Cardiology

Inhaled treprostinil improved the exercise capacity of patients with pulmonary hypertension attributable to interstitial lung disease and was associated with some additional clinical benefits, according to a new study published in the New England Journal of Medicine.

To investigate treprostinil therapy for pulmonary hypertension in this subset of patients with lung disease, Aaron Waxman, MD, PhD, of Brigham and Women’s Hospital in Boston, and his fellow researchers launched the multicenter, randomized, double-blind, placebo-controlled INCREASE trial. They assigned 163 patients to the inhaled treprostinil group – administered via an ultrasonic, pulsed-delivery nebulizer over 16 weeks – and 163 patients to the placebo group. Their average age was 66.5 years, 73% were white, and 47% were female

At baseline, the mean 6-minute walk distance (6MWD) for all patients was 259.6 m. After 16 weeks, the treprostinil group gained a mean of 21.08 m in 6MWD, and the placebo group lost 10.04 m. The least-squares mean difference between the groups from baseline in the 6MWD was 31.12 m (95% confidence interval, 16.85-45.39; P < .001). After sensitivity analysis with multiple imputation, the difference remained significant at 30.97 m (95% CI, 16.53-45.41; P < .001).

In a comparison of N-terminal pro–B-type natriuretic peptide (NT-proBNP) levels from baseline to 16 weeks, the treprostinil group saw a decrease of 15% while the placebo group’s levels increased by 46% (treatment ratio 0.58; 95% CI, 0.47-0.72; P < .001). Clinical worsening occurred in 37 patients (23%) in the treprostinil group and 54 patients (33%) in the placebo group (hazard ratio, 0.61; 95% CI, 0.40-0.92; P = .04), while serious adverse events occurred in 23.3% of the patients on treprostinil and 25.8% of the patients on placebo. There was no significant difference between groups in patient-reported quality of life, as assessed via the St. George’s Respiratory Questionnaire.

“There was no guarantee that this was going to work in this condition,” said Adriano Tonelli, MD, of the department of pulmonary medicine at the Cleveland Clinic, in an interview. “Several small studies have tried different medications, for pulmonary hypertension or otherwise, in patients with interstitial lung disease with minimal effect, if any. Given that all the prior studies were not categorically positive, the expectation, at least on my end, was that we needed to wait and see.” Dr. Tonelli and coauthors published a post hoc analysis of inhaled treprostinil studied in the TRIUMPH and BEAT trials.

Next steps: Assess clinical outcomes after inhaled treprostinil

Although the results of this study by Waxman et al, are encouraging, and the need for a treatment in this type of pulmonary hypertension is very real, more narrowing down will be needed to confirm the benefits of inhaled treprostinil, wrote Darren B. Taichman, MD, PhD, of the University of Pennsylvania in an accompanying editorial. He wrote, “After all, patients and physicians may reason, ‘It can’t hurt.’ Unfortunately, however, it could. Therapies approved for pulmonary arterial hypertension have been studied in patients with [ILD]-associated pulmonary hypertension and have shown inconsistent results, with some studies showing no benefit or suggesting harm.”

While the 6MWD has been used as an end point in previous drug trials for pulmonary arterial hypertension, Dr. Taichman wrote that improvements in such a variable were “probably too modest to be unequivocally consequential for many patients.” To confirm the benefits – and detriments – of treatments like inhaled treprostinil, it’s time for studies to focus on clinical end points, he stated, including hospitalizations, disease progression, and death.

He also highlighted the disparity between a treatment that led to increased walk distance and decreased clinical worsening yet did not register an improvement in health-related quality of life. He noted that the oft-cited minimal clinically important difference for 6MWD is approximately 30 m – similar to the difference recorded here. That said, he wrote, “prevention of deterioration is not to be ignored, even if it does not make a patient feel better.”

Regarding quality of life, Dr. Tonelli observed that this questionnaire, standard fare in respiratory research, may not have been perfectly suited for this particular study.

“You have to put it in the context of, ‘How good is the questionnaire to capture a difference in this particular disease over a 16-week period?’ ” he said. “It might not be sensitive enough to capture a significant change. The questionnaire was not developed for pulmonary hypertension in interstitial lung disease, of course. It was developed more generically. It may not capture all that you need to show significance.”

The investigators acknowledged the study’s other potential limitations, including a short duration, a notable percentage of patients who discontinued the trial early, and the fact that clinical worsening and exacerbation of disease were investigator reported and not confirmed by an independent committee.

As for next steps in assessing pulmonary hypertension treatments, Dr. Tonelli pointed to the direction of future research. “The other big study that needs to come out in our field, and I believe it’s being worked on, is inhaled treprostinil in pulmonary hypertension due to chronic obstructive pulmonary disease [COPD],” he said. “That’s a major unmet need; the COPD population is larger than the population for interstitial lung disease, and one would wonder whether inhaled treprostinil would benefit those patients as well. At the moment, we have no treatments for that condition. In the future, a COPD study will be needed.”

The study was supported by United Therapeutics. Author disclosures are listed on the New England Journal of Medicine website.

Inhaled treprostinil improved the exercise capacity of patients with pulmonary hypertension attributable to interstitial lung disease and was associated with some additional clinical benefits, according to a new study published in the New England Journal of Medicine.

To investigate treprostinil therapy for pulmonary hypertension in this subset of patients with lung disease, Aaron Waxman, MD, PhD, of Brigham and Women’s Hospital in Boston, and his fellow researchers launched the multicenter, randomized, double-blind, placebo-controlled INCREASE trial. They assigned 163 patients to the inhaled treprostinil group – administered via an ultrasonic, pulsed-delivery nebulizer over 16 weeks – and 163 patients to the placebo group. Their average age was 66.5 years, 73% were white, and 47% were female

At baseline, the mean 6-minute walk distance (6MWD) for all patients was 259.6 m. After 16 weeks, the treprostinil group gained a mean of 21.08 m in 6MWD, and the placebo group lost 10.04 m. The least-squares mean difference between the groups from baseline in the 6MWD was 31.12 m (95% confidence interval, 16.85-45.39; P < .001). After sensitivity analysis with multiple imputation, the difference remained significant at 30.97 m (95% CI, 16.53-45.41; P < .001).

In a comparison of N-terminal pro–B-type natriuretic peptide (NT-proBNP) levels from baseline to 16 weeks, the treprostinil group saw a decrease of 15% while the placebo group’s levels increased by 46% (treatment ratio 0.58; 95% CI, 0.47-0.72; P < .001). Clinical worsening occurred in 37 patients (23%) in the treprostinil group and 54 patients (33%) in the placebo group (hazard ratio, 0.61; 95% CI, 0.40-0.92; P = .04), while serious adverse events occurred in 23.3% of the patients on treprostinil and 25.8% of the patients on placebo. There was no significant difference between groups in patient-reported quality of life, as assessed via the St. George’s Respiratory Questionnaire.

“There was no guarantee that this was going to work in this condition,” said Adriano Tonelli, MD, of the department of pulmonary medicine at the Cleveland Clinic, in an interview. “Several small studies have tried different medications, for pulmonary hypertension or otherwise, in patients with interstitial lung disease with minimal effect, if any. Given that all the prior studies were not categorically positive, the expectation, at least on my end, was that we needed to wait and see.” Dr. Tonelli and coauthors published a post hoc analysis of inhaled treprostinil studied in the TRIUMPH and BEAT trials.

Next steps: Assess clinical outcomes after inhaled treprostinil

Although the results of this study by Waxman et al, are encouraging, and the need for a treatment in this type of pulmonary hypertension is very real, more narrowing down will be needed to confirm the benefits of inhaled treprostinil, wrote Darren B. Taichman, MD, PhD, of the University of Pennsylvania in an accompanying editorial. He wrote, “After all, patients and physicians may reason, ‘It can’t hurt.’ Unfortunately, however, it could. Therapies approved for pulmonary arterial hypertension have been studied in patients with [ILD]-associated pulmonary hypertension and have shown inconsistent results, with some studies showing no benefit or suggesting harm.”

While the 6MWD has been used as an end point in previous drug trials for pulmonary arterial hypertension, Dr. Taichman wrote that improvements in such a variable were “probably too modest to be unequivocally consequential for many patients.” To confirm the benefits – and detriments – of treatments like inhaled treprostinil, it’s time for studies to focus on clinical end points, he stated, including hospitalizations, disease progression, and death.

He also highlighted the disparity between a treatment that led to increased walk distance and decreased clinical worsening yet did not register an improvement in health-related quality of life. He noted that the oft-cited minimal clinically important difference for 6MWD is approximately 30 m – similar to the difference recorded here. That said, he wrote, “prevention of deterioration is not to be ignored, even if it does not make a patient feel better.”

Regarding quality of life, Dr. Tonelli observed that this questionnaire, standard fare in respiratory research, may not have been perfectly suited for this particular study.

“You have to put it in the context of, ‘How good is the questionnaire to capture a difference in this particular disease over a 16-week period?’ ” he said. “It might not be sensitive enough to capture a significant change. The questionnaire was not developed for pulmonary hypertension in interstitial lung disease, of course. It was developed more generically. It may not capture all that you need to show significance.”

The investigators acknowledged the study’s other potential limitations, including a short duration, a notable percentage of patients who discontinued the trial early, and the fact that clinical worsening and exacerbation of disease were investigator reported and not confirmed by an independent committee.

As for next steps in assessing pulmonary hypertension treatments, Dr. Tonelli pointed to the direction of future research. “The other big study that needs to come out in our field, and I believe it’s being worked on, is inhaled treprostinil in pulmonary hypertension due to chronic obstructive pulmonary disease [COPD],” he said. “That’s a major unmet need; the COPD population is larger than the population for interstitial lung disease, and one would wonder whether inhaled treprostinil would benefit those patients as well. At the moment, we have no treatments for that condition. In the future, a COPD study will be needed.”

The study was supported by United Therapeutics. Author disclosures are listed on the New England Journal of Medicine website.

Inhaled treprostinil improved the exercise capacity of patients with pulmonary hypertension attributable to interstitial lung disease and was associated with some additional clinical benefits, according to a new study published in the New England Journal of Medicine.

To investigate treprostinil therapy for pulmonary hypertension in this subset of patients with lung disease, Aaron Waxman, MD, PhD, of Brigham and Women’s Hospital in Boston, and his fellow researchers launched the multicenter, randomized, double-blind, placebo-controlled INCREASE trial. They assigned 163 patients to the inhaled treprostinil group – administered via an ultrasonic, pulsed-delivery nebulizer over 16 weeks – and 163 patients to the placebo group. Their average age was 66.5 years, 73% were white, and 47% were female

At baseline, the mean 6-minute walk distance (6MWD) for all patients was 259.6 m. After 16 weeks, the treprostinil group gained a mean of 21.08 m in 6MWD, and the placebo group lost 10.04 m. The least-squares mean difference between the groups from baseline in the 6MWD was 31.12 m (95% confidence interval, 16.85-45.39; P < .001). After sensitivity analysis with multiple imputation, the difference remained significant at 30.97 m (95% CI, 16.53-45.41; P < .001).

In a comparison of N-terminal pro–B-type natriuretic peptide (NT-proBNP) levels from baseline to 16 weeks, the treprostinil group saw a decrease of 15% while the placebo group’s levels increased by 46% (treatment ratio 0.58; 95% CI, 0.47-0.72; P < .001). Clinical worsening occurred in 37 patients (23%) in the treprostinil group and 54 patients (33%) in the placebo group (hazard ratio, 0.61; 95% CI, 0.40-0.92; P = .04), while serious adverse events occurred in 23.3% of the patients on treprostinil and 25.8% of the patients on placebo. There was no significant difference between groups in patient-reported quality of life, as assessed via the St. George’s Respiratory Questionnaire.

“There was no guarantee that this was going to work in this condition,” said Adriano Tonelli, MD, of the department of pulmonary medicine at the Cleveland Clinic, in an interview. “Several small studies have tried different medications, for pulmonary hypertension or otherwise, in patients with interstitial lung disease with minimal effect, if any. Given that all the prior studies were not categorically positive, the expectation, at least on my end, was that we needed to wait and see.” Dr. Tonelli and coauthors published a post hoc analysis of inhaled treprostinil studied in the TRIUMPH and BEAT trials.

Next steps: Assess clinical outcomes after inhaled treprostinil

Although the results of this study by Waxman et al, are encouraging, and the need for a treatment in this type of pulmonary hypertension is very real, more narrowing down will be needed to confirm the benefits of inhaled treprostinil, wrote Darren B. Taichman, MD, PhD, of the University of Pennsylvania in an accompanying editorial. He wrote, “After all, patients and physicians may reason, ‘It can’t hurt.’ Unfortunately, however, it could. Therapies approved for pulmonary arterial hypertension have been studied in patients with [ILD]-associated pulmonary hypertension and have shown inconsistent results, with some studies showing no benefit or suggesting harm.”

While the 6MWD has been used as an end point in previous drug trials for pulmonary arterial hypertension, Dr. Taichman wrote that improvements in such a variable were “probably too modest to be unequivocally consequential for many patients.” To confirm the benefits – and detriments – of treatments like inhaled treprostinil, it’s time for studies to focus on clinical end points, he stated, including hospitalizations, disease progression, and death.

He also highlighted the disparity between a treatment that led to increased walk distance and decreased clinical worsening yet did not register an improvement in health-related quality of life. He noted that the oft-cited minimal clinically important difference for 6MWD is approximately 30 m – similar to the difference recorded here. That said, he wrote, “prevention of deterioration is not to be ignored, even if it does not make a patient feel better.”

Regarding quality of life, Dr. Tonelli observed that this questionnaire, standard fare in respiratory research, may not have been perfectly suited for this particular study.

“You have to put it in the context of, ‘How good is the questionnaire to capture a difference in this particular disease over a 16-week period?’ ” he said. “It might not be sensitive enough to capture a significant change. The questionnaire was not developed for pulmonary hypertension in interstitial lung disease, of course. It was developed more generically. It may not capture all that you need to show significance.”

The investigators acknowledged the study’s other potential limitations, including a short duration, a notable percentage of patients who discontinued the trial early, and the fact that clinical worsening and exacerbation of disease were investigator reported and not confirmed by an independent committee.

As for next steps in assessing pulmonary hypertension treatments, Dr. Tonelli pointed to the direction of future research. “The other big study that needs to come out in our field, and I believe it’s being worked on, is inhaled treprostinil in pulmonary hypertension due to chronic obstructive pulmonary disease [COPD],” he said. “That’s a major unmet need; the COPD population is larger than the population for interstitial lung disease, and one would wonder whether inhaled treprostinil would benefit those patients as well. At the moment, we have no treatments for that condition. In the future, a COPD study will be needed.”

The study was supported by United Therapeutics. Author disclosures are listed on the New England Journal of Medicine website.

Clinical question: Is it safe to adopt a standardized approach to direct oral anticoagulant (DOAC) interruption for patients with atrial fibrillation (AFib) who are undergoing elective surgeries/procedures?

The primary clinical outcomes were major bleeding and arterial thromboembolism. Authors determined safety by comparing to expected outcome rates derived from research on perioperative warfarin management.

They found that all three drugs were associated with acceptable rates of arterial thromboembolism (apixaban 0.2%, dabigatran 0.6%, rivaroxaban 0.4%). The rates of major bleeding observed with each drug (apixaban 0.6% low-risk procedures, 3% high-risk procedures; dabigatran 0.9% both low- and high-risk procedures; and rivaroxaban 1.3% low-risk procedures, 3% high-risk procedures) were similar to those in the BRIDGE trial (patients on warfarin who were not bridged perioperatively). However, it must still be noted that only dabigatran met the authors’ predetermined definition of safety for major bleeding.

Limitations include the lack of true control rates for major bleeding and stroke, the relatively low mean CHADS2-Va2Sc of 3.3-3.5, and that greater than 95% of patients were white.

Bottom line: For patients with moderate-risk atrial fibrillation, a standardized approach to DOAC interruption in the perioperative period that omits bridging along with coagulation function testing appears safe in this preliminary study.

Citation: Douketis JD et al. Perioperative management of patients with atrial fibrillation receiving a direct oral anticoagulant. JAMA Intern Med. 2019 Aug 5. doi: 10.1001/jamainternmed.2019.2431.

Dr. Gordon is a hospitalist at Maine Medical Center in Portland.

Clinical question: Is it safe to adopt a standardized approach to direct oral anticoagulant (DOAC) interruption for patients with atrial fibrillation (AFib) who are undergoing elective surgeries/procedures?

The primary clinical outcomes were major bleeding and arterial thromboembolism. Authors determined safety by comparing to expected outcome rates derived from research on perioperative warfarin management.

They found that all three drugs were associated with acceptable rates of arterial thromboembolism (apixaban 0.2%, dabigatran 0.6%, rivaroxaban 0.4%). The rates of major bleeding observed with each drug (apixaban 0.6% low-risk procedures, 3% high-risk procedures; dabigatran 0.9% both low- and high-risk procedures; and rivaroxaban 1.3% low-risk procedures, 3% high-risk procedures) were similar to those in the BRIDGE trial (patients on warfarin who were not bridged perioperatively). However, it must still be noted that only dabigatran met the authors’ predetermined definition of safety for major bleeding.

Limitations include the lack of true control rates for major bleeding and stroke, the relatively low mean CHADS2-Va2Sc of 3.3-3.5, and that greater than 95% of patients were white.

Bottom line: For patients with moderate-risk atrial fibrillation, a standardized approach to DOAC interruption in the perioperative period that omits bridging along with coagulation function testing appears safe in this preliminary study.

Citation: Douketis JD et al. Perioperative management of patients with atrial fibrillation receiving a direct oral anticoagulant. JAMA Intern Med. 2019 Aug 5. doi: 10.1001/jamainternmed.2019.2431.

Dr. Gordon is a hospitalist at Maine Medical Center in Portland.

Clinical question: Is it safe to adopt a standardized approach to direct oral anticoagulant (DOAC) interruption for patients with atrial fibrillation (AFib) who are undergoing elective surgeries/procedures?

The primary clinical outcomes were major bleeding and arterial thromboembolism. Authors determined safety by comparing to expected outcome rates derived from research on perioperative warfarin management.

They found that all three drugs were associated with acceptable rates of arterial thromboembolism (apixaban 0.2%, dabigatran 0.6%, rivaroxaban 0.4%). The rates of major bleeding observed with each drug (apixaban 0.6% low-risk procedures, 3% high-risk procedures; dabigatran 0.9% both low- and high-risk procedures; and rivaroxaban 1.3% low-risk procedures, 3% high-risk procedures) were similar to those in the BRIDGE trial (patients on warfarin who were not bridged perioperatively). However, it must still be noted that only dabigatran met the authors’ predetermined definition of safety for major bleeding.

Limitations include the lack of true control rates for major bleeding and stroke, the relatively low mean CHADS2-Va2Sc of 3.3-3.5, and that greater than 95% of patients were white.

Bottom line: For patients with moderate-risk atrial fibrillation, a standardized approach to DOAC interruption in the perioperative period that omits bridging along with coagulation function testing appears safe in this preliminary study.

Citation: Douketis JD et al. Perioperative management of patients with atrial fibrillation receiving a direct oral anticoagulant. JAMA Intern Med. 2019 Aug 5. doi: 10.1001/jamainternmed.2019.2431.

Dr. Gordon is a hospitalist at Maine Medical Center in Portland.

Intraoperative injection of calcium chloride into the four major atrial ganglionated plexi (GPs) reduced the incidence of early postoperative atrial fibrillation (POAF) in patients undergoing off-pump coronary artery bypass grafting (CABG) surgery, in a proof-of-concept study.

“[We] hypothesized that injecting [calcium chloride] into the major atrial GPs during isolated CABG can reduce the incidence of POAF by calcium-induced autonomic neurotoxicity,” wrote Huishan Wang, MD, of the General Hospital of Northern Theater Command in Shenyang, China, and colleagues. Their report was published in the Journal of the American College of Cardiology.

The single-center, sham-controlled, proof-of-concept study included 200 patients without a history of AF undergoing isolated, off-pump CABG surgery. Participants were randomized (1:1) to receive an injection of either 5% calcium chloride or 0.9% sodium chloride into the four major GPs during CABG.

Post surgery, patients were monitored for the occurrence of POAF using routine 12-lead ECG and 7-day continuous telemetry and Holter monitoring. The primary endpoint was the incidence of POAF lasting 30 seconds or longer through 7 days. Various secondary outcomes, including POAF burden and length of hospitalization, were also measured.

After analysis, the researchers found that 15 patients in the calcium chloride arm and 36 patients in the sodium chloride arm developed POAF during the first 7 days post CABG, corresponding to a POAF hazard reduction of 63% (hazard ratio, 0.37; 95% confidence interval, 0.21-0.64; P = .001) with no significant adverse effects observed among study patients.

The calcium chloride injection also resulted in reduced AF burden and lower rates of amiodarone and esmolol use to treat POAF; however, there was no difference in the length of hospitalization between the two groups. The incidences of nonsustained atrial tachyarrhythmia (less than 30 seconds) and atrial couplets were also significantly reduced in the calcium chloride group.

“We selected the 4 major atrial GPs as our targets because [of] their role in the initiation and maintenance of AF is more established than other cardiac neural plexi,” the researchers explained. “Interruption of the atrial neural network by Ca-mediated GP neurotoxicity may underlie the therapeutic effects.”
 

Is ‘nuisance’ arrhythmia worth targeting?

In an editorial accompanying the report, John H. Alexander, MD, MHS, wrote that intraoperative calcium chloride atrial ganglionic ablation can now be considered as an effective intervention to prevent POAF in patients undergoing cardiac surgery. “These investigators should be congratulated for studying post-operative atrial fibrillation in cardiac surgery,” he stated.

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“However, this trial has two significant limitations. Firstly, it was conducted in a single center in a very homogeneous population; secondly, POAF, in and of itself, is largely a nuisance arrhythmia and hardly worth preventing, but is associated with a higher risk of other adverse outcomes,” Dr. Alexander, professor of medicine at Duke University, Durham, N.C., said in an interview.

“The unanswered question is whether preventing perioperative AF will prevent stroke, heart failure, and death,” he further explained. “Answering these questions would require a larger trial (or trials) with longer term (months to years) follow-up.”

Dr. Wang and colleagues acknowledged that the current study was underpowered for some secondary outcomes, such as length of hospitalization. They explained that a large sample size is needed to detect a difference in length of hospitalization, as well as other outcomes.

“Further studies are needed to confirm the safety and efficacy of calcium-induced atrial autonomic denervation in patients undergoing on-pump CABG and surgery for valvular heart disease,” they concluded.

The study was funded by the Provincial Key R & D Program in China. One author reported holding a U.S. patent related to the study. The remaining authors had no relevant relationships to disclose.

Intraoperative injection of calcium chloride into the four major atrial ganglionated plexi (GPs) reduced the incidence of early postoperative atrial fibrillation (POAF) in patients undergoing off-pump coronary artery bypass grafting (CABG) surgery, in a proof-of-concept study.

“[We] hypothesized that injecting [calcium chloride] into the major atrial GPs during isolated CABG can reduce the incidence of POAF by calcium-induced autonomic neurotoxicity,” wrote Huishan Wang, MD, of the General Hospital of Northern Theater Command in Shenyang, China, and colleagues. Their report was published in the Journal of the American College of Cardiology.

The single-center, sham-controlled, proof-of-concept study included 200 patients without a history of AF undergoing isolated, off-pump CABG surgery. Participants were randomized (1:1) to receive an injection of either 5% calcium chloride or 0.9% sodium chloride into the four major GPs during CABG.

Post surgery, patients were monitored for the occurrence of POAF using routine 12-lead ECG and 7-day continuous telemetry and Holter monitoring. The primary endpoint was the incidence of POAF lasting 30 seconds or longer through 7 days. Various secondary outcomes, including POAF burden and length of hospitalization, were also measured.

After analysis, the researchers found that 15 patients in the calcium chloride arm and 36 patients in the sodium chloride arm developed POAF during the first 7 days post CABG, corresponding to a POAF hazard reduction of 63% (hazard ratio, 0.37; 95% confidence interval, 0.21-0.64; P = .001) with no significant adverse effects observed among study patients.

The calcium chloride injection also resulted in reduced AF burden and lower rates of amiodarone and esmolol use to treat POAF; however, there was no difference in the length of hospitalization between the two groups. The incidences of nonsustained atrial tachyarrhythmia (less than 30 seconds) and atrial couplets were also significantly reduced in the calcium chloride group.

“We selected the 4 major atrial GPs as our targets because [of] their role in the initiation and maintenance of AF is more established than other cardiac neural plexi,” the researchers explained. “Interruption of the atrial neural network by Ca-mediated GP neurotoxicity may underlie the therapeutic effects.”
 

Is ‘nuisance’ arrhythmia worth targeting?

In an editorial accompanying the report, John H. Alexander, MD, MHS, wrote that intraoperative calcium chloride atrial ganglionic ablation can now be considered as an effective intervention to prevent POAF in patients undergoing cardiac surgery. “These investigators should be congratulated for studying post-operative atrial fibrillation in cardiac surgery,” he stated.

MDedge News

“However, this trial has two significant limitations. Firstly, it was conducted in a single center in a very homogeneous population; secondly, POAF, in and of itself, is largely a nuisance arrhythmia and hardly worth preventing, but is associated with a higher risk of other adverse outcomes,” Dr. Alexander, professor of medicine at Duke University, Durham, N.C., said in an interview.

“The unanswered question is whether preventing perioperative AF will prevent stroke, heart failure, and death,” he further explained. “Answering these questions would require a larger trial (or trials) with longer term (months to years) follow-up.”

Dr. Wang and colleagues acknowledged that the current study was underpowered for some secondary outcomes, such as length of hospitalization. They explained that a large sample size is needed to detect a difference in length of hospitalization, as well as other outcomes.

“Further studies are needed to confirm the safety and efficacy of calcium-induced atrial autonomic denervation in patients undergoing on-pump CABG and surgery for valvular heart disease,” they concluded.

The study was funded by the Provincial Key R & D Program in China. One author reported holding a U.S. patent related to the study. The remaining authors had no relevant relationships to disclose.

Intraoperative injection of calcium chloride into the four major atrial ganglionated plexi (GPs) reduced the incidence of early postoperative atrial fibrillation (POAF) in patients undergoing off-pump coronary artery bypass grafting (CABG) surgery, in a proof-of-concept study.

“[We] hypothesized that injecting [calcium chloride] into the major atrial GPs during isolated CABG can reduce the incidence of POAF by calcium-induced autonomic neurotoxicity,” wrote Huishan Wang, MD, of the General Hospital of Northern Theater Command in Shenyang, China, and colleagues. Their report was published in the Journal of the American College of Cardiology.

The single-center, sham-controlled, proof-of-concept study included 200 patients without a history of AF undergoing isolated, off-pump CABG surgery. Participants were randomized (1:1) to receive an injection of either 5% calcium chloride or 0.9% sodium chloride into the four major GPs during CABG.

Post surgery, patients were monitored for the occurrence of POAF using routine 12-lead ECG and 7-day continuous telemetry and Holter monitoring. The primary endpoint was the incidence of POAF lasting 30 seconds or longer through 7 days. Various secondary outcomes, including POAF burden and length of hospitalization, were also measured.

After analysis, the researchers found that 15 patients in the calcium chloride arm and 36 patients in the sodium chloride arm developed POAF during the first 7 days post CABG, corresponding to a POAF hazard reduction of 63% (hazard ratio, 0.37; 95% confidence interval, 0.21-0.64; P = .001) with no significant adverse effects observed among study patients.

The calcium chloride injection also resulted in reduced AF burden and lower rates of amiodarone and esmolol use to treat POAF; however, there was no difference in the length of hospitalization between the two groups. The incidences of nonsustained atrial tachyarrhythmia (less than 30 seconds) and atrial couplets were also significantly reduced in the calcium chloride group.

“We selected the 4 major atrial GPs as our targets because [of] their role in the initiation and maintenance of AF is more established than other cardiac neural plexi,” the researchers explained. “Interruption of the atrial neural network by Ca-mediated GP neurotoxicity may underlie the therapeutic effects.”
 

Is ‘nuisance’ arrhythmia worth targeting?

In an editorial accompanying the report, John H. Alexander, MD, MHS, wrote that intraoperative calcium chloride atrial ganglionic ablation can now be considered as an effective intervention to prevent POAF in patients undergoing cardiac surgery. “These investigators should be congratulated for studying post-operative atrial fibrillation in cardiac surgery,” he stated.

MDedge News

“However, this trial has two significant limitations. Firstly, it was conducted in a single center in a very homogeneous population; secondly, POAF, in and of itself, is largely a nuisance arrhythmia and hardly worth preventing, but is associated with a higher risk of other adverse outcomes,” Dr. Alexander, professor of medicine at Duke University, Durham, N.C., said in an interview.

“The unanswered question is whether preventing perioperative AF will prevent stroke, heart failure, and death,” he further explained. “Answering these questions would require a larger trial (or trials) with longer term (months to years) follow-up.”

Dr. Wang and colleagues acknowledged that the current study was underpowered for some secondary outcomes, such as length of hospitalization. They explained that a large sample size is needed to detect a difference in length of hospitalization, as well as other outcomes.

“Further studies are needed to confirm the safety and efficacy of calcium-induced atrial autonomic denervation in patients undergoing on-pump CABG and surgery for valvular heart disease,” they concluded.

The study was funded by the Provincial Key R & D Program in China. One author reported holding a U.S. patent related to the study. The remaining authors had no relevant relationships to disclose.

Left atrial appendage occlusion (LAAO) for high-risk atrial fibrillation seems to prevent stroke as well as direct oral anticoagulation (DOAC) with a lower risk of major bleeding, according to results of a European study.

And although some experts question the strength of the conclusions, a lead researcher contends the study may provide enough support for interventional cardiologists to consider LAAO in selected patients until randomized clinical trials yield stronger evidence.

“The results suggest LAAO to be superior to DOAC in AF patients who have a predicted high risk of stroke and bleeding and adds to the evidence that LAAO is a promising stroke prevention strategy in selected AF patients,” said lead investigator Jens Erik Nielsen-Kudsk, MD, DMSc, a cardiologist at Aarhus University Hospital in Denmark.

Dr. Nielsen-Kudsk and colleagues wrote in JACC: Cardiovascular Interventions that this is the largest comparative study of LAAO vs. DOAC to date, but they also acknowledged the study limitations: its observational design, unaccounted confounders, potential selection bias, and disparities in the nature of the comparative datasets (a multination cohort vs. a single national registry).

Observational registry study shows 43% reduction in primary outcome

The study compared outcomes of 1,078 patients from the Amulet Observational Study who had LAAO during June 2015–September 2016 with 1,184 patients on DOAC therapy selected by propensity score matching from two Danish national registries. The LAAO population was prospectively enrolled at 61 centers in 17 countries. The study population had a high risk of stroke and bleeding; about one-third had a previous stroke and about three-quarters had a prior bleeding episode. The average age was 75 years.

The LAAO group had almost half the rate of the primary outcome – either stroke, major bleeding, or all-cause death – 256 vs. 461 events in the DOAC group with median follow-up of 2 years. The annualized event rate was significantly lower for the LAAO group: 14.5 vs. 25.7 per 100 patient years in the DOAC group. The researchers calculated the LAAO group had a relative 43% reduction risk.

Of the LAAO group, 155 patients (14.5%) died in the follow-up period, 35% of them from a cardiovascular cause, whereas 308 (26%) of patients in the DOAC group died, with a similar percentage, 36%, from a cardiovascular cause.

Using data from the Danish Cause of Death Registry, the study determined cause of death in the DOAC patients on a more granular level: 9.5% of the deaths were from vascular disease and 4.5% from stroke (the remainder in both groups were from noncardiovascular events).

Stroke incidence was similar between the two groups: 39 in the LAAO group vs. 37 in DOAC patients, conferring an 11% greater risk in the former. The risk of major bleeding and all-cause mortality were significantly lower in LAAO patients, 37% and 47%, respectively. However, 50% of DOAC patients had discontinued therapy after a year of follow-up, and 58% had done so after 2 years.

Dr. Nielsen-Kudsk noted that the findings line up with those from the smaller PRAQUE-17 study comparing LAAO and DOAC. He added that his group is participating in two larger RCTs, CATALYST and CHAMPION-AF, evaluating LAAO and medical therapy in about 6,000 patients combined.

“It will take at least 2 to 5 years before we have data from these randomized LAAO trials,” Dr. Nielsen-Kudsk said. “Meanwhile, based on data from three prior randomized clinical trials, propensity-score matched studies and data from large registries, LAAO should be considered in clinical practice for patients who have a high risk of bleeding or who for any other reason are unsuitable for long-term DOAC treatment.”

Noncompliance to DOAC therapy a concern

In an invited commentary, Mohamad Alkhouli, MD, of the Mayo Medical School, Rochester, Minn., wrote, “These findings provide reassuring evidence supporting the efficacy of LAAO despite the remaining challenges with this therapy.”

However, Dr. Alkhouli pointed out that the high rate of noncompliance among AF patients on DOAC can be a confounding factor for interpreting the efficacy of therapy. “This highlights the challenges of comparing LAAO to DOAC, considering that many patients are actually not on effective anticoagulation, but also suggests a possible real important role for LAAO in addressing the unmet need in stroke prevention in nonvalvular atrial fibrillation,” he said in an interview.

“The study showed a very good safety profile for LAAO,” Dr. Alkhouli added. “However, we should remember that this was an observational study without routine temporal imaging and a relatively short-term follow- up.”

Methods ‘severely flawed’

John Mandrola, MD, an electrophysiologist at Baptist Health in Louisville, Ky., said the study methodology was “severely flawed,” citing its nonrandomized nature and enrollment of only patients with successful implants in the LAAO group. “You have to take all patients who had attempted implants,” he said. Further, the study may be subject to selection bias based on how patients were recruited for the Ampulet Observational Study.

“Comparing LAAO to DOAC is a vital clinical question,” said Dr. Mandrola. “It simply cannot be answered with observational methods like this. It requires a properly powered RCT.”

Dr. Alkhouli said he’s looking forward to results from five large RCTS evaluating LAAO due in 3-5 years. “Until the results of those trials are out, careful patient selection and shared decision-making should continue to govern the rational dissipation of LAAO as a stroke prevention strategy,” he said.

Novo Nordisk Research Foundation supported the study and Abbott provided a grant. Dr. Nielsen-Kudsk disclosed financial relationships with Abbott and Boston Scientific. Coauthors disclosed relationships with Abbott, Boston Scientific, Bayer Vital, Bristol Myers Squibb, Boehringer Ingelheim, Daiichi-Sankyo, Medtronic, Pfizer, Portolo, and Sanofi.

Dr. Alkhouli disclosed a relationship with Boston Scientific. Dr. Mandrola has no relevant disclosures. He is chief cardiology correspondent for Medscape.com. MDedge is a member of the Medscape Professional Network.

Left atrial appendage occlusion (LAAO) for high-risk atrial fibrillation seems to prevent stroke as well as direct oral anticoagulation (DOAC) with a lower risk of major bleeding, according to results of a European study.

And although some experts question the strength of the conclusions, a lead researcher contends the study may provide enough support for interventional cardiologists to consider LAAO in selected patients until randomized clinical trials yield stronger evidence.

“The results suggest LAAO to be superior to DOAC in AF patients who have a predicted high risk of stroke and bleeding and adds to the evidence that LAAO is a promising stroke prevention strategy in selected AF patients,” said lead investigator Jens Erik Nielsen-Kudsk, MD, DMSc, a cardiologist at Aarhus University Hospital in Denmark.

Dr. Nielsen-Kudsk and colleagues wrote in JACC: Cardiovascular Interventions that this is the largest comparative study of LAAO vs. DOAC to date, but they also acknowledged the study limitations: its observational design, unaccounted confounders, potential selection bias, and disparities in the nature of the comparative datasets (a multination cohort vs. a single national registry).

Observational registry study shows 43% reduction in primary outcome

The study compared outcomes of 1,078 patients from the Amulet Observational Study who had LAAO during June 2015–September 2016 with 1,184 patients on DOAC therapy selected by propensity score matching from two Danish national registries. The LAAO population was prospectively enrolled at 61 centers in 17 countries. The study population had a high risk of stroke and bleeding; about one-third had a previous stroke and about three-quarters had a prior bleeding episode. The average age was 75 years.

The LAAO group had almost half the rate of the primary outcome – either stroke, major bleeding, or all-cause death – 256 vs. 461 events in the DOAC group with median follow-up of 2 years. The annualized event rate was significantly lower for the LAAO group: 14.5 vs. 25.7 per 100 patient years in the DOAC group. The researchers calculated the LAAO group had a relative 43% reduction risk.

Of the LAAO group, 155 patients (14.5%) died in the follow-up period, 35% of them from a cardiovascular cause, whereas 308 (26%) of patients in the DOAC group died, with a similar percentage, 36%, from a cardiovascular cause.

Using data from the Danish Cause of Death Registry, the study determined cause of death in the DOAC patients on a more granular level: 9.5% of the deaths were from vascular disease and 4.5% from stroke (the remainder in both groups were from noncardiovascular events).

Stroke incidence was similar between the two groups: 39 in the LAAO group vs. 37 in DOAC patients, conferring an 11% greater risk in the former. The risk of major bleeding and all-cause mortality were significantly lower in LAAO patients, 37% and 47%, respectively. However, 50% of DOAC patients had discontinued therapy after a year of follow-up, and 58% had done so after 2 years.

Dr. Nielsen-Kudsk noted that the findings line up with those from the smaller PRAQUE-17 study comparing LAAO and DOAC. He added that his group is participating in two larger RCTs, CATALYST and CHAMPION-AF, evaluating LAAO and medical therapy in about 6,000 patients combined.

“It will take at least 2 to 5 years before we have data from these randomized LAAO trials,” Dr. Nielsen-Kudsk said. “Meanwhile, based on data from three prior randomized clinical trials, propensity-score matched studies and data from large registries, LAAO should be considered in clinical practice for patients who have a high risk of bleeding or who for any other reason are unsuitable for long-term DOAC treatment.”

Noncompliance to DOAC therapy a concern

In an invited commentary, Mohamad Alkhouli, MD, of the Mayo Medical School, Rochester, Minn., wrote, “These findings provide reassuring evidence supporting the efficacy of LAAO despite the remaining challenges with this therapy.”

However, Dr. Alkhouli pointed out that the high rate of noncompliance among AF patients on DOAC can be a confounding factor for interpreting the efficacy of therapy. “This highlights the challenges of comparing LAAO to DOAC, considering that many patients are actually not on effective anticoagulation, but also suggests a possible real important role for LAAO in addressing the unmet need in stroke prevention in nonvalvular atrial fibrillation,” he said in an interview.

“The study showed a very good safety profile for LAAO,” Dr. Alkhouli added. “However, we should remember that this was an observational study without routine temporal imaging and a relatively short-term follow- up.”

Methods ‘severely flawed’

John Mandrola, MD, an electrophysiologist at Baptist Health in Louisville, Ky., said the study methodology was “severely flawed,” citing its nonrandomized nature and enrollment of only patients with successful implants in the LAAO group. “You have to take all patients who had attempted implants,” he said. Further, the study may be subject to selection bias based on how patients were recruited for the Ampulet Observational Study.

“Comparing LAAO to DOAC is a vital clinical question,” said Dr. Mandrola. “It simply cannot be answered with observational methods like this. It requires a properly powered RCT.”

Dr. Alkhouli said he’s looking forward to results from five large RCTS evaluating LAAO due in 3-5 years. “Until the results of those trials are out, careful patient selection and shared decision-making should continue to govern the rational dissipation of LAAO as a stroke prevention strategy,” he said.

Novo Nordisk Research Foundation supported the study and Abbott provided a grant. Dr. Nielsen-Kudsk disclosed financial relationships with Abbott and Boston Scientific. Coauthors disclosed relationships with Abbott, Boston Scientific, Bayer Vital, Bristol Myers Squibb, Boehringer Ingelheim, Daiichi-Sankyo, Medtronic, Pfizer, Portolo, and Sanofi.

Dr. Alkhouli disclosed a relationship with Boston Scientific. Dr. Mandrola has no relevant disclosures. He is chief cardiology correspondent for Medscape.com. MDedge is a member of the Medscape Professional Network.

Left atrial appendage occlusion (LAAO) for high-risk atrial fibrillation seems to prevent stroke as well as direct oral anticoagulation (DOAC) with a lower risk of major bleeding, according to results of a European study.

And although some experts question the strength of the conclusions, a lead researcher contends the study may provide enough support for interventional cardiologists to consider LAAO in selected patients until randomized clinical trials yield stronger evidence.

“The results suggest LAAO to be superior to DOAC in AF patients who have a predicted high risk of stroke and bleeding and adds to the evidence that LAAO is a promising stroke prevention strategy in selected AF patients,” said lead investigator Jens Erik Nielsen-Kudsk, MD, DMSc, a cardiologist at Aarhus University Hospital in Denmark.

Dr. Nielsen-Kudsk and colleagues wrote in JACC: Cardiovascular Interventions that this is the largest comparative study of LAAO vs. DOAC to date, but they also acknowledged the study limitations: its observational design, unaccounted confounders, potential selection bias, and disparities in the nature of the comparative datasets (a multination cohort vs. a single national registry).

Observational registry study shows 43% reduction in primary outcome

The study compared outcomes of 1,078 patients from the Amulet Observational Study who had LAAO during June 2015–September 2016 with 1,184 patients on DOAC therapy selected by propensity score matching from two Danish national registries. The LAAO population was prospectively enrolled at 61 centers in 17 countries. The study population had a high risk of stroke and bleeding; about one-third had a previous stroke and about three-quarters had a prior bleeding episode. The average age was 75 years.

The LAAO group had almost half the rate of the primary outcome – either stroke, major bleeding, or all-cause death – 256 vs. 461 events in the DOAC group with median follow-up of 2 years. The annualized event rate was significantly lower for the LAAO group: 14.5 vs. 25.7 per 100 patient years in the DOAC group. The researchers calculated the LAAO group had a relative 43% reduction risk.

Of the LAAO group, 155 patients (14.5%) died in the follow-up period, 35% of them from a cardiovascular cause, whereas 308 (26%) of patients in the DOAC group died, with a similar percentage, 36%, from a cardiovascular cause.

Using data from the Danish Cause of Death Registry, the study determined cause of death in the DOAC patients on a more granular level: 9.5% of the deaths were from vascular disease and 4.5% from stroke (the remainder in both groups were from noncardiovascular events).

Stroke incidence was similar between the two groups: 39 in the LAAO group vs. 37 in DOAC patients, conferring an 11% greater risk in the former. The risk of major bleeding and all-cause mortality were significantly lower in LAAO patients, 37% and 47%, respectively. However, 50% of DOAC patients had discontinued therapy after a year of follow-up, and 58% had done so after 2 years.

Dr. Nielsen-Kudsk noted that the findings line up with those from the smaller PRAQUE-17 study comparing LAAO and DOAC. He added that his group is participating in two larger RCTs, CATALYST and CHAMPION-AF, evaluating LAAO and medical therapy in about 6,000 patients combined.

“It will take at least 2 to 5 years before we have data from these randomized LAAO trials,” Dr. Nielsen-Kudsk said. “Meanwhile, based on data from three prior randomized clinical trials, propensity-score matched studies and data from large registries, LAAO should be considered in clinical practice for patients who have a high risk of bleeding or who for any other reason are unsuitable for long-term DOAC treatment.”

Noncompliance to DOAC therapy a concern

In an invited commentary, Mohamad Alkhouli, MD, of the Mayo Medical School, Rochester, Minn., wrote, “These findings provide reassuring evidence supporting the efficacy of LAAO despite the remaining challenges with this therapy.”

However, Dr. Alkhouli pointed out that the high rate of noncompliance among AF patients on DOAC can be a confounding factor for interpreting the efficacy of therapy. “This highlights the challenges of comparing LAAO to DOAC, considering that many patients are actually not on effective anticoagulation, but also suggests a possible real important role for LAAO in addressing the unmet need in stroke prevention in nonvalvular atrial fibrillation,” he said in an interview.

“The study showed a very good safety profile for LAAO,” Dr. Alkhouli added. “However, we should remember that this was an observational study without routine temporal imaging and a relatively short-term follow- up.”

Methods ‘severely flawed’

John Mandrola, MD, an electrophysiologist at Baptist Health in Louisville, Ky., said the study methodology was “severely flawed,” citing its nonrandomized nature and enrollment of only patients with successful implants in the LAAO group. “You have to take all patients who had attempted implants,” he said. Further, the study may be subject to selection bias based on how patients were recruited for the Ampulet Observational Study.

“Comparing LAAO to DOAC is a vital clinical question,” said Dr. Mandrola. “It simply cannot be answered with observational methods like this. It requires a properly powered RCT.”

Dr. Alkhouli said he’s looking forward to results from five large RCTS evaluating LAAO due in 3-5 years. “Until the results of those trials are out, careful patient selection and shared decision-making should continue to govern the rational dissipation of LAAO as a stroke prevention strategy,” he said.

Novo Nordisk Research Foundation supported the study and Abbott provided a grant. Dr. Nielsen-Kudsk disclosed financial relationships with Abbott and Boston Scientific. Coauthors disclosed relationships with Abbott, Boston Scientific, Bayer Vital, Bristol Myers Squibb, Boehringer Ingelheim, Daiichi-Sankyo, Medtronic, Pfizer, Portolo, and Sanofi.

Dr. Alkhouli disclosed a relationship with Boston Scientific. Dr. Mandrola has no relevant disclosures. He is chief cardiology correspondent for Medscape.com. MDedge is a member of the Medscape Professional Network.

There is no question that COVID-19 infection increases the risks of serious thromboembolic events, including pulmonary embolism (PE), but it also increases the risk of bleeding, complicating the benefit-to-risk calculations for anticoagulation, according to a review of data at the virtual Going Back to the Heart of Cardiology meeting.

“Bleeding is a significant cause of morbidity in patients with COVID-19, and this is an important concept to appreciate,” reported Rachel P. Rosovsky, MD, director of thrombosis research, Massachusetts General Hospital, Boston.

At least five guidelines, including those issued by the American College of Cardiology, International Society on Thrombosis and Haemostasis (ISTH), and the American College of Chest Physicians, have recently addressed anticoagulation in patients infected with COVID-19, but there are “substantive differences” between them, according to Dr. Rosovsky. The reason is that they are essentially no high quality trials to guide practice. Rather, the recommendations are based primarily on retrospective studies and expert opinion.

The single most common theme from the guidelines is that anticoagulation must be individualized to balance patient-specific risks of venous thromboembolism (VTE) and bleeding, said Dr. Rosovsky, whose group published a recent comparison of these guidelines (Flaczyk A et al. Crit Care 2020;24:559).

Although there is general consensus that all hospitalized patients with COVID-19 should receive anticoagulation unless there are contraindications, there are differences in the recommended intensity of the anticoagulation for different risk groups and there is even less is less consensus on the need to anticoagulate outpatients or patients after discharge, according to Dr. Rosovsky

In her own center, the standard is a prophylactic dose of low molecular weight heparin (LMWH) in an algorithm that calls for dose adjustments for some groups such as those with renal impairment or obesity. Alternative forms of anticoagulation are recommended for patients with a history of thrombocytopenia or are at high risk for hemorrhage. Full dose LMWH is recommended in patients already on an oral anticoagulant at time of hospitalization.

“The biggest question right now is when to consider increasing from a prophylactic dose to intermediate or full dose anticoagulation in high risk patients, especially those in the ICU patients,” Dr. Rosovsky said.

Current practices are diverse, according to a recently published survey led by Dr. Rosovsky (Rosovsky RP et al. Res Pract Thromb Haemost. 2020;4:969-83). According to the survey, which had responses from more than 500 physicians in 41 countries, 30% of centers escalate from a prophylactic dose of anticoagulation to an intermediate dose when patients move to the ICU. Although not all answered this question, 25% reported that they do not escalate at ICU transfer. For 15% of respondents, dose escalation is being offered to patients with a D-dimer exceeding six-times the upper limit of normal.

These practices have developed in the absence of prospective clinical trials, which are urgently needed, according to Dr. Rosovsky. The reason that trials specific to COVID-19 are particularly important is that this infection also engenders a high risk of major bleeding.

For example, in a multicenter retrospective study of 400 hospital-admitted COVID-19 patients the rates of major bleeding was 4.8% or exactly the same as the rate of radiographically confirmed VTE. At 7.6%, the rates of VTE and major bleeding were also exactly the same for ICU patients (Al-Samkari H et al. Blood 2020;136:489-500).

“An elevated D-dimer was a marker for both VTE and major bleeding,” reported Dr. Rosovsky, who was the senior author of this study. On the basis of odds ratio (OR), the risk of VTE was increased more than six-fold (OR, 6.79) and the risk of major bleeding by more than three-fold (OR, 3.56) when the D-dimer exceeded 2,500 ng/mL.

The risk of VTE from COVID-19 infection is well documented. For example, autopsy studies have shown widespread thrombosis, including PE, in patients who have died from COVID-19 infection, according to Dr. Rosovsky.

There is also evidence of benefit from anticoagulation. In an retrospective study from China undertaken early in the pandemic, there was no overall mortality benefit at 28 days among those who did receive LMWH when compared to those who did not, but there was a 20% absolute mortality benefit (52.4% vs. 32.8%; P = .017) in those with a D-dimer six-fold ULN (Tang N et al. J Thromb Haemost 2020;18:1094-9).

These types of data support the use of anticoagulation to manage VTE risk in at least some patients, but the reported rates of VTE across institutions and across inpatient and outpatient settings have varied “dramatically,” according to Dr. Rosovsky. The balance of VTE and major bleeding is delicate. In one retrospective study, the mortality advantage for therapeutic versus prophylactic dose of LMWH did not reach statistical significance, but the rate of major bleeding was nearly doubled (3.0% vs. 1.7%) (Nadkarni GN et al J Am Coll Cardiol 2020;76:1815-26).

Because of the many variables that might affect risk of VTE and risk of major bleeding in any individual patient, the benefit-to-risk calculation of anticoagulation is “complex,” according to Dr. Rosovsky. It is for this reason she urged clinicians to consider entering patients into clinical trials designed to generate evidence-based answers.

There is large and growing body of retrospective data that have helped characterize the risk of VTE and bleeding in patients with COVID-19, but “there is no substitute for a well-controlled clinical trial,” agreed Robert A. Harrington, MD, chairman of the department of medicine, Stanford (Calif.) University.

He and the comoderator of the session in which these data were presented agreed that anticoagulation must be administered within a narrow therapeutic window that will be best defined through controlled trial designs.

“There is a significant risk of doing harm,” said Fatima Rodriguez, MD, assistant professor of cardiology at Stanford University. She seconded the critical role of trial participation when possible and the need for clinical trials to better guide treatment decisions.

The meeting was sponsored by MedscapeLive. MedscapeLive and this news organization are owned by the same parent company.

There is no question that COVID-19 infection increases the risks of serious thromboembolic events, including pulmonary embolism (PE), but it also increases the risk of bleeding, complicating the benefit-to-risk calculations for anticoagulation, according to a review of data at the virtual Going Back to the Heart of Cardiology meeting.

“Bleeding is a significant cause of morbidity in patients with COVID-19, and this is an important concept to appreciate,” reported Rachel P. Rosovsky, MD, director of thrombosis research, Massachusetts General Hospital, Boston.

At least five guidelines, including those issued by the American College of Cardiology, International Society on Thrombosis and Haemostasis (ISTH), and the American College of Chest Physicians, have recently addressed anticoagulation in patients infected with COVID-19, but there are “substantive differences” between them, according to Dr. Rosovsky. The reason is that they are essentially no high quality trials to guide practice. Rather, the recommendations are based primarily on retrospective studies and expert opinion.

The single most common theme from the guidelines is that anticoagulation must be individualized to balance patient-specific risks of venous thromboembolism (VTE) and bleeding, said Dr. Rosovsky, whose group published a recent comparison of these guidelines (Flaczyk A et al. Crit Care 2020;24:559).

Although there is general consensus that all hospitalized patients with COVID-19 should receive anticoagulation unless there are contraindications, there are differences in the recommended intensity of the anticoagulation for different risk groups and there is even less is less consensus on the need to anticoagulate outpatients or patients after discharge, according to Dr. Rosovsky

In her own center, the standard is a prophylactic dose of low molecular weight heparin (LMWH) in an algorithm that calls for dose adjustments for some groups such as those with renal impairment or obesity. Alternative forms of anticoagulation are recommended for patients with a history of thrombocytopenia or are at high risk for hemorrhage. Full dose LMWH is recommended in patients already on an oral anticoagulant at time of hospitalization.

“The biggest question right now is when to consider increasing from a prophylactic dose to intermediate or full dose anticoagulation in high risk patients, especially those in the ICU patients,” Dr. Rosovsky said.

Current practices are diverse, according to a recently published survey led by Dr. Rosovsky (Rosovsky RP et al. Res Pract Thromb Haemost. 2020;4:969-83). According to the survey, which had responses from more than 500 physicians in 41 countries, 30% of centers escalate from a prophylactic dose of anticoagulation to an intermediate dose when patients move to the ICU. Although not all answered this question, 25% reported that they do not escalate at ICU transfer. For 15% of respondents, dose escalation is being offered to patients with a D-dimer exceeding six-times the upper limit of normal.

These practices have developed in the absence of prospective clinical trials, which are urgently needed, according to Dr. Rosovsky. The reason that trials specific to COVID-19 are particularly important is that this infection also engenders a high risk of major bleeding.

For example, in a multicenter retrospective study of 400 hospital-admitted COVID-19 patients the rates of major bleeding was 4.8% or exactly the same as the rate of radiographically confirmed VTE. At 7.6%, the rates of VTE and major bleeding were also exactly the same for ICU patients (Al-Samkari H et al. Blood 2020;136:489-500).

“An elevated D-dimer was a marker for both VTE and major bleeding,” reported Dr. Rosovsky, who was the senior author of this study. On the basis of odds ratio (OR), the risk of VTE was increased more than six-fold (OR, 6.79) and the risk of major bleeding by more than three-fold (OR, 3.56) when the D-dimer exceeded 2,500 ng/mL.

The risk of VTE from COVID-19 infection is well documented. For example, autopsy studies have shown widespread thrombosis, including PE, in patients who have died from COVID-19 infection, according to Dr. Rosovsky.

There is also evidence of benefit from anticoagulation. In an retrospective study from China undertaken early in the pandemic, there was no overall mortality benefit at 28 days among those who did receive LMWH when compared to those who did not, but there was a 20% absolute mortality benefit (52.4% vs. 32.8%; P = .017) in those with a D-dimer six-fold ULN (Tang N et al. J Thromb Haemost 2020;18:1094-9).

These types of data support the use of anticoagulation to manage VTE risk in at least some patients, but the reported rates of VTE across institutions and across inpatient and outpatient settings have varied “dramatically,” according to Dr. Rosovsky. The balance of VTE and major bleeding is delicate. In one retrospective study, the mortality advantage for therapeutic versus prophylactic dose of LMWH did not reach statistical significance, but the rate of major bleeding was nearly doubled (3.0% vs. 1.7%) (Nadkarni GN et al J Am Coll Cardiol 2020;76:1815-26).

Because of the many variables that might affect risk of VTE and risk of major bleeding in any individual patient, the benefit-to-risk calculation of anticoagulation is “complex,” according to Dr. Rosovsky. It is for this reason she urged clinicians to consider entering patients into clinical trials designed to generate evidence-based answers.

There is large and growing body of retrospective data that have helped characterize the risk of VTE and bleeding in patients with COVID-19, but “there is no substitute for a well-controlled clinical trial,” agreed Robert A. Harrington, MD, chairman of the department of medicine, Stanford (Calif.) University.

He and the comoderator of the session in which these data were presented agreed that anticoagulation must be administered within a narrow therapeutic window that will be best defined through controlled trial designs.

“There is a significant risk of doing harm,” said Fatima Rodriguez, MD, assistant professor of cardiology at Stanford University. She seconded the critical role of trial participation when possible and the need for clinical trials to better guide treatment decisions.

The meeting was sponsored by MedscapeLive. MedscapeLive and this news organization are owned by the same parent company.

There is no question that COVID-19 infection increases the risks of serious thromboembolic events, including pulmonary embolism (PE), but it also increases the risk of bleeding, complicating the benefit-to-risk calculations for anticoagulation, according to a review of data at the virtual Going Back to the Heart of Cardiology meeting.

“Bleeding is a significant cause of morbidity in patients with COVID-19, and this is an important concept to appreciate,” reported Rachel P. Rosovsky, MD, director of thrombosis research, Massachusetts General Hospital, Boston.

At least five guidelines, including those issued by the American College of Cardiology, International Society on Thrombosis and Haemostasis (ISTH), and the American College of Chest Physicians, have recently addressed anticoagulation in patients infected with COVID-19, but there are “substantive differences” between them, according to Dr. Rosovsky. The reason is that they are essentially no high quality trials to guide practice. Rather, the recommendations are based primarily on retrospective studies and expert opinion.

The single most common theme from the guidelines is that anticoagulation must be individualized to balance patient-specific risks of venous thromboembolism (VTE) and bleeding, said Dr. Rosovsky, whose group published a recent comparison of these guidelines (Flaczyk A et al. Crit Care 2020;24:559).

Although there is general consensus that all hospitalized patients with COVID-19 should receive anticoagulation unless there are contraindications, there are differences in the recommended intensity of the anticoagulation for different risk groups and there is even less is less consensus on the need to anticoagulate outpatients or patients after discharge, according to Dr. Rosovsky

In her own center, the standard is a prophylactic dose of low molecular weight heparin (LMWH) in an algorithm that calls for dose adjustments for some groups such as those with renal impairment or obesity. Alternative forms of anticoagulation are recommended for patients with a history of thrombocytopenia or are at high risk for hemorrhage. Full dose LMWH is recommended in patients already on an oral anticoagulant at time of hospitalization.

“The biggest question right now is when to consider increasing from a prophylactic dose to intermediate or full dose anticoagulation in high risk patients, especially those in the ICU patients,” Dr. Rosovsky said.

Current practices are diverse, according to a recently published survey led by Dr. Rosovsky (Rosovsky RP et al. Res Pract Thromb Haemost. 2020;4:969-83). According to the survey, which had responses from more than 500 physicians in 41 countries, 30% of centers escalate from a prophylactic dose of anticoagulation to an intermediate dose when patients move to the ICU. Although not all answered this question, 25% reported that they do not escalate at ICU transfer. For 15% of respondents, dose escalation is being offered to patients with a D-dimer exceeding six-times the upper limit of normal.

These practices have developed in the absence of prospective clinical trials, which are urgently needed, according to Dr. Rosovsky. The reason that trials specific to COVID-19 are particularly important is that this infection also engenders a high risk of major bleeding.

For example, in a multicenter retrospective study of 400 hospital-admitted COVID-19 patients the rates of major bleeding was 4.8% or exactly the same as the rate of radiographically confirmed VTE. At 7.6%, the rates of VTE and major bleeding were also exactly the same for ICU patients (Al-Samkari H et al. Blood 2020;136:489-500).

“An elevated D-dimer was a marker for both VTE and major bleeding,” reported Dr. Rosovsky, who was the senior author of this study. On the basis of odds ratio (OR), the risk of VTE was increased more than six-fold (OR, 6.79) and the risk of major bleeding by more than three-fold (OR, 3.56) when the D-dimer exceeded 2,500 ng/mL.

The risk of VTE from COVID-19 infection is well documented. For example, autopsy studies have shown widespread thrombosis, including PE, in patients who have died from COVID-19 infection, according to Dr. Rosovsky.

There is also evidence of benefit from anticoagulation. In an retrospective study from China undertaken early in the pandemic, there was no overall mortality benefit at 28 days among those who did receive LMWH when compared to those who did not, but there was a 20% absolute mortality benefit (52.4% vs. 32.8%; P = .017) in those with a D-dimer six-fold ULN (Tang N et al. J Thromb Haemost 2020;18:1094-9).

These types of data support the use of anticoagulation to manage VTE risk in at least some patients, but the reported rates of VTE across institutions and across inpatient and outpatient settings have varied “dramatically,” according to Dr. Rosovsky. The balance of VTE and major bleeding is delicate. In one retrospective study, the mortality advantage for therapeutic versus prophylactic dose of LMWH did not reach statistical significance, but the rate of major bleeding was nearly doubled (3.0% vs. 1.7%) (Nadkarni GN et al J Am Coll Cardiol 2020;76:1815-26).

Because of the many variables that might affect risk of VTE and risk of major bleeding in any individual patient, the benefit-to-risk calculation of anticoagulation is “complex,” according to Dr. Rosovsky. It is for this reason she urged clinicians to consider entering patients into clinical trials designed to generate evidence-based answers.

There is large and growing body of retrospective data that have helped characterize the risk of VTE and bleeding in patients with COVID-19, but “there is no substitute for a well-controlled clinical trial,” agreed Robert A. Harrington, MD, chairman of the department of medicine, Stanford (Calif.) University.

He and the comoderator of the session in which these data were presented agreed that anticoagulation must be administered within a narrow therapeutic window that will be best defined through controlled trial designs.

“There is a significant risk of doing harm,” said Fatima Rodriguez, MD, assistant professor of cardiology at Stanford University. She seconded the critical role of trial participation when possible and the need for clinical trials to better guide treatment decisions.

The meeting was sponsored by MedscapeLive. MedscapeLive and this news organization are owned by the same parent company.

A newly updated expert consensus from the American College of Cardiology for management of heart failure with reduced ejection fraction includes several new guideline-directed medical therapies among other substantial changes relative to its 2017 predecessor.

The advances in treatment of heart failure with reduced ejection fraction (HFrEF) have resulted in a substantial increase in complexity in reaching treatment goals, according to the authors of the new guidance. Structured similarly to the 2017 ACC Expert Consensus Decision Pathway, the update accommodates a series of practical tips to bring all patients on board with the newer as well as the established therapies with lifesaving potential.

The potential return from implementing these recommendations is not trivial. Relative to an ACE inhibitor and a beta-blocker alone, optimal implementation of the current guideline-directed medical therapies (GDMT) “can extend medical survival by more than 6 years,” according to Gregg C. Fonarow, MD, chief of cardiology at the University of California, Los Angeles.

A member of the writing committee for the 2021 update, Dr. Fonarow explained that the consensus pathway is more than a list of therapies and recommended doses. The detailed advice on how to overcome the barriers to GDMT is meant to close the substantial gap between current practice and unmet opportunities for inhibiting HFrEF progression.

“Optimal GDMT among HFrEF patients is distressingly low, due in part to the number and complexity of medications that now constitute GDMT,” said the chair of the writing committee, Thomas M. Maddox, MD, executive director, Healthcare Innovation Lab, BJC HealthCare/Washington University, St. Louis. Like Dr. Fonarow, Dr. Maddox emphasized that the importance of the update for the practical strategies it offers to place patients on optimal care.

SOURCE: Maddox TM et al. J Am Coll Cardiol. 2021 Jan 11. doi: 10.1016/j.jacc.2020.11.022.

A newly updated expert consensus from the American College of Cardiology for management of heart failure with reduced ejection fraction includes several new guideline-directed medical therapies among other substantial changes relative to its 2017 predecessor.

The advances in treatment of heart failure with reduced ejection fraction (HFrEF) have resulted in a substantial increase in complexity in reaching treatment goals, according to the authors of the new guidance. Structured similarly to the 2017 ACC Expert Consensus Decision Pathway, the update accommodates a series of practical tips to bring all patients on board with the newer as well as the established therapies with lifesaving potential.

The potential return from implementing these recommendations is not trivial. Relative to an ACE inhibitor and a beta-blocker alone, optimal implementation of the current guideline-directed medical therapies (GDMT) “can extend medical survival by more than 6 years,” according to Gregg C. Fonarow, MD, chief of cardiology at the University of California, Los Angeles.

A member of the writing committee for the 2021 update, Dr. Fonarow explained that the consensus pathway is more than a list of therapies and recommended doses. The detailed advice on how to overcome the barriers to GDMT is meant to close the substantial gap between current practice and unmet opportunities for inhibiting HFrEF progression.

“Optimal GDMT among HFrEF patients is distressingly low, due in part to the number and complexity of medications that now constitute GDMT,” said the chair of the writing committee, Thomas M. Maddox, MD, executive director, Healthcare Innovation Lab, BJC HealthCare/Washington University, St. Louis. Like Dr. Fonarow, Dr. Maddox emphasized that the importance of the update for the practical strategies it offers to place patients on optimal care.

SOURCE: Maddox TM et al. J Am Coll Cardiol. 2021 Jan 11. doi: 10.1016/j.jacc.2020.11.022.

A newly updated expert consensus from the American College of Cardiology for management of heart failure with reduced ejection fraction includes several new guideline-directed medical therapies among other substantial changes relative to its 2017 predecessor.

The advances in treatment of heart failure with reduced ejection fraction (HFrEF) have resulted in a substantial increase in complexity in reaching treatment goals, according to the authors of the new guidance. Structured similarly to the 2017 ACC Expert Consensus Decision Pathway, the update accommodates a series of practical tips to bring all patients on board with the newer as well as the established therapies with lifesaving potential.

The potential return from implementing these recommendations is not trivial. Relative to an ACE inhibitor and a beta-blocker alone, optimal implementation of the current guideline-directed medical therapies (GDMT) “can extend medical survival by more than 6 years,” according to Gregg C. Fonarow, MD, chief of cardiology at the University of California, Los Angeles.

A member of the writing committee for the 2021 update, Dr. Fonarow explained that the consensus pathway is more than a list of therapies and recommended doses. The detailed advice on how to overcome the barriers to GDMT is meant to close the substantial gap between current practice and unmet opportunities for inhibiting HFrEF progression.

“Optimal GDMT among HFrEF patients is distressingly low, due in part to the number and complexity of medications that now constitute GDMT,” said the chair of the writing committee, Thomas M. Maddox, MD, executive director, Healthcare Innovation Lab, BJC HealthCare/Washington University, St. Louis. Like Dr. Fonarow, Dr. Maddox emphasized that the importance of the update for the practical strategies it offers to place patients on optimal care.

SOURCE: Maddox TM et al. J Am Coll Cardiol. 2021 Jan 11. doi: 10.1016/j.jacc.2020.11.022.

Yet another study has linked the consumption of ultraprocessed, or “junk,” foods to bad health outcomes.

In a longitudinal analysis of more than 22,000 men and women from southern Italy, those who consumed the most ultraprocessed food (UPF) had the highest risk for cardiovascular disease (CVD) and all-cause mortality, likely mediated through a diet high in sugar, researchers said.

High consumption of UPF in this Mediterranean cohort was associated with a 58% increased risk for CVD mortality and 52% higher risk of dying from ischemic heart disease (IHD) and cerebrovascular causes, independently of known risk factors for CVD, even among individuals who otherwise adhered to the Mediterranean diet.

The findings “should serve as an incentive for limiting consumption of UPF and encouraging natural or minimally processed foods, as several national nutritional policies recommend,” Marialaura Bonaccio, PhD, department of epidemiology and prevention, IRCCS Neuromed, Pozzilli, Italy, and colleagues wrote. The results were published online Dec. 18 in the American Journal of Clinical Nutrition.

Earlier this year, as reported by this news organization, researchers found mounting evidence that the obesity epidemic and the increase in incidence of related chronic conditions corresponded with an increase in the intake of UPF.

A study that was conducted in a European cohort found that adults whose diet included more UPF and beverages, such as ice cream, soda, and hamburgers, were more likely to develop CVD or die sooner than others who had a more wholesome diet.

As reported previously by this news organization, among adults in France who had a 10% higher intake of UPF and beverages, the rate of CVD, coronary heart disease, and cerebrovascular disease was 11% to 13% higher over a period of about 5 years.

Similarly, university graduates in Spain who consumed more than four servings of UPF and beverages a day were 62% more likely to die of any cause over about a decade than those who consumed less than two servings per day.
 

Where’s the food?

There is very little actual food in UPF. “The NOVA classification provides 4 main classes of food and beverages, the last of which is represented by the ultraprocessed food group. This comprises products (e.g., snacks, drinks, and ready meals, ‘created mostly or entirely from substances extracted from foods or derived from food constituents with little, if any intact food, which often contain flavors, colors, and other additives that imitate or intensify the sensory qualities of foods or culinary preparations made from foods,’ ” Dr. Bonaccio and colleagues wrote.

Such foods are very convenient, tasty, inexpensive, and have a long shelf life. They are highly competitive with foods that are naturally ready to consume and freshly prepared dishes and meals, the authors add.

The researchers conducted a longitudinal analysis on 22,475 men and women (mean age, 55 years; range, 43-67 years) who were recruited from the Moli-sani Study, a population-based cohort of men and women aged 35 years and older in the Molise region of southern Italy, between 2005 and 2010. Participants were followed for 8.2 years.

Food intake was assessed with the Food Frequency Questionnaire; UPF was defined using the NOVA classification according to degree of processing.

UPF intakes were categorized as quartiles of the ratio of UPF to total food consumed.

Overall, study participants reported a median of 10% (interquartile range, 6.6%-14.6%) of dietary intake as UPF and a total of 181.5 g/d of UPF intake.

The foods that contributed most to total UPF consumed were processed meat, which accounted for 19.8% of UPF intake; pizza (16.8%); and cakes and pies (13.4%).

High consumers of UPF, defined as those for whom UPF constituted more than 14.6% of their total diet, were more likely to be women, to be younger, and to have a higher educational level. They also reported fewer risk factors and fewer baseline chronic diseases and health conditions than persons who consumed UPF less frequently.

In addition, high consumption of UPF was associated with lower adherence to the Mediterranean diet; higher intake of fat, sugar, dietary cholesterol, and sodium; and lower intake of fiber.

During a median follow-up of 8.2 years, 1,216 all-cause deaths occurred. Of these, 439 were attributed to CVD, 255 to IHD/cerebrovascular disease, 477 to cancer, and 300 to other causes.
 

The more UPF, the higher the risk for CVD, death

The researchers found a direct linear dose-response relation between a 5% increase in the proportion of UPF in the diet and risk for all-cause and CVD mortality.

Individuals who reported the highest intake of UPF (fourth quartile, 14.6% of total food) as opposed to the lowest (first quartile, UPF <6.6%) experienced increased risks for CVD mortality (hazard ratio, 1.58; 95% CI, 1.23-2.03), death from IHD/cerebrovascular disease (HR, 1.52, 95% CI, 1.10-2.09), and all-cause mortality (HR, 1.26; 95% CI, 1.09-1.46).

High sugar content accounted for 36.3% of the relation of UPF with IHD/cerebrovascular mortality. Other nutritional factors, such as saturated fats, were unlikely to play a role, the researchers wrote.

Biomarkers of renal function accounted for 20.1% of the association of UPF with all-cause mortality and 12.0% for that of UPF with CVD mortality.

Subgroup analyses indicated that the magnitude of the association between UPF and all-cause mortality risk was greater among high-risk individuals, such as those with a history of CVD or diabetes. UPF was also likely to be more strongly associated with CVD mortality among those high-risk groups.

The interesting finding that the association between UPF and CVD mortality was greater among individuals with good adherence to the Mediterranean diet, which is known to have health benefits, could be explained by the fact that people who may benefit from a Mediterranean diet are more susceptible to losing health advantages when they also include “detrimental dietary behavior,” whereas those who consume a poor-quality diet are less likely to be harmed by an additional unhealthy behavior such as eating UPF regularly, wrote Dr. Bonaccio and colleagues.

“This is an interesting study confirming that consumption of highly processed foods such as pizza, processed meats, and soda are associated with greater risks of cardiovascular disease,” Walter Willett, MD, professor of epidemiology and nutrition, Harvard School of Public Health, Boston, said in an interview.

“These higher risks appear to be mediated in part by high intakes of saturated fat and sugar, but lower intakes of health-promoting aspects of diet also likely contribute to the findings,” Dr. Willett said.

“Some processing of food can be useful for preservation and control of infectious agents, but in general, a diet emphasizing minimally processed fruits and vegetables, whole grains, nuts, legumes, and plant sources of fat will be best for long-term well-being,” he said.

The study was supported in part by the Italian Ministry of Health and the HYPERCAN Study Italian Association for Cancer Research. Dr. Bonaccio and Dr. Willett reported no relevant financial relationships.

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

Yet another study has linked the consumption of ultraprocessed, or “junk,” foods to bad health outcomes.

In a longitudinal analysis of more than 22,000 men and women from southern Italy, those who consumed the most ultraprocessed food (UPF) had the highest risk for cardiovascular disease (CVD) and all-cause mortality, likely mediated through a diet high in sugar, researchers said.

High consumption of UPF in this Mediterranean cohort was associated with a 58% increased risk for CVD mortality and 52% higher risk of dying from ischemic heart disease (IHD) and cerebrovascular causes, independently of known risk factors for CVD, even among individuals who otherwise adhered to the Mediterranean diet.

The findings “should serve as an incentive for limiting consumption of UPF and encouraging natural or minimally processed foods, as several national nutritional policies recommend,” Marialaura Bonaccio, PhD, department of epidemiology and prevention, IRCCS Neuromed, Pozzilli, Italy, and colleagues wrote. The results were published online Dec. 18 in the American Journal of Clinical Nutrition.

Earlier this year, as reported by this news organization, researchers found mounting evidence that the obesity epidemic and the increase in incidence of related chronic conditions corresponded with an increase in the intake of UPF.

A study that was conducted in a European cohort found that adults whose diet included more UPF and beverages, such as ice cream, soda, and hamburgers, were more likely to develop CVD or die sooner than others who had a more wholesome diet.

As reported previously by this news organization, among adults in France who had a 10% higher intake of UPF and beverages, the rate of CVD, coronary heart disease, and cerebrovascular disease was 11% to 13% higher over a period of about 5 years.

Similarly, university graduates in Spain who consumed more than four servings of UPF and beverages a day were 62% more likely to die of any cause over about a decade than those who consumed less than two servings per day.
 

Where’s the food?

There is very little actual food in UPF. “The NOVA classification provides 4 main classes of food and beverages, the last of which is represented by the ultraprocessed food group. This comprises products (e.g., snacks, drinks, and ready meals, ‘created mostly or entirely from substances extracted from foods or derived from food constituents with little, if any intact food, which often contain flavors, colors, and other additives that imitate or intensify the sensory qualities of foods or culinary preparations made from foods,’ ” Dr. Bonaccio and colleagues wrote.

Such foods are very convenient, tasty, inexpensive, and have a long shelf life. They are highly competitive with foods that are naturally ready to consume and freshly prepared dishes and meals, the authors add.

The researchers conducted a longitudinal analysis on 22,475 men and women (mean age, 55 years; range, 43-67 years) who were recruited from the Moli-sani Study, a population-based cohort of men and women aged 35 years and older in the Molise region of southern Italy, between 2005 and 2010. Participants were followed for 8.2 years.

Food intake was assessed with the Food Frequency Questionnaire; UPF was defined using the NOVA classification according to degree of processing.

UPF intakes were categorized as quartiles of the ratio of UPF to total food consumed.

Overall, study participants reported a median of 10% (interquartile range, 6.6%-14.6%) of dietary intake as UPF and a total of 181.5 g/d of UPF intake.

The foods that contributed most to total UPF consumed were processed meat, which accounted for 19.8% of UPF intake; pizza (16.8%); and cakes and pies (13.4%).

High consumers of UPF, defined as those for whom UPF constituted more than 14.6% of their total diet, were more likely to be women, to be younger, and to have a higher educational level. They also reported fewer risk factors and fewer baseline chronic diseases and health conditions than persons who consumed UPF less frequently.

In addition, high consumption of UPF was associated with lower adherence to the Mediterranean diet; higher intake of fat, sugar, dietary cholesterol, and sodium; and lower intake of fiber.

During a median follow-up of 8.2 years, 1,216 all-cause deaths occurred. Of these, 439 were attributed to CVD, 255 to IHD/cerebrovascular disease, 477 to cancer, and 300 to other causes.
 

The more UPF, the higher the risk for CVD, death

The researchers found a direct linear dose-response relation between a 5% increase in the proportion of UPF in the diet and risk for all-cause and CVD mortality.

Individuals who reported the highest intake of UPF (fourth quartile, 14.6% of total food) as opposed to the lowest (first quartile, UPF <6.6%) experienced increased risks for CVD mortality (hazard ratio, 1.58; 95% CI, 1.23-2.03), death from IHD/cerebrovascular disease (HR, 1.52, 95% CI, 1.10-2.09), and all-cause mortality (HR, 1.26; 95% CI, 1.09-1.46).

High sugar content accounted for 36.3% of the relation of UPF with IHD/cerebrovascular mortality. Other nutritional factors, such as saturated fats, were unlikely to play a role, the researchers wrote.

Biomarkers of renal function accounted for 20.1% of the association of UPF with all-cause mortality and 12.0% for that of UPF with CVD mortality.

Subgroup analyses indicated that the magnitude of the association between UPF and all-cause mortality risk was greater among high-risk individuals, such as those with a history of CVD or diabetes. UPF was also likely to be more strongly associated with CVD mortality among those high-risk groups.

The interesting finding that the association between UPF and CVD mortality was greater among individuals with good adherence to the Mediterranean diet, which is known to have health benefits, could be explained by the fact that people who may benefit from a Mediterranean diet are more susceptible to losing health advantages when they also include “detrimental dietary behavior,” whereas those who consume a poor-quality diet are less likely to be harmed by an additional unhealthy behavior such as eating UPF regularly, wrote Dr. Bonaccio and colleagues.

“This is an interesting study confirming that consumption of highly processed foods such as pizza, processed meats, and soda are associated with greater risks of cardiovascular disease,” Walter Willett, MD, professor of epidemiology and nutrition, Harvard School of Public Health, Boston, said in an interview.

“These higher risks appear to be mediated in part by high intakes of saturated fat and sugar, but lower intakes of health-promoting aspects of diet also likely contribute to the findings,” Dr. Willett said.

“Some processing of food can be useful for preservation and control of infectious agents, but in general, a diet emphasizing minimally processed fruits and vegetables, whole grains, nuts, legumes, and plant sources of fat will be best for long-term well-being,” he said.

The study was supported in part by the Italian Ministry of Health and the HYPERCAN Study Italian Association for Cancer Research. Dr. Bonaccio and Dr. Willett reported no relevant financial relationships.

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

Yet another study has linked the consumption of ultraprocessed, or “junk,” foods to bad health outcomes.

In a longitudinal analysis of more than 22,000 men and women from southern Italy, those who consumed the most ultraprocessed food (UPF) had the highest risk for cardiovascular disease (CVD) and all-cause mortality, likely mediated through a diet high in sugar, researchers said.

High consumption of UPF in this Mediterranean cohort was associated with a 58% increased risk for CVD mortality and 52% higher risk of dying from ischemic heart disease (IHD) and cerebrovascular causes, independently of known risk factors for CVD, even among individuals who otherwise adhered to the Mediterranean diet.

The findings “should serve as an incentive for limiting consumption of UPF and encouraging natural or minimally processed foods, as several national nutritional policies recommend,” Marialaura Bonaccio, PhD, department of epidemiology and prevention, IRCCS Neuromed, Pozzilli, Italy, and colleagues wrote. The results were published online Dec. 18 in the American Journal of Clinical Nutrition.

Earlier this year, as reported by this news organization, researchers found mounting evidence that the obesity epidemic and the increase in incidence of related chronic conditions corresponded with an increase in the intake of UPF.

A study that was conducted in a European cohort found that adults whose diet included more UPF and beverages, such as ice cream, soda, and hamburgers, were more likely to develop CVD or die sooner than others who had a more wholesome diet.

As reported previously by this news organization, among adults in France who had a 10% higher intake of UPF and beverages, the rate of CVD, coronary heart disease, and cerebrovascular disease was 11% to 13% higher over a period of about 5 years.

Similarly, university graduates in Spain who consumed more than four servings of UPF and beverages a day were 62% more likely to die of any cause over about a decade than those who consumed less than two servings per day.
 

Where’s the food?

There is very little actual food in UPF. “The NOVA classification provides 4 main classes of food and beverages, the last of which is represented by the ultraprocessed food group. This comprises products (e.g., snacks, drinks, and ready meals, ‘created mostly or entirely from substances extracted from foods or derived from food constituents with little, if any intact food, which often contain flavors, colors, and other additives that imitate or intensify the sensory qualities of foods or culinary preparations made from foods,’ ” Dr. Bonaccio and colleagues wrote.

Such foods are very convenient, tasty, inexpensive, and have a long shelf life. They are highly competitive with foods that are naturally ready to consume and freshly prepared dishes and meals, the authors add.

The researchers conducted a longitudinal analysis on 22,475 men and women (mean age, 55 years; range, 43-67 years) who were recruited from the Moli-sani Study, a population-based cohort of men and women aged 35 years and older in the Molise region of southern Italy, between 2005 and 2010. Participants were followed for 8.2 years.

Food intake was assessed with the Food Frequency Questionnaire; UPF was defined using the NOVA classification according to degree of processing.

UPF intakes were categorized as quartiles of the ratio of UPF to total food consumed.

Overall, study participants reported a median of 10% (interquartile range, 6.6%-14.6%) of dietary intake as UPF and a total of 181.5 g/d of UPF intake.

The foods that contributed most to total UPF consumed were processed meat, which accounted for 19.8% of UPF intake; pizza (16.8%); and cakes and pies (13.4%).

High consumers of UPF, defined as those for whom UPF constituted more than 14.6% of their total diet, were more likely to be women, to be younger, and to have a higher educational level. They also reported fewer risk factors and fewer baseline chronic diseases and health conditions than persons who consumed UPF less frequently.

In addition, high consumption of UPF was associated with lower adherence to the Mediterranean diet; higher intake of fat, sugar, dietary cholesterol, and sodium; and lower intake of fiber.

During a median follow-up of 8.2 years, 1,216 all-cause deaths occurred. Of these, 439 were attributed to CVD, 255 to IHD/cerebrovascular disease, 477 to cancer, and 300 to other causes.
 

The more UPF, the higher the risk for CVD, death

The researchers found a direct linear dose-response relation between a 5% increase in the proportion of UPF in the diet and risk for all-cause and CVD mortality.

Individuals who reported the highest intake of UPF (fourth quartile, 14.6% of total food) as opposed to the lowest (first quartile, UPF <6.6%) experienced increased risks for CVD mortality (hazard ratio, 1.58; 95% CI, 1.23-2.03), death from IHD/cerebrovascular disease (HR, 1.52, 95% CI, 1.10-2.09), and all-cause mortality (HR, 1.26; 95% CI, 1.09-1.46).

High sugar content accounted for 36.3% of the relation of UPF with IHD/cerebrovascular mortality. Other nutritional factors, such as saturated fats, were unlikely to play a role, the researchers wrote.

Biomarkers of renal function accounted for 20.1% of the association of UPF with all-cause mortality and 12.0% for that of UPF with CVD mortality.

Subgroup analyses indicated that the magnitude of the association between UPF and all-cause mortality risk was greater among high-risk individuals, such as those with a history of CVD or diabetes. UPF was also likely to be more strongly associated with CVD mortality among those high-risk groups.

The interesting finding that the association between UPF and CVD mortality was greater among individuals with good adherence to the Mediterranean diet, which is known to have health benefits, could be explained by the fact that people who may benefit from a Mediterranean diet are more susceptible to losing health advantages when they also include “detrimental dietary behavior,” whereas those who consume a poor-quality diet are less likely to be harmed by an additional unhealthy behavior such as eating UPF regularly, wrote Dr. Bonaccio and colleagues.

“This is an interesting study confirming that consumption of highly processed foods such as pizza, processed meats, and soda are associated with greater risks of cardiovascular disease,” Walter Willett, MD, professor of epidemiology and nutrition, Harvard School of Public Health, Boston, said in an interview.

“These higher risks appear to be mediated in part by high intakes of saturated fat and sugar, but lower intakes of health-promoting aspects of diet also likely contribute to the findings,” Dr. Willett said.

“Some processing of food can be useful for preservation and control of infectious agents, but in general, a diet emphasizing minimally processed fruits and vegetables, whole grains, nuts, legumes, and plant sources of fat will be best for long-term well-being,” he said.

The study was supported in part by the Italian Ministry of Health and the HYPERCAN Study Italian Association for Cancer Research. Dr. Bonaccio and Dr. Willett reported no relevant financial relationships.

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

The latest iteration of the American College of Cardiology/American Heart Association (ACC/AHA) Guideline for the Management of Patients With Valvular Heart Disease emphasizes a less invasive approach to the management of patients with valvular heart disease (VHD).

The 2020 ACC/AHA guideline now recommends transcatheter aortic valve implantation over surgical implantation for older individuals, a transcatheter edge-to-edge repair of the mitral valve for patients who are at high risk for surgery, and referral of patients with complicated conditions to designated centers.

The guideline was published online Dec. 17 in Circulation and was simultaneously published in the Journal of the American College of Cardiology. It replaces the 2014 guideline and the 2017 focused update of the guideline, both published in Circulation.

“A huge amount has changed,” Catherine M. Otto, MD, J. Ward Kennedy-Hamilton Endowed Chair in Cardiology and professor of medicine, University of Washington, Seattle, said in an interview.

Dr. Otto cochaired the 2020 Guideline Writing Committee with Rick A. Nishimura, MD, professor of medicine, Mayo Clinic, Rochester, Minn.
 

Expanded use of transcatheter procedures

“One major change is that the transcatheter valve, rather than the surgical valve, is now recommended for a large number of patients, primarily based upon the likelihood that the durability of the transcatheter valve is appropriate for the patient’s life expectancy. So, in most older adults, the transcatheter valve, rather than a surgical valve, would be the treatment for severe aortic stenosis,” she said.

“That’s a huge change,” she added. “Previously, patients had to have surgery to place a prosthetic valve, but now, many patients, particularly older adults, can have a nonsurgical approach when they are only in the hospital overnight, or sometimes even just for the day, to get their valve replaced.”

The 2020 guideline also recommends the transcatheter approach over the surgical approach for mitral valve repair or replacement for individuals who are not candidates for surgery.

“We continue to recommend surgical valve repair for the mitral valve, because we know that there are excellent long-term outcomes with surgical repair,” Dr. Otto said. “But, for people who are at high risk or prohibitive risk for surgery, we now have the option of again using a transcatheter approach or a transcatheter edge-to-edge repair of the valve. It’s a simpler procedure, doesn’t require a big incision, [and] doesn’t require a long hospital stay. Those two procedures are really changing patient management,” she said.
 

A tiered approach to VHD care

A third key change is a recommendation that the U.S. health care system move to a tiered approach, whereby patients with more complex conditions undergo their procedure at comprehensive, high-volume centers, and patients with simpler conditions undergo treatment at primary heart valve centers.

“More complex patients often require multidisciplinary care in order to be managed appropriately. It makes more sense to send them to a center that has the expertise and the teams in place already,” Dr. Otto said.

“Patients needing more straightforward, common procedures could be seen at a primary valve center. Those needing a more complicated procedure would go to the centers with higher volumes. So an important part of what this guideline is trying to do is to get doctors to refer their patients to the appropriate center,” she said.
 

Eagerly anticipated

The 2020 AHA/ACC guideline has been “eagerly anticipated,” Anthony A. Bavry, MD, MPH, UT Southwestern Medical Center, Dallas, Texas, and George J. Arnaoutakis, MD, University of Florida Health, Gainesville, wrote in a perspective article published with the guideline in Circulation.

Dr. Bavry and Dr. Arnaoutakis endorse the guideline recommendation that the U.S. health care system move to a tiered approach.

“To balance excellent outcomes and not compromise access to care, the 2020 Guideline recommends that our health care system move to a tiered approach in the treatment of valve disease, where we recognize level 1 and level 2 Centers,” they wrote.

“The level 1 Comprehensive Heart Valve Center is an important and new introduction to the Guideline,” they noted. “The level 1 Center is defined by the depth and breadth of the procedures offered. While excellent outcomes are possible at lower volume centers, literature supports that higher center and operator volumes of valve procedures are associated with excellent results and low mortality.”

The authors pointed out that level 2 primary valve centers offer many of the same valve procedures as the level 1 centers but are limited by the scope of procedures they can offer.

“For example, specialized procedures such as alternative access TAVR, valve-in-valve TAVR, transcatheter edge-to-edge mitral valve repair, paravalvular leak closure, and percutaneous mitral balloon commissurotomy are recommended to be performed at a level 1 Center,” they wrote.

Transcatheter valve therapies remain “an exciting and dynamic field which offers patients a less invasive treatment option,” Dr. Bavry and Dr. Arnaoutakis concluded. They also cautioned that the pros and cons of the newer, less invasive therapies need to be weighed against the benefits of surgical procedures that have been studied and refined for more than 50 years.

Patients with VHD have many choices and will require help making informed decisions about such things as a mechanical valve vs. a bioprosthetic valve or undergoing a traditional surgical procedure vs. a catheter-based approach. “Other patients, at the extremes of age or risk status, will lean more clearly to one direction or another,” Dr. Bavry and Dr. Arnaoutakis add.

“Overall, the 2020 Guideline is a comprehensive document that should provide a useful framework for the Heart Valve Team,” they concluded.

The authors have disclosed no relevant financial relationships.

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

The latest iteration of the American College of Cardiology/American Heart Association (ACC/AHA) Guideline for the Management of Patients With Valvular Heart Disease emphasizes a less invasive approach to the management of patients with valvular heart disease (VHD).

The 2020 ACC/AHA guideline now recommends transcatheter aortic valve implantation over surgical implantation for older individuals, a transcatheter edge-to-edge repair of the mitral valve for patients who are at high risk for surgery, and referral of patients with complicated conditions to designated centers.

The guideline was published online Dec. 17 in Circulation and was simultaneously published in the Journal of the American College of Cardiology. It replaces the 2014 guideline and the 2017 focused update of the guideline, both published in Circulation.

“A huge amount has changed,” Catherine M. Otto, MD, J. Ward Kennedy-Hamilton Endowed Chair in Cardiology and professor of medicine, University of Washington, Seattle, said in an interview.

Dr. Otto cochaired the 2020 Guideline Writing Committee with Rick A. Nishimura, MD, professor of medicine, Mayo Clinic, Rochester, Minn.
 

Expanded use of transcatheter procedures

“One major change is that the transcatheter valve, rather than the surgical valve, is now recommended for a large number of patients, primarily based upon the likelihood that the durability of the transcatheter valve is appropriate for the patient’s life expectancy. So, in most older adults, the transcatheter valve, rather than a surgical valve, would be the treatment for severe aortic stenosis,” she said.

“That’s a huge change,” she added. “Previously, patients had to have surgery to place a prosthetic valve, but now, many patients, particularly older adults, can have a nonsurgical approach when they are only in the hospital overnight, or sometimes even just for the day, to get their valve replaced.”

The 2020 guideline also recommends the transcatheter approach over the surgical approach for mitral valve repair or replacement for individuals who are not candidates for surgery.

“We continue to recommend surgical valve repair for the mitral valve, because we know that there are excellent long-term outcomes with surgical repair,” Dr. Otto said. “But, for people who are at high risk or prohibitive risk for surgery, we now have the option of again using a transcatheter approach or a transcatheter edge-to-edge repair of the valve. It’s a simpler procedure, doesn’t require a big incision, [and] doesn’t require a long hospital stay. Those two procedures are really changing patient management,” she said.
 

A tiered approach to VHD care

A third key change is a recommendation that the U.S. health care system move to a tiered approach, whereby patients with more complex conditions undergo their procedure at comprehensive, high-volume centers, and patients with simpler conditions undergo treatment at primary heart valve centers.

“More complex patients often require multidisciplinary care in order to be managed appropriately. It makes more sense to send them to a center that has the expertise and the teams in place already,” Dr. Otto said.

“Patients needing more straightforward, common procedures could be seen at a primary valve center. Those needing a more complicated procedure would go to the centers with higher volumes. So an important part of what this guideline is trying to do is to get doctors to refer their patients to the appropriate center,” she said.
 

Eagerly anticipated

The 2020 AHA/ACC guideline has been “eagerly anticipated,” Anthony A. Bavry, MD, MPH, UT Southwestern Medical Center, Dallas, Texas, and George J. Arnaoutakis, MD, University of Florida Health, Gainesville, wrote in a perspective article published with the guideline in Circulation.

Dr. Bavry and Dr. Arnaoutakis endorse the guideline recommendation that the U.S. health care system move to a tiered approach.

“To balance excellent outcomes and not compromise access to care, the 2020 Guideline recommends that our health care system move to a tiered approach in the treatment of valve disease, where we recognize level 1 and level 2 Centers,” they wrote.

“The level 1 Comprehensive Heart Valve Center is an important and new introduction to the Guideline,” they noted. “The level 1 Center is defined by the depth and breadth of the procedures offered. While excellent outcomes are possible at lower volume centers, literature supports that higher center and operator volumes of valve procedures are associated with excellent results and low mortality.”

The authors pointed out that level 2 primary valve centers offer many of the same valve procedures as the level 1 centers but are limited by the scope of procedures they can offer.

“For example, specialized procedures such as alternative access TAVR, valve-in-valve TAVR, transcatheter edge-to-edge mitral valve repair, paravalvular leak closure, and percutaneous mitral balloon commissurotomy are recommended to be performed at a level 1 Center,” they wrote.

Transcatheter valve therapies remain “an exciting and dynamic field which offers patients a less invasive treatment option,” Dr. Bavry and Dr. Arnaoutakis concluded. They also cautioned that the pros and cons of the newer, less invasive therapies need to be weighed against the benefits of surgical procedures that have been studied and refined for more than 50 years.

Patients with VHD have many choices and will require help making informed decisions about such things as a mechanical valve vs. a bioprosthetic valve or undergoing a traditional surgical procedure vs. a catheter-based approach. “Other patients, at the extremes of age or risk status, will lean more clearly to one direction or another,” Dr. Bavry and Dr. Arnaoutakis add.

“Overall, the 2020 Guideline is a comprehensive document that should provide a useful framework for the Heart Valve Team,” they concluded.

The authors have disclosed no relevant financial relationships.

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

The latest iteration of the American College of Cardiology/American Heart Association (ACC/AHA) Guideline for the Management of Patients With Valvular Heart Disease emphasizes a less invasive approach to the management of patients with valvular heart disease (VHD).

The 2020 ACC/AHA guideline now recommends transcatheter aortic valve implantation over surgical implantation for older individuals, a transcatheter edge-to-edge repair of the mitral valve for patients who are at high risk for surgery, and referral of patients with complicated conditions to designated centers.

The guideline was published online Dec. 17 in Circulation and was simultaneously published in the Journal of the American College of Cardiology. It replaces the 2014 guideline and the 2017 focused update of the guideline, both published in Circulation.

“A huge amount has changed,” Catherine M. Otto, MD, J. Ward Kennedy-Hamilton Endowed Chair in Cardiology and professor of medicine, University of Washington, Seattle, said in an interview.

Dr. Otto cochaired the 2020 Guideline Writing Committee with Rick A. Nishimura, MD, professor of medicine, Mayo Clinic, Rochester, Minn.
 

Expanded use of transcatheter procedures

“One major change is that the transcatheter valve, rather than the surgical valve, is now recommended for a large number of patients, primarily based upon the likelihood that the durability of the transcatheter valve is appropriate for the patient’s life expectancy. So, in most older adults, the transcatheter valve, rather than a surgical valve, would be the treatment for severe aortic stenosis,” she said.

“That’s a huge change,” she added. “Previously, patients had to have surgery to place a prosthetic valve, but now, many patients, particularly older adults, can have a nonsurgical approach when they are only in the hospital overnight, or sometimes even just for the day, to get their valve replaced.”

The 2020 guideline also recommends the transcatheter approach over the surgical approach for mitral valve repair or replacement for individuals who are not candidates for surgery.

“We continue to recommend surgical valve repair for the mitral valve, because we know that there are excellent long-term outcomes with surgical repair,” Dr. Otto said. “But, for people who are at high risk or prohibitive risk for surgery, we now have the option of again using a transcatheter approach or a transcatheter edge-to-edge repair of the valve. It’s a simpler procedure, doesn’t require a big incision, [and] doesn’t require a long hospital stay. Those two procedures are really changing patient management,” she said.
 

A tiered approach to VHD care

A third key change is a recommendation that the U.S. health care system move to a tiered approach, whereby patients with more complex conditions undergo their procedure at comprehensive, high-volume centers, and patients with simpler conditions undergo treatment at primary heart valve centers.

“More complex patients often require multidisciplinary care in order to be managed appropriately. It makes more sense to send them to a center that has the expertise and the teams in place already,” Dr. Otto said.

“Patients needing more straightforward, common procedures could be seen at a primary valve center. Those needing a more complicated procedure would go to the centers with higher volumes. So an important part of what this guideline is trying to do is to get doctors to refer their patients to the appropriate center,” she said.
 

Eagerly anticipated

The 2020 AHA/ACC guideline has been “eagerly anticipated,” Anthony A. Bavry, MD, MPH, UT Southwestern Medical Center, Dallas, Texas, and George J. Arnaoutakis, MD, University of Florida Health, Gainesville, wrote in a perspective article published with the guideline in Circulation.

Dr. Bavry and Dr. Arnaoutakis endorse the guideline recommendation that the U.S. health care system move to a tiered approach.

“To balance excellent outcomes and not compromise access to care, the 2020 Guideline recommends that our health care system move to a tiered approach in the treatment of valve disease, where we recognize level 1 and level 2 Centers,” they wrote.

“The level 1 Comprehensive Heart Valve Center is an important and new introduction to the Guideline,” they noted. “The level 1 Center is defined by the depth and breadth of the procedures offered. While excellent outcomes are possible at lower volume centers, literature supports that higher center and operator volumes of valve procedures are associated with excellent results and low mortality.”

The authors pointed out that level 2 primary valve centers offer many of the same valve procedures as the level 1 centers but are limited by the scope of procedures they can offer.

“For example, specialized procedures such as alternative access TAVR, valve-in-valve TAVR, transcatheter edge-to-edge mitral valve repair, paravalvular leak closure, and percutaneous mitral balloon commissurotomy are recommended to be performed at a level 1 Center,” they wrote.

Transcatheter valve therapies remain “an exciting and dynamic field which offers patients a less invasive treatment option,” Dr. Bavry and Dr. Arnaoutakis concluded. They also cautioned that the pros and cons of the newer, less invasive therapies need to be weighed against the benefits of surgical procedures that have been studied and refined for more than 50 years.

Patients with VHD have many choices and will require help making informed decisions about such things as a mechanical valve vs. a bioprosthetic valve or undergoing a traditional surgical procedure vs. a catheter-based approach. “Other patients, at the extremes of age or risk status, will lean more clearly to one direction or another,” Dr. Bavry and Dr. Arnaoutakis add.

“Overall, the 2020 Guideline is a comprehensive document that should provide a useful framework for the Heart Valve Team,” they concluded.

The authors have disclosed no relevant financial relationships.

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

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

Patients with heart failure who are infected with SARS-CoV-2 are at high risk for complications, with nearly 1 in 4 dying during hospitalization, according to a large database analysis that included more than 8,000 patients who had heart failure and COVID-19.

Floaria Bicher/iStock/Getty Images Plus

In-hospital mortality was 24.2% for patients who had a history of heart failure and were hospitalized with COVID-19, as compared with 14.2% for individuals without heart failure who were hospitalized with COVID-19.

For perspective, the researchers compared the patients with heart failure and COVID-19 with patients who had a history of heart failure and were hospitalized for an acute worsening episode: the risk for death was about 10-fold higher with COVID-19.

“These patients really face remarkably high risk, and when we compare that to the risk of in-hospital death with something we are a lot more familiar with – acute heart failure – we see that the risk was about 10-fold greater,” said first author Ankeet S. Bhatt, MD, MBA, from Brigham and Women’s Hospital and Harvard Medical School, both in Boston.

In an article published online in JACC Heart Failure on Dec. 28, a group led by Dr. Bhatt and senior author Scott D. Solomon, MD, reported an analysis of administrative data on a total of 2,041,855 incident hospitalizations logged in the Premier Healthcare Database between April 1, 2020, and Sept. 30, 2020.

The Premier Healthcare Database comprises data from more than 1 billion patient encounters, which equates to approximately 1 in every 5 of all inpatient discharges in the United States.

Of 132,312 hospitalizations of patients with a history of heart failure, 23,843 (18.0%) were hospitalized with acute heart failure, 8,383 patients (6.4%) were hospitalized with COVID-19, and 100,068 (75.6%) were hospitalized for other reasons.

Outcomes and resource utilization were compared with 141,895 COVID-19 hospitalizations of patients who did not have heart failure.

Patients were deemed to have a history of heart failure if they were hospitalized at least once for heart failure from Jan. 1, 2019, to March 21, 2020, or had at least two heart failure outpatient visits during that period.

In a comment, Dr. Solomon noted some of the pros and cons of the data used in this study.

“Premier is a huge database, encompassing about one-quarter of all the health care facilities in the United States and one-fifth of all inpatient visits, so for that reason we’re able to look at things that are very difficult to look at in smaller hospital systems, but the data are also limited in that you don’t have as much granular detail as you might in smaller datasets,” said Dr. Solomon.

“One thing to recognize is that our data start at the point of hospital admission, so were looking only at individuals who have crossed the threshold in terms of their illness and been admitted,” he added.

Use of in-hospital resources was significantly greater for patients with heart failure hospitalized for COVID-19, compared with patients hospitalized for acute heart failure or for other reasons. This included “multifold” higher rates of ICU care (29% vs. 15%), mechanical ventilation (17% vs. 6%), and central venous catheter insertion (19% vs. 7%; P < .001 for all).

The proportion of patients who required mechanical ventilation and care in the ICU in the group with COVID-19 but who did not have no heart failure was similar to those who had both conditions.

The greater odds of in-hospital mortality among patients with both heart failure and COVID-19, compared with individuals with heart failure hospitalized for other reasons, was strongest in April, with an adjusted odds ratio of 14.48, compared with subsequent months (adjusted OR for May-September, 10.11; P for interaction < .001).

“We’re obviously not able to say with certainty what was happening in April, but I think that maybe the patients who were most vulnerable to COVID-19 may be more represented in that population, so the patients with comorbidities or who are immunosuppressed or otherwise,” said Dr. Bhatt in an interview.

“The other thing we think is that there may be a learning curve in terms of how to care for patients with acute severe respiratory illness. That includes increased institutional knowledge – like the use of prone ventilation – but also therapies that were subsequently shown to have benefit in randomized clinical trials, such as dexamethasone,” he added.

“These results should remind us to be innovative and thoughtful in our management of patients with heart failure while trying to maintain equity and good health for all,” wrote Nasrien E. Ibrahim, MD, from Massachusetts General Hospital, Boston; Ersilia DeFillipis, MD, Columbia University, New York; and Mitchel Psotka, MD, PhD, Innova Heart and Vascular Institute, Falls Church, Va., in an editorial accompanying the study.

The data emphasize the importance of ensuring equal access to services such as telemedicine, virtual visits, home nursing visits, and remote monitoring, they noted.

“As the COVID-19 pandemic rages on and disproportionately ravages socioeconomically disadvantaged communities, we should focus our efforts on strategies that minimize these inequities,” the editorialists wrote.

Dr. Solomon noted that, although Black and Hispanic patients were overrepresented in the population of heart failure patients hospitalized with COVID-19, once in the hospital, race was not a predictor of in-hospital mortality or the need for mechanical ventilation.

Dr. Bhatt has received speaker fees from Sanofi Pasteur and is supported by a National Institutes of Health/National Heart, Lung, and Blood Institute postdoctoral training grant. Dr. Solomon has received grant support and/or speaking fees from a number of companies and from the NIH/NHLBI. The editorialists disclosed no relevant financial relationships.

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

Researchers in Madrid may have found a clue to the pathogenesis of ST-segment elevation myocardial infarction (STEMI) in patients with COVID-19; it might also offer a therapeutic target to counter the hypercoagulability seen with COVID-19.

In a case series of five patients with COVID-19 who had an STEMI, neutrophil extracellular traps (NETs) were detected in coronary thrombi of all five patients. The median density was 66%, which is significantly higher than that seen in a historical series of patients with STEMI. In that series, NETs were found in only two-thirds of patients; in that series, the median density was 19%.

In the patients with COVID-19 and STEMI and in the patients reported in the prepandemic historical series from 2015, intracoronary aspirates were obtained during percutaneous coronary intervention using a thrombus aspiration device.

Histologically, findings in the patients from 2015 differed from those of patients with COVID-19. In the patients with COVID, thrombi were composed mostly of fibrin and polymorphonuclear cells. None showed fragments of atherosclerotic plaque or iron deposits indicative of previous episodes of plaque rupture. In contrast, 65% of thrombi from the 2015 series contained plaque fragments.

Ana Blasco, MD, PhD, Hospital Universitario Puerta de Hierro-Majadahonda, Madrid, and colleagues report their findings in an article published online Dec. 29 in JAMA Cardiology.

Commenting on the findings in an interview, Irene Lang, MD, from the Medical University of Vienna said, “This is really a very small series, purely observational, and suffering from the problem that acute STEMI is uncommon in COVID-19, but it does serve to demonstrate once more the abundance of NETs in acute myocardial infarction.”

“NETs are very much at the cutting edge of thrombosis research, and NET formation provides yet another link between inflammation and clot formation,” added Peter Libby, MD, from Harvard Medical School and Brigham and Women’s Hospital, Boston.

“Multiple observations have shown thrombosis of arteries large and small, microvessels, and veins in COVID-19. The observations of Blasco et al. add to the growing literature about NETs as contributors to the havoc wrought in multiple organs in advanced COVID-19,” he added in an email exchange with this news organization.

Neither Dr. Lang nor Dr. Libby were involved in this research; both have been actively studying NETs and their contribution to cardiothrombotic disease in recent years.

NETs are newly recognized contributors to venous and arterial thrombosis. These weblike DNA strands are extruded by activated or dying neutrophils and have protein mediators that ensnare pathogens while minimizing damage to the host cell.

First described in 2004, exaggerated NET formation has also been linked to the initiation and accretion of inflammation and thrombosis.

“NETs thus furnish a previously unsuspected link between inflammation, innate immunity, thrombosis, oxidative stress, and cardiovascular diseases,” Dr. Libby and his coauthors wrote in an article on the topic published in Circulation Research earlier this year.

Limiting NET formation or “dissolving” existing NETs could provide a therapeutic avenue not just for patients with COVID-19 but for all patients with thrombotic disease.

“The concept of NETs as a therapeutic target is appealing, in and out of COVID times,” said Dr. Lang.

“I personally believe that the work helps to raise awareness for the potential use of deoxyribonuclease (DNase), an enzyme that acts to clear NETs by dissolving the DNA strands, in the acute treatment of STEMI. Rapid injection of engineered recombinant DNases could potentially wipe away coronary obstructions, ideally before they may cause damage to the myocardium,” she added.

Dr. Blasco and colleagues and Dr. Lang have disclosed no relevant financial relationships. Dr. Libby is an unpaid consultant or member of the advisory board for a number of companies.

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

Researchers in Madrid may have found a clue to the pathogenesis of ST-segment elevation myocardial infarction (STEMI) in patients with COVID-19; it might also offer a therapeutic target to counter the hypercoagulability seen with COVID-19.

In a case series of five patients with COVID-19 who had an STEMI, neutrophil extracellular traps (NETs) were detected in coronary thrombi of all five patients. The median density was 66%, which is significantly higher than that seen in a historical series of patients with STEMI. In that series, NETs were found in only two-thirds of patients; in that series, the median density was 19%.

In the patients with COVID-19 and STEMI and in the patients reported in the prepandemic historical series from 2015, intracoronary aspirates were obtained during percutaneous coronary intervention using a thrombus aspiration device.

Histologically, findings in the patients from 2015 differed from those of patients with COVID-19. In the patients with COVID, thrombi were composed mostly of fibrin and polymorphonuclear cells. None showed fragments of atherosclerotic plaque or iron deposits indicative of previous episodes of plaque rupture. In contrast, 65% of thrombi from the 2015 series contained plaque fragments.

Ana Blasco, MD, PhD, Hospital Universitario Puerta de Hierro-Majadahonda, Madrid, and colleagues report their findings in an article published online Dec. 29 in JAMA Cardiology.

Commenting on the findings in an interview, Irene Lang, MD, from the Medical University of Vienna said, “This is really a very small series, purely observational, and suffering from the problem that acute STEMI is uncommon in COVID-19, but it does serve to demonstrate once more the abundance of NETs in acute myocardial infarction.”

“NETs are very much at the cutting edge of thrombosis research, and NET formation provides yet another link between inflammation and clot formation,” added Peter Libby, MD, from Harvard Medical School and Brigham and Women’s Hospital, Boston.

“Multiple observations have shown thrombosis of arteries large and small, microvessels, and veins in COVID-19. The observations of Blasco et al. add to the growing literature about NETs as contributors to the havoc wrought in multiple organs in advanced COVID-19,” he added in an email exchange with this news organization.

Neither Dr. Lang nor Dr. Libby were involved in this research; both have been actively studying NETs and their contribution to cardiothrombotic disease in recent years.

NETs are newly recognized contributors to venous and arterial thrombosis. These weblike DNA strands are extruded by activated or dying neutrophils and have protein mediators that ensnare pathogens while minimizing damage to the host cell.

First described in 2004, exaggerated NET formation has also been linked to the initiation and accretion of inflammation and thrombosis.

“NETs thus furnish a previously unsuspected link between inflammation, innate immunity, thrombosis, oxidative stress, and cardiovascular diseases,” Dr. Libby and his coauthors wrote in an article on the topic published in Circulation Research earlier this year.

Limiting NET formation or “dissolving” existing NETs could provide a therapeutic avenue not just for patients with COVID-19 but for all patients with thrombotic disease.

“The concept of NETs as a therapeutic target is appealing, in and out of COVID times,” said Dr. Lang.

“I personally believe that the work helps to raise awareness for the potential use of deoxyribonuclease (DNase), an enzyme that acts to clear NETs by dissolving the DNA strands, in the acute treatment of STEMI. Rapid injection of engineered recombinant DNases could potentially wipe away coronary obstructions, ideally before they may cause damage to the myocardium,” she added.

Dr. Blasco and colleagues and Dr. Lang have disclosed no relevant financial relationships. Dr. Libby is an unpaid consultant or member of the advisory board for a number of companies.

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

Researchers in Madrid may have found a clue to the pathogenesis of ST-segment elevation myocardial infarction (STEMI) in patients with COVID-19; it might also offer a therapeutic target to counter the hypercoagulability seen with COVID-19.

In a case series of five patients with COVID-19 who had an STEMI, neutrophil extracellular traps (NETs) were detected in coronary thrombi of all five patients. The median density was 66%, which is significantly higher than that seen in a historical series of patients with STEMI. In that series, NETs were found in only two-thirds of patients; in that series, the median density was 19%.

In the patients with COVID-19 and STEMI and in the patients reported in the prepandemic historical series from 2015, intracoronary aspirates were obtained during percutaneous coronary intervention using a thrombus aspiration device.

Histologically, findings in the patients from 2015 differed from those of patients with COVID-19. In the patients with COVID, thrombi were composed mostly of fibrin and polymorphonuclear cells. None showed fragments of atherosclerotic plaque or iron deposits indicative of previous episodes of plaque rupture. In contrast, 65% of thrombi from the 2015 series contained plaque fragments.

Ana Blasco, MD, PhD, Hospital Universitario Puerta de Hierro-Majadahonda, Madrid, and colleagues report their findings in an article published online Dec. 29 in JAMA Cardiology.

Commenting on the findings in an interview, Irene Lang, MD, from the Medical University of Vienna said, “This is really a very small series, purely observational, and suffering from the problem that acute STEMI is uncommon in COVID-19, but it does serve to demonstrate once more the abundance of NETs in acute myocardial infarction.”

“NETs are very much at the cutting edge of thrombosis research, and NET formation provides yet another link between inflammation and clot formation,” added Peter Libby, MD, from Harvard Medical School and Brigham and Women’s Hospital, Boston.

“Multiple observations have shown thrombosis of arteries large and small, microvessels, and veins in COVID-19. The observations of Blasco et al. add to the growing literature about NETs as contributors to the havoc wrought in multiple organs in advanced COVID-19,” he added in an email exchange with this news organization.

Neither Dr. Lang nor Dr. Libby were involved in this research; both have been actively studying NETs and their contribution to cardiothrombotic disease in recent years.

NETs are newly recognized contributors to venous and arterial thrombosis. These weblike DNA strands are extruded by activated or dying neutrophils and have protein mediators that ensnare pathogens while minimizing damage to the host cell.

First described in 2004, exaggerated NET formation has also been linked to the initiation and accretion of inflammation and thrombosis.

“NETs thus furnish a previously unsuspected link between inflammation, innate immunity, thrombosis, oxidative stress, and cardiovascular diseases,” Dr. Libby and his coauthors wrote in an article on the topic published in Circulation Research earlier this year.

Limiting NET formation or “dissolving” existing NETs could provide a therapeutic avenue not just for patients with COVID-19 but for all patients with thrombotic disease.

“The concept of NETs as a therapeutic target is appealing, in and out of COVID times,” said Dr. Lang.

“I personally believe that the work helps to raise awareness for the potential use of deoxyribonuclease (DNase), an enzyme that acts to clear NETs by dissolving the DNA strands, in the acute treatment of STEMI. Rapid injection of engineered recombinant DNases could potentially wipe away coronary obstructions, ideally before they may cause damage to the myocardium,” she added.

Dr. Blasco and colleagues and Dr. Lang have disclosed no relevant financial relationships. Dr. Libby is an unpaid consultant or member of the advisory board for a number of companies.

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