Cardiology

The heart-related manifestations of COVID-19 are a serious matter, but no one should make the mistake of thinking of COVID-19 as primarily a cardiac disease, according to Jeffrey C. Trost, MD, a cardiologist at Johns Hopkins University, Baltimore.

“One of my take-home messages is this is not a heart illness. This is still an infectious pulmonary illness that most likely causes stress on the heart in both healthy people and those with preexisting heart disease,” he said in offering a preview of his upcoming clinical update at HM20 Virtual, hosted by the Society of Hospital Medicine.

For this reason, in his clinical update talk, titled “COVID-19 and the Heart: What Every Hospitalist Should Know,” he’ll urge hospitalists to be conservative in ordering cardiac biomarker tests such troponin and natriuretic peptide levels. The focus should appropriately be on the subset of COVID-19 patients having the same symptoms suggestive of acute coronary syndrome, heart failure, or new-onset cardiomyopathy that would trigger laboratory testing in non–COVID-19 patients.

“Be more selective. Definitely do not routinely monitor troponin or [N-terminal of the prohormone brain natriuretic peptide] in patients just because they have COVID-19. A lot of patients with COVID-19 have these labs drawn, especially in the emergency department. We see a high signal-to-noise ratio: not infrequently the values are abnormal, and yet we don’t really know what that means,” said Dr. Trost, who is also director of the cardiac catheterization laboratory at Johns Hopkins Bayview Medical Center.

COVID-19 patients with preexisting heart disease are clearly at increased risk of severe forms of the infectious illness. In his talk, Dr. Trost will review the epidemiology of this association. He’ll also discuss the varied cardiac manifestations of COVID-19, consisting of myocarditis or other forms of new-onset cardiomyopathy, acute coronary syndrome, heart failure, and arrhythmias.

Many questions regarding COVID-19 and the heart remain unanswered for now, such as the mechanism and long-term implications of the phenomenon of ST-elevation acute coronary syndrome with chest pain in the presence of unobstructed coronary arteries, which Dr. Trost and others have encountered. Or the extent to which COVID-19–associated myocarditis is directly virus mediated as opposed to an autoimmune process.

“We’re relying completely on case reports at this point,” according to the cardiologist.

But one major issue has, thankfully, been put to rest on the basis of persuasive evidence which Dr. Trost plans to highlight: Millions of patients on ACE inhibitors or angiotensin receptor blockers can now rest assured that taking those medications doesn’t place them at increased risk of becoming infected with the novel coronavirus or, if infected, developing severe complications of COVID-19. Earlier in the pandemic that had been a legitimate theoretic concern based upon a plausible mechanism.

“I think we as physicians can now confidently say that we don’t need to stop these medicines in folks,” Dr. Trost said.

COVID-19 and the Heart: What Every Hospitalist Should Know

Live Q&A: Wednesday, Aug. 19, 3:30 p.m. to 4:30 p.m. ET

The heart-related manifestations of COVID-19 are a serious matter, but no one should make the mistake of thinking of COVID-19 as primarily a cardiac disease, according to Jeffrey C. Trost, MD, a cardiologist at Johns Hopkins University, Baltimore.

“One of my take-home messages is this is not a heart illness. This is still an infectious pulmonary illness that most likely causes stress on the heart in both healthy people and those with preexisting heart disease,” he said in offering a preview of his upcoming clinical update at HM20 Virtual, hosted by the Society of Hospital Medicine.

For this reason, in his clinical update talk, titled “COVID-19 and the Heart: What Every Hospitalist Should Know,” he’ll urge hospitalists to be conservative in ordering cardiac biomarker tests such troponin and natriuretic peptide levels. The focus should appropriately be on the subset of COVID-19 patients having the same symptoms suggestive of acute coronary syndrome, heart failure, or new-onset cardiomyopathy that would trigger laboratory testing in non–COVID-19 patients.

“Be more selective. Definitely do not routinely monitor troponin or [N-terminal of the prohormone brain natriuretic peptide] in patients just because they have COVID-19. A lot of patients with COVID-19 have these labs drawn, especially in the emergency department. We see a high signal-to-noise ratio: not infrequently the values are abnormal, and yet we don’t really know what that means,” said Dr. Trost, who is also director of the cardiac catheterization laboratory at Johns Hopkins Bayview Medical Center.

COVID-19 patients with preexisting heart disease are clearly at increased risk of severe forms of the infectious illness. In his talk, Dr. Trost will review the epidemiology of this association. He’ll also discuss the varied cardiac manifestations of COVID-19, consisting of myocarditis or other forms of new-onset cardiomyopathy, acute coronary syndrome, heart failure, and arrhythmias.

Many questions regarding COVID-19 and the heart remain unanswered for now, such as the mechanism and long-term implications of the phenomenon of ST-elevation acute coronary syndrome with chest pain in the presence of unobstructed coronary arteries, which Dr. Trost and others have encountered. Or the extent to which COVID-19–associated myocarditis is directly virus mediated as opposed to an autoimmune process.

“We’re relying completely on case reports at this point,” according to the cardiologist.

But one major issue has, thankfully, been put to rest on the basis of persuasive evidence which Dr. Trost plans to highlight: Millions of patients on ACE inhibitors or angiotensin receptor blockers can now rest assured that taking those medications doesn’t place them at increased risk of becoming infected with the novel coronavirus or, if infected, developing severe complications of COVID-19. Earlier in the pandemic that had been a legitimate theoretic concern based upon a plausible mechanism.

“I think we as physicians can now confidently say that we don’t need to stop these medicines in folks,” Dr. Trost said.

COVID-19 and the Heart: What Every Hospitalist Should Know

Live Q&A: Wednesday, Aug. 19, 3:30 p.m. to 4:30 p.m. ET

The heart-related manifestations of COVID-19 are a serious matter, but no one should make the mistake of thinking of COVID-19 as primarily a cardiac disease, according to Jeffrey C. Trost, MD, a cardiologist at Johns Hopkins University, Baltimore.

“One of my take-home messages is this is not a heart illness. This is still an infectious pulmonary illness that most likely causes stress on the heart in both healthy people and those with preexisting heart disease,” he said in offering a preview of his upcoming clinical update at HM20 Virtual, hosted by the Society of Hospital Medicine.

For this reason, in his clinical update talk, titled “COVID-19 and the Heart: What Every Hospitalist Should Know,” he’ll urge hospitalists to be conservative in ordering cardiac biomarker tests such troponin and natriuretic peptide levels. The focus should appropriately be on the subset of COVID-19 patients having the same symptoms suggestive of acute coronary syndrome, heart failure, or new-onset cardiomyopathy that would trigger laboratory testing in non–COVID-19 patients.

“Be more selective. Definitely do not routinely monitor troponin or [N-terminal of the prohormone brain natriuretic peptide] in patients just because they have COVID-19. A lot of patients with COVID-19 have these labs drawn, especially in the emergency department. We see a high signal-to-noise ratio: not infrequently the values are abnormal, and yet we don’t really know what that means,” said Dr. Trost, who is also director of the cardiac catheterization laboratory at Johns Hopkins Bayview Medical Center.

COVID-19 patients with preexisting heart disease are clearly at increased risk of severe forms of the infectious illness. In his talk, Dr. Trost will review the epidemiology of this association. He’ll also discuss the varied cardiac manifestations of COVID-19, consisting of myocarditis or other forms of new-onset cardiomyopathy, acute coronary syndrome, heart failure, and arrhythmias.

Many questions regarding COVID-19 and the heart remain unanswered for now, such as the mechanism and long-term implications of the phenomenon of ST-elevation acute coronary syndrome with chest pain in the presence of unobstructed coronary arteries, which Dr. Trost and others have encountered. Or the extent to which COVID-19–associated myocarditis is directly virus mediated as opposed to an autoimmune process.

“We’re relying completely on case reports at this point,” according to the cardiologist.

But one major issue has, thankfully, been put to rest on the basis of persuasive evidence which Dr. Trost plans to highlight: Millions of patients on ACE inhibitors or angiotensin receptor blockers can now rest assured that taking those medications doesn’t place them at increased risk of becoming infected with the novel coronavirus or, if infected, developing severe complications of COVID-19. Earlier in the pandemic that had been a legitimate theoretic concern based upon a plausible mechanism.

“I think we as physicians can now confidently say that we don’t need to stop these medicines in folks,” Dr. Trost said.

COVID-19 and the Heart: What Every Hospitalist Should Know

Live Q&A: Wednesday, Aug. 19, 3:30 p.m. to 4:30 p.m. ET

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

Fractional flow reserve derived noninvasively from coronary CT angiography is a safe and accurate method for assessing the significance of coronary artery disease in patients with severe aortic stenosis who are headed for transcatheter aortic valve replacement (TAVR), according to results of the CAST-FFR prospective study.

Indeed, utilization of coronary CT angiography–derived fractional flow reserve (CT-FFR) for this purpose offers the advantage of using a single noninvasive imaging method to replace two invasive procedures: coronary angiography to assess the anatomy of coronary lesions, and conventional FFR using a pressure wire to determine the functional significance of a given coronary stenosis as a cause of ischemia, Michael Michail, MBBS, explained in reporting the results at the virtual annual meeting of the European Association of Percutaneous Cardiovascular Interventions.

“Because up to 50% of patients with severe aortic stenosis undergoing TAVR have coexisting coronary artery disease, it remains common practice to perform prior invasive coronary angiography. However, this is associated with inherent risks, particularly in an elderly cohort with comorbidities. Additionally, coronary angiography provides no information on the functional impact of coronary stenoses, which may be important in guiding revascularization decisions prior to TAVR,” noted Dr. Michail, a cardiologist at Monash University, Melbourne.
 

Simulating FFR: ‘A one-stop shop cardiac CT’

Dr. Michail presented the results of the prospective CAST-FFR study, the first evaluation of CT-FFR for assessment of coronary arteries in patients with severe symptomatic aortic stenosis. This method uses computational fluid dynamics to transform data obtained noninvasively from a standard coronary CT angiography acquisition into a simulated FFR. And it offers the potential to streamline patient care.

“In current practice we see elderly patients with a long pre-TAVR assessment period, with numerous appointments and invasive procedures. Our vision is a one-stop shop cardiac CT that will provide the cardiologist with a complete assessment of the annular measurements, peripheral vasculature, and the coronary arteries ahead of their procedure,” according to Dr. Michail.

“We believe the ability to perform the requisite coronary assessment using CT-FFR will translate to improved patient care in several ways,” he continued. “Firstly, this will shorten the number of tests and overall diagnostic journey for patients. It will reduce the risk from unnecessary invasive procedures, and this will also reduce discomfort for the patient. Based on emerging evidence on the adverse prognostic impact of functionally significant coronary disease in aortic stenosis, this data has the potential to improve procedural risk stratification. And finally, contingent on further data, this may improve lesion selection for upfront revascularization.”

The CAST-FFR study was a small, single-center, proof-of-concept study in which 42 patients with severe aortic stenosis underwent both coronary CT angiography and conventional FFR with a pressure wire. The CT data was sent to a core laboratory for conversion into CT-FFR by evaluators blinded to the conventional FFR values.

Of the 42 participants, 39 (93%) had usable CT-FFR data on 60 coronary vessels. Dr. Michail and coinvestigators found a strong correlation between the conventional pressure wire FFR and CT-FFR findings, with a receiver operating characteristic area under the curve of 0.83 per vessel. CT-FFR had a diagnostic sensitivity and specificity of 73.9% and 78.4%, respectively, with a positive predictive value of 68%, a negative predictive value of 82.9%, and a diagnostic accuracy of 76.7%.

He cited as study limitations the small size, the fact that patients with previous revascularization or significant left ventricular impairment were excluded, and the study cohort’s relative youth.

“With a mean age of 76.2 years, it’s unclear whether these results can be extrapolated to very elderly patients with more calcified arteries undergoing TAVR. Encouragingly, though, a subgroup analysis based on calcium score showed no effect on accuracy,” according to the cardiologist.

CT-FFR may ‘shorten the diagnostic journey’ for fragile patients

Discussant Daniele Andreini, MD, PhD, praised the investigators’ concept of integrating the functional assessment provided by CT-FFR into a one-stop shop examination by cardiac CT angiography for TAVR planning.

“I would like to underline one of Dr. Michail’s messages: It’s really important to shorten the diagnostic journey for these fragile, older patients with aortic stenosis in order to improve safety, use less contrast, and avoid complications,” said Dr. Andreini, a cardiologist at the University of Milan and director of the cardiovascular CT and radiology unit at Monzino Cardiology Center, also in Milan.

Both Dr. Michail and Dr. Andreini reported having no financial conflicts of interest.

bjancin@mdedge.com

Fractional flow reserve derived noninvasively from coronary CT angiography is a safe and accurate method for assessing the significance of coronary artery disease in patients with severe aortic stenosis who are headed for transcatheter aortic valve replacement (TAVR), according to results of the CAST-FFR prospective study.

Indeed, utilization of coronary CT angiography–derived fractional flow reserve (CT-FFR) for this purpose offers the advantage of using a single noninvasive imaging method to replace two invasive procedures: coronary angiography to assess the anatomy of coronary lesions, and conventional FFR using a pressure wire to determine the functional significance of a given coronary stenosis as a cause of ischemia, Michael Michail, MBBS, explained in reporting the results at the virtual annual meeting of the European Association of Percutaneous Cardiovascular Interventions.

“Because up to 50% of patients with severe aortic stenosis undergoing TAVR have coexisting coronary artery disease, it remains common practice to perform prior invasive coronary angiography. However, this is associated with inherent risks, particularly in an elderly cohort with comorbidities. Additionally, coronary angiography provides no information on the functional impact of coronary stenoses, which may be important in guiding revascularization decisions prior to TAVR,” noted Dr. Michail, a cardiologist at Monash University, Melbourne.
 

Simulating FFR: ‘A one-stop shop cardiac CT’

Dr. Michail presented the results of the prospective CAST-FFR study, the first evaluation of CT-FFR for assessment of coronary arteries in patients with severe symptomatic aortic stenosis. This method uses computational fluid dynamics to transform data obtained noninvasively from a standard coronary CT angiography acquisition into a simulated FFR. And it offers the potential to streamline patient care.

“In current practice we see elderly patients with a long pre-TAVR assessment period, with numerous appointments and invasive procedures. Our vision is a one-stop shop cardiac CT that will provide the cardiologist with a complete assessment of the annular measurements, peripheral vasculature, and the coronary arteries ahead of their procedure,” according to Dr. Michail.

“We believe the ability to perform the requisite coronary assessment using CT-FFR will translate to improved patient care in several ways,” he continued. “Firstly, this will shorten the number of tests and overall diagnostic journey for patients. It will reduce the risk from unnecessary invasive procedures, and this will also reduce discomfort for the patient. Based on emerging evidence on the adverse prognostic impact of functionally significant coronary disease in aortic stenosis, this data has the potential to improve procedural risk stratification. And finally, contingent on further data, this may improve lesion selection for upfront revascularization.”

The CAST-FFR study was a small, single-center, proof-of-concept study in which 42 patients with severe aortic stenosis underwent both coronary CT angiography and conventional FFR with a pressure wire. The CT data was sent to a core laboratory for conversion into CT-FFR by evaluators blinded to the conventional FFR values.

Of the 42 participants, 39 (93%) had usable CT-FFR data on 60 coronary vessels. Dr. Michail and coinvestigators found a strong correlation between the conventional pressure wire FFR and CT-FFR findings, with a receiver operating characteristic area under the curve of 0.83 per vessel. CT-FFR had a diagnostic sensitivity and specificity of 73.9% and 78.4%, respectively, with a positive predictive value of 68%, a negative predictive value of 82.9%, and a diagnostic accuracy of 76.7%.

He cited as study limitations the small size, the fact that patients with previous revascularization or significant left ventricular impairment were excluded, and the study cohort’s relative youth.

“With a mean age of 76.2 years, it’s unclear whether these results can be extrapolated to very elderly patients with more calcified arteries undergoing TAVR. Encouragingly, though, a subgroup analysis based on calcium score showed no effect on accuracy,” according to the cardiologist.

CT-FFR may ‘shorten the diagnostic journey’ for fragile patients

Discussant Daniele Andreini, MD, PhD, praised the investigators’ concept of integrating the functional assessment provided by CT-FFR into a one-stop shop examination by cardiac CT angiography for TAVR planning.

“I would like to underline one of Dr. Michail’s messages: It’s really important to shorten the diagnostic journey for these fragile, older patients with aortic stenosis in order to improve safety, use less contrast, and avoid complications,” said Dr. Andreini, a cardiologist at the University of Milan and director of the cardiovascular CT and radiology unit at Monzino Cardiology Center, also in Milan.

Both Dr. Michail and Dr. Andreini reported having no financial conflicts of interest.

bjancin@mdedge.com

Fractional flow reserve derived noninvasively from coronary CT angiography is a safe and accurate method for assessing the significance of coronary artery disease in patients with severe aortic stenosis who are headed for transcatheter aortic valve replacement (TAVR), according to results of the CAST-FFR prospective study.

Indeed, utilization of coronary CT angiography–derived fractional flow reserve (CT-FFR) for this purpose offers the advantage of using a single noninvasive imaging method to replace two invasive procedures: coronary angiography to assess the anatomy of coronary lesions, and conventional FFR using a pressure wire to determine the functional significance of a given coronary stenosis as a cause of ischemia, Michael Michail, MBBS, explained in reporting the results at the virtual annual meeting of the European Association of Percutaneous Cardiovascular Interventions.

“Because up to 50% of patients with severe aortic stenosis undergoing TAVR have coexisting coronary artery disease, it remains common practice to perform prior invasive coronary angiography. However, this is associated with inherent risks, particularly in an elderly cohort with comorbidities. Additionally, coronary angiography provides no information on the functional impact of coronary stenoses, which may be important in guiding revascularization decisions prior to TAVR,” noted Dr. Michail, a cardiologist at Monash University, Melbourne.
 

Simulating FFR: ‘A one-stop shop cardiac CT’

Dr. Michail presented the results of the prospective CAST-FFR study, the first evaluation of CT-FFR for assessment of coronary arteries in patients with severe symptomatic aortic stenosis. This method uses computational fluid dynamics to transform data obtained noninvasively from a standard coronary CT angiography acquisition into a simulated FFR. And it offers the potential to streamline patient care.

“In current practice we see elderly patients with a long pre-TAVR assessment period, with numerous appointments and invasive procedures. Our vision is a one-stop shop cardiac CT that will provide the cardiologist with a complete assessment of the annular measurements, peripheral vasculature, and the coronary arteries ahead of their procedure,” according to Dr. Michail.

“We believe the ability to perform the requisite coronary assessment using CT-FFR will translate to improved patient care in several ways,” he continued. “Firstly, this will shorten the number of tests and overall diagnostic journey for patients. It will reduce the risk from unnecessary invasive procedures, and this will also reduce discomfort for the patient. Based on emerging evidence on the adverse prognostic impact of functionally significant coronary disease in aortic stenosis, this data has the potential to improve procedural risk stratification. And finally, contingent on further data, this may improve lesion selection for upfront revascularization.”

The CAST-FFR study was a small, single-center, proof-of-concept study in which 42 patients with severe aortic stenosis underwent both coronary CT angiography and conventional FFR with a pressure wire. The CT data was sent to a core laboratory for conversion into CT-FFR by evaluators blinded to the conventional FFR values.

Of the 42 participants, 39 (93%) had usable CT-FFR data on 60 coronary vessels. Dr. Michail and coinvestigators found a strong correlation between the conventional pressure wire FFR and CT-FFR findings, with a receiver operating characteristic area under the curve of 0.83 per vessel. CT-FFR had a diagnostic sensitivity and specificity of 73.9% and 78.4%, respectively, with a positive predictive value of 68%, a negative predictive value of 82.9%, and a diagnostic accuracy of 76.7%.

He cited as study limitations the small size, the fact that patients with previous revascularization or significant left ventricular impairment were excluded, and the study cohort’s relative youth.

“With a mean age of 76.2 years, it’s unclear whether these results can be extrapolated to very elderly patients with more calcified arteries undergoing TAVR. Encouragingly, though, a subgroup analysis based on calcium score showed no effect on accuracy,” according to the cardiologist.

CT-FFR may ‘shorten the diagnostic journey’ for fragile patients

Discussant Daniele Andreini, MD, PhD, praised the investigators’ concept of integrating the functional assessment provided by CT-FFR into a one-stop shop examination by cardiac CT angiography for TAVR planning.

“I would like to underline one of Dr. Michail’s messages: It’s really important to shorten the diagnostic journey for these fragile, older patients with aortic stenosis in order to improve safety, use less contrast, and avoid complications,” said Dr. Andreini, a cardiologist at the University of Milan and director of the cardiovascular CT and radiology unit at Monzino Cardiology Center, also in Milan.

Both Dr. Michail and Dr. Andreini reported having no financial conflicts of interest.

bjancin@mdedge.com

The brain’s reaction to stress may be an important contributor to chest pain in patients with coronary artery disease (CAD), according to results of a cohort study.

Jana Blaková/Thinkstock

“Although more research is needed, these results may potentially shift the paradigm by which angina is evaluated by refocusing clinical evaluation and management of psychological stress as adjunct to traditional cardiac evaluations,” wrote Kasra Moazzami, MD, MPH, of Emory University in Atlanta, and his coauthors in Circulation: Cardiovascular Imaging.

To determine if an association exists between stress-induced frontal lobe activity and angina, the researchers launched a study of 148 patients with stable CAD. Their mean age was 62, 69% were male, and roughly 36% were Black. Angina symptoms were assessed at baseline and also after 2 years through the Seattle Angina Questionnaire’s angina frequency subscale.

As the patients underwent stress testing that included both speech and arithmetic stressors, they also received eight brain scans via high-resolution positron emission tomography (HR-PET) brain imaging. Two scans occurred during each of the two control and two stress conditions. Subsequent analysis of these images evaluated regional blood flow relative to total brain flow. Each patient also underwent myocardial perfusion imaging (MPI) at rest, under stress conditions, and during conventional stress testing.

At baseline, patients who reported experiencing angina monthly (35) or daily/weekly (19) had higher rates of mental stress–induced ischemia, more common symptoms of depression and anxiety, and more use of antidepressants and nitrates. Patients reporting angina during stress testing with MPI had higher inferior frontal lobe activation (1.43), compared with patients without active chest pain (1.19; P = 0.03). Patients reporting angina during stress testing also had fewer years of education, higher Beck Depression Inventory scores, and higher posttraumatic stress disorder (PTSD) checklist scores.
 

More angina correlates with more mental stress

At 2-year-follow-up, 28 (24%) of the 112 returning patients reported an increase in angina episodes. Those patients had a higher mean inferior frontal lobe activation with mental stress at baseline, compared with returning patients who reported a decrease in chest pain frequency (1.82 versus 0.92; P = .01).

After adjustment for sociodemographic and lifestyle variables, any doubling in inferior frontal lobe activation led to an increase in angina frequency by 13.7 units at baseline (95% confidence interval, 6.3-21.7; P = .008) and 11.6 units during follow-up (95% CI, 4.1-19.2; P = .01). After relative importance analysis, the most important correlate of angina was found to be inferior frontal lobe activation at 36.5%, followed by Beck Depression Inventory score and PTSD checklist score.
 

‘It shows that the heart and brain are connected’

“Previous studies have linked mental stress with ischemia using nuclear stress testing. This study is unique in that it looked at brain activity associated with mental stress and was able to correlate that activity with angina,” said cardiologist Nieca Goldberg, MD, of NYU Langone in New York City in an interview. “It shows that the heart and brain are connected.”

The authors acknowledged their study’s limitations, including using standard stress-inducing protocols that did not account for or reflect any real-life stressors. In addition, although their methods are still considered clinically relevant, retrospectively collecting angina symptoms via questionnaire rather than a prospective diary could have led to incomplete responses.

Dr. Goldberg noted that additional research should include a more diverse population – women in particular were underrepresented in this study – while focusing on how interventions for stress can play a role in angina symptoms and brain activity.

That said, she added, “until there are more studies, it is important to consider mental stress in assessing angina symptoms in patients.”

The study was supported by grants from the National Institutes of Health. The authors reported no potential conflicts of interest.

SOURCE: Moazzami K et al. Circ Cardiovasc Imaging. 2020 Aug 10. doi: 10.1161/circimaging.120.010710.

The brain’s reaction to stress may be an important contributor to chest pain in patients with coronary artery disease (CAD), according to results of a cohort study.

Jana Blaková/Thinkstock

“Although more research is needed, these results may potentially shift the paradigm by which angina is evaluated by refocusing clinical evaluation and management of psychological stress as adjunct to traditional cardiac evaluations,” wrote Kasra Moazzami, MD, MPH, of Emory University in Atlanta, and his coauthors in Circulation: Cardiovascular Imaging.

To determine if an association exists between stress-induced frontal lobe activity and angina, the researchers launched a study of 148 patients with stable CAD. Their mean age was 62, 69% were male, and roughly 36% were Black. Angina symptoms were assessed at baseline and also after 2 years through the Seattle Angina Questionnaire’s angina frequency subscale.

As the patients underwent stress testing that included both speech and arithmetic stressors, they also received eight brain scans via high-resolution positron emission tomography (HR-PET) brain imaging. Two scans occurred during each of the two control and two stress conditions. Subsequent analysis of these images evaluated regional blood flow relative to total brain flow. Each patient also underwent myocardial perfusion imaging (MPI) at rest, under stress conditions, and during conventional stress testing.

At baseline, patients who reported experiencing angina monthly (35) or daily/weekly (19) had higher rates of mental stress–induced ischemia, more common symptoms of depression and anxiety, and more use of antidepressants and nitrates. Patients reporting angina during stress testing with MPI had higher inferior frontal lobe activation (1.43), compared with patients without active chest pain (1.19; P = 0.03). Patients reporting angina during stress testing also had fewer years of education, higher Beck Depression Inventory scores, and higher posttraumatic stress disorder (PTSD) checklist scores.
 

More angina correlates with more mental stress

At 2-year-follow-up, 28 (24%) of the 112 returning patients reported an increase in angina episodes. Those patients had a higher mean inferior frontal lobe activation with mental stress at baseline, compared with returning patients who reported a decrease in chest pain frequency (1.82 versus 0.92; P = .01).

After adjustment for sociodemographic and lifestyle variables, any doubling in inferior frontal lobe activation led to an increase in angina frequency by 13.7 units at baseline (95% confidence interval, 6.3-21.7; P = .008) and 11.6 units during follow-up (95% CI, 4.1-19.2; P = .01). After relative importance analysis, the most important correlate of angina was found to be inferior frontal lobe activation at 36.5%, followed by Beck Depression Inventory score and PTSD checklist score.
 

‘It shows that the heart and brain are connected’

“Previous studies have linked mental stress with ischemia using nuclear stress testing. This study is unique in that it looked at brain activity associated with mental stress and was able to correlate that activity with angina,” said cardiologist Nieca Goldberg, MD, of NYU Langone in New York City in an interview. “It shows that the heart and brain are connected.”

The authors acknowledged their study’s limitations, including using standard stress-inducing protocols that did not account for or reflect any real-life stressors. In addition, although their methods are still considered clinically relevant, retrospectively collecting angina symptoms via questionnaire rather than a prospective diary could have led to incomplete responses.

Dr. Goldberg noted that additional research should include a more diverse population – women in particular were underrepresented in this study – while focusing on how interventions for stress can play a role in angina symptoms and brain activity.

That said, she added, “until there are more studies, it is important to consider mental stress in assessing angina symptoms in patients.”

The study was supported by grants from the National Institutes of Health. The authors reported no potential conflicts of interest.

SOURCE: Moazzami K et al. Circ Cardiovasc Imaging. 2020 Aug 10. doi: 10.1161/circimaging.120.010710.

The brain’s reaction to stress may be an important contributor to chest pain in patients with coronary artery disease (CAD), according to results of a cohort study.

Jana Blaková/Thinkstock

“Although more research is needed, these results may potentially shift the paradigm by which angina is evaluated by refocusing clinical evaluation and management of psychological stress as adjunct to traditional cardiac evaluations,” wrote Kasra Moazzami, MD, MPH, of Emory University in Atlanta, and his coauthors in Circulation: Cardiovascular Imaging.

To determine if an association exists between stress-induced frontal lobe activity and angina, the researchers launched a study of 148 patients with stable CAD. Their mean age was 62, 69% were male, and roughly 36% were Black. Angina symptoms were assessed at baseline and also after 2 years through the Seattle Angina Questionnaire’s angina frequency subscale.

As the patients underwent stress testing that included both speech and arithmetic stressors, they also received eight brain scans via high-resolution positron emission tomography (HR-PET) brain imaging. Two scans occurred during each of the two control and two stress conditions. Subsequent analysis of these images evaluated regional blood flow relative to total brain flow. Each patient also underwent myocardial perfusion imaging (MPI) at rest, under stress conditions, and during conventional stress testing.

At baseline, patients who reported experiencing angina monthly (35) or daily/weekly (19) had higher rates of mental stress–induced ischemia, more common symptoms of depression and anxiety, and more use of antidepressants and nitrates. Patients reporting angina during stress testing with MPI had higher inferior frontal lobe activation (1.43), compared with patients without active chest pain (1.19; P = 0.03). Patients reporting angina during stress testing also had fewer years of education, higher Beck Depression Inventory scores, and higher posttraumatic stress disorder (PTSD) checklist scores.
 

More angina correlates with more mental stress

At 2-year-follow-up, 28 (24%) of the 112 returning patients reported an increase in angina episodes. Those patients had a higher mean inferior frontal lobe activation with mental stress at baseline, compared with returning patients who reported a decrease in chest pain frequency (1.82 versus 0.92; P = .01).

After adjustment for sociodemographic and lifestyle variables, any doubling in inferior frontal lobe activation led to an increase in angina frequency by 13.7 units at baseline (95% confidence interval, 6.3-21.7; P = .008) and 11.6 units during follow-up (95% CI, 4.1-19.2; P = .01). After relative importance analysis, the most important correlate of angina was found to be inferior frontal lobe activation at 36.5%, followed by Beck Depression Inventory score and PTSD checklist score.
 

‘It shows that the heart and brain are connected’

“Previous studies have linked mental stress with ischemia using nuclear stress testing. This study is unique in that it looked at brain activity associated with mental stress and was able to correlate that activity with angina,” said cardiologist Nieca Goldberg, MD, of NYU Langone in New York City in an interview. “It shows that the heart and brain are connected.”

The authors acknowledged their study’s limitations, including using standard stress-inducing protocols that did not account for or reflect any real-life stressors. In addition, although their methods are still considered clinically relevant, retrospectively collecting angina symptoms via questionnaire rather than a prospective diary could have led to incomplete responses.

Dr. Goldberg noted that additional research should include a more diverse population – women in particular were underrepresented in this study – while focusing on how interventions for stress can play a role in angina symptoms and brain activity.

That said, she added, “until there are more studies, it is important to consider mental stress in assessing angina symptoms in patients.”

The study was supported by grants from the National Institutes of Health. The authors reported no potential conflicts of interest.

SOURCE: Moazzami K et al. Circ Cardiovasc Imaging. 2020 Aug 10. doi: 10.1161/circimaging.120.010710.

Monogenic disorders with heart and vascular effects are each pretty rare in clinical practice but collectively can make up a fair proportion of the patients cardiologists see. Still, the diagnosis is missed more often than not, even when the clinical signs are there, suggests an observational study, supporting broader genetic testing in cardiovascular patients.

In a cohort of more than 8,000 patients referred for cardiac catheterization, diagnosis of such a monogenic cardiovascular disease (MCVD) was made in only 35% of those with one related gene variant and signs of phenotypic expression in the electronic health record.

The findings are novel for measuring the field’s “burden of missed diagnoses” in patients with MCVD, which “represent a missed opportunity that could be addressed by genetic screening,” contended the study report, published in the Aug. 18 issue of the Journal of the American College of Cardiology.

“The underrecognition of these diseases underscores the importance of including monogenic diseases in the treating physician’s differential diagnosis,” say the authors, led by Jawan W. Abdulrahim, MD, Duke University, Durham, N.C.

Diagnosis of MCVDs can be important, the group wrote, because many, including familial transthyretin amyloidosis (TTR) and other disorders that pose an increased risk for sudden death, have evidence-based treatment modalities available or are clinically actionable. “Identification of patients with MCVD variants” is also “important for cascade screening of family members who are at risk of inheriting the pathogenic mutations.”

“We tend to ignore these monogenic diseases because they are so rare individually but, in aggregate, monogenic diseases are actually quite common,” senior author Svati H. Shah, MD, MHS, also of Duke University, said in an interview.

The results “support that the cardiology community over time adopt a genotype-forward approach,” one in which every patient presenting to a cardiovascular clinic is genotyped, she said.

One implication of such an approach, Dr. Shah agreed, is that “we would be able to pick these people up earlier in their disease, especially in the context of therapies that could improve certainly their progression, but even their survival.”

For now, she said, the study suggests that “these disorders are more frequent than perhaps all cardiologists are aware of, and we just need to keep our eyes open and know when to refer patients to a cardiovascular genetics clinic, which maybe has more time and can deal with all the nuances that go along with genetic testing.”

In the total cohort, 4.5% were found to carry a gene variant known or believed to cause such diseases. The most frequently represented conditions were familial TTR, hereditary hemochromatosis, heterozygous familial hypercholesterolemia, and various cardiomyopathies.

Of those patients, 52 received a clinical diagnosis of the monogenic disorder after an EHR review. Of the 290 without such a diagnosis, two-thirds showed no evidence in their EHR of the variant’s phenotypic signs. But the records of the other third featured at least some signs that the disease had manifested clinically.

“These data serve as a reminder that monogenic Mendelian disease, including heart and vascular disease, varies in penetrance from individual to individual and may not always present with clinically detectable phenotypes,” noted an editorial accompanying the report.

They also “provide a compelling basis for expanding the role of targeted genetic testing in patients with more traditional forms of heart and vascular disease,” wrote Scott M. Damrauer, MD, University of Pennsylvania, Philadelphia, and William S. Weintraub, MD, Medstar Washington Hospital Center and Georgetown University, Washington.

“Based on the current report, the number needed to screen in a complex cardiovascular patient population to detect 1 case of undiagnosed monogenic cardiovascular disease is 85,” they wrote. “This places targeted genetic testing well within what is considered to be efficacious for most screening programs and in the range of that of other common cardiovascular diseases and cancers.”

Among the 342 patients with a variant predicting a single MCVD – in addition to the 52 who received a diagnosis – 193 had records with no indication of phenotypic expression and so did not receive a diagnosis.

But the 97 patients without a diagnosis who nevertheless had documented signs of some phenotypic expression were deemed, on the basis of extent of expression, to represent a possibly, probably, or definitely missed diagnosis.

Familial TTR made up about 45% of such potentially missed diagnoses, the report noted.

Broader screening of patients with cardiovascular disease, Dr. Shah speculated, “might actually be not only a clinically useful endeavor, but – when we think about the aggregate burden of these monogenic disorders – potentially even cost-effective.”

As the price of genetic sequencing drops, she said, “I think we’ll start to see even more health systems wanting to incorporate the genotype-forward approach.”

Dr. Shah reports serving as primary investigator for research sponsored by Verily Life Sciences and AstraZeneca. Dr. Abdulrahim reports no relevant relationships. Disclosures for the other authors are in the report. Dr. Damrauer discloses receiving research support from RenalytixAI and consulting fees from Calico Labs. Dr. Weintraub had no relevant disclosures.

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

Monogenic disorders with heart and vascular effects are each pretty rare in clinical practice but collectively can make up a fair proportion of the patients cardiologists see. Still, the diagnosis is missed more often than not, even when the clinical signs are there, suggests an observational study, supporting broader genetic testing in cardiovascular patients.

In a cohort of more than 8,000 patients referred for cardiac catheterization, diagnosis of such a monogenic cardiovascular disease (MCVD) was made in only 35% of those with one related gene variant and signs of phenotypic expression in the electronic health record.

The findings are novel for measuring the field’s “burden of missed diagnoses” in patients with MCVD, which “represent a missed opportunity that could be addressed by genetic screening,” contended the study report, published in the Aug. 18 issue of the Journal of the American College of Cardiology.

“The underrecognition of these diseases underscores the importance of including monogenic diseases in the treating physician’s differential diagnosis,” say the authors, led by Jawan W. Abdulrahim, MD, Duke University, Durham, N.C.

Diagnosis of MCVDs can be important, the group wrote, because many, including familial transthyretin amyloidosis (TTR) and other disorders that pose an increased risk for sudden death, have evidence-based treatment modalities available or are clinically actionable. “Identification of patients with MCVD variants” is also “important for cascade screening of family members who are at risk of inheriting the pathogenic mutations.”

“We tend to ignore these monogenic diseases because they are so rare individually but, in aggregate, monogenic diseases are actually quite common,” senior author Svati H. Shah, MD, MHS, also of Duke University, said in an interview.

The results “support that the cardiology community over time adopt a genotype-forward approach,” one in which every patient presenting to a cardiovascular clinic is genotyped, she said.

One implication of such an approach, Dr. Shah agreed, is that “we would be able to pick these people up earlier in their disease, especially in the context of therapies that could improve certainly their progression, but even their survival.”

For now, she said, the study suggests that “these disorders are more frequent than perhaps all cardiologists are aware of, and we just need to keep our eyes open and know when to refer patients to a cardiovascular genetics clinic, which maybe has more time and can deal with all the nuances that go along with genetic testing.”

In the total cohort, 4.5% were found to carry a gene variant known or believed to cause such diseases. The most frequently represented conditions were familial TTR, hereditary hemochromatosis, heterozygous familial hypercholesterolemia, and various cardiomyopathies.

Of those patients, 52 received a clinical diagnosis of the monogenic disorder after an EHR review. Of the 290 without such a diagnosis, two-thirds showed no evidence in their EHR of the variant’s phenotypic signs. But the records of the other third featured at least some signs that the disease had manifested clinically.

“These data serve as a reminder that monogenic Mendelian disease, including heart and vascular disease, varies in penetrance from individual to individual and may not always present with clinically detectable phenotypes,” noted an editorial accompanying the report.

They also “provide a compelling basis for expanding the role of targeted genetic testing in patients with more traditional forms of heart and vascular disease,” wrote Scott M. Damrauer, MD, University of Pennsylvania, Philadelphia, and William S. Weintraub, MD, Medstar Washington Hospital Center and Georgetown University, Washington.

“Based on the current report, the number needed to screen in a complex cardiovascular patient population to detect 1 case of undiagnosed monogenic cardiovascular disease is 85,” they wrote. “This places targeted genetic testing well within what is considered to be efficacious for most screening programs and in the range of that of other common cardiovascular diseases and cancers.”

Among the 342 patients with a variant predicting a single MCVD – in addition to the 52 who received a diagnosis – 193 had records with no indication of phenotypic expression and so did not receive a diagnosis.

But the 97 patients without a diagnosis who nevertheless had documented signs of some phenotypic expression were deemed, on the basis of extent of expression, to represent a possibly, probably, or definitely missed diagnosis.

Familial TTR made up about 45% of such potentially missed diagnoses, the report noted.

Broader screening of patients with cardiovascular disease, Dr. Shah speculated, “might actually be not only a clinically useful endeavor, but – when we think about the aggregate burden of these monogenic disorders – potentially even cost-effective.”

As the price of genetic sequencing drops, she said, “I think we’ll start to see even more health systems wanting to incorporate the genotype-forward approach.”

Dr. Shah reports serving as primary investigator for research sponsored by Verily Life Sciences and AstraZeneca. Dr. Abdulrahim reports no relevant relationships. Disclosures for the other authors are in the report. Dr. Damrauer discloses receiving research support from RenalytixAI and consulting fees from Calico Labs. Dr. Weintraub had no relevant disclosures.

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

Monogenic disorders with heart and vascular effects are each pretty rare in clinical practice but collectively can make up a fair proportion of the patients cardiologists see. Still, the diagnosis is missed more often than not, even when the clinical signs are there, suggests an observational study, supporting broader genetic testing in cardiovascular patients.

In a cohort of more than 8,000 patients referred for cardiac catheterization, diagnosis of such a monogenic cardiovascular disease (MCVD) was made in only 35% of those with one related gene variant and signs of phenotypic expression in the electronic health record.

The findings are novel for measuring the field’s “burden of missed diagnoses” in patients with MCVD, which “represent a missed opportunity that could be addressed by genetic screening,” contended the study report, published in the Aug. 18 issue of the Journal of the American College of Cardiology.

“The underrecognition of these diseases underscores the importance of including monogenic diseases in the treating physician’s differential diagnosis,” say the authors, led by Jawan W. Abdulrahim, MD, Duke University, Durham, N.C.

Diagnosis of MCVDs can be important, the group wrote, because many, including familial transthyretin amyloidosis (TTR) and other disorders that pose an increased risk for sudden death, have evidence-based treatment modalities available or are clinically actionable. “Identification of patients with MCVD variants” is also “important for cascade screening of family members who are at risk of inheriting the pathogenic mutations.”

“We tend to ignore these monogenic diseases because they are so rare individually but, in aggregate, monogenic diseases are actually quite common,” senior author Svati H. Shah, MD, MHS, also of Duke University, said in an interview.

The results “support that the cardiology community over time adopt a genotype-forward approach,” one in which every patient presenting to a cardiovascular clinic is genotyped, she said.

One implication of such an approach, Dr. Shah agreed, is that “we would be able to pick these people up earlier in their disease, especially in the context of therapies that could improve certainly their progression, but even their survival.”

For now, she said, the study suggests that “these disorders are more frequent than perhaps all cardiologists are aware of, and we just need to keep our eyes open and know when to refer patients to a cardiovascular genetics clinic, which maybe has more time and can deal with all the nuances that go along with genetic testing.”

In the total cohort, 4.5% were found to carry a gene variant known or believed to cause such diseases. The most frequently represented conditions were familial TTR, hereditary hemochromatosis, heterozygous familial hypercholesterolemia, and various cardiomyopathies.

Of those patients, 52 received a clinical diagnosis of the monogenic disorder after an EHR review. Of the 290 without such a diagnosis, two-thirds showed no evidence in their EHR of the variant’s phenotypic signs. But the records of the other third featured at least some signs that the disease had manifested clinically.

“These data serve as a reminder that monogenic Mendelian disease, including heart and vascular disease, varies in penetrance from individual to individual and may not always present with clinically detectable phenotypes,” noted an editorial accompanying the report.

They also “provide a compelling basis for expanding the role of targeted genetic testing in patients with more traditional forms of heart and vascular disease,” wrote Scott M. Damrauer, MD, University of Pennsylvania, Philadelphia, and William S. Weintraub, MD, Medstar Washington Hospital Center and Georgetown University, Washington.

“Based on the current report, the number needed to screen in a complex cardiovascular patient population to detect 1 case of undiagnosed monogenic cardiovascular disease is 85,” they wrote. “This places targeted genetic testing well within what is considered to be efficacious for most screening programs and in the range of that of other common cardiovascular diseases and cancers.”

Among the 342 patients with a variant predicting a single MCVD – in addition to the 52 who received a diagnosis – 193 had records with no indication of phenotypic expression and so did not receive a diagnosis.

But the 97 patients without a diagnosis who nevertheless had documented signs of some phenotypic expression were deemed, on the basis of extent of expression, to represent a possibly, probably, or definitely missed diagnosis.

Familial TTR made up about 45% of such potentially missed diagnoses, the report noted.

Broader screening of patients with cardiovascular disease, Dr. Shah speculated, “might actually be not only a clinically useful endeavor, but – when we think about the aggregate burden of these monogenic disorders – potentially even cost-effective.”

As the price of genetic sequencing drops, she said, “I think we’ll start to see even more health systems wanting to incorporate the genotype-forward approach.”

Dr. Shah reports serving as primary investigator for research sponsored by Verily Life Sciences and AstraZeneca. Dr. Abdulrahim reports no relevant relationships. Disclosures for the other authors are in the report. Dr. Damrauer discloses receiving research support from RenalytixAI and consulting fees from Calico Labs. Dr. Weintraub had no relevant disclosures.

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

A new scientific statement from the American Heart Association recommends incorporating a rapid diet-screening tool into routine primary care visits to inform dietary counseling and integrating the tool into patients’ electronic health record platforms across all healthcare settings.

American Heart Association

The statement authors evaluated 15 existing screening tools and, although they did not recommend a specific tool, they did present advantages and disadvantages of some of the tools and encouraged “critical conversations” among clinicians and other specialists to arrive at a tool that would be most appropriate for use in a particular health care setting.

“The key takeaway is for clinicians to incorporate discussion of dietary patterns into routine preventive care appointments because a suboptimal diet is the No. 1 risk factor for cardiovascular disease,” Maya Vadiveloo, PhD, RD, chair of the statement group, said in an interview.

“We also wanted to touch on the fact the screening tool could be incorporated into the EHR and then used for clinical support and for tracking and monitoring the patient’s dietary patterns over time,” said Dr. Vadiveloo, assistant professor of nutrition and food sciences in the College of Health Science, University of Rhode Island, Kingston.

The statement was published online Aug. 7 in Circulation: Cardiovascular Quality and Outcomes.
 

Competing demands

Poor dietary quality has “surpassed all other mortality risk factors, accounting for 11 million deaths and about 50% of cardiovascular disease (CVD) deaths globally,” the authors wrote.

Diets deficient in fruits, vegetables, and whole grains and high in red and processed meat, added sugars, sodium, and total energy are the “leading determinants” of the risks for CVD and other conditions, so “strategies that promote holistically healthier dietary patterns to reduce chronic disease risk are of contemporary importance.”

Most clinicians and other members of health care teams “do not currently assess or counsel patients about their food and beverage intake during routine clinical care,” the authors observed.

Reasons for this may include lack of training and knowledge, insufficient time, insufficient integration of nutrition services into health care settings, insufficient reimbursement, and “competing demands during the visit,” they noted.

Dr. Vadiveloo said that an evidence-based rapid screening tool can go a long way toward helping to overcome these barriers.

“Research shows that when primary care practitioners discuss diet with patients, the patients are receptive, but we also know that clinical workloads are already very compressed, and adding another thing to a routine preventive care appointment is challenging,” she said. “So we wanted to look and see if there were already screening tools that showed promise as valid, reliable, reflective of the best science, and easy to incorporate into various types of practice settings.”
 

Top picks

The authors established “theoretical and practice-based criteria” for an optimal diet screening tool for use in the adult population (aged 20 to 75 years). The tool had to:

• Be developed or used within clinical practice in the past 10 years.
• Be evidence-based, reliable, and valid.
• Assess total dietary pattern rather than focusing on a single food or nutrient.
• Be able to be completed and scored at administration without special knowledge or software.
• Give actionable next steps and support to patients.
• Be able track and monitor dietary change over time.
• Be brief.
• Be useful for chronic disease management.

Of the 15 tools reviewed, the three that met the most theoretical and practice-based validity criteria were the Mediterranean Diet Adherence Screener (MEDAS) and its variations; the modified, shortened Rapid Eating Assessment for Participants (REAP), and the modified version of the Starting the Conversation Tool. However, the authors noted that the Powell and Greenberg Screening Tool was the “least time-intensive.”
 

One size does not fit all

No single tool will be appropriate for all practice settings, so “we would like clinicians to discuss what will work in their particular setting,” Dr. Vadiveloo emphasized.

For example, should the screening tool be completed by the clinician, a member of the health care team, or the patient? Advantages of a tool completed by clinicians or team members include collection of the information in real time, where it can be used in shared decision-making during the encounter and increased reliability because the screen has been completed by a clinician. On the other hand, the clinician might not be able to prioritize administering the screening tool during a short clinical encounter.

Advantages of a tool completed by the patient via an EHR portal is that the patient may feel less risk of judgment by the clinician or health care professional and patients can complete the screen at their convenience. Disadvantages are limited reach into underserved populations and, potentially, less reliability than clinician-administered tools.

“It is advantageous to have tools that can be administered by multiple members of health care teams to ease the demand on clinicians, if such staff is available, but in other settings, self-administration might be better, so we tried to leave it open-ended,” Dr. Vadiveloo explained.
 

‘Ideal platform’

“The EHR is the ideal platform to prompt clinicians and other members of the health care team to capture dietary data and deliver dietary advice to patients,” the authors observed.

EHRs allow secure storage of data and also enable access to these data when needed at the point of care. They are also important for documentation purposes.

The authors noted that the use of “myriad EHR platforms and versions of platforms” have created “technical challenges.” They recommended “standardized approaches” for transmitting health data that will “more seamlessly allow rapid diet screeners to be implemented in the EHR.”

They also recommended that the prototypes of rapid diet screeners be tested by end users prior to implementation within particular clinics. “Gathering these data ahead of time can improve the uptake of the application in the real world,” they stated.

Dr. Vadiveloo added that dietary counseling can be conducted by several members of a health care team, such as a dietitian, not just by the physician. Or the patient may need to be referred to a dietitian for counseling and follow-up.

The authors concluded by characterizing the AHA statement as “a call to action ... designed to accelerate efforts to make diet quality assessment an integral part of office-based care delivery by encouraging critical conversations among clinicians, individuals with diet/lifestyle expertise, and specialists in information technology.”

Dr. Vadiveloo has disclosed no relevant financial relationships. The other authors’ disclosures are listed in the original paper.

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

A new scientific statement from the American Heart Association recommends incorporating a rapid diet-screening tool into routine primary care visits to inform dietary counseling and integrating the tool into patients’ electronic health record platforms across all healthcare settings.

American Heart Association

The statement authors evaluated 15 existing screening tools and, although they did not recommend a specific tool, they did present advantages and disadvantages of some of the tools and encouraged “critical conversations” among clinicians and other specialists to arrive at a tool that would be most appropriate for use in a particular health care setting.

“The key takeaway is for clinicians to incorporate discussion of dietary patterns into routine preventive care appointments because a suboptimal diet is the No. 1 risk factor for cardiovascular disease,” Maya Vadiveloo, PhD, RD, chair of the statement group, said in an interview.

“We also wanted to touch on the fact the screening tool could be incorporated into the EHR and then used for clinical support and for tracking and monitoring the patient’s dietary patterns over time,” said Dr. Vadiveloo, assistant professor of nutrition and food sciences in the College of Health Science, University of Rhode Island, Kingston.

The statement was published online Aug. 7 in Circulation: Cardiovascular Quality and Outcomes.
 

Competing demands

Poor dietary quality has “surpassed all other mortality risk factors, accounting for 11 million deaths and about 50% of cardiovascular disease (CVD) deaths globally,” the authors wrote.

Diets deficient in fruits, vegetables, and whole grains and high in red and processed meat, added sugars, sodium, and total energy are the “leading determinants” of the risks for CVD and other conditions, so “strategies that promote holistically healthier dietary patterns to reduce chronic disease risk are of contemporary importance.”

Most clinicians and other members of health care teams “do not currently assess or counsel patients about their food and beverage intake during routine clinical care,” the authors observed.

Reasons for this may include lack of training and knowledge, insufficient time, insufficient integration of nutrition services into health care settings, insufficient reimbursement, and “competing demands during the visit,” they noted.

Dr. Vadiveloo said that an evidence-based rapid screening tool can go a long way toward helping to overcome these barriers.

“Research shows that when primary care practitioners discuss diet with patients, the patients are receptive, but we also know that clinical workloads are already very compressed, and adding another thing to a routine preventive care appointment is challenging,” she said. “So we wanted to look and see if there were already screening tools that showed promise as valid, reliable, reflective of the best science, and easy to incorporate into various types of practice settings.”
 

Top picks

The authors established “theoretical and practice-based criteria” for an optimal diet screening tool for use in the adult population (aged 20 to 75 years). The tool had to:

• Be developed or used within clinical practice in the past 10 years.
• Be evidence-based, reliable, and valid.
• Assess total dietary pattern rather than focusing on a single food or nutrient.
• Be able to be completed and scored at administration without special knowledge or software.
• Give actionable next steps and support to patients.
• Be able track and monitor dietary change over time.
• Be brief.
• Be useful for chronic disease management.

Of the 15 tools reviewed, the three that met the most theoretical and practice-based validity criteria were the Mediterranean Diet Adherence Screener (MEDAS) and its variations; the modified, shortened Rapid Eating Assessment for Participants (REAP), and the modified version of the Starting the Conversation Tool. However, the authors noted that the Powell and Greenberg Screening Tool was the “least time-intensive.”
 

One size does not fit all

No single tool will be appropriate for all practice settings, so “we would like clinicians to discuss what will work in their particular setting,” Dr. Vadiveloo emphasized.

For example, should the screening tool be completed by the clinician, a member of the health care team, or the patient? Advantages of a tool completed by clinicians or team members include collection of the information in real time, where it can be used in shared decision-making during the encounter and increased reliability because the screen has been completed by a clinician. On the other hand, the clinician might not be able to prioritize administering the screening tool during a short clinical encounter.

Advantages of a tool completed by the patient via an EHR portal is that the patient may feel less risk of judgment by the clinician or health care professional and patients can complete the screen at their convenience. Disadvantages are limited reach into underserved populations and, potentially, less reliability than clinician-administered tools.

“It is advantageous to have tools that can be administered by multiple members of health care teams to ease the demand on clinicians, if such staff is available, but in other settings, self-administration might be better, so we tried to leave it open-ended,” Dr. Vadiveloo explained.
 

‘Ideal platform’

“The EHR is the ideal platform to prompt clinicians and other members of the health care team to capture dietary data and deliver dietary advice to patients,” the authors observed.

EHRs allow secure storage of data and also enable access to these data when needed at the point of care. They are also important for documentation purposes.

The authors noted that the use of “myriad EHR platforms and versions of platforms” have created “technical challenges.” They recommended “standardized approaches” for transmitting health data that will “more seamlessly allow rapid diet screeners to be implemented in the EHR.”

They also recommended that the prototypes of rapid diet screeners be tested by end users prior to implementation within particular clinics. “Gathering these data ahead of time can improve the uptake of the application in the real world,” they stated.

Dr. Vadiveloo added that dietary counseling can be conducted by several members of a health care team, such as a dietitian, not just by the physician. Or the patient may need to be referred to a dietitian for counseling and follow-up.

The authors concluded by characterizing the AHA statement as “a call to action ... designed to accelerate efforts to make diet quality assessment an integral part of office-based care delivery by encouraging critical conversations among clinicians, individuals with diet/lifestyle expertise, and specialists in information technology.”

Dr. Vadiveloo has disclosed no relevant financial relationships. The other authors’ disclosures are listed in the original paper.

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

A new scientific statement from the American Heart Association recommends incorporating a rapid diet-screening tool into routine primary care visits to inform dietary counseling and integrating the tool into patients’ electronic health record platforms across all healthcare settings.

American Heart Association

The statement authors evaluated 15 existing screening tools and, although they did not recommend a specific tool, they did present advantages and disadvantages of some of the tools and encouraged “critical conversations” among clinicians and other specialists to arrive at a tool that would be most appropriate for use in a particular health care setting.

“The key takeaway is for clinicians to incorporate discussion of dietary patterns into routine preventive care appointments because a suboptimal diet is the No. 1 risk factor for cardiovascular disease,” Maya Vadiveloo, PhD, RD, chair of the statement group, said in an interview.

“We also wanted to touch on the fact the screening tool could be incorporated into the EHR and then used for clinical support and for tracking and monitoring the patient’s dietary patterns over time,” said Dr. Vadiveloo, assistant professor of nutrition and food sciences in the College of Health Science, University of Rhode Island, Kingston.

The statement was published online Aug. 7 in Circulation: Cardiovascular Quality and Outcomes.
 

Competing demands

Poor dietary quality has “surpassed all other mortality risk factors, accounting for 11 million deaths and about 50% of cardiovascular disease (CVD) deaths globally,” the authors wrote.

Diets deficient in fruits, vegetables, and whole grains and high in red and processed meat, added sugars, sodium, and total energy are the “leading determinants” of the risks for CVD and other conditions, so “strategies that promote holistically healthier dietary patterns to reduce chronic disease risk are of contemporary importance.”

Most clinicians and other members of health care teams “do not currently assess or counsel patients about their food and beverage intake during routine clinical care,” the authors observed.

Reasons for this may include lack of training and knowledge, insufficient time, insufficient integration of nutrition services into health care settings, insufficient reimbursement, and “competing demands during the visit,” they noted.

Dr. Vadiveloo said that an evidence-based rapid screening tool can go a long way toward helping to overcome these barriers.

“Research shows that when primary care practitioners discuss diet with patients, the patients are receptive, but we also know that clinical workloads are already very compressed, and adding another thing to a routine preventive care appointment is challenging,” she said. “So we wanted to look and see if there were already screening tools that showed promise as valid, reliable, reflective of the best science, and easy to incorporate into various types of practice settings.”
 

Top picks

The authors established “theoretical and practice-based criteria” for an optimal diet screening tool for use in the adult population (aged 20 to 75 years). The tool had to:

• Be developed or used within clinical practice in the past 10 years.
• Be evidence-based, reliable, and valid.
• Assess total dietary pattern rather than focusing on a single food or nutrient.
• Be able to be completed and scored at administration without special knowledge or software.
• Give actionable next steps and support to patients.
• Be able track and monitor dietary change over time.
• Be brief.
• Be useful for chronic disease management.

Of the 15 tools reviewed, the three that met the most theoretical and practice-based validity criteria were the Mediterranean Diet Adherence Screener (MEDAS) and its variations; the modified, shortened Rapid Eating Assessment for Participants (REAP), and the modified version of the Starting the Conversation Tool. However, the authors noted that the Powell and Greenberg Screening Tool was the “least time-intensive.”
 

One size does not fit all

No single tool will be appropriate for all practice settings, so “we would like clinicians to discuss what will work in their particular setting,” Dr. Vadiveloo emphasized.

For example, should the screening tool be completed by the clinician, a member of the health care team, or the patient? Advantages of a tool completed by clinicians or team members include collection of the information in real time, where it can be used in shared decision-making during the encounter and increased reliability because the screen has been completed by a clinician. On the other hand, the clinician might not be able to prioritize administering the screening tool during a short clinical encounter.

Advantages of a tool completed by the patient via an EHR portal is that the patient may feel less risk of judgment by the clinician or health care professional and patients can complete the screen at their convenience. Disadvantages are limited reach into underserved populations and, potentially, less reliability than clinician-administered tools.

“It is advantageous to have tools that can be administered by multiple members of health care teams to ease the demand on clinicians, if such staff is available, but in other settings, self-administration might be better, so we tried to leave it open-ended,” Dr. Vadiveloo explained.
 

‘Ideal platform’

“The EHR is the ideal platform to prompt clinicians and other members of the health care team to capture dietary data and deliver dietary advice to patients,” the authors observed.

EHRs allow secure storage of data and also enable access to these data when needed at the point of care. They are also important for documentation purposes.

The authors noted that the use of “myriad EHR platforms and versions of platforms” have created “technical challenges.” They recommended “standardized approaches” for transmitting health data that will “more seamlessly allow rapid diet screeners to be implemented in the EHR.”

They also recommended that the prototypes of rapid diet screeners be tested by end users prior to implementation within particular clinics. “Gathering these data ahead of time can improve the uptake of the application in the real world,” they stated.

Dr. Vadiveloo added that dietary counseling can be conducted by several members of a health care team, such as a dietitian, not just by the physician. Or the patient may need to be referred to a dietitian for counseling and follow-up.

The authors concluded by characterizing the AHA statement as “a call to action ... designed to accelerate efforts to make diet quality assessment an integral part of office-based care delivery by encouraging critical conversations among clinicians, individuals with diet/lifestyle expertise, and specialists in information technology.”

Dr. Vadiveloo has disclosed no relevant financial relationships. The other authors’ disclosures are listed in the original paper.

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

A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.

Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.

A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.

Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.

A methodical, constructive, goal-oriented rapid repetition of emergency response simulations has emerged as a dominant strategy for pediatric readiness in the hospital setting, according to a detailed description of one such program at the virtual Pediatric Hospital Medicine.

Rather than a single run-through followed by a lengthy debriefing, which has been a traditional approach, short simulations done rapidly and repeatedly until skills are mastered improve skill development, according to Jeanmarie Schied, MD, of the department of pediatrics, University of Chicago Medicine.

A new study of hypertension treatment trends found that uncontrolled high blood pressure along with considerable undertreatment of the condition were prevalent in individuals with a history of both hypertension and stroke. “To our knowledge, the present study is the first to analyze and report national antihypertensive medication trends exclusively among individuals with a history of stroke in the United States,” wrote Daniel Santos, MD, and Mandip S. Dhamoon, MD, DrPH, of the Icahn School of Medicine at Mount Sinai, New York. Their study was published in JAMA Neurology.

To examine blood pressure control and treatment trends among stroke survivors, the researchers examined more than a decade of data from the National Health and Nutrition Examination Survey (NHANES). The cross-sectional survey is conducted in 2-year cycles; the authors analyzed the results from 2005 to 2016 and uncovered a total of 4,971,136 eligible individuals with a history of both stroke and hypertension.

The mean age of the study population was 67.1 (95% confidence interval, 66.1-68.1), and 2,790,518 (56.1%) were women. Their mean blood pressure was 134/68 mm Hg (95% CI, 133/67–136/69), and the average number of antihypertensive medications they were taking was 1.8 (95% CI, 1.7-1.9). Of the 4,971,136 analyzed individuals, 4,721,409 (95%) were aware of their hypertension diagnosis yet more than 10% of that group had not previously been prescribed an antihypertensive medication.

More than 37% (n = 1,846,470) of the participants had uncontrolled high blood pressure upon examination (95% CI, 33.5%-40.8%), and 15.3% (95% CI, 12.5%-18.0%) were not taking any medication for it at all. The most commonly used antihypertensive medications included ACE inhibitors or angiotensin receptor blockers (59.2%; 95% CI, 54.9%-63.4%), beta-blockers (43.8%; 95% CI, 40.3%-47.3%), diuretics (41.6%; 95% CI, 37.3%-45.9%) and calcium-channel blockers (31.5%; 95% CI, 28.2%-34.8%).* Roughly 57% of the sample was taking more than one antihypertensive medication (95% CI, 52.8%-60.6%) while 28% (95% CI, 24.6%-31.5%) were taking only one.
 

Continued surveillance is key

“All the studies that have ever been done show that hypertension is inadequately treated,” Louis Caplan, MD, of Harvard Medical School and Beth Israel Deaconess Medical Center, both in Boston, said in an interview. “One of the reasons is that it can be hard to get some of the patients to seek treatment, particularly Black Americans. Also, a lot of the medicines to treat high blood pressure have side effects, so many patients don’t want to take the pills.

“Treating hypertension really requires continued surveillance,” he added. “It’s not one visit where the doctor gives you a pill. It’s taking the pill, following your blood pressure, and seeing if it works. If it doesn’t, then maybe you change the dose, get another pill, and are followed once again. That doesn’t happen as often as it should.”

In regard to next steps, Dr. Caplan urged that hypertension “be evaluated more seriously. Even as home blood pressure kits and monitoring become increasingly available, many doctors are still going by a casual blood pressure test in the office, which doesn’t tell you how serious the problem is. There needs to be more use of technology and more conditioning of patients to monitor their own blood pressure as a guide, and then we go from there.”

The authors acknowledged their study’s limitations, including the NHANES’s reliance on self-reporting a history of stroke and the inability to distinguish between subtypes of stroke. In addition, they noted that many antihypertensive medications have uses beyond treating hypertension, which introduces “another confounding factor to medication trends.”

The authors and Dr. Caplan reported no conflicts of interest.

SOURCE: Santos D et al. JAMA Neurol. 2020 Jul 27. doi: 10.1001/jamaneurol.2020.2499.

Correction, 8/20/20: An earlier version of this article misstated the confidence interval for diuretics.

A new study of hypertension treatment trends found that uncontrolled high blood pressure along with considerable undertreatment of the condition were prevalent in individuals with a history of both hypertension and stroke. “To our knowledge, the present study is the first to analyze and report national antihypertensive medication trends exclusively among individuals with a history of stroke in the United States,” wrote Daniel Santos, MD, and Mandip S. Dhamoon, MD, DrPH, of the Icahn School of Medicine at Mount Sinai, New York. Their study was published in JAMA Neurology.

To examine blood pressure control and treatment trends among stroke survivors, the researchers examined more than a decade of data from the National Health and Nutrition Examination Survey (NHANES). The cross-sectional survey is conducted in 2-year cycles; the authors analyzed the results from 2005 to 2016 and uncovered a total of 4,971,136 eligible individuals with a history of both stroke and hypertension.

The mean age of the study population was 67.1 (95% confidence interval, 66.1-68.1), and 2,790,518 (56.1%) were women. Their mean blood pressure was 134/68 mm Hg (95% CI, 133/67–136/69), and the average number of antihypertensive medications they were taking was 1.8 (95% CI, 1.7-1.9). Of the 4,971,136 analyzed individuals, 4,721,409 (95%) were aware of their hypertension diagnosis yet more than 10% of that group had not previously been prescribed an antihypertensive medication.

More than 37% (n = 1,846,470) of the participants had uncontrolled high blood pressure upon examination (95% CI, 33.5%-40.8%), and 15.3% (95% CI, 12.5%-18.0%) were not taking any medication for it at all. The most commonly used antihypertensive medications included ACE inhibitors or angiotensin receptor blockers (59.2%; 95% CI, 54.9%-63.4%), beta-blockers (43.8%; 95% CI, 40.3%-47.3%), diuretics (41.6%; 95% CI, 37.3%-45.9%) and calcium-channel blockers (31.5%; 95% CI, 28.2%-34.8%).* Roughly 57% of the sample was taking more than one antihypertensive medication (95% CI, 52.8%-60.6%) while 28% (95% CI, 24.6%-31.5%) were taking only one.
 

Continued surveillance is key

“All the studies that have ever been done show that hypertension is inadequately treated,” Louis Caplan, MD, of Harvard Medical School and Beth Israel Deaconess Medical Center, both in Boston, said in an interview. “One of the reasons is that it can be hard to get some of the patients to seek treatment, particularly Black Americans. Also, a lot of the medicines to treat high blood pressure have side effects, so many patients don’t want to take the pills.

“Treating hypertension really requires continued surveillance,” he added. “It’s not one visit where the doctor gives you a pill. It’s taking the pill, following your blood pressure, and seeing if it works. If it doesn’t, then maybe you change the dose, get another pill, and are followed once again. That doesn’t happen as often as it should.”

In regard to next steps, Dr. Caplan urged that hypertension “be evaluated more seriously. Even as home blood pressure kits and monitoring become increasingly available, many doctors are still going by a casual blood pressure test in the office, which doesn’t tell you how serious the problem is. There needs to be more use of technology and more conditioning of patients to monitor their own blood pressure as a guide, and then we go from there.”

The authors acknowledged their study’s limitations, including the NHANES’s reliance on self-reporting a history of stroke and the inability to distinguish between subtypes of stroke. In addition, they noted that many antihypertensive medications have uses beyond treating hypertension, which introduces “another confounding factor to medication trends.”

The authors and Dr. Caplan reported no conflicts of interest.

SOURCE: Santos D et al. JAMA Neurol. 2020 Jul 27. doi: 10.1001/jamaneurol.2020.2499.

Correction, 8/20/20: An earlier version of this article misstated the confidence interval for diuretics.

A new study of hypertension treatment trends found that uncontrolled high blood pressure along with considerable undertreatment of the condition were prevalent in individuals with a history of both hypertension and stroke. “To our knowledge, the present study is the first to analyze and report national antihypertensive medication trends exclusively among individuals with a history of stroke in the United States,” wrote Daniel Santos, MD, and Mandip S. Dhamoon, MD, DrPH, of the Icahn School of Medicine at Mount Sinai, New York. Their study was published in JAMA Neurology.

To examine blood pressure control and treatment trends among stroke survivors, the researchers examined more than a decade of data from the National Health and Nutrition Examination Survey (NHANES). The cross-sectional survey is conducted in 2-year cycles; the authors analyzed the results from 2005 to 2016 and uncovered a total of 4,971,136 eligible individuals with a history of both stroke and hypertension.

The mean age of the study population was 67.1 (95% confidence interval, 66.1-68.1), and 2,790,518 (56.1%) were women. Their mean blood pressure was 134/68 mm Hg (95% CI, 133/67–136/69), and the average number of antihypertensive medications they were taking was 1.8 (95% CI, 1.7-1.9). Of the 4,971,136 analyzed individuals, 4,721,409 (95%) were aware of their hypertension diagnosis yet more than 10% of that group had not previously been prescribed an antihypertensive medication.

More than 37% (n = 1,846,470) of the participants had uncontrolled high blood pressure upon examination (95% CI, 33.5%-40.8%), and 15.3% (95% CI, 12.5%-18.0%) were not taking any medication for it at all. The most commonly used antihypertensive medications included ACE inhibitors or angiotensin receptor blockers (59.2%; 95% CI, 54.9%-63.4%), beta-blockers (43.8%; 95% CI, 40.3%-47.3%), diuretics (41.6%; 95% CI, 37.3%-45.9%) and calcium-channel blockers (31.5%; 95% CI, 28.2%-34.8%).* Roughly 57% of the sample was taking more than one antihypertensive medication (95% CI, 52.8%-60.6%) while 28% (95% CI, 24.6%-31.5%) were taking only one.
 

Continued surveillance is key

“All the studies that have ever been done show that hypertension is inadequately treated,” Louis Caplan, MD, of Harvard Medical School and Beth Israel Deaconess Medical Center, both in Boston, said in an interview. “One of the reasons is that it can be hard to get some of the patients to seek treatment, particularly Black Americans. Also, a lot of the medicines to treat high blood pressure have side effects, so many patients don’t want to take the pills.

“Treating hypertension really requires continued surveillance,” he added. “It’s not one visit where the doctor gives you a pill. It’s taking the pill, following your blood pressure, and seeing if it works. If it doesn’t, then maybe you change the dose, get another pill, and are followed once again. That doesn’t happen as often as it should.”

In regard to next steps, Dr. Caplan urged that hypertension “be evaluated more seriously. Even as home blood pressure kits and monitoring become increasingly available, many doctors are still going by a casual blood pressure test in the office, which doesn’t tell you how serious the problem is. There needs to be more use of technology and more conditioning of patients to monitor their own blood pressure as a guide, and then we go from there.”

The authors acknowledged their study’s limitations, including the NHANES’s reliance on self-reporting a history of stroke and the inability to distinguish between subtypes of stroke. In addition, they noted that many antihypertensive medications have uses beyond treating hypertension, which introduces “another confounding factor to medication trends.”

The authors and Dr. Caplan reported no conflicts of interest.

SOURCE: Santos D et al. JAMA Neurol. 2020 Jul 27. doi: 10.1001/jamaneurol.2020.2499.

Correction, 8/20/20: An earlier version of this article misstated the confidence interval for diuretics.

A study of patients with pulmonary hypertension suggests a reconsideration of the accepted benchmark for pulmonary vascular hypertension as a predictor of heart failure may be warranted.

An elevated pulmonary vascular resistance of 3.0 Wood units or greater has been used as a prognostic marker for death and heart failure in pulmonary hypertension subgroups. But a large, multiyear study of a veterans population suggests that shifting that threshold to 2.2 Wood units in patients with right-heart catheterization may be justified.

Bradley A. Maron, MD, of the Veterans Affairs Boston Healthcare System and Brigham and Women’s Hospital and Harvard Medical School, Boston, and colleagues evaluated 40,082 veterans in the VA Clinical Assessment, Reporting and Tracking (CART) program who had right-heart catheterization (RHC) in the VA system from Oct. 1, 2007, to Sept. 30, 2016.

“To our knowledge, these data provide the first evidence-based information on the continuum of clinical risk related to PVR in patients with elevated pulmonary artery pressure,” the researchers wrote. Their report was published online in Lancet Respiratory Medicine (2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9).

The retrospective cohort study found that all-cause mortality hazard ratio (HR), when adjusted for clinical variables, and mean pulmonary artery pressure (mPAP) increased progressively beginning at around 2.0 Wood units (WU). Clinically significant mortality HR emerged at 2.2 WU, with an adjusted risk 9% greater than a PVR of 2.1 Wood units (P < .0034), which the study considered the upper limit of normal PVR in health adults of a similar age range (61.5 to 73.5 years) as the study cohort. The researchers noted that a PVR of 3.0 WU has been the standard for forecasting outcomes in pulmonary hypertension (PH) (Eur Heart J. 2010;31:2915-57).

“Overall, these results suggest that reconsidering the hemodynamic parameters that define pulmonary hypertension in patients with cardiopulmonary disease is warranted, and they identify a need for early detection strategies to capture this large and vulnerable population,” the researchers wrote.

A subsequent analysis focused on patients with an mPAP of >19 mm HG (n = 32,725) and found that all-cause death when adjusted over a wide range of clinical variables that included PVR of 2.2 WU increased to a 25% HR. “However,” the researchers added, “a median cardiac output of < 4.0 L/min, which has been shown to be independently associated with adverse outcome, was present only when PVR was more than 4.0 Wood units.”

For a PVR of 2.2-3.0 WU, the median cardiac output was 4.87 L/min; for > 3.0 WU, it was 4.13 L/min. Among the patients with PVR > 2.2 WU (n = 15,780), 13.6% (n = 2,147) had an mPAP of 19-24 mm Hg.

In all patients with mPAP > 19 mm HG, pulmonary artery wedge pressure (PAWP) became a determining risk factor, with 15 mm HG the demarcation between low and high PAWP. At PVR of 2.2 WU, low-PAWP patients had a 52% greater adjusted risk of death and high-PAWP a 23% greater risk. At 4.0 WU, those adjusted risks rose dramatically – to 272% and 58%, for the low- and high-PAWP subgroups, respectively (P < .0001).

“Stratification of patients by PAWP had a major effect on outcome estimates in our study, illustrating the limitations of using the same PVR level to define clinical risk between precapillary and postcapillary pulmonary hypertension,” the researchers wrote.

They called for further study into how these findings impact people with PH but lower levels of cardiopulmonary disease than the cohort. “Overall, these findings support reconsidering the combination of hemodynamic variables used to identify patients with pulmonary hypertension,” the researchers stated.

The analyses of the VA CART database makes this “an interesting study,” said G. Hossein Almassi, MD, FCCP, of the Medical College of Wisconsin and Zablocki VA Medical Center in Milwaukee. “Within its limitation as a retrospective cohort study, the findings of a lower PVR and a lower mean PAP of > 19 mm being associated with increased risk of all-cause mortality and HF hospitalization are significant.”

He added: “Time will tell whether this will be an impetus for the clinicians to consider earlier therapeutic interventions in addition to lifestyle modification such as smoking cessation in this group of patients.”

Dr. Maron disclosed a financial relationship with Actelion.

SOURCE: Maron BA et al. Lancet Respir Med. 2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9.

A study of patients with pulmonary hypertension suggests a reconsideration of the accepted benchmark for pulmonary vascular hypertension as a predictor of heart failure may be warranted.

An elevated pulmonary vascular resistance of 3.0 Wood units or greater has been used as a prognostic marker for death and heart failure in pulmonary hypertension subgroups. But a large, multiyear study of a veterans population suggests that shifting that threshold to 2.2 Wood units in patients with right-heart catheterization may be justified.

Bradley A. Maron, MD, of the Veterans Affairs Boston Healthcare System and Brigham and Women’s Hospital and Harvard Medical School, Boston, and colleagues evaluated 40,082 veterans in the VA Clinical Assessment, Reporting and Tracking (CART) program who had right-heart catheterization (RHC) in the VA system from Oct. 1, 2007, to Sept. 30, 2016.

“To our knowledge, these data provide the first evidence-based information on the continuum of clinical risk related to PVR in patients with elevated pulmonary artery pressure,” the researchers wrote. Their report was published online in Lancet Respiratory Medicine (2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9).

The retrospective cohort study found that all-cause mortality hazard ratio (HR), when adjusted for clinical variables, and mean pulmonary artery pressure (mPAP) increased progressively beginning at around 2.0 Wood units (WU). Clinically significant mortality HR emerged at 2.2 WU, with an adjusted risk 9% greater than a PVR of 2.1 Wood units (P < .0034), which the study considered the upper limit of normal PVR in health adults of a similar age range (61.5 to 73.5 years) as the study cohort. The researchers noted that a PVR of 3.0 WU has been the standard for forecasting outcomes in pulmonary hypertension (PH) (Eur Heart J. 2010;31:2915-57).

“Overall, these results suggest that reconsidering the hemodynamic parameters that define pulmonary hypertension in patients with cardiopulmonary disease is warranted, and they identify a need for early detection strategies to capture this large and vulnerable population,” the researchers wrote.

A subsequent analysis focused on patients with an mPAP of >19 mm HG (n = 32,725) and found that all-cause death when adjusted over a wide range of clinical variables that included PVR of 2.2 WU increased to a 25% HR. “However,” the researchers added, “a median cardiac output of < 4.0 L/min, which has been shown to be independently associated with adverse outcome, was present only when PVR was more than 4.0 Wood units.”

For a PVR of 2.2-3.0 WU, the median cardiac output was 4.87 L/min; for > 3.0 WU, it was 4.13 L/min. Among the patients with PVR > 2.2 WU (n = 15,780), 13.6% (n = 2,147) had an mPAP of 19-24 mm Hg.

In all patients with mPAP > 19 mm HG, pulmonary artery wedge pressure (PAWP) became a determining risk factor, with 15 mm HG the demarcation between low and high PAWP. At PVR of 2.2 WU, low-PAWP patients had a 52% greater adjusted risk of death and high-PAWP a 23% greater risk. At 4.0 WU, those adjusted risks rose dramatically – to 272% and 58%, for the low- and high-PAWP subgroups, respectively (P < .0001).

“Stratification of patients by PAWP had a major effect on outcome estimates in our study, illustrating the limitations of using the same PVR level to define clinical risk between precapillary and postcapillary pulmonary hypertension,” the researchers wrote.

They called for further study into how these findings impact people with PH but lower levels of cardiopulmonary disease than the cohort. “Overall, these findings support reconsidering the combination of hemodynamic variables used to identify patients with pulmonary hypertension,” the researchers stated.

The analyses of the VA CART database makes this “an interesting study,” said G. Hossein Almassi, MD, FCCP, of the Medical College of Wisconsin and Zablocki VA Medical Center in Milwaukee. “Within its limitation as a retrospective cohort study, the findings of a lower PVR and a lower mean PAP of > 19 mm being associated with increased risk of all-cause mortality and HF hospitalization are significant.”

He added: “Time will tell whether this will be an impetus for the clinicians to consider earlier therapeutic interventions in addition to lifestyle modification such as smoking cessation in this group of patients.”

Dr. Maron disclosed a financial relationship with Actelion.

SOURCE: Maron BA et al. Lancet Respir Med. 2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9.

A study of patients with pulmonary hypertension suggests a reconsideration of the accepted benchmark for pulmonary vascular hypertension as a predictor of heart failure may be warranted.

An elevated pulmonary vascular resistance of 3.0 Wood units or greater has been used as a prognostic marker for death and heart failure in pulmonary hypertension subgroups. But a large, multiyear study of a veterans population suggests that shifting that threshold to 2.2 Wood units in patients with right-heart catheterization may be justified.

Bradley A. Maron, MD, of the Veterans Affairs Boston Healthcare System and Brigham and Women’s Hospital and Harvard Medical School, Boston, and colleagues evaluated 40,082 veterans in the VA Clinical Assessment, Reporting and Tracking (CART) program who had right-heart catheterization (RHC) in the VA system from Oct. 1, 2007, to Sept. 30, 2016.

“To our knowledge, these data provide the first evidence-based information on the continuum of clinical risk related to PVR in patients with elevated pulmonary artery pressure,” the researchers wrote. Their report was published online in Lancet Respiratory Medicine (2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9).

The retrospective cohort study found that all-cause mortality hazard ratio (HR), when adjusted for clinical variables, and mean pulmonary artery pressure (mPAP) increased progressively beginning at around 2.0 Wood units (WU). Clinically significant mortality HR emerged at 2.2 WU, with an adjusted risk 9% greater than a PVR of 2.1 Wood units (P < .0034), which the study considered the upper limit of normal PVR in health adults of a similar age range (61.5 to 73.5 years) as the study cohort. The researchers noted that a PVR of 3.0 WU has been the standard for forecasting outcomes in pulmonary hypertension (PH) (Eur Heart J. 2010;31:2915-57).

“Overall, these results suggest that reconsidering the hemodynamic parameters that define pulmonary hypertension in patients with cardiopulmonary disease is warranted, and they identify a need for early detection strategies to capture this large and vulnerable population,” the researchers wrote.

A subsequent analysis focused on patients with an mPAP of >19 mm HG (n = 32,725) and found that all-cause death when adjusted over a wide range of clinical variables that included PVR of 2.2 WU increased to a 25% HR. “However,” the researchers added, “a median cardiac output of < 4.0 L/min, which has been shown to be independently associated with adverse outcome, was present only when PVR was more than 4.0 Wood units.”

For a PVR of 2.2-3.0 WU, the median cardiac output was 4.87 L/min; for > 3.0 WU, it was 4.13 L/min. Among the patients with PVR > 2.2 WU (n = 15,780), 13.6% (n = 2,147) had an mPAP of 19-24 mm Hg.

In all patients with mPAP > 19 mm HG, pulmonary artery wedge pressure (PAWP) became a determining risk factor, with 15 mm HG the demarcation between low and high PAWP. At PVR of 2.2 WU, low-PAWP patients had a 52% greater adjusted risk of death and high-PAWP a 23% greater risk. At 4.0 WU, those adjusted risks rose dramatically – to 272% and 58%, for the low- and high-PAWP subgroups, respectively (P < .0001).

“Stratification of patients by PAWP had a major effect on outcome estimates in our study, illustrating the limitations of using the same PVR level to define clinical risk between precapillary and postcapillary pulmonary hypertension,” the researchers wrote.

They called for further study into how these findings impact people with PH but lower levels of cardiopulmonary disease than the cohort. “Overall, these findings support reconsidering the combination of hemodynamic variables used to identify patients with pulmonary hypertension,” the researchers stated.

The analyses of the VA CART database makes this “an interesting study,” said G. Hossein Almassi, MD, FCCP, of the Medical College of Wisconsin and Zablocki VA Medical Center in Milwaukee. “Within its limitation as a retrospective cohort study, the findings of a lower PVR and a lower mean PAP of > 19 mm being associated with increased risk of all-cause mortality and HF hospitalization are significant.”

He added: “Time will tell whether this will be an impetus for the clinicians to consider earlier therapeutic interventions in addition to lifestyle modification such as smoking cessation in this group of patients.”

Dr. Maron disclosed a financial relationship with Actelion.

SOURCE: Maron BA et al. Lancet Respir Med. 2020 Jul 27. doi: 10.1016/S2213-2600(20)30317-9.

Aug. 12, 2020. 12:00 p.m. to 1:00 p.m. ET

Clinical Insights in VTE: Treatment and Risk Reduction Through Prophylaxis

Speaker: Michael S. Oleksyk, MD, FACP, CPE, CMPE

Clinical assistant professor, Florida State University, Pensacola

Hospitalist & palliative care physician, Baptist Hospital, Pensacola.

Program description:

This lecture will discuss venous thromboembolism prophylaxis, as well as treatment options for patients with deep vein thrombosis and/or pulmonary embolism, and how these treatment options may reduce the risk of recurrent thrombotic events.

Sponsored by Janssen Pharmaceuticals Inc.

Aug. 12, 2020. 12:00 p.m. to 1:00 p.m. ET

Clinical Insights in VTE: Treatment and Risk Reduction Through Prophylaxis

Speaker: Michael S. Oleksyk, MD, FACP, CPE, CMPE

Clinical assistant professor, Florida State University, Pensacola

Hospitalist & palliative care physician, Baptist Hospital, Pensacola.

Program description:

This lecture will discuss venous thromboembolism prophylaxis, as well as treatment options for patients with deep vein thrombosis and/or pulmonary embolism, and how these treatment options may reduce the risk of recurrent thrombotic events.

Sponsored by Janssen Pharmaceuticals Inc.

Aug. 12, 2020. 12:00 p.m. to 1:00 p.m. ET

Clinical Insights in VTE: Treatment and Risk Reduction Through Prophylaxis

Speaker: Michael S. Oleksyk, MD, FACP, CPE, CMPE

Clinical assistant professor, Florida State University, Pensacola

Hospitalist & palliative care physician, Baptist Hospital, Pensacola.

Program description:

This lecture will discuss venous thromboembolism prophylaxis, as well as treatment options for patients with deep vein thrombosis and/or pulmonary embolism, and how these treatment options may reduce the risk of recurrent thrombotic events.

Sponsored by Janssen Pharmaceuticals Inc.