetry monitoring over the 5-day course of HCQ/AZM was recommended only in patients with baseline QTc intervals of at least 440 msec.

Patients without an interpretable baseline ECG or available telemetry/ECG monitoring for at least 1 day were also excluded, leaving 415 patients (mean age, 64 years; 45% female) in the study population. More than half (52%) were Black, 52% had hypertension, 30% had diabetes, and 14% had cancer.

As seen in previous studies, the QTc interval increased progressively and significantly after the administration of HCQ/AZM, from 443 msec to 473 msec.

The average time to maximum QTc was 2.9 days in a subset of 135 patients with QTc measurements prior to starting therapy and on days 1 through 5.

In multivariate analysis, independent predictors of a potentially hazardous QTc interval of at least 500 msec were:

• Age older than 65 years (odds ratio, 3.0; 95% confidence interval, 1.62-5.54).
• History of  (OR, 4.65; 95% CI, 2.01-10.74).
• Admission  of at least 1.5 mg/dL (OR, 2.22; 95% CI, 1.28-3.84).
• Peak troponin I level above 0.04 mg/mL (OR, 3.89; 95% CI, 2.22-6.83).
• Body mass index below 30 kg/m² (OR for a BMI of 30 kg/m² or higher, 0.45; 95% CI, 0.26-0.78).

Concomitant use of drugs with known risk for torsade de pointes was a significant risk factor in univariate analysis (OR, 1.73; P = .036), but fell out in the multivariate model.

No patients experienced high-grade arrhythmias during the study. In all, 112 of the 586 patients died during hospitalization, including 85 (21%) of the 415 study patients.

The change in QTc interval from baseline was greater in patients who died. Despite this, the only independent predictor of mortality was older age. One possible explanation is that the decision to monitor patients with baseline QTc intervals of at least 440 msec may have skewed the study population toward people with moderate or slightly long QTc intervals prior to the initiation of HCQ/AZM, Dr. Haines suggested. Monitoring and treatment duration were short, and clinicians also likely adjusted medications when excess QTc prolongation was observed.

Although it’s been months since data collection was completed in April, and the paper was written in record-breaking time, the study “is still very relevant because the drug is still out there,” observed Dr. Haines. “Even though it may not be used in as widespread a fashion as it had been when we first submitted the paper, it is still being used routinely by many hospitals and many practitioners.”

The use of hydroxychloroquine is “going through the roof” because of COVID-19, commented Dhanunjaya Lakkireddy, MD, medical director for the Kansas City Heart Rhythm Institute, HCA Midwest Health, Overland Park, Kan., who was not involved in the study.

“This study is very relevant, and I’m glad they shared their experience, and it’s pretty consistent with the data presented by other people. The question of whether hydroxychloroquine helps people with COVID is up for debate, but there is more evidence today that it is not as helpful as it was 3 months ago,” said Dr. Lakkireddy, who is also chair of the American College of Cardiology Electrophysiology Council.

He expressed concern for patients who may be taking HCQ with other medications that have QT-prolonging effects, and for the lack of long-term protocols in place for the drug.

In the coming weeks, however, the ACC and rheumatology leaders will be publishing an expert consensus statement that addresses key issues, such as how to best to use HCQ, maintenance HCQ, electrolyte monitoring, the optimal timing of electrocardiography and cardiac magnetic imaging, and symptoms to look for if cardiac involvement is suspected, Dr. Lakkireddy said.

Asked whether HCQ and AZM should be used in COVID-19 patients, Dr. Haines said in an interview that the “QT-prolonging effects are real, the arrhythmogenic potential is real, and the benefit to patients is nil or marginal. So I think that use of these drugs is appropriate and reasonable if it is done in a setting of a controlled trial, and I support that. But the routine use of these drugs probably is not warranted based on the data that we have available.”

Still, hydroxychloroquine continues to be dragged into the spotlight in recent days as an effective treatment for COVID-19, despite discredited research and the U.S. Food and Drug Administration’s June 15 revocation of its emergency-use authorization to allow use of HCQ and chloroquine to treat certain hospitalized COVID-19 patients.

“The unfortunate politicization of this issue has really muddied the waters because the general public doesn’t know what to believe or who to believe. The fact that treatment for a disease as serious as COVID should be modulated by political affiliation is just crazy to me,” said Dr. Haines. “We should be using the best science and taking careful observations, and whatever the recommendations derived from that should be uniformly adopted by everybody, irrespective of your political affiliation.”

Dr. Haines has received honoraria from Biosense Webster, Farapulse, and Sagentia, and is a consultant for Affera, Boston Scientific, Integer, Medtronic, Philips Healthcare, and Zoll. Dr. Lakkireddy has served as a consultant to Abbott, Biosense Webster, Biotronik, Boston Scientific, and Medtronic. 

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

Higher baseline cardiorespiratory fitness (CRF) is associated with better outcomes after atrial fibrillation (AFib) ablation, according to new research.

In a single-center, retrospective cohort study, patients with the highest level of baseline CRF had significantly lower rates of arrhythmia recurrence and death than did patients with lower levels of CRF.

“It is stunning how just a simple measure, in this case walking on a treadmill, can predict whether atrial fibrillation ablation will be a successful endeavor or if it will fail,” senior author Wael A. Jaber, MD, professor of medicine, Cleveland Clinic, said in an interview.

“We found that ablation was not successful in most patients who had poor functional class and, conversely, that it was successful in most patients who were in tip-top shape when they walked on the treadmill. Our results can help clinicians inform patients about what they can expect after the procedure, depending on the baseline fitness level,” Dr. Jaber said.

The study was published online Aug. 2 in Heart Rhythm.

Several studies have shown a reduction in AFib incidence among individuals who report a physically active lifestyle, but the extent to which baseline CRF influences arrhythmia rates after AFib ablation is unknown, the authors note.

For the study, Dr. Jaber and colleagues analyzed results in 591 consecutive patients (mean age, 66.5 years; 75% male) with symptomatic paroxysmal or persistent AFib who underwent de novo AFib ablation at their institution. Only patients who had undergone an exercise stress test in the 12 months before AFib ablation (average, 4.5 months) were included.

Age- and sex-specific predicted metabolic equivalents (METs) were calculated using the St. James model for women and the Veterans Affairs referral model for men. The number of METs achieved was then divided by the predicted METs, and the patients were categorized into low (<85% predicted; n = 152), adequate (85%-100% predicted; n = 115), and high (>100% predicted; n = 324) CRF groups. Functional capacity was characterized as poor in 56 patients (9.5%), fair in 94 (16.0%), average in 225 (38.1%), good in 169 (28.6%), and high in 47 (8.0%).

During a mean follow-up of 32 months, arrhythmia recurrence was observed in 79% of patients in the low-CRF group, 54% of patients in the adequate-CRF group, and 27.5% of patients in the high-CRF group (P < .0001). Rates of repeat arrhythmia-related hospitalization, repeat rhythm-control procedures, and the need for ongoing antiarrhythmic therapy (ATT) were significantly lower in the high-CRF group. Specifically, ATT was stopped in 56% of patients in the high-CRF group, compared with 24% in the adequate-CRF group and 11% in the low-CRF group (P < .0001). Rehospitalization for arrhythmia was required in 18.5%, 38.0%, and 60.5% of cases, respectively, and repeat direct-current cardioversion or ablation was performed in 26.0%, 49.0%, and 65.0%, respectively (P < .0001 for both).

Death occurred in 11% of the low-CRF group, compared with 4% in the adequate-CRF group and 2.5% in the high-CRF group. Most (70%) of the deaths were caused by cardiovascular events, including heart failure, cardiac arrest, and coronary artery disease. The most common cause of noncardiac death was respiratory failure (13%), followed by sepsis (10%), malignancy (3%), and complications of Parkinson’s disease (3%).

“Although there was a statistically significant association between higher CRF and lower mortality in this cohort, the findings are to be viewed through the prism of a small sample size and relatively low death rate,” the authors wrote.


 

Don’t “overpromise” results

“The important message for clinicians is that when, you are discussing what to expect after atrial fibrillation ablation with your patients, do not overpromise the results. You can inform them that the success of the procedure depends more on how they perform on the baseline exercise test, and less on the ablation itself,” Dr. Jaber said.

Clinicians might want to consider advising their patients to become more active and increase their fitness level before undergoing the procedure, but whether doing so will improve outcomes is still unknown.

“This is what we don’t know. It makes sense. Hopefully, our results will encourage people to be more active before they arrive here for the procedure,” he said. “Our study is retrospective and is hypothesis generating, but we are planning a prospective study where patients will be referred to cardiac rehab prior to having ablation to try to improve their functional class to see if this will improve outcomes.”

Survival of the fittest

In an accompanying editorial commentary, Eric Black-Maier, MD, and Jonathan P. Piccini Sr, MD, from Duke University Medical Center, Durham, N.C., wrote that the findings have “important implications for clinical practice and raise important additional questions.”

They note that catheter ablation as a first-line rhythm-control strategy, per current recommendations, “seems reasonable” in individuals with high baseline cardiorespiratory fitness, but that the benefit is less clear for patients with poor baseline CRF and uncontrolled risk factors.

“Significant limitations in functional status may be at least partially attributable to uncontrolled [AFib], and patients with limited exercise capacity may stand to gain most from successful catheter ablation,” the editorialists wrote.

“Furthermore, because shorter time from [AFib] diagnosis to catheter ablation has been associated with improved outcomes, the decision to postpone ablation in favor of lifestyle modification is not without potential adverse consequences,” they added.

Dr. Black-Maier and Dr. Piccini agree with the need for additional prospective randomized clinical trials to confirm that exercise training to improve cardiorespiratory fitness before AFib ablation is practical and effective for reducing arrhythmia recurrence.

“Over the past 50-plus years, our understanding of cardiorespiratory fitness, exercise capacity, and arrhythmia occurrence in patients with [AFib] continues to evolve,” the editorialists concluded. Data from the study “clearly demonstrate that arrhythmia-free survival is indeed survival of the fittest. Time will tell if exercise training and improvements in cardiorespiratory fitness can change outcomes after ablation.”

The study was sponsored by the Cleveland Clinic. Dr. Jaber and Dr. Black-Maier report no relevant financial relationships. Dr. Piccini receives grants for clinical research from Abbott, the American Heart Association, the Association for the Advancement of Medical Instrumentation, Bayer, Boston Scientific, and Philips and serves as a consultant to Abbott, Allergan, ARCA Biopharma, Biotronik, Boston Scientific, LivaNova, Medtronic, Milestone, MyoKardia, Sanofi, Philips, and UpToDate.
 

A version of this story originally appeared on Medscape.com.

Higher baseline cardiorespiratory fitness (CRF) is associated with better outcomes after atrial fibrillation (AFib) ablation, according to new research.

In a single-center, retrospective cohort study, patients with the highest level of baseline CRF had significantly lower rates of arrhythmia recurrence and death than did patients with lower levels of CRF.

“It is stunning how just a simple measure, in this case walking on a treadmill, can predict whether atrial fibrillation ablation will be a successful endeavor or if it will fail,” senior author Wael A. Jaber, MD, professor of medicine, Cleveland Clinic, said in an interview.

“We found that ablation was not successful in most patients who had poor functional class and, conversely, that it was successful in most patients who were in tip-top shape when they walked on the treadmill. Our results can help clinicians inform patients about what they can expect after the procedure, depending on the baseline fitness level,” Dr. Jaber said.

The study was published online Aug. 2 in Heart Rhythm.

Several studies have shown a reduction in AFib incidence among individuals who report a physically active lifestyle, but the extent to which baseline CRF influences arrhythmia rates after AFib ablation is unknown, the authors note.

For the study, Dr. Jaber and colleagues analyzed results in 591 consecutive patients (mean age, 66.5 years; 75% male) with symptomatic paroxysmal or persistent AFib who underwent de novo AFib ablation at their institution. Only patients who had undergone an exercise stress test in the 12 months before AFib ablation (average, 4.5 months) were included.

Age- and sex-specific predicted metabolic equivalents (METs) were calculated using the St. James model for women and the Veterans Affairs referral model for men. The number of METs achieved was then divided by the predicted METs, and the patients were categorized into low (<85% predicted; n = 152), adequate (85%-100% predicted; n = 115), and high (>100% predicted; n = 324) CRF groups. Functional capacity was characterized as poor in 56 patients (9.5%), fair in 94 (16.0%), average in 225 (38.1%), good in 169 (28.6%), and high in 47 (8.0%).

During a mean follow-up of 32 months, arrhythmia recurrence was observed in 79% of patients in the low-CRF group, 54% of patients in the adequate-CRF group, and 27.5% of patients in the high-CRF group (P < .0001). Rates of repeat arrhythmia-related hospitalization, repeat rhythm-control procedures, and the need for ongoing antiarrhythmic therapy (ATT) were significantly lower in the high-CRF group. Specifically, ATT was stopped in 56% of patients in the high-CRF group, compared with 24% in the adequate-CRF group and 11% in the low-CRF group (P < .0001). Rehospitalization for arrhythmia was required in 18.5%, 38.0%, and 60.5% of cases, respectively, and repeat direct-current cardioversion or ablation was performed in 26.0%, 49.0%, and 65.0%, respectively (P < .0001 for both).

Death occurred in 11% of the low-CRF group, compared with 4% in the adequate-CRF group and 2.5% in the high-CRF group. Most (70%) of the deaths were caused by cardiovascular events, including heart failure, cardiac arrest, and coronary artery disease. The most common cause of noncardiac death was respiratory failure (13%), followed by sepsis (10%), malignancy (3%), and complications of Parkinson’s disease (3%).

“Although there was a statistically significant association between higher CRF and lower mortality in this cohort, the findings are to be viewed through the prism of a small sample size and relatively low death rate,” the authors wrote.


 

Don’t “overpromise” results

“The important message for clinicians is that when, you are discussing what to expect after atrial fibrillation ablation with your patients, do not overpromise the results. You can inform them that the success of the procedure depends more on how they perform on the baseline exercise test, and less on the ablation itself,” Dr. Jaber said.

Clinicians might want to consider advising their patients to become more active and increase their fitness level before undergoing the procedure, but whether doing so will improve outcomes is still unknown.

“This is what we don’t know. It makes sense. Hopefully, our results will encourage people to be more active before they arrive here for the procedure,” he said. “Our study is retrospective and is hypothesis generating, but we are planning a prospective study where patients will be referred to cardiac rehab prior to having ablation to try to improve their functional class to see if this will improve outcomes.”

Survival of the fittest

In an accompanying editorial commentary, Eric Black-Maier, MD, and Jonathan P. Piccini Sr, MD, from Duke University Medical Center, Durham, N.C., wrote that the findings have “important implications for clinical practice and raise important additional questions.”

They note that catheter ablation as a first-line rhythm-control strategy, per current recommendations, “seems reasonable” in individuals with high baseline cardiorespiratory fitness, but that the benefit is less clear for patients with poor baseline CRF and uncontrolled risk factors.

“Significant limitations in functional status may be at least partially attributable to uncontrolled [AFib], and patients with limited exercise capacity may stand to gain most from successful catheter ablation,” the editorialists wrote.

“Furthermore, because shorter time from [AFib] diagnosis to catheter ablation has been associated with improved outcomes, the decision to postpone ablation in favor of lifestyle modification is not without potential adverse consequences,” they added.

Dr. Black-Maier and Dr. Piccini agree with the need for additional prospective randomized clinical trials to confirm that exercise training to improve cardiorespiratory fitness before AFib ablation is practical and effective for reducing arrhythmia recurrence.

“Over the past 50-plus years, our understanding of cardiorespiratory fitness, exercise capacity, and arrhythmia occurrence in patients with [AFib] continues to evolve,” the editorialists concluded. Data from the study “clearly demonstrate that arrhythmia-free survival is indeed survival of the fittest. Time will tell if exercise training and improvements in cardiorespiratory fitness can change outcomes after ablation.”

The study was sponsored by the Cleveland Clinic. Dr. Jaber and Dr. Black-Maier report no relevant financial relationships. Dr. Piccini receives grants for clinical research from Abbott, the American Heart Association, the Association for the Advancement of Medical Instrumentation, Bayer, Boston Scientific, and Philips and serves as a consultant to Abbott, Allergan, ARCA Biopharma, Biotronik, Boston Scientific, LivaNova, Medtronic, Milestone, MyoKardia, Sanofi, Philips, and UpToDate.
 

A version of this story originally appeared on Medscape.com.

Higher baseline cardiorespiratory fitness (CRF) is associated with better outcomes after atrial fibrillation (AFib) ablation, according to new research.

In a single-center, retrospective cohort study, patients with the highest level of baseline CRF had significantly lower rates of arrhythmia recurrence and death than did patients with lower levels of CRF.

“It is stunning how just a simple measure, in this case walking on a treadmill, can predict whether atrial fibrillation ablation will be a successful endeavor or if it will fail,” senior author Wael A. Jaber, MD, professor of medicine, Cleveland Clinic, said in an interview.

“We found that ablation was not successful in most patients who had poor functional class and, conversely, that it was successful in most patients who were in tip-top shape when they walked on the treadmill. Our results can help clinicians inform patients about what they can expect after the procedure, depending on the baseline fitness level,” Dr. Jaber said.

The study was published online Aug. 2 in Heart Rhythm.

Several studies have shown a reduction in AFib incidence among individuals who report a physically active lifestyle, but the extent to which baseline CRF influences arrhythmia rates after AFib ablation is unknown, the authors note.

For the study, Dr. Jaber and colleagues analyzed results in 591 consecutive patients (mean age, 66.5 years; 75% male) with symptomatic paroxysmal or persistent AFib who underwent de novo AFib ablation at their institution. Only patients who had undergone an exercise stress test in the 12 months before AFib ablation (average, 4.5 months) were included.

Age- and sex-specific predicted metabolic equivalents (METs) were calculated using the St. James model for women and the Veterans Affairs referral model for men. The number of METs achieved was then divided by the predicted METs, and the patients were categorized into low (<85% predicted; n = 152), adequate (85%-100% predicted; n = 115), and high (>100% predicted; n = 324) CRF groups. Functional capacity was characterized as poor in 56 patients (9.5%), fair in 94 (16.0%), average in 225 (38.1%), good in 169 (28.6%), and high in 47 (8.0%).

During a mean follow-up of 32 months, arrhythmia recurrence was observed in 79% of patients in the low-CRF group, 54% of patients in the adequate-CRF group, and 27.5% of patients in the high-CRF group (P < .0001). Rates of repeat arrhythmia-related hospitalization, repeat rhythm-control procedures, and the need for ongoing antiarrhythmic therapy (ATT) were significantly lower in the high-CRF group. Specifically, ATT was stopped in 56% of patients in the high-CRF group, compared with 24% in the adequate-CRF group and 11% in the low-CRF group (P < .0001). Rehospitalization for arrhythmia was required in 18.5%, 38.0%, and 60.5% of cases, respectively, and repeat direct-current cardioversion or ablation was performed in 26.0%, 49.0%, and 65.0%, respectively (P < .0001 for both).

Death occurred in 11% of the low-CRF group, compared with 4% in the adequate-CRF group and 2.5% in the high-CRF group. Most (70%) of the deaths were caused by cardiovascular events, including heart failure, cardiac arrest, and coronary artery disease. The most common cause of noncardiac death was respiratory failure (13%), followed by sepsis (10%), malignancy (3%), and complications of Parkinson’s disease (3%).

“Although there was a statistically significant association between higher CRF and lower mortality in this cohort, the findings are to be viewed through the prism of a small sample size and relatively low death rate,” the authors wrote.


 

Don’t “overpromise” results

“The important message for clinicians is that when, you are discussing what to expect after atrial fibrillation ablation with your patients, do not overpromise the results. You can inform them that the success of the procedure depends more on how they perform on the baseline exercise test, and less on the ablation itself,” Dr. Jaber said.

Clinicians might want to consider advising their patients to become more active and increase their fitness level before undergoing the procedure, but whether doing so will improve outcomes is still unknown.

“This is what we don’t know. It makes sense. Hopefully, our results will encourage people to be more active before they arrive here for the procedure,” he said. “Our study is retrospective and is hypothesis generating, but we are planning a prospective study where patients will be referred to cardiac rehab prior to having ablation to try to improve their functional class to see if this will improve outcomes.”

Survival of the fittest

In an accompanying editorial commentary, Eric Black-Maier, MD, and Jonathan P. Piccini Sr, MD, from Duke University Medical Center, Durham, N.C., wrote that the findings have “important implications for clinical practice and raise important additional questions.”

They note that catheter ablation as a first-line rhythm-control strategy, per current recommendations, “seems reasonable” in individuals with high baseline cardiorespiratory fitness, but that the benefit is less clear for patients with poor baseline CRF and uncontrolled risk factors.

“Significant limitations in functional status may be at least partially attributable to uncontrolled [AFib], and patients with limited exercise capacity may stand to gain most from successful catheter ablation,” the editorialists wrote.

“Furthermore, because shorter time from [AFib] diagnosis to catheter ablation has been associated with improved outcomes, the decision to postpone ablation in favor of lifestyle modification is not without potential adverse consequences,” they added.

Dr. Black-Maier and Dr. Piccini agree with the need for additional prospective randomized clinical trials to confirm that exercise training to improve cardiorespiratory fitness before AFib ablation is practical and effective for reducing arrhythmia recurrence.

“Over the past 50-plus years, our understanding of cardiorespiratory fitness, exercise capacity, and arrhythmia occurrence in patients with [AFib] continues to evolve,” the editorialists concluded. Data from the study “clearly demonstrate that arrhythmia-free survival is indeed survival of the fittest. Time will tell if exercise training and improvements in cardiorespiratory fitness can change outcomes after ablation.”

The study was sponsored by the Cleveland Clinic. Dr. Jaber and Dr. Black-Maier report no relevant financial relationships. Dr. Piccini receives grants for clinical research from Abbott, the American Heart Association, the Association for the Advancement of Medical Instrumentation, Bayer, Boston Scientific, and Philips and serves as a consultant to Abbott, Allergan, ARCA Biopharma, Biotronik, Boston Scientific, LivaNova, Medtronic, Milestone, MyoKardia, Sanofi, Philips, and UpToDate.
 

A version of this story originally appeared on Medscape.com.

Evidence for a link between cannabis use and cardiovascular health remains unsupported, and the potential risks outweigh any potential benefits, according to a scientific statement from the American Heart Association.

American Heart Association

The increased legalization of cannabis and cannabis products in the United States has driven medical professionals to evaluate the safety and efficacy of cannabis in relation to health conditions, wrote Robert L. Page II, PharmD, of the University of Colorado, Aurora, and colleagues.

In a statement published in Circulation, the researchers noted that although cannabis has been shown to relieve pain and other symptoms in certain conditions, clinicians in the United States have been limited from studying its health effects because of federal law restrictions. “Cannabis remains a schedule I controlled substance, deeming no accepted medical use, a high potential for abuse, and an unacceptable safety profile,” the researchers wrote.

The statement addresses issues with the use of cannabis by individuals with cardiovascular disease or those at increased risk. Observational studies have shown no cardiovascular benefits associated with cannabis, the writers noted. The most common chemicals in cannabis include THC (tetrahydrocannabinolic acid) and CBD (cannabidiol).

Some research has shown associations between CBD cardiovascular features including lower blood pressure and reduced inflammation, the writers noted. However, THC, the component of cannabis associated with a “high” or intoxication, has been associated with heart rhythm abnormalities. The writers cited data suggesting an increased risk of heart attacks, atrial fibrillation and heart failure, although more research is needed.

The statement outlines common cannabis formulations including plant-based, extracts, crystalline forms, edible products, and tinctures. In addition, the statement notes that synthetic cannabis products are marketed and used in the United States without subject to regulation.

“Over the past 5 years, we have seen a surge in cannabis use, particularly during the COVID-19 pandemic here in Colorado, especially among adolescents and young adults,” Dr. Page said in an interview. Because of the surge, health care practitioners need to familiarize themselves with not only the benefits, but risks associated with cannabis use regardless of the formulation,” he said. As heart disease remains a leading cause of death in the United States, understanding the cardiovascular risks associated with cannabis is crucial at this time.

Dr. Page noted that popular attitudes about cannabis could pose risks to users’ cardiovascular health. “One leading misconception about cannabis is because it is ‘natural’ it must be safe,” Dr. Page said. “As with all medications, cannabis has side effects, some of which can be cardiovascular in nature,” he said. “Significant drug-drug interactions can occur as CBD and THC, both found in cannabis, inhibit CYP3A4, which metabolizes a large number of medications used to treat many cardiovascular conditions,” he noted.

“Unfortunately, much of the published data is observational in nature due to the federal restrictions on cannabis as a schedule I drug,” said Dr. Page. “Nonetheless, safety signals have emerged regarding cannabis use and adverse cardiovascular outcomes, including myocardial infarction, heart failure, and atrial fibrillation. Carefully designed prospective short- and long-term studies regarding cannabis use and cardiovascular safety are needed,” he emphasized.

Areas in particular need of additional research include the cardiovascular effects of cannabis in several vulnerable populations such as adolescents, older adults, pregnant women, transplant recipients, and those with underlying cardiovascular disease, said Dr. Page.

“Nonetheless, based on the safety signals described within this Clinical Science Statement, an open discussion regarding the risks of using cannabis needs to occur between patient and health care providers,” he said. “Furthermore, patients must be transparent regarding their cannabis use with their cardiologist and primary care provider. The cannabis story will continue to evolve and is a rapidly moving/changing target,” he said.

“Whether cannabis use is a definitive risk factor for cardiovascular disease as with tobacco use is still unknown, and both acute and long-term studies are desperately needed to address this issue,” he said.

Dr. Page had no relevant financial conflicts to disclose.

SOURCE: Page et al. Circulation. 2020 Aug 5. doi: 10.1161/CIR.0000000000000883.

Evidence for a link between cannabis use and cardiovascular health remains unsupported, and the potential risks outweigh any potential benefits, according to a scientific statement from the American Heart Association.

American Heart Association

The increased legalization of cannabis and cannabis products in the United States has driven medical professionals to evaluate the safety and efficacy of cannabis in relation to health conditions, wrote Robert L. Page II, PharmD, of the University of Colorado, Aurora, and colleagues.

In a statement published in Circulation, the researchers noted that although cannabis has been shown to relieve pain and other symptoms in certain conditions, clinicians in the United States have been limited from studying its health effects because of federal law restrictions. “Cannabis remains a schedule I controlled substance, deeming no accepted medical use, a high potential for abuse, and an unacceptable safety profile,” the researchers wrote.

The statement addresses issues with the use of cannabis by individuals with cardiovascular disease or those at increased risk. Observational studies have shown no cardiovascular benefits associated with cannabis, the writers noted. The most common chemicals in cannabis include THC (tetrahydrocannabinolic acid) and CBD (cannabidiol).

Some research has shown associations between CBD cardiovascular features including lower blood pressure and reduced inflammation, the writers noted. However, THC, the component of cannabis associated with a “high” or intoxication, has been associated with heart rhythm abnormalities. The writers cited data suggesting an increased risk of heart attacks, atrial fibrillation and heart failure, although more research is needed.

The statement outlines common cannabis formulations including plant-based, extracts, crystalline forms, edible products, and tinctures. In addition, the statement notes that synthetic cannabis products are marketed and used in the United States without subject to regulation.

“Over the past 5 years, we have seen a surge in cannabis use, particularly during the COVID-19 pandemic here in Colorado, especially among adolescents and young adults,” Dr. Page said in an interview. Because of the surge, health care practitioners need to familiarize themselves with not only the benefits, but risks associated with cannabis use regardless of the formulation,” he said. As heart disease remains a leading cause of death in the United States, understanding the cardiovascular risks associated with cannabis is crucial at this time.

Dr. Page noted that popular attitudes about cannabis could pose risks to users’ cardiovascular health. “One leading misconception about cannabis is because it is ‘natural’ it must be safe,” Dr. Page said. “As with all medications, cannabis has side effects, some of which can be cardiovascular in nature,” he said. “Significant drug-drug interactions can occur as CBD and THC, both found in cannabis, inhibit CYP3A4, which metabolizes a large number of medications used to treat many cardiovascular conditions,” he noted.

“Unfortunately, much of the published data is observational in nature due to the federal restrictions on cannabis as a schedule I drug,” said Dr. Page. “Nonetheless, safety signals have emerged regarding cannabis use and adverse cardiovascular outcomes, including myocardial infarction, heart failure, and atrial fibrillation. Carefully designed prospective short- and long-term studies regarding cannabis use and cardiovascular safety are needed,” he emphasized.

Areas in particular need of additional research include the cardiovascular effects of cannabis in several vulnerable populations such as adolescents, older adults, pregnant women, transplant recipients, and those with underlying cardiovascular disease, said Dr. Page.

“Nonetheless, based on the safety signals described within this Clinical Science Statement, an open discussion regarding the risks of using cannabis needs to occur between patient and health care providers,” he said. “Furthermore, patients must be transparent regarding their cannabis use with their cardiologist and primary care provider. The cannabis story will continue to evolve and is a rapidly moving/changing target,” he said.

“Whether cannabis use is a definitive risk factor for cardiovascular disease as with tobacco use is still unknown, and both acute and long-term studies are desperately needed to address this issue,” he said.

Dr. Page had no relevant financial conflicts to disclose.

SOURCE: Page et al. Circulation. 2020 Aug 5. doi: 10.1161/CIR.0000000000000883.

Evidence for a link between cannabis use and cardiovascular health remains unsupported, and the potential risks outweigh any potential benefits, according to a scientific statement from the American Heart Association.

American Heart Association

The increased legalization of cannabis and cannabis products in the United States has driven medical professionals to evaluate the safety and efficacy of cannabis in relation to health conditions, wrote Robert L. Page II, PharmD, of the University of Colorado, Aurora, and colleagues.

In a statement published in Circulation, the researchers noted that although cannabis has been shown to relieve pain and other symptoms in certain conditions, clinicians in the United States have been limited from studying its health effects because of federal law restrictions. “Cannabis remains a schedule I controlled substance, deeming no accepted medical use, a high potential for abuse, and an unacceptable safety profile,” the researchers wrote.

The statement addresses issues with the use of cannabis by individuals with cardiovascular disease or those at increased risk. Observational studies have shown no cardiovascular benefits associated with cannabis, the writers noted. The most common chemicals in cannabis include THC (tetrahydrocannabinolic acid) and CBD (cannabidiol).

Some research has shown associations between CBD cardiovascular features including lower blood pressure and reduced inflammation, the writers noted. However, THC, the component of cannabis associated with a “high” or intoxication, has been associated with heart rhythm abnormalities. The writers cited data suggesting an increased risk of heart attacks, atrial fibrillation and heart failure, although more research is needed.

The statement outlines common cannabis formulations including plant-based, extracts, crystalline forms, edible products, and tinctures. In addition, the statement notes that synthetic cannabis products are marketed and used in the United States without subject to regulation.

“Over the past 5 years, we have seen a surge in cannabis use, particularly during the COVID-19 pandemic here in Colorado, especially among adolescents and young adults,” Dr. Page said in an interview. Because of the surge, health care practitioners need to familiarize themselves with not only the benefits, but risks associated with cannabis use regardless of the formulation,” he said. As heart disease remains a leading cause of death in the United States, understanding the cardiovascular risks associated with cannabis is crucial at this time.

Dr. Page noted that popular attitudes about cannabis could pose risks to users’ cardiovascular health. “One leading misconception about cannabis is because it is ‘natural’ it must be safe,” Dr. Page said. “As with all medications, cannabis has side effects, some of which can be cardiovascular in nature,” he said. “Significant drug-drug interactions can occur as CBD and THC, both found in cannabis, inhibit CYP3A4, which metabolizes a large number of medications used to treat many cardiovascular conditions,” he noted.

“Unfortunately, much of the published data is observational in nature due to the federal restrictions on cannabis as a schedule I drug,” said Dr. Page. “Nonetheless, safety signals have emerged regarding cannabis use and adverse cardiovascular outcomes, including myocardial infarction, heart failure, and atrial fibrillation. Carefully designed prospective short- and long-term studies regarding cannabis use and cardiovascular safety are needed,” he emphasized.

Areas in particular need of additional research include the cardiovascular effects of cannabis in several vulnerable populations such as adolescents, older adults, pregnant women, transplant recipients, and those with underlying cardiovascular disease, said Dr. Page.

“Nonetheless, based on the safety signals described within this Clinical Science Statement, an open discussion regarding the risks of using cannabis needs to occur between patient and health care providers,” he said. “Furthermore, patients must be transparent regarding their cannabis use with their cardiologist and primary care provider. The cannabis story will continue to evolve and is a rapidly moving/changing target,” he said.

“Whether cannabis use is a definitive risk factor for cardiovascular disease as with tobacco use is still unknown, and both acute and long-term studies are desperately needed to address this issue,” he said.

Dr. Page had no relevant financial conflicts to disclose.

SOURCE: Page et al. Circulation. 2020 Aug 5. doi: 10.1161/CIR.0000000000000883.

When Virginia’s governor directed the postponement of all elective surgeries in late March, Wayne Batchelor, MD and his colleagues at the Inova Heart and Vascular Institute in Falls Church, Va., canceled about two-thirds of their transcatheter aortic valve replacement (TAVR) procedures.

Courtesy Wayne Batchelor, MD

They then categorized patients by tiers to gauge which procedures could safely be postponed and to guide triaging. And while they did not deviate from the practice of having both an interventional cardiologist and a cardiothoracic surgeon present for TAVR, they slimmed down preprocedural testing when feasible and delayed some 30-day post-TAVR echocardiographic assessments. “It was a delicate dance, very difficult dance. But luckily, we were able to navigate the challenges effectively,” said Dr. Batchelor, the institute’s director of interventional cardiology and interventional cardiology research.

A “system capacity dashboard” that merged bed and staffing data from interventional cardiology spaces with cardiovascular and noncardiovascular ICU beds, operating rooms, and other resources – and daily cross-department meetings – enabled them to proceed with the most urgent TAVR procedures while “keeping a buffer of ICU beds to accommodate an anticipated surge of COVID-19,” he explained.

Such adaptations in cardiac procedures and processes are occurring in hospitals across the country as efforts are made to minimize the risk of COVID-19 exposure for patients and staff. Dr. Batchelor is one of four cardiologists who shared their experiences and advice on common cardiac procedures across three locales: TAVR in Virginia, percutaneous coronary intervention (PCI) in New York City, and atrial fibrillation (AFib) ablation in Kentucky.
 

More on TAVR in Virginia

Inova’s framework for triaging structural heart disease interventions (largely TAVR and/or percutaneous mitral valve repair) comprised three tiers. Tier 1 captured “emergent cases that had to be done, no questions asked,” Dr. Batchelor said. For TAVR, these were inpatients with severe to critical symptomatic aortic stenosis and advanced congestive heart failure who could not safely be discharged, as well as other patients “with refractory symptoms of heart failure that were compelling.” Many had associated left ventricular systolic dysfunction.

Those who could delay 14-30 days were placed in tier 2, and patients who “we felt were fairly stable and could wait at least 30 days” were placed in tier 3. “For TAVR, a tier 3 patient might be the one … who has severe aortic stenosis but is walking around and doing well at home with only stable exertional symptoms,” he said.

Patients whose procedures were delayed were contacted weekly by the valve clinic’s advanced practice practitioners through video visits or telephone calls, and tier categorization was reevaluated if symptoms worsened. “We had to keep in close contact with them,” Dr. Batchelor said. “These patients can deteriorate quite rapidly and sometimes without much warning.”

Virtual video visits were often used for 30-day postprocedural follow-ups, taking the place of in-person visits during which post-TAVR echocardiographic assessments would normally be performed. “For follow-up, we’d often just do a quick visit to check the vascular access site within 7-10 days, and then, if they were doing okay we’d delay the 30-day echo to a later time frame,” he said.

Preprocedural testing was streamlined to minimize the number of patient-provider interactions, with pulmonary function testing and pre-TAVR catheterization omitted unless absolutely necessary. “A TAVR CT angiogram [performed within the prior year] is the only test you really absolutely need,” Dr. Batchelor said. “We were much less likely to order a heart catheterization unless the patient was having angina and high risk or suspicion for significant coronary artery disease.”

This approach was not associated with any compromise in postprocedural outcomes, he noted. Prior to the pandemic, Inova routinely employed a minimalist approach to TAVR with moderate conscious sedation and avoiding transesophageal echocardiography – steps that were recommended for structural heart procedures in the COVID-19 era in a published review by the heart team at New York-Presbyterian Hospital/Columbia University Irving Medical Center.

The New York review is useful for cardiologists in areas with rising case burdens of COVID-19, Dr. Batchelor said, as is a position statement he coauthored from the American College of Cardiology and the Society for Cardiology and Angiography Interventions (SCAI) on triage considerations for structural heart disease interventions during the pandemic.

TAVR’s resource-heavy nature made the “system capacity dashboard” and daily meetings critical, Dr. Batchelor explained. At one point during the hold on elective procedures, the Falls Church INOVA facility had approximately 300 patients with COVID-19, a significant proportion of whom were in cardiac ICU beds.

“Everyone has to be flexible and learn,” he said. “We trained our cardiologists on managing ventilators in case some of the [critical care] staff got ill or were overwhelmed by the surge.”

More than 2 months after the surge eased and the ban on elective surgery was lifted, Dr. Batchelor and his colleagues are still using the dashboard and continue to meet daily to discuss COVID-19 prevalence in the hospital and the community as they work through the backlog of delayed procedures. They also routinely review the status of COVID-19 testing for inpatients and outpatients and the donning and doffing of personal protective equipment.

“You have to communicate early and often across the whole system of care because you’re competing for the same resources,” he advised. “And you have to be flexible and reassess. A policy that works at the beginning of the pandemic might have to change.”
 

PCI in New York

Before the pandemic, the cardiac catheterization laboratory at Mount Sinai Morningside Hospital in New York handled a monthly average of 140-150 PCIs, including 6-10 primary PCIs for ST-segment elevation myocardial infarction.

Courtesy of Mount Sinai Morningside

When electives were halted by the hospital in March and the City became the global epicenter for COVID-19, the cath lab went quiet. “Even though we were still able to do urgent cases or emergent cases, the case volume dropped tremendously,” said Jacqueline E. Tamis-Holland, MD, associate director of the cardiac catheterization laboratory and director of the interventional cardiology fellowship. “There weren’t many outpatients in our hospital … and by late March and through April, there wasn’t a single acute infarction.”

She and Tak W. Kwan, MD, director of the cardiac catheterization laboratory and professor of medicine at Icahn School of Medicine at Mount Sinai, New York, were prepared to move true STEMI patients into the cath lab for primary PCI without delay unless the staff or system were overrun.

That primary PCI should remain the first-line treatment for STEMI even in cases of confirmed or suspected COVID-19 was recommended by SCAI guidance issued in March and by a consensus statement released by the SCAI, ACC, and American College of Emergency Physicians in April – and “we were very much of the same frame of mind,” Dr. Tamis-Holland said.

Deciding which elective cases could not be delayed required a completely individualized approach, the cardiologists emphasized. Dr. Tamis-Holland had a few patients scheduled for elective PCI when the hold began, and “we spoke every few days or once a week in the beginning, then transitioned to once every 2 weeks,” she said. “With medical therapy and given that they were relatively sedentary, my patients did okay [with the delays].”

For subsequent patients, she considered their symptoms or stress test results. “If it’s someone who I’d [normally] wait until next week to schedule the cath, then we would wait 2 or 3 more weeks, or a month more with careful monitoring,” she said. “Certainly, there was a decrease in the number of abnormal stress tests that I referred to the cath lab during [the surge period].”

Dr. Kwan described one patient who had new-onset congestive heart failure in late March “with a markedly positive nuclear stress test.” The patient was monitored with twice-weekly telemedicine visits and office visits, and a cardiac catheterization was performed in early May as an urgent elective case. “He had severe three-vessel and left main disease,” he said. “Subsequently, [coronary artery bypass surgery] was done.”

There were no changes in the PCI procedure itself in terms of hospital stay (most elective cases at Mt. Sinai are same-day procedures) or in staffing, other than a ban on visiting students or residents. The most important changes during the surge – in addition to stocking enough personal protective equipment – concerned testing. Patients undergoing elective PCI are tested for the novel coronavirus 72 hours before the procedure, and rapid testing is performed in the emergency room for STEMI patients to determine patient disposition after the procedure.

“Until we have the results back we should treat all patients as if they are a patient under investigation or have COVID,” said Dr. Tamis-Holland, who helped develop emergency guidance on STEMI systems of care during the pandemic for the American Heart Association.

In early May, the hospital freed up additional space for cardiac care, allowing more “urgent-elective” PCIs to be done. Some patients were reluctant to proceed, the cardiologists said, because of a no-visitor policy. In mid-June, the hold on elective procedures was lifted, and around the same time, the hospital shifted to a one-visitor policy. Still, some patients opted to continue longer with medical therapy.

Patients need to feel comfortable, and “there is a lag time from the time everything opens up and when patients get their stress tests and their evaluations, and then arrive for PCI,” said Dr. Tamis-Holland.

By mid-July, the cardiologists were anticipating an increase in complications from infarctions among patients who “waited them out at home” – heart failure or mitral valve regurgitation, for instance – but, in their hospital at least, “we haven’t really seen that,” she added.
 

AFib ablation in Kentucky

As New York experienced its surge, John Mandrola, MD, and other electrophysiologists across the Baptist Health system in Kentucky reached a consensus on how to categorize their procedures. Electrophysiology interventions were classified urgent, emergent, and truly elective in the event that the state’s relatively low case burden of COVID-19 were to significantly worsen.

There was no doubt where AFib ablation sat. “It’s one of the most elective procedures there is” in terms of scheduling under normal circumstances, and it almost always requires an overnight stay and general anesthesia – factors that upped the ante on an elective classification, said Dr. Mandrola.

All AF ablations were deemed elective unless the patient required immediate hospitalization. For 8-10 weeks during the state’s shutdown of elective care, Dr. Mandrola and his partner successfully monitored patients with phone calls. “To be honest,” he said, “most patients did not want to have their AFib ablation anyway until the pandemic slowed and they knew it was safe.”

In some cases, patients reported that their symptoms were improving: “There are so many things to speculate about. ... Was it that everyone took their foot off the accelerator?” Dr. Mandrola thinks that postpandemic outcomes analyses may drive more scrutiny of the necessity of some AFib ablations and other procedures and tests. AFib ablation “has its place but is probably overused,” he said.

During the pause on electives, “the vast majority of procedures we did were pacemaker procedures,” he said. “We also did some atrial flutter ablations, and ablations for ventricular tachycardia and supraventricular tachycardia.” In mid-July, as the COVID-19 case burden in Kentucky remained relatively low, Dr. Mandrola was “up to 120%” of his pre-COVID electrophysiology volume – but ready to scale back again if needed.

Dr. Batchelor reported consulting fees from Boston Scientific, Abbott Medical, Medtronic, and V-wave. Dr. Kwan, Dr. Mandrola, and Dr. Tamis-Holland reported no relevant financial disclosures.
 

This article is a collaboration between Medscape and MDedge. A version of it originally appeared on Medscape.com.

When Virginia’s governor directed the postponement of all elective surgeries in late March, Wayne Batchelor, MD and his colleagues at the Inova Heart and Vascular Institute in Falls Church, Va., canceled about two-thirds of their transcatheter aortic valve replacement (TAVR) procedures.

Courtesy Wayne Batchelor, MD

They then categorized patients by tiers to gauge which procedures could safely be postponed and to guide triaging. And while they did not deviate from the practice of having both an interventional cardiologist and a cardiothoracic surgeon present for TAVR, they slimmed down preprocedural testing when feasible and delayed some 30-day post-TAVR echocardiographic assessments. “It was a delicate dance, very difficult dance. But luckily, we were able to navigate the challenges effectively,” said Dr. Batchelor, the institute’s director of interventional cardiology and interventional cardiology research.

A “system capacity dashboard” that merged bed and staffing data from interventional cardiology spaces with cardiovascular and noncardiovascular ICU beds, operating rooms, and other resources – and daily cross-department meetings – enabled them to proceed with the most urgent TAVR procedures while “keeping a buffer of ICU beds to accommodate an anticipated surge of COVID-19,” he explained.

Such adaptations in cardiac procedures and processes are occurring in hospitals across the country as efforts are made to minimize the risk of COVID-19 exposure for patients and staff. Dr. Batchelor is one of four cardiologists who shared their experiences and advice on common cardiac procedures across three locales: TAVR in Virginia, percutaneous coronary intervention (PCI) in New York City, and atrial fibrillation (AFib) ablation in Kentucky.
 

More on TAVR in Virginia

Inova’s framework for triaging structural heart disease interventions (largely TAVR and/or percutaneous mitral valve repair) comprised three tiers. Tier 1 captured “emergent cases that had to be done, no questions asked,” Dr. Batchelor said. For TAVR, these were inpatients with severe to critical symptomatic aortic stenosis and advanced congestive heart failure who could not safely be discharged, as well as other patients “with refractory symptoms of heart failure that were compelling.” Many had associated left ventricular systolic dysfunction.

Those who could delay 14-30 days were placed in tier 2, and patients who “we felt were fairly stable and could wait at least 30 days” were placed in tier 3. “For TAVR, a tier 3 patient might be the one … who has severe aortic stenosis but is walking around and doing well at home with only stable exertional symptoms,” he said.

Patients whose procedures were delayed were contacted weekly by the valve clinic’s advanced practice practitioners through video visits or telephone calls, and tier categorization was reevaluated if symptoms worsened. “We had to keep in close contact with them,” Dr. Batchelor said. “These patients can deteriorate quite rapidly and sometimes without much warning.”

Virtual video visits were often used for 30-day postprocedural follow-ups, taking the place of in-person visits during which post-TAVR echocardiographic assessments would normally be performed. “For follow-up, we’d often just do a quick visit to check the vascular access site within 7-10 days, and then, if they were doing okay we’d delay the 30-day echo to a later time frame,” he said.

Preprocedural testing was streamlined to minimize the number of patient-provider interactions, with pulmonary function testing and pre-TAVR catheterization omitted unless absolutely necessary. “A TAVR CT angiogram [performed within the prior year] is the only test you really absolutely need,” Dr. Batchelor said. “We were much less likely to order a heart catheterization unless the patient was having angina and high risk or suspicion for significant coronary artery disease.”

This approach was not associated with any compromise in postprocedural outcomes, he noted. Prior to the pandemic, Inova routinely employed a minimalist approach to TAVR with moderate conscious sedation and avoiding transesophageal echocardiography – steps that were recommended for structural heart procedures in the COVID-19 era in a published review by the heart team at New York-Presbyterian Hospital/Columbia University Irving Medical Center.

The New York review is useful for cardiologists in areas with rising case burdens of COVID-19, Dr. Batchelor said, as is a position statement he coauthored from the American College of Cardiology and the Society for Cardiology and Angiography Interventions (SCAI) on triage considerations for structural heart disease interventions during the pandemic.

TAVR’s resource-heavy nature made the “system capacity dashboard” and daily meetings critical, Dr. Batchelor explained. At one point during the hold on elective procedures, the Falls Church INOVA facility had approximately 300 patients with COVID-19, a significant proportion of whom were in cardiac ICU beds.

“Everyone has to be flexible and learn,” he said. “We trained our cardiologists on managing ventilators in case some of the [critical care] staff got ill or were overwhelmed by the surge.”

More than 2 months after the surge eased and the ban on elective surgery was lifted, Dr. Batchelor and his colleagues are still using the dashboard and continue to meet daily to discuss COVID-19 prevalence in the hospital and the community as they work through the backlog of delayed procedures. They also routinely review the status of COVID-19 testing for inpatients and outpatients and the donning and doffing of personal protective equipment.

“You have to communicate early and often across the whole system of care because you’re competing for the same resources,” he advised. “And you have to be flexible and reassess. A policy that works at the beginning of the pandemic might have to change.”
 

PCI in New York

Before the pandemic, the cardiac catheterization laboratory at Mount Sinai Morningside Hospital in New York handled a monthly average of 140-150 PCIs, including 6-10 primary PCIs for ST-segment elevation myocardial infarction.

Courtesy of Mount Sinai Morningside

When electives were halted by the hospital in March and the City became the global epicenter for COVID-19, the cath lab went quiet. “Even though we were still able to do urgent cases or emergent cases, the case volume dropped tremendously,” said Jacqueline E. Tamis-Holland, MD, associate director of the cardiac catheterization laboratory and director of the interventional cardiology fellowship. “There weren’t many outpatients in our hospital … and by late March and through April, there wasn’t a single acute infarction.”

She and Tak W. Kwan, MD, director of the cardiac catheterization laboratory and professor of medicine at Icahn School of Medicine at Mount Sinai, New York, were prepared to move true STEMI patients into the cath lab for primary PCI without delay unless the staff or system were overrun.

That primary PCI should remain the first-line treatment for STEMI even in cases of confirmed or suspected COVID-19 was recommended by SCAI guidance issued in March and by a consensus statement released by the SCAI, ACC, and American College of Emergency Physicians in April – and “we were very much of the same frame of mind,” Dr. Tamis-Holland said.

Deciding which elective cases could not be delayed required a completely individualized approach, the cardiologists emphasized. Dr. Tamis-Holland had a few patients scheduled for elective PCI when the hold began, and “we spoke every few days or once a week in the beginning, then transitioned to once every 2 weeks,” she said. “With medical therapy and given that they were relatively sedentary, my patients did okay [with the delays].”

For subsequent patients, she considered their symptoms or stress test results. “If it’s someone who I’d [normally] wait until next week to schedule the cath, then we would wait 2 or 3 more weeks, or a month more with careful monitoring,” she said. “Certainly, there was a decrease in the number of abnormal stress tests that I referred to the cath lab during [the surge period].”

Dr. Kwan described one patient who had new-onset congestive heart failure in late March “with a markedly positive nuclear stress test.” The patient was monitored with twice-weekly telemedicine visits and office visits, and a cardiac catheterization was performed in early May as an urgent elective case. “He had severe three-vessel and left main disease,” he said. “Subsequently, [coronary artery bypass surgery] was done.”

There were no changes in the PCI procedure itself in terms of hospital stay (most elective cases at Mt. Sinai are same-day procedures) or in staffing, other than a ban on visiting students or residents. The most important changes during the surge – in addition to stocking enough personal protective equipment – concerned testing. Patients undergoing elective PCI are tested for the novel coronavirus 72 hours before the procedure, and rapid testing is performed in the emergency room for STEMI patients to determine patient disposition after the procedure.

“Until we have the results back we should treat all patients as if they are a patient under investigation or have COVID,” said Dr. Tamis-Holland, who helped develop emergency guidance on STEMI systems of care during the pandemic for the American Heart Association.

In early May, the hospital freed up additional space for cardiac care, allowing more “urgent-elective” PCIs to be done. Some patients were reluctant to proceed, the cardiologists said, because of a no-visitor policy. In mid-June, the hold on elective procedures was lifted, and around the same time, the hospital shifted to a one-visitor policy. Still, some patients opted to continue longer with medical therapy.

Patients need to feel comfortable, and “there is a lag time from the time everything opens up and when patients get their stress tests and their evaluations, and then arrive for PCI,” said Dr. Tamis-Holland.

By mid-July, the cardiologists were anticipating an increase in complications from infarctions among patients who “waited them out at home” – heart failure or mitral valve regurgitation, for instance – but, in their hospital at least, “we haven’t really seen that,” she added.
 

AFib ablation in Kentucky

As New York experienced its surge, John Mandrola, MD, and other electrophysiologists across the Baptist Health system in Kentucky reached a consensus on how to categorize their procedures. Electrophysiology interventions were classified urgent, emergent, and truly elective in the event that the state’s relatively low case burden of COVID-19 were to significantly worsen.

There was no doubt where AFib ablation sat. “It’s one of the most elective procedures there is” in terms of scheduling under normal circumstances, and it almost always requires an overnight stay and general anesthesia – factors that upped the ante on an elective classification, said Dr. Mandrola.

All AF ablations were deemed elective unless the patient required immediate hospitalization. For 8-10 weeks during the state’s shutdown of elective care, Dr. Mandrola and his partner successfully monitored patients with phone calls. “To be honest,” he said, “most patients did not want to have their AFib ablation anyway until the pandemic slowed and they knew it was safe.”

In some cases, patients reported that their symptoms were improving: “There are so many things to speculate about. ... Was it that everyone took their foot off the accelerator?” Dr. Mandrola thinks that postpandemic outcomes analyses may drive more scrutiny of the necessity of some AFib ablations and other procedures and tests. AFib ablation “has its place but is probably overused,” he said.

During the pause on electives, “the vast majority of procedures we did were pacemaker procedures,” he said. “We also did some atrial flutter ablations, and ablations for ventricular tachycardia and supraventricular tachycardia.” In mid-July, as the COVID-19 case burden in Kentucky remained relatively low, Dr. Mandrola was “up to 120%” of his pre-COVID electrophysiology volume – but ready to scale back again if needed.

Dr. Batchelor reported consulting fees from Boston Scientific, Abbott Medical, Medtronic, and V-wave. Dr. Kwan, Dr. Mandrola, and Dr. Tamis-Holland reported no relevant financial disclosures.
 

This article is a collaboration between Medscape and MDedge. A version of it originally appeared on Medscape.com.

When Virginia’s governor directed the postponement of all elective surgeries in late March, Wayne Batchelor, MD and his colleagues at the Inova Heart and Vascular Institute in Falls Church, Va., canceled about two-thirds of their transcatheter aortic valve replacement (TAVR) procedures.

Courtesy Wayne Batchelor, MD

They then categorized patients by tiers to gauge which procedures could safely be postponed and to guide triaging. And while they did not deviate from the practice of having both an interventional cardiologist and a cardiothoracic surgeon present for TAVR, they slimmed down preprocedural testing when feasible and delayed some 30-day post-TAVR echocardiographic assessments. “It was a delicate dance, very difficult dance. But luckily, we were able to navigate the challenges effectively,” said Dr. Batchelor, the institute’s director of interventional cardiology and interventional cardiology research.

A “system capacity dashboard” that merged bed and staffing data from interventional cardiology spaces with cardiovascular and noncardiovascular ICU beds, operating rooms, and other resources – and daily cross-department meetings – enabled them to proceed with the most urgent TAVR procedures while “keeping a buffer of ICU beds to accommodate an anticipated surge of COVID-19,” he explained.

Such adaptations in cardiac procedures and processes are occurring in hospitals across the country as efforts are made to minimize the risk of COVID-19 exposure for patients and staff. Dr. Batchelor is one of four cardiologists who shared their experiences and advice on common cardiac procedures across three locales: TAVR in Virginia, percutaneous coronary intervention (PCI) in New York City, and atrial fibrillation (AFib) ablation in Kentucky.
 

More on TAVR in Virginia

Inova’s framework for triaging structural heart disease interventions (largely TAVR and/or percutaneous mitral valve repair) comprised three tiers. Tier 1 captured “emergent cases that had to be done, no questions asked,” Dr. Batchelor said. For TAVR, these were inpatients with severe to critical symptomatic aortic stenosis and advanced congestive heart failure who could not safely be discharged, as well as other patients “with refractory symptoms of heart failure that were compelling.” Many had associated left ventricular systolic dysfunction.

Those who could delay 14-30 days were placed in tier 2, and patients who “we felt were fairly stable and could wait at least 30 days” were placed in tier 3. “For TAVR, a tier 3 patient might be the one … who has severe aortic stenosis but is walking around and doing well at home with only stable exertional symptoms,” he said.

Patients whose procedures were delayed were contacted weekly by the valve clinic’s advanced practice practitioners through video visits or telephone calls, and tier categorization was reevaluated if symptoms worsened. “We had to keep in close contact with them,” Dr. Batchelor said. “These patients can deteriorate quite rapidly and sometimes without much warning.”

Virtual video visits were often used for 30-day postprocedural follow-ups, taking the place of in-person visits during which post-TAVR echocardiographic assessments would normally be performed. “For follow-up, we’d often just do a quick visit to check the vascular access site within 7-10 days, and then, if they were doing okay we’d delay the 30-day echo to a later time frame,” he said.

Preprocedural testing was streamlined to minimize the number of patient-provider interactions, with pulmonary function testing and pre-TAVR catheterization omitted unless absolutely necessary. “A TAVR CT angiogram [performed within the prior year] is the only test you really absolutely need,” Dr. Batchelor said. “We were much less likely to order a heart catheterization unless the patient was having angina and high risk or suspicion for significant coronary artery disease.”

This approach was not associated with any compromise in postprocedural outcomes, he noted. Prior to the pandemic, Inova routinely employed a minimalist approach to TAVR with moderate conscious sedation and avoiding transesophageal echocardiography – steps that were recommended for structural heart procedures in the COVID-19 era in a published review by the heart team at New York-Presbyterian Hospital/Columbia University Irving Medical Center.

The New York review is useful for cardiologists in areas with rising case burdens of COVID-19, Dr. Batchelor said, as is a position statement he coauthored from the American College of Cardiology and the Society for Cardiology and Angiography Interventions (SCAI) on triage considerations for structural heart disease interventions during the pandemic.

TAVR’s resource-heavy nature made the “system capacity dashboard” and daily meetings critical, Dr. Batchelor explained. At one point during the hold on elective procedures, the Falls Church INOVA facility had approximately 300 patients with COVID-19, a significant proportion of whom were in cardiac ICU beds.

“Everyone has to be flexible and learn,” he said. “We trained our cardiologists on managing ventilators in case some of the [critical care] staff got ill or were overwhelmed by the surge.”

More than 2 months after the surge eased and the ban on elective surgery was lifted, Dr. Batchelor and his colleagues are still using the dashboard and continue to meet daily to discuss COVID-19 prevalence in the hospital and the community as they work through the backlog of delayed procedures. They also routinely review the status of COVID-19 testing for inpatients and outpatients and the donning and doffing of personal protective equipment.

“You have to communicate early and often across the whole system of care because you’re competing for the same resources,” he advised. “And you have to be flexible and reassess. A policy that works at the beginning of the pandemic might have to change.”
 

PCI in New York

Before the pandemic, the cardiac catheterization laboratory at Mount Sinai Morningside Hospital in New York handled a monthly average of 140-150 PCIs, including 6-10 primary PCIs for ST-segment elevation myocardial infarction.

Courtesy of Mount Sinai Morningside

When electives were halted by the hospital in March and the City became the global epicenter for COVID-19, the cath lab went quiet. “Even though we were still able to do urgent cases or emergent cases, the case volume dropped tremendously,” said Jacqueline E. Tamis-Holland, MD, associate director of the cardiac catheterization laboratory and director of the interventional cardiology fellowship. “There weren’t many outpatients in our hospital … and by late March and through April, there wasn’t a single acute infarction.”

She and Tak W. Kwan, MD, director of the cardiac catheterization laboratory and professor of medicine at Icahn School of Medicine at Mount Sinai, New York, were prepared to move true STEMI patients into the cath lab for primary PCI without delay unless the staff or system were overrun.

That primary PCI should remain the first-line treatment for STEMI even in cases of confirmed or suspected COVID-19 was recommended by SCAI guidance issued in March and by a consensus statement released by the SCAI, ACC, and American College of Emergency Physicians in April – and “we were very much of the same frame of mind,” Dr. Tamis-Holland said.

Deciding which elective cases could not be delayed required a completely individualized approach, the cardiologists emphasized. Dr. Tamis-Holland had a few patients scheduled for elective PCI when the hold began, and “we spoke every few days or once a week in the beginning, then transitioned to once every 2 weeks,” she said. “With medical therapy and given that they were relatively sedentary, my patients did okay [with the delays].”

For subsequent patients, she considered their symptoms or stress test results. “If it’s someone who I’d [normally] wait until next week to schedule the cath, then we would wait 2 or 3 more weeks, or a month more with careful monitoring,” she said. “Certainly, there was a decrease in the number of abnormal stress tests that I referred to the cath lab during [the surge period].”

Dr. Kwan described one patient who had new-onset congestive heart failure in late March “with a markedly positive nuclear stress test.” The patient was monitored with twice-weekly telemedicine visits and office visits, and a cardiac catheterization was performed in early May as an urgent elective case. “He had severe three-vessel and left main disease,” he said. “Subsequently, [coronary artery bypass surgery] was done.”

There were no changes in the PCI procedure itself in terms of hospital stay (most elective cases at Mt. Sinai are same-day procedures) or in staffing, other than a ban on visiting students or residents. The most important changes during the surge – in addition to stocking enough personal protective equipment – concerned testing. Patients undergoing elective PCI are tested for the novel coronavirus 72 hours before the procedure, and rapid testing is performed in the emergency room for STEMI patients to determine patient disposition after the procedure.

“Until we have the results back we should treat all patients as if they are a patient under investigation or have COVID,” said Dr. Tamis-Holland, who helped develop emergency guidance on STEMI systems of care during the pandemic for the American Heart Association.

In early May, the hospital freed up additional space for cardiac care, allowing more “urgent-elective” PCIs to be done. Some patients were reluctant to proceed, the cardiologists said, because of a no-visitor policy. In mid-June, the hold on elective procedures was lifted, and around the same time, the hospital shifted to a one-visitor policy. Still, some patients opted to continue longer with medical therapy.

Patients need to feel comfortable, and “there is a lag time from the time everything opens up and when patients get their stress tests and their evaluations, and then arrive for PCI,” said Dr. Tamis-Holland.

By mid-July, the cardiologists were anticipating an increase in complications from infarctions among patients who “waited them out at home” – heart failure or mitral valve regurgitation, for instance – but, in their hospital at least, “we haven’t really seen that,” she added.
 

AFib ablation in Kentucky

As New York experienced its surge, John Mandrola, MD, and other electrophysiologists across the Baptist Health system in Kentucky reached a consensus on how to categorize their procedures. Electrophysiology interventions were classified urgent, emergent, and truly elective in the event that the state’s relatively low case burden of COVID-19 were to significantly worsen.

There was no doubt where AFib ablation sat. “It’s one of the most elective procedures there is” in terms of scheduling under normal circumstances, and it almost always requires an overnight stay and general anesthesia – factors that upped the ante on an elective classification, said Dr. Mandrola.

All AF ablations were deemed elective unless the patient required immediate hospitalization. For 8-10 weeks during the state’s shutdown of elective care, Dr. Mandrola and his partner successfully monitored patients with phone calls. “To be honest,” he said, “most patients did not want to have their AFib ablation anyway until the pandemic slowed and they knew it was safe.”

In some cases, patients reported that their symptoms were improving: “There are so many things to speculate about. ... Was it that everyone took their foot off the accelerator?” Dr. Mandrola thinks that postpandemic outcomes analyses may drive more scrutiny of the necessity of some AFib ablations and other procedures and tests. AFib ablation “has its place but is probably overused,” he said.

During the pause on electives, “the vast majority of procedures we did were pacemaker procedures,” he said. “We also did some atrial flutter ablations, and ablations for ventricular tachycardia and supraventricular tachycardia.” In mid-July, as the COVID-19 case burden in Kentucky remained relatively low, Dr. Mandrola was “up to 120%” of his pre-COVID electrophysiology volume – but ready to scale back again if needed.

Dr. Batchelor reported consulting fees from Boston Scientific, Abbott Medical, Medtronic, and V-wave. Dr. Kwan, Dr. Mandrola, and Dr. Tamis-Holland reported no relevant financial disclosures.
 

This article is a collaboration between Medscape and MDedge. A version of it originally appeared on Medscape.com.