User login
MADIT-CRT: Resynchronization linked to fewer heart failure hospitalizations
Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.
Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.
The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.
These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.
The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.
The LBBB connection
In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.
The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).
The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.
The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
CRT-D ‘is mysterious,’ especially for non-LBBB patients
“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.
“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”
The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.
A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.
Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”
MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.
SOURCE: Thomas S et al. HFSA 2020, Abstract 019.
Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.
Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.
The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.
These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.
The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.
The LBBB connection
In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.
The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).
The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.
The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
CRT-D ‘is mysterious,’ especially for non-LBBB patients
“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.
“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”
The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.
A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.
Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”
MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.
SOURCE: Thomas S et al. HFSA 2020, Abstract 019.
Patients with mild heart failure who received a cardiac resynchronization device had significantly reduced rates of hospitalizations for heart failure during follow-up of 1,820 patients for an average of 5.6 years, identifying in this post hoc analysis another benefit from this device that patients potentially receive in addition to an established survival advantage.
Extended follow-up of patients enrolled in the MADIT-CRT trial showed that patients with either New York Heart Association (NYHA) class I or II cardiomyopathy who received a cardiac resynchronization device with a defibrillator (CRT-D) had a significant reduction in all-cause hospitalization during follow-up, compared with control patients randomized to receive an implantable cardioverter defibrillator (ICD) device. This reduction in all hospitalizations was specifically driven by a significant reduction in cardiovascular hospitalizations, and the drop in cardiovascular hospitalizations was specifically driven by a cut in hospitalizations for heart failure (HHF), Sabu Thomas, MD, said at the annual scientific meeting of the Heart Failure Society of America.
The data showed that during follow-up all-cause hospitalizations occurred in 73% of the CRT-D patients and 83% of those who received an ICD; cardiovascular hospitalizations happened in 29% of the CRT-D patients and in 43% of those with an ICD; and HHF occurred in 12% of the CRT-D patients and in 22% of those with an ICD, reported Dr. Thomas, a heart failure cardiologist at the University of Rochester (N.Y.) Medical Center. All three between-group differences were statistically significant for these post hoc endpoints.
These reduced hospitalizations also linked with better survival. Patients in the trial database with cardiovascular hospitalizations had a nearly fourfold higher rate of death, compared with nonhospitalized patients, Dr. Thomas said.
The findings “suggest that this device [CRT-D] has sustained benefit in these patients for up to 7 years,” said Dr. Thomas and his collaborator, Valentina Kutyifa, MD, in an interview. “However, this was only seen in patients with left bundle branch block [LBBB].” In patients with non-LBBB, CRT-D was not associated with a reduction in [cardiovascular] hospitalizations.
The LBBB connection
In a multivariate analysis, the 1,281 patients with LBBB (70% of the study cohort) who were more than 6 months out from device placement had a significant 43% relative cut in their incidence of cardiovascular hospitalizations, compared with that of control patients who received an ICD, while the 537 patients with non-LBBB showed no benefit from CRT-D treatment, compared with those who received an ICD, for reducing cardiovascular hospitalizations. (Data from two enrolled patients weren’t available for the analyses.) This finding that the HHF benefit focused in patients with LBBB was consistent with many prior observations that CRT-D was most effective in this patient subgroup.
The researchers also highlighted that their findings apply only to patients with NYHA functional class I or II heart failure with reduced ejection fraction (HFrEF), the only types of patients enrolled in the MADIT-CRT trial (15% had class I disease).
The results also showed that, during the first 6 months on CRT-D treatment, patients with a LBBB showed a significant 43% increase in their cardiovascular hospitalizations, compared with control patients, which may have been driven by device-related events. “We did not investigate this in detail, and it needs more study,” said Dr. Thomas and Dr. Kutyifa, a cardiac electrophysiologist at the University of Rochester.Their new findings extend the initial, prespecified results of the MADIT-CRT (Multicenter Automatic Defibrillator Implantation With Cardiac Resynchronization Therapy) trial, which was designed to examine a primary endpoint of death from any cause or a nonfatal heart failure event. During the initial average follow-up of 2.4 years, patients who received a CRT-D device had a significant relative reduction in this endpoint of 34%, compared with patients on ICD treatment, exclusively in patients with LBBB. Extended follow-up for as long as 7 years of the same cohort showed a continued significant reduction of all-cause death compared with controls, a 41% relative risk reduction, that again was only apparent in patients with LBBB.
The MADIT-CRT findings are generally consistent with prevailing CRT-D recommendations from the American College of Cardiology and American Heart Association from 2013 that give a class I indication (“is indicated”) for using the device in heart failure patients with LBBB, a QRS interval of at least 150 msec, NYHA class II-IV function, and a left ventricular ejection fraction no greater than 35%. A lesser, class IIa recommendation (“can be useful”) exists for patients with a narrower QRS of 120-149 msec with the other class I criteria, and for patients with non-LBBB the recommendation drops to class IIb (“may be considered”).
CRT-D ‘is mysterious,’ especially for non-LBBB patients
“Every time researchers have tried to move beyond the [existing] paradigm of who benefits from CRT-D, it’s never panned out,” commented Jeffrey J. Goldberger, MD, an electrophysiologist, professor, and chief of the cardiovascular division at the University of Miami. “The guidelines are pretty correct on who should get CRT-D. I wouldn’t say that no patients with non-LBBB should get it, but they are less likely to benefit,” although he conceded that responses to CRT-D are highly individualized and hard to predict.
“CRT is mysterious. I’ve had patients who did incredibly well on it,” but “once you start getting outside of where the benefits are proven, you start to run into issues,” Dr. Goldberger said in an interview. “The only solid predictor of a CRT-D response is in patients with LBBB.”
The hospitalizations for heart failure that the University of Rochester investigators assessed as an additional study outcome represent an “important endpoint, but one that is much more subjective than survival,” making its reliability “a bit of a gray area,” he said. The analyses are also limited by being post hoc and, hence, just hypothesis generating.
A recently published analysis of the same dataset by many of the same investigators hinted that CRT-D might reduce HHF in non-LBBB patients when the focus is on recurrent hospitalizations.
Despite the evidence of a survival benefit from CRT-D placement in selected patients, especially those with LBBB, “registry data have shown that use of CRT-D varies widely and has been as low as 27% of eligible patients,” noted Dr. Thomas and Dr. Kutyifa. “There is an opportunity here to understand the barriers to more widespread adoption of CRT-D in appropriate patients,” they said. It is also “possible that CRT-D is overused in non-LBBB patients” given that this subgroup receives about a third of CRT-D devices now. “Future studies should carefully investigate the role of CRT-D in non-LBBB patients.”
MADIT-CRT was funded by Boston Scientific, which markets several CRT-D devices. Dr. Thomas had no disclosures. Dr. Kutyifa has been a consultant to Biotronik and Zoll and has received research funding from Biotronik, Boston Scientific, Spire, and Zoll. Dr Goldberger is director of a not-for-profit think tank on risk stratification for sudden cardiac death that has received unrestricted educational grants from Abbott, Biotronik, Boston Scientific, and Medtronic.
SOURCE: Thomas S et al. HFSA 2020, Abstract 019.
FROM HFSA 2020
Experts tout immediate quadruple therapy for HFrEF patients
Gregg C. Fonarow, MD, recommended.
Less than 2 months before Dr. Fonarow made that striking statement during the virtual annual meeting of the Heart Failure Society of America, investigators first reported results from the EMPEROR-Reduced trial at the European Society of Cardiology’s virtual annual meeting, showing that the sodium-glucose transporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) successfully cut events in patients with heart failure with reduced ejection fraction (HFrEF). That report, a year after results from a similar trial (DAPA-HF) showed the same outcome using a different drug from the same class, dapagliflozin (Farxiga), cemented the SGLT2 inhibitor drug class as the fourth pillar for treating HFrEF, joining the angiotensin receptor neprilysin inhibitor (ARNI) class (sacubitril valsartan), beta-blockers (like carvedilol), and mineralocorticoid receptor antagonists (like spironolactone).
This rejiggering of the consensus expert approach for treating HFrEF left cardiologists wondering what sequence to use when starting this quadruple therapy. Within weeks, the answer from heart failure opinion leaders was clear:
“Start all four pillars simultaneously. Most patients can tolerate, and will benefit from, a simultaneous start,” declared Dr. Fonarow, professor and chief of cardiology at the University of California, Los Angeles.
His rationale? Patients get benefits from each of these drug classes “surprisingly early,” with improved outcomes in clinical trials appearing within a few weeks, compared with patients in control arms. The consequence is that any delay in starting treatment denies patients time with improved health status, function, and survival.
Study results documented that the four foundational drug classes can produce rapid improvements in health status, left ventricular size and shape, and make clinically meaningful cuts in both first and recurrent hospitalizations for heart failure and in mortality, Dr. Fonarow said. After 30 days on quadruple treatment, a patient’s relative risk for death drops by more than three-quarters, compared with patients not on these medications.
The benefits from each of the four classes involve distinct physiologic pathways and hence are not diminished by concurrent treatment. And immediate initiation avoids the risk of clinical inertia and a negligence to prescribe one or more of the four important drug classes. Introducing the four classes in a sequential manner could mean spending as long as a year to get all four on board and up-titrated to optimal therapeutic levels, he noted.
“Overcome inertia by prescribing [all four drug classes] at the time of diagnosis,” Dr. Fonarow admonished his audience.
The challenge of prescribing inertia
The risk for inertia in prescribing heart failure medications is real. Data collected in the CHAMP-HF (Change the Management of Patients with Heart Failure) registry from more than 3,500 HFrEF patients managed at any of 150 U.S. primary care and cardiology practices starting in late 2015 and continuing through 2017 showed that, among patients eligible for treatment with renin-angiotensin system (RAS) inhibition (with either ARNI or a single RAS inhibiting drug), a beta-blocker, and a mineralocorticoid receptor antagonist (MRA), 22% received all three drug classes. A scant 1% were on target dosages of all three drug classes, noted Stephen J. Greene, MD, in a separate talk at the meeting when he cited his published findings.
The sole formulation currently in the ARNI class, sacubitril/valsartan (Entresto) has in recent years been the poster child for prescribing inertia in HFrEF patients after coming onto the U.S. market for routine use in 2015. A review run by Dr. Greene of more than 9,000 HFrEF patients who were at least 65 years old and discharged from a hospital participating in the Get With the Guidelines–Heart Failure registry during October 2015–September 2017 showed that 8% of eligible patients actually received a sacubitril/valsartan prescription. Separate assessment of outpatients with HFrEF from the same era showed 13% uptake, said D. Greene, a cardiologist at Duke University, Durham, N.C.
Substantial gaps in prescribing evidence-based treatments to HFrEF patients have existed for the past couple of decades, said Dr. Greene. “Even a blockbuster drug like sacubitril/valsartan has been slow to implement.”
Quadruple therapy adds an average of 6 years of life
One of the most strongest arguments favoring the start-four-at-once approach was detailed in what’s quickly become a widely cited analysis published in July 2020 by a team of researchers led by Muthiah Vaduganathan, MD. Using data from three key pivotal trials they estimated that timely treatment with all four drug classes would on average produce an extra 6 years of overall survival in a 55-year old HFrEF patient, and an added 8 years free from cardiovascular death or first hospitalization for heart failure, compared with less comprehensive treatment. The analysis also showed a significant 3-year average boost in overall survival among HFrEF patients who were 80 years old when using quadruple therapy compared with the “conventional medical therapy” used on control patients in the three trials examined.
Dr. Greene called these findings “remarkable.”
“Four drugs use five mechanistic pathways to produce 6 added years of survival,” summed up Dr. Vaduganathan during a separate talk at the virtual meeting.
In addition to this substantial potential for a meaningful impact on patents’ lives, he cited other factors that add to the case for early prescription of the pharmaceutical gauntlet: avoiding missed treatment opportunities that occur with slower, step-wise drug introduction; simplifying, streamlining, and standardizing the care pathway, which helps avoid care inequities and disrupts the potential for inertia; magnifying benefit when comprehensive treatment starts sooner; and providing additive benefits without drug-drug interactions.
“Upfront treatment at the time of [HFrEF] diagnosis or hospitalization is an approach that disrupts treatment inertia,” emphasized Dr. Vaduganathan, a cardiologist at Brigham and Women’s Hospital in Boston.
New approaches needed to encourage quick uptake
“Efficacy alone has not been enough for efficient uptake in U.S. practice” of sacubitril/valsartan, other RAS inhibitors, beta-blockers, and MRAs, noted Dr. Greene.
He was more optimistic about prospects for relatively quick uptake of early SGLT2 inhibitor treatment as part of routine HFrEF management given all the positives that this new HFrEF treatment offers, including some “unique features” among HFrEF drugs. These include the simplicity of the regimen, which involves a single dosage for everyone that’s taken once daily; minimal blood pressure effects and no adverse renal effects while also producing substantial renal protection; and two SGLT2 inhibitors with proven HFrEF benefit (dapagliflozin and empagliflozin), which bodes well for an eventual price drop.
The SGLT2 inhibitors stack up as an “ideal” HFrEF treatment, concluded Dr. Greene, which should facilitate quick uptake. As far as getting clinicians to also add early on the other three members of the core four treatment classes in routine treatment, he conceded that “innovative and evidence-based approaches to improving real-world uptake of guideline-directed medical therapy are urgently needed.”
EMPEROR-Reduced was funded by Boehringer Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). CHAMP-HF was funded by Novartis, the company that markets sacubitril/valsartan (Entresto). Dr. Fonarow has been a consultant or adviser to Novartis, as well as to Abbott, Amgen, AstraZeneca, Bayer, CHF Solutions, Edwards, Janssen, Medtronic, and Merck. Dr. Greene has received research funding from Novartis, has been a consultant to Amgen and Merck, an adviser to Amgen and Cytokinetics, and has received research funding from Amgen, AstraZeneca, Bristol-Myers Squibb, and Merck. Dr. Vaduganathan has had financial relationships with Boehringer Ingelheim and Novartis, as well as with Amgen, AstraZeneca, Baxter Healthcare, Bayer, Cytokinetics, and Relypsa.
Gregg C. Fonarow, MD, recommended.
Less than 2 months before Dr. Fonarow made that striking statement during the virtual annual meeting of the Heart Failure Society of America, investigators first reported results from the EMPEROR-Reduced trial at the European Society of Cardiology’s virtual annual meeting, showing that the sodium-glucose transporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) successfully cut events in patients with heart failure with reduced ejection fraction (HFrEF). That report, a year after results from a similar trial (DAPA-HF) showed the same outcome using a different drug from the same class, dapagliflozin (Farxiga), cemented the SGLT2 inhibitor drug class as the fourth pillar for treating HFrEF, joining the angiotensin receptor neprilysin inhibitor (ARNI) class (sacubitril valsartan), beta-blockers (like carvedilol), and mineralocorticoid receptor antagonists (like spironolactone).
This rejiggering of the consensus expert approach for treating HFrEF left cardiologists wondering what sequence to use when starting this quadruple therapy. Within weeks, the answer from heart failure opinion leaders was clear:
“Start all four pillars simultaneously. Most patients can tolerate, and will benefit from, a simultaneous start,” declared Dr. Fonarow, professor and chief of cardiology at the University of California, Los Angeles.
His rationale? Patients get benefits from each of these drug classes “surprisingly early,” with improved outcomes in clinical trials appearing within a few weeks, compared with patients in control arms. The consequence is that any delay in starting treatment denies patients time with improved health status, function, and survival.
Study results documented that the four foundational drug classes can produce rapid improvements in health status, left ventricular size and shape, and make clinically meaningful cuts in both first and recurrent hospitalizations for heart failure and in mortality, Dr. Fonarow said. After 30 days on quadruple treatment, a patient’s relative risk for death drops by more than three-quarters, compared with patients not on these medications.
The benefits from each of the four classes involve distinct physiologic pathways and hence are not diminished by concurrent treatment. And immediate initiation avoids the risk of clinical inertia and a negligence to prescribe one or more of the four important drug classes. Introducing the four classes in a sequential manner could mean spending as long as a year to get all four on board and up-titrated to optimal therapeutic levels, he noted.
“Overcome inertia by prescribing [all four drug classes] at the time of diagnosis,” Dr. Fonarow admonished his audience.
The challenge of prescribing inertia
The risk for inertia in prescribing heart failure medications is real. Data collected in the CHAMP-HF (Change the Management of Patients with Heart Failure) registry from more than 3,500 HFrEF patients managed at any of 150 U.S. primary care and cardiology practices starting in late 2015 and continuing through 2017 showed that, among patients eligible for treatment with renin-angiotensin system (RAS) inhibition (with either ARNI or a single RAS inhibiting drug), a beta-blocker, and a mineralocorticoid receptor antagonist (MRA), 22% received all three drug classes. A scant 1% were on target dosages of all three drug classes, noted Stephen J. Greene, MD, in a separate talk at the meeting when he cited his published findings.
The sole formulation currently in the ARNI class, sacubitril/valsartan (Entresto) has in recent years been the poster child for prescribing inertia in HFrEF patients after coming onto the U.S. market for routine use in 2015. A review run by Dr. Greene of more than 9,000 HFrEF patients who were at least 65 years old and discharged from a hospital participating in the Get With the Guidelines–Heart Failure registry during October 2015–September 2017 showed that 8% of eligible patients actually received a sacubitril/valsartan prescription. Separate assessment of outpatients with HFrEF from the same era showed 13% uptake, said D. Greene, a cardiologist at Duke University, Durham, N.C.
Substantial gaps in prescribing evidence-based treatments to HFrEF patients have existed for the past couple of decades, said Dr. Greene. “Even a blockbuster drug like sacubitril/valsartan has been slow to implement.”
Quadruple therapy adds an average of 6 years of life
One of the most strongest arguments favoring the start-four-at-once approach was detailed in what’s quickly become a widely cited analysis published in July 2020 by a team of researchers led by Muthiah Vaduganathan, MD. Using data from three key pivotal trials they estimated that timely treatment with all four drug classes would on average produce an extra 6 years of overall survival in a 55-year old HFrEF patient, and an added 8 years free from cardiovascular death or first hospitalization for heart failure, compared with less comprehensive treatment. The analysis also showed a significant 3-year average boost in overall survival among HFrEF patients who were 80 years old when using quadruple therapy compared with the “conventional medical therapy” used on control patients in the three trials examined.
Dr. Greene called these findings “remarkable.”
“Four drugs use five mechanistic pathways to produce 6 added years of survival,” summed up Dr. Vaduganathan during a separate talk at the virtual meeting.
In addition to this substantial potential for a meaningful impact on patents’ lives, he cited other factors that add to the case for early prescription of the pharmaceutical gauntlet: avoiding missed treatment opportunities that occur with slower, step-wise drug introduction; simplifying, streamlining, and standardizing the care pathway, which helps avoid care inequities and disrupts the potential for inertia; magnifying benefit when comprehensive treatment starts sooner; and providing additive benefits without drug-drug interactions.
“Upfront treatment at the time of [HFrEF] diagnosis or hospitalization is an approach that disrupts treatment inertia,” emphasized Dr. Vaduganathan, a cardiologist at Brigham and Women’s Hospital in Boston.
New approaches needed to encourage quick uptake
“Efficacy alone has not been enough for efficient uptake in U.S. practice” of sacubitril/valsartan, other RAS inhibitors, beta-blockers, and MRAs, noted Dr. Greene.
He was more optimistic about prospects for relatively quick uptake of early SGLT2 inhibitor treatment as part of routine HFrEF management given all the positives that this new HFrEF treatment offers, including some “unique features” among HFrEF drugs. These include the simplicity of the regimen, which involves a single dosage for everyone that’s taken once daily; minimal blood pressure effects and no adverse renal effects while also producing substantial renal protection; and two SGLT2 inhibitors with proven HFrEF benefit (dapagliflozin and empagliflozin), which bodes well for an eventual price drop.
The SGLT2 inhibitors stack up as an “ideal” HFrEF treatment, concluded Dr. Greene, which should facilitate quick uptake. As far as getting clinicians to also add early on the other three members of the core four treatment classes in routine treatment, he conceded that “innovative and evidence-based approaches to improving real-world uptake of guideline-directed medical therapy are urgently needed.”
EMPEROR-Reduced was funded by Boehringer Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). CHAMP-HF was funded by Novartis, the company that markets sacubitril/valsartan (Entresto). Dr. Fonarow has been a consultant or adviser to Novartis, as well as to Abbott, Amgen, AstraZeneca, Bayer, CHF Solutions, Edwards, Janssen, Medtronic, and Merck. Dr. Greene has received research funding from Novartis, has been a consultant to Amgen and Merck, an adviser to Amgen and Cytokinetics, and has received research funding from Amgen, AstraZeneca, Bristol-Myers Squibb, and Merck. Dr. Vaduganathan has had financial relationships with Boehringer Ingelheim and Novartis, as well as with Amgen, AstraZeneca, Baxter Healthcare, Bayer, Cytokinetics, and Relypsa.
Gregg C. Fonarow, MD, recommended.
Less than 2 months before Dr. Fonarow made that striking statement during the virtual annual meeting of the Heart Failure Society of America, investigators first reported results from the EMPEROR-Reduced trial at the European Society of Cardiology’s virtual annual meeting, showing that the sodium-glucose transporter 2 (SGLT2) inhibitor empagliflozin (Jardiance) successfully cut events in patients with heart failure with reduced ejection fraction (HFrEF). That report, a year after results from a similar trial (DAPA-HF) showed the same outcome using a different drug from the same class, dapagliflozin (Farxiga), cemented the SGLT2 inhibitor drug class as the fourth pillar for treating HFrEF, joining the angiotensin receptor neprilysin inhibitor (ARNI) class (sacubitril valsartan), beta-blockers (like carvedilol), and mineralocorticoid receptor antagonists (like spironolactone).
This rejiggering of the consensus expert approach for treating HFrEF left cardiologists wondering what sequence to use when starting this quadruple therapy. Within weeks, the answer from heart failure opinion leaders was clear:
“Start all four pillars simultaneously. Most patients can tolerate, and will benefit from, a simultaneous start,” declared Dr. Fonarow, professor and chief of cardiology at the University of California, Los Angeles.
His rationale? Patients get benefits from each of these drug classes “surprisingly early,” with improved outcomes in clinical trials appearing within a few weeks, compared with patients in control arms. The consequence is that any delay in starting treatment denies patients time with improved health status, function, and survival.
Study results documented that the four foundational drug classes can produce rapid improvements in health status, left ventricular size and shape, and make clinically meaningful cuts in both first and recurrent hospitalizations for heart failure and in mortality, Dr. Fonarow said. After 30 days on quadruple treatment, a patient’s relative risk for death drops by more than three-quarters, compared with patients not on these medications.
The benefits from each of the four classes involve distinct physiologic pathways and hence are not diminished by concurrent treatment. And immediate initiation avoids the risk of clinical inertia and a negligence to prescribe one or more of the four important drug classes. Introducing the four classes in a sequential manner could mean spending as long as a year to get all four on board and up-titrated to optimal therapeutic levels, he noted.
“Overcome inertia by prescribing [all four drug classes] at the time of diagnosis,” Dr. Fonarow admonished his audience.
The challenge of prescribing inertia
The risk for inertia in prescribing heart failure medications is real. Data collected in the CHAMP-HF (Change the Management of Patients with Heart Failure) registry from more than 3,500 HFrEF patients managed at any of 150 U.S. primary care and cardiology practices starting in late 2015 and continuing through 2017 showed that, among patients eligible for treatment with renin-angiotensin system (RAS) inhibition (with either ARNI or a single RAS inhibiting drug), a beta-blocker, and a mineralocorticoid receptor antagonist (MRA), 22% received all three drug classes. A scant 1% were on target dosages of all three drug classes, noted Stephen J. Greene, MD, in a separate talk at the meeting when he cited his published findings.
The sole formulation currently in the ARNI class, sacubitril/valsartan (Entresto) has in recent years been the poster child for prescribing inertia in HFrEF patients after coming onto the U.S. market for routine use in 2015. A review run by Dr. Greene of more than 9,000 HFrEF patients who were at least 65 years old and discharged from a hospital participating in the Get With the Guidelines–Heart Failure registry during October 2015–September 2017 showed that 8% of eligible patients actually received a sacubitril/valsartan prescription. Separate assessment of outpatients with HFrEF from the same era showed 13% uptake, said D. Greene, a cardiologist at Duke University, Durham, N.C.
Substantial gaps in prescribing evidence-based treatments to HFrEF patients have existed for the past couple of decades, said Dr. Greene. “Even a blockbuster drug like sacubitril/valsartan has been slow to implement.”
Quadruple therapy adds an average of 6 years of life
One of the most strongest arguments favoring the start-four-at-once approach was detailed in what’s quickly become a widely cited analysis published in July 2020 by a team of researchers led by Muthiah Vaduganathan, MD. Using data from three key pivotal trials they estimated that timely treatment with all four drug classes would on average produce an extra 6 years of overall survival in a 55-year old HFrEF patient, and an added 8 years free from cardiovascular death or first hospitalization for heart failure, compared with less comprehensive treatment. The analysis also showed a significant 3-year average boost in overall survival among HFrEF patients who were 80 years old when using quadruple therapy compared with the “conventional medical therapy” used on control patients in the three trials examined.
Dr. Greene called these findings “remarkable.”
“Four drugs use five mechanistic pathways to produce 6 added years of survival,” summed up Dr. Vaduganathan during a separate talk at the virtual meeting.
In addition to this substantial potential for a meaningful impact on patents’ lives, he cited other factors that add to the case for early prescription of the pharmaceutical gauntlet: avoiding missed treatment opportunities that occur with slower, step-wise drug introduction; simplifying, streamlining, and standardizing the care pathway, which helps avoid care inequities and disrupts the potential for inertia; magnifying benefit when comprehensive treatment starts sooner; and providing additive benefits without drug-drug interactions.
“Upfront treatment at the time of [HFrEF] diagnosis or hospitalization is an approach that disrupts treatment inertia,” emphasized Dr. Vaduganathan, a cardiologist at Brigham and Women’s Hospital in Boston.
New approaches needed to encourage quick uptake
“Efficacy alone has not been enough for efficient uptake in U.S. practice” of sacubitril/valsartan, other RAS inhibitors, beta-blockers, and MRAs, noted Dr. Greene.
He was more optimistic about prospects for relatively quick uptake of early SGLT2 inhibitor treatment as part of routine HFrEF management given all the positives that this new HFrEF treatment offers, including some “unique features” among HFrEF drugs. These include the simplicity of the regimen, which involves a single dosage for everyone that’s taken once daily; minimal blood pressure effects and no adverse renal effects while also producing substantial renal protection; and two SGLT2 inhibitors with proven HFrEF benefit (dapagliflozin and empagliflozin), which bodes well for an eventual price drop.
The SGLT2 inhibitors stack up as an “ideal” HFrEF treatment, concluded Dr. Greene, which should facilitate quick uptake. As far as getting clinicians to also add early on the other three members of the core four treatment classes in routine treatment, he conceded that “innovative and evidence-based approaches to improving real-world uptake of guideline-directed medical therapy are urgently needed.”
EMPEROR-Reduced was funded by Boehringer Ingelheim and Lilly, the companies that market empagliflozin (Jardiance). CHAMP-HF was funded by Novartis, the company that markets sacubitril/valsartan (Entresto). Dr. Fonarow has been a consultant or adviser to Novartis, as well as to Abbott, Amgen, AstraZeneca, Bayer, CHF Solutions, Edwards, Janssen, Medtronic, and Merck. Dr. Greene has received research funding from Novartis, has been a consultant to Amgen and Merck, an adviser to Amgen and Cytokinetics, and has received research funding from Amgen, AstraZeneca, Bristol-Myers Squibb, and Merck. Dr. Vaduganathan has had financial relationships with Boehringer Ingelheim and Novartis, as well as with Amgen, AstraZeneca, Baxter Healthcare, Bayer, Cytokinetics, and Relypsa.
FROM HFSA 2020
Empagliflozin cut PA pressures in heart failure patients
Elevated pulmonary artery diastolic pressure is “perhaps the best predictor of bad outcomes in patients with heart failure, including hospitalization and death,” and new evidence clearly showed that the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin cuts this metric in patients by a clinically significant amount, Mikhail Kosiborod, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America.
The evidence he collected from a total of 65 heart failure patients with either reduced or preserved ejection fraction is the first documentation from a randomized, controlled study to show a direct effect by a SGLT2 inhibitor on pulmonary artery (PA) pressures.
Other key findings were that the drop in PA diastolic pressure with empagliflozin treatment compared with placebo became discernible early (within the first 4 weeks on treatment), that the pressure-lowering effect steadily grew over time, and that it showed no link to the intensity of loop diuretic treatment, which held steady during 12 weeks on treatment and 13 weeks of overall monitoring.
The study’s primary endpoint was the change from baseline in PA diastolic pressure after 12 weeks on treatment. The 31 patients who completed the full 12-week course had an average drop in their PA diastolic pressure of about 1.5 mm Hg, compared with 28 patients who completed 12 weeks on placebo. Average PA diastolic pressure at baseline was about 21 mm Hg in both treatment arms, and on treatment this fell by more than 0.5 mm Hg among those who received empagliflozin and rose by close to 1 mm Hg among control patients.
“There appears to be a direct effect of empagliflozin on pulmonary artery pressure that’s not been previously demonstrated” by an SGLT2 inhibitor, Dr. Kosiborod said. “I think this is one mechanism of action” for this drug class. “If you control pulmonary artery filling pressures you can prevent hospitalizations and deaths.”
Small reductions matter
“Small pressure differences are particularly important for pulmonary hypertension,” commented Lynne W. Stevenson, MD, professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn., and the report’s designated discussant.
“In the Vanderbilt heart failure database, patients with a pulmonary artery mean pressure of 20-24 mm Hg had 30% higher mortality than patients with lower pressures,” Dr. Stevenson noted. “This has led to a new definition of pulmonary hypertension, a mean pulmonary artery pressure above at or above 20 mm Hg.”
In Dr. Kosiborod’s study, patients began with an average PA mean pressure of about 30 mm Hg, and empagliflozin treatment led to a reduction in this metric with about the same magnitude as its effect on PA diastolic pressure. Empagliflozin also produced a similar reduction in average PA systolic pressure.
“We can expect a reduction in pulmonary hypertension to help protect against right-heart congestion, which then protects against right heart failure” and prevents right failure from triggering or worsening left ventricular failure, Dr. Stevenson explained.
A study built on ambulatory PA monitoring
The results “also provide more proof for the concept of ambulatory hemodynamic monitoring” in patients with heart failure to monitor their status, she added. The study enrolled only patients who had already received a CardioMEMS implant as part of their routine care. This device allows for frequent, noninvasive monitoring of PA pressures. Researchers collected PA pressure data from patients twice daily for the entire 13-week study.
The EMBRACE HF (Empagliflozin Impact on Hemodynamics in Patients With Heart Failure) study enrolled patients with established heart failure, a CardioMEMS implant, and New York Heart Association class II-IV symptoms at any of eight U.S. centers. Patients averaged about 65 years old, and slightly more than half had class III disease, which denotes marked limitation of physical activity.
Despite the brief treatment period, patients who received empagliflozin showed other evidence of benefit including a trend toward improved quality of life scores, reduced levels of two different forms of brain natriuretic peptide, and significant weight loss, compared with controls, that averaged 2.4 kg.
The mechanism by which empagliflozin and other drugs in its class might lower PA filling pressures is unclear, but Dr. Kosiborod stressed that the consistent level of loop diuretic use during the study seems to rule out a diuretic effect from the SGLT2 inhibitor as having a role. A pulmonary vasculature effect is “much more likely,” perhaps mediated through modified endothelial function and vasodilation, he suggested.
EMBRACE HF was funded by Boehringer Ingelheim, the company that markets empagliflozin (Jardiance) along with Eli Lilly. Dr. Kosiborod has received research support and honoraria from Boehringer Ingelheim, and he has received honoraria from several other companies. Dr. Stevenson had no disclosures.
Elevated pulmonary artery diastolic pressure is “perhaps the best predictor of bad outcomes in patients with heart failure, including hospitalization and death,” and new evidence clearly showed that the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin cuts this metric in patients by a clinically significant amount, Mikhail Kosiborod, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America.
The evidence he collected from a total of 65 heart failure patients with either reduced or preserved ejection fraction is the first documentation from a randomized, controlled study to show a direct effect by a SGLT2 inhibitor on pulmonary artery (PA) pressures.
Other key findings were that the drop in PA diastolic pressure with empagliflozin treatment compared with placebo became discernible early (within the first 4 weeks on treatment), that the pressure-lowering effect steadily grew over time, and that it showed no link to the intensity of loop diuretic treatment, which held steady during 12 weeks on treatment and 13 weeks of overall monitoring.
The study’s primary endpoint was the change from baseline in PA diastolic pressure after 12 weeks on treatment. The 31 patients who completed the full 12-week course had an average drop in their PA diastolic pressure of about 1.5 mm Hg, compared with 28 patients who completed 12 weeks on placebo. Average PA diastolic pressure at baseline was about 21 mm Hg in both treatment arms, and on treatment this fell by more than 0.5 mm Hg among those who received empagliflozin and rose by close to 1 mm Hg among control patients.
“There appears to be a direct effect of empagliflozin on pulmonary artery pressure that’s not been previously demonstrated” by an SGLT2 inhibitor, Dr. Kosiborod said. “I think this is one mechanism of action” for this drug class. “If you control pulmonary artery filling pressures you can prevent hospitalizations and deaths.”
Small reductions matter
“Small pressure differences are particularly important for pulmonary hypertension,” commented Lynne W. Stevenson, MD, professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn., and the report’s designated discussant.
“In the Vanderbilt heart failure database, patients with a pulmonary artery mean pressure of 20-24 mm Hg had 30% higher mortality than patients with lower pressures,” Dr. Stevenson noted. “This has led to a new definition of pulmonary hypertension, a mean pulmonary artery pressure above at or above 20 mm Hg.”
In Dr. Kosiborod’s study, patients began with an average PA mean pressure of about 30 mm Hg, and empagliflozin treatment led to a reduction in this metric with about the same magnitude as its effect on PA diastolic pressure. Empagliflozin also produced a similar reduction in average PA systolic pressure.
“We can expect a reduction in pulmonary hypertension to help protect against right-heart congestion, which then protects against right heart failure” and prevents right failure from triggering or worsening left ventricular failure, Dr. Stevenson explained.
A study built on ambulatory PA monitoring
The results “also provide more proof for the concept of ambulatory hemodynamic monitoring” in patients with heart failure to monitor their status, she added. The study enrolled only patients who had already received a CardioMEMS implant as part of their routine care. This device allows for frequent, noninvasive monitoring of PA pressures. Researchers collected PA pressure data from patients twice daily for the entire 13-week study.
The EMBRACE HF (Empagliflozin Impact on Hemodynamics in Patients With Heart Failure) study enrolled patients with established heart failure, a CardioMEMS implant, and New York Heart Association class II-IV symptoms at any of eight U.S. centers. Patients averaged about 65 years old, and slightly more than half had class III disease, which denotes marked limitation of physical activity.
Despite the brief treatment period, patients who received empagliflozin showed other evidence of benefit including a trend toward improved quality of life scores, reduced levels of two different forms of brain natriuretic peptide, and significant weight loss, compared with controls, that averaged 2.4 kg.
The mechanism by which empagliflozin and other drugs in its class might lower PA filling pressures is unclear, but Dr. Kosiborod stressed that the consistent level of loop diuretic use during the study seems to rule out a diuretic effect from the SGLT2 inhibitor as having a role. A pulmonary vasculature effect is “much more likely,” perhaps mediated through modified endothelial function and vasodilation, he suggested.
EMBRACE HF was funded by Boehringer Ingelheim, the company that markets empagliflozin (Jardiance) along with Eli Lilly. Dr. Kosiborod has received research support and honoraria from Boehringer Ingelheim, and he has received honoraria from several other companies. Dr. Stevenson had no disclosures.
Elevated pulmonary artery diastolic pressure is “perhaps the best predictor of bad outcomes in patients with heart failure, including hospitalization and death,” and new evidence clearly showed that the sodium-glucose cotransporter 2 (SGLT2) inhibitor empagliflozin cuts this metric in patients by a clinically significant amount, Mikhail Kosiborod, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America.
The evidence he collected from a total of 65 heart failure patients with either reduced or preserved ejection fraction is the first documentation from a randomized, controlled study to show a direct effect by a SGLT2 inhibitor on pulmonary artery (PA) pressures.
Other key findings were that the drop in PA diastolic pressure with empagliflozin treatment compared with placebo became discernible early (within the first 4 weeks on treatment), that the pressure-lowering effect steadily grew over time, and that it showed no link to the intensity of loop diuretic treatment, which held steady during 12 weeks on treatment and 13 weeks of overall monitoring.
The study’s primary endpoint was the change from baseline in PA diastolic pressure after 12 weeks on treatment. The 31 patients who completed the full 12-week course had an average drop in their PA diastolic pressure of about 1.5 mm Hg, compared with 28 patients who completed 12 weeks on placebo. Average PA diastolic pressure at baseline was about 21 mm Hg in both treatment arms, and on treatment this fell by more than 0.5 mm Hg among those who received empagliflozin and rose by close to 1 mm Hg among control patients.
“There appears to be a direct effect of empagliflozin on pulmonary artery pressure that’s not been previously demonstrated” by an SGLT2 inhibitor, Dr. Kosiborod said. “I think this is one mechanism of action” for this drug class. “If you control pulmonary artery filling pressures you can prevent hospitalizations and deaths.”
Small reductions matter
“Small pressure differences are particularly important for pulmonary hypertension,” commented Lynne W. Stevenson, MD, professor of medicine at Vanderbilt University Medical Center in Nashville, Tenn., and the report’s designated discussant.
“In the Vanderbilt heart failure database, patients with a pulmonary artery mean pressure of 20-24 mm Hg had 30% higher mortality than patients with lower pressures,” Dr. Stevenson noted. “This has led to a new definition of pulmonary hypertension, a mean pulmonary artery pressure above at or above 20 mm Hg.”
In Dr. Kosiborod’s study, patients began with an average PA mean pressure of about 30 mm Hg, and empagliflozin treatment led to a reduction in this metric with about the same magnitude as its effect on PA diastolic pressure. Empagliflozin also produced a similar reduction in average PA systolic pressure.
“We can expect a reduction in pulmonary hypertension to help protect against right-heart congestion, which then protects against right heart failure” and prevents right failure from triggering or worsening left ventricular failure, Dr. Stevenson explained.
A study built on ambulatory PA monitoring
The results “also provide more proof for the concept of ambulatory hemodynamic monitoring” in patients with heart failure to monitor their status, she added. The study enrolled only patients who had already received a CardioMEMS implant as part of their routine care. This device allows for frequent, noninvasive monitoring of PA pressures. Researchers collected PA pressure data from patients twice daily for the entire 13-week study.
The EMBRACE HF (Empagliflozin Impact on Hemodynamics in Patients With Heart Failure) study enrolled patients with established heart failure, a CardioMEMS implant, and New York Heart Association class II-IV symptoms at any of eight U.S. centers. Patients averaged about 65 years old, and slightly more than half had class III disease, which denotes marked limitation of physical activity.
Despite the brief treatment period, patients who received empagliflozin showed other evidence of benefit including a trend toward improved quality of life scores, reduced levels of two different forms of brain natriuretic peptide, and significant weight loss, compared with controls, that averaged 2.4 kg.
The mechanism by which empagliflozin and other drugs in its class might lower PA filling pressures is unclear, but Dr. Kosiborod stressed that the consistent level of loop diuretic use during the study seems to rule out a diuretic effect from the SGLT2 inhibitor as having a role. A pulmonary vasculature effect is “much more likely,” perhaps mediated through modified endothelial function and vasodilation, he suggested.
EMBRACE HF was funded by Boehringer Ingelheim, the company that markets empagliflozin (Jardiance) along with Eli Lilly. Dr. Kosiborod has received research support and honoraria from Boehringer Ingelheim, and he has received honoraria from several other companies. Dr. Stevenson had no disclosures.
FROM HFSA 2020
The socioeconomic revolving door of 30-day heart failure readmissions
Patients receiving even top-notch hospital care for heart failure (HF) are, once discharged to home, at higher short-term risk of another HF hospitalization if home is in a socioeconomically deprived neighborhood. That helps explain why Blacks in the United States have a much higher 30-day HF readmission risk than Whites, a disparity that only worsens with the level of neighborhood deprivation, a new analysis suggests.
Some systemic and entrenched socioeconomic inequities that health care providers have little sway over, and which disproportionately affect Black individuals, are independent and robust predictors of worsened HF outcomes, Alanna A. Morris, MD, MSc, Emory University, Atlanta, said during her presentation at the virtual annual scientific meeting of the Heart Failure Society of America.
In a retrospective cohort study, Blacks had a 45% higher risk of 30-day readmission than Whites (P < .001) independent of cardiovascular risk factors, clinical history, comorbidities, type and location of hospital, and type of third-party payer coverage. The analysis included more than 30,000 patients with at least one HF hospitalization at centers in a major metropolitan health system.
The racial disparity widened with worsening socioeconomic deprivation of patients’ residential neighborhoods, that is, with rising quartiles of neighborhood scores on the Social Deprivation Index (SDI).
The SDI, based on U.S. census data, incorporates seven socioeconomic criteria, including household income, education level, employment, and prevalence of rented housing and households that are without a car, single parent, or overcrowded.
There was a 4–percentage point gap in adjusted 30-day readmission rate between Blacks and Whites in the lowest quartile that widened to more than 8 points by the third quartile; the disparity in both the second and fourth quartiles was the same, at about 5.5 percentage points.
A remaining question, Dr. Morris said in an interview, is why the outcomes disparity between Blacks and Whites peaks in the third SDI quartile but drops a bit in the fourth quartile representing the most severe neighborhood deprivation.
“Our hypothesis is that when you look at patients who are the poorest, who live in the most deprived neighborhoods, race may be less of a factor,” she said. Socioeconomic deprivation may have similar consequences for everyone “regardless of race, ethnicity, gender, or other demographic characteristics if you live in a neighborhood that’s highly deprived.”
Based on the current study, “it does appear that increased heart failure incident rates are related to living in deprived neighborhoods, and it raises important clinical and public health concerns that must be addressed,” Keith C. Ferdinand, MD, Tulane University, New Orleans, said as invited discussant after the presentation from Dr. Morris.
“These findings could serve as an aid to policy makers, going forward, in terms of allocating resources for primary health care,” he said. “And it’s important looking at these data and other [data] that we target heart failure patients who reside in deprived neighborhoods before, during, and [after] hospitalization.”
Dr. Morris agreed that policy makers are in a better position to attack the racial disparity in HF readmission rates identified in the study. “This is not a problem that can be fixed within the health care system.”
If the reported interpretation is correct, it could add a twist to the public health care debate in the United States, observed session moderator Mandeep R. Mehra, MD, Brigham and Woman’s Hospital in Boston.
That debate, he noted, has often focused on insurability, access to coverage, and the merits or shortcomings of a single-payer system. Yet the study suggests outcomes disparities stemming from neighborhood deprivation will not be corrected by improved access to health insurance, a conclusion he finds “startling,” Dr. Mehra said in an interview.
Some proposed explanations for the disparities by race blame unequal access to health care and or variable health insurance coverage, Dr. Morris observed in an interview. But “that may not fully explain the increased risk that we see.”
Black patients followed at Emory University’s advanced HF clinic still have a higher risk of rehospitalization than Whites. “These are patients who have insurance, who are followed by advanced heart failure providers, who are on equal amounts of guideline-recommended medical therapy – and you still see about a 50% higher risk of rehospitalization,” Dr. Morris said, citing data that isn’t part of the current analysis.
“We can say that these patients are certainly able to access care, because they are able to access our emergency room and be taken care of within the hospital setting,” he said. The study controlled for whether health coverage was by private insurance, Medicare, or Medicaid.
Instead, the current analysis points to socioeconomic and environmental factors as a major source of the disparity in 30-day readmissions, Dr. Morris said.
“When patients are discharged from our healthcare systems, they still go back into environments where they don’t have the same resources as patients who live in higher-SDI neighborhoods,” she explained.
For example, “we tell them to eat low-sodium [foods], exercise, eat fresh fruits and vegetables, take their medicines, but the reality is that certain neighborhoods within the United States – and this is much more true for Blacks – make it very difficult to follow those self-care recommendations.”
The analysis included 16,147 Black patients and 14,483 White patients hospitalized with HF within the Emory Healthcare system at least once from 2010-2018, Dr. Morris reported. Compared with Whites, Blacks were younger (63.5 vs 69.1 years) and less likely to be 65 or older (48.9% vs. 66.5%); more likely to be women (53.5% vs. 42.2%), more likely to reside in deprived census tracts and to have diabetes, hypertension, or chronic kidney disease; and had higher comorbidity scores.
In all, 20.6% of Black and 13.5% of White patients were readmitted for HF within 30 days of discharge, for an unadjusted risk ratio of 1.52 (95% CI, 1.44-1.61).
The RR hardly budged, 1.45 (95% CI, 1.37-1.54, P < .001), after adjustment for age, sex, type of insurance, type of HF, vital signs and laboratory values, medical history (diabetes, hypertension, atrial fibrillation, coronary disease, chronic kidney disease, and chronic pulmonary disease), Charlson Comorbidity Index, discharging medical specialty, and hospital location.
The excess in 30-day HF readmissions for Black, compared with White patients climbed from the first to the third neighborhood SDI quartile, the disparity peaking at 8.2 absolute percentage points.
A major criticism of the Hospital Readmissions Reduction Program component of the Affordable Care Act, Dr. Morris said in a Q&A discussion after her presentation, is that it can hold hospitals “responsible for structural inequalities that exist beyond the health care system,” including neighborhood deprivation.
“But public policy makers have to realize that there are certain patients we take care of who don’t have the resources to carry out the therapeutic lifestyle changes that will allow them to live healthy.”
The HRRP’s 30-day HF readmission metric that steers reimbursement “is penalizing health care systems across the United States” with its premise that hospital performance can be measured by 30-day HF readmission rates, Dr. Morris said in an interview.
“The reality is that some of these patients are going to a postdischarge environment that is inherently high risk, and that many of them are going to come back to us within 30 days,” she said. “We would like to make sure that we don’t put excess penalties on health care systems that take care of disproportionate numbers of African Americans in neighborhoods that have fewer resources.”
Dr. Morris and Dr. Ferdinand have disclosed no relevant financial relationships. Dr. Mehra discloses consulting or serving on an advisory board for Abbott, Medtronic, Janssen, Leviticus, NupulseCV, FineHeart, Portola, Bayer, the Baim Institute for Clinical Research, and Mesoblast.
A version of this article originally appeared on Medscape.com.
Patients receiving even top-notch hospital care for heart failure (HF) are, once discharged to home, at higher short-term risk of another HF hospitalization if home is in a socioeconomically deprived neighborhood. That helps explain why Blacks in the United States have a much higher 30-day HF readmission risk than Whites, a disparity that only worsens with the level of neighborhood deprivation, a new analysis suggests.
Some systemic and entrenched socioeconomic inequities that health care providers have little sway over, and which disproportionately affect Black individuals, are independent and robust predictors of worsened HF outcomes, Alanna A. Morris, MD, MSc, Emory University, Atlanta, said during her presentation at the virtual annual scientific meeting of the Heart Failure Society of America.
In a retrospective cohort study, Blacks had a 45% higher risk of 30-day readmission than Whites (P < .001) independent of cardiovascular risk factors, clinical history, comorbidities, type and location of hospital, and type of third-party payer coverage. The analysis included more than 30,000 patients with at least one HF hospitalization at centers in a major metropolitan health system.
The racial disparity widened with worsening socioeconomic deprivation of patients’ residential neighborhoods, that is, with rising quartiles of neighborhood scores on the Social Deprivation Index (SDI).
The SDI, based on U.S. census data, incorporates seven socioeconomic criteria, including household income, education level, employment, and prevalence of rented housing and households that are without a car, single parent, or overcrowded.
There was a 4–percentage point gap in adjusted 30-day readmission rate between Blacks and Whites in the lowest quartile that widened to more than 8 points by the third quartile; the disparity in both the second and fourth quartiles was the same, at about 5.5 percentage points.
A remaining question, Dr. Morris said in an interview, is why the outcomes disparity between Blacks and Whites peaks in the third SDI quartile but drops a bit in the fourth quartile representing the most severe neighborhood deprivation.
“Our hypothesis is that when you look at patients who are the poorest, who live in the most deprived neighborhoods, race may be less of a factor,” she said. Socioeconomic deprivation may have similar consequences for everyone “regardless of race, ethnicity, gender, or other demographic characteristics if you live in a neighborhood that’s highly deprived.”
Based on the current study, “it does appear that increased heart failure incident rates are related to living in deprived neighborhoods, and it raises important clinical and public health concerns that must be addressed,” Keith C. Ferdinand, MD, Tulane University, New Orleans, said as invited discussant after the presentation from Dr. Morris.
“These findings could serve as an aid to policy makers, going forward, in terms of allocating resources for primary health care,” he said. “And it’s important looking at these data and other [data] that we target heart failure patients who reside in deprived neighborhoods before, during, and [after] hospitalization.”
Dr. Morris agreed that policy makers are in a better position to attack the racial disparity in HF readmission rates identified in the study. “This is not a problem that can be fixed within the health care system.”
If the reported interpretation is correct, it could add a twist to the public health care debate in the United States, observed session moderator Mandeep R. Mehra, MD, Brigham and Woman’s Hospital in Boston.
That debate, he noted, has often focused on insurability, access to coverage, and the merits or shortcomings of a single-payer system. Yet the study suggests outcomes disparities stemming from neighborhood deprivation will not be corrected by improved access to health insurance, a conclusion he finds “startling,” Dr. Mehra said in an interview.
Some proposed explanations for the disparities by race blame unequal access to health care and or variable health insurance coverage, Dr. Morris observed in an interview. But “that may not fully explain the increased risk that we see.”
Black patients followed at Emory University’s advanced HF clinic still have a higher risk of rehospitalization than Whites. “These are patients who have insurance, who are followed by advanced heart failure providers, who are on equal amounts of guideline-recommended medical therapy – and you still see about a 50% higher risk of rehospitalization,” Dr. Morris said, citing data that isn’t part of the current analysis.
“We can say that these patients are certainly able to access care, because they are able to access our emergency room and be taken care of within the hospital setting,” he said. The study controlled for whether health coverage was by private insurance, Medicare, or Medicaid.
Instead, the current analysis points to socioeconomic and environmental factors as a major source of the disparity in 30-day readmissions, Dr. Morris said.
“When patients are discharged from our healthcare systems, they still go back into environments where they don’t have the same resources as patients who live in higher-SDI neighborhoods,” she explained.
For example, “we tell them to eat low-sodium [foods], exercise, eat fresh fruits and vegetables, take their medicines, but the reality is that certain neighborhoods within the United States – and this is much more true for Blacks – make it very difficult to follow those self-care recommendations.”
The analysis included 16,147 Black patients and 14,483 White patients hospitalized with HF within the Emory Healthcare system at least once from 2010-2018, Dr. Morris reported. Compared with Whites, Blacks were younger (63.5 vs 69.1 years) and less likely to be 65 or older (48.9% vs. 66.5%); more likely to be women (53.5% vs. 42.2%), more likely to reside in deprived census tracts and to have diabetes, hypertension, or chronic kidney disease; and had higher comorbidity scores.
In all, 20.6% of Black and 13.5% of White patients were readmitted for HF within 30 days of discharge, for an unadjusted risk ratio of 1.52 (95% CI, 1.44-1.61).
The RR hardly budged, 1.45 (95% CI, 1.37-1.54, P < .001), after adjustment for age, sex, type of insurance, type of HF, vital signs and laboratory values, medical history (diabetes, hypertension, atrial fibrillation, coronary disease, chronic kidney disease, and chronic pulmonary disease), Charlson Comorbidity Index, discharging medical specialty, and hospital location.
The excess in 30-day HF readmissions for Black, compared with White patients climbed from the first to the third neighborhood SDI quartile, the disparity peaking at 8.2 absolute percentage points.
A major criticism of the Hospital Readmissions Reduction Program component of the Affordable Care Act, Dr. Morris said in a Q&A discussion after her presentation, is that it can hold hospitals “responsible for structural inequalities that exist beyond the health care system,” including neighborhood deprivation.
“But public policy makers have to realize that there are certain patients we take care of who don’t have the resources to carry out the therapeutic lifestyle changes that will allow them to live healthy.”
The HRRP’s 30-day HF readmission metric that steers reimbursement “is penalizing health care systems across the United States” with its premise that hospital performance can be measured by 30-day HF readmission rates, Dr. Morris said in an interview.
“The reality is that some of these patients are going to a postdischarge environment that is inherently high risk, and that many of them are going to come back to us within 30 days,” she said. “We would like to make sure that we don’t put excess penalties on health care systems that take care of disproportionate numbers of African Americans in neighborhoods that have fewer resources.”
Dr. Morris and Dr. Ferdinand have disclosed no relevant financial relationships. Dr. Mehra discloses consulting or serving on an advisory board for Abbott, Medtronic, Janssen, Leviticus, NupulseCV, FineHeart, Portola, Bayer, the Baim Institute for Clinical Research, and Mesoblast.
A version of this article originally appeared on Medscape.com.
Patients receiving even top-notch hospital care for heart failure (HF) are, once discharged to home, at higher short-term risk of another HF hospitalization if home is in a socioeconomically deprived neighborhood. That helps explain why Blacks in the United States have a much higher 30-day HF readmission risk than Whites, a disparity that only worsens with the level of neighborhood deprivation, a new analysis suggests.
Some systemic and entrenched socioeconomic inequities that health care providers have little sway over, and which disproportionately affect Black individuals, are independent and robust predictors of worsened HF outcomes, Alanna A. Morris, MD, MSc, Emory University, Atlanta, said during her presentation at the virtual annual scientific meeting of the Heart Failure Society of America.
In a retrospective cohort study, Blacks had a 45% higher risk of 30-day readmission than Whites (P < .001) independent of cardiovascular risk factors, clinical history, comorbidities, type and location of hospital, and type of third-party payer coverage. The analysis included more than 30,000 patients with at least one HF hospitalization at centers in a major metropolitan health system.
The racial disparity widened with worsening socioeconomic deprivation of patients’ residential neighborhoods, that is, with rising quartiles of neighborhood scores on the Social Deprivation Index (SDI).
The SDI, based on U.S. census data, incorporates seven socioeconomic criteria, including household income, education level, employment, and prevalence of rented housing and households that are without a car, single parent, or overcrowded.
There was a 4–percentage point gap in adjusted 30-day readmission rate between Blacks and Whites in the lowest quartile that widened to more than 8 points by the third quartile; the disparity in both the second and fourth quartiles was the same, at about 5.5 percentage points.
A remaining question, Dr. Morris said in an interview, is why the outcomes disparity between Blacks and Whites peaks in the third SDI quartile but drops a bit in the fourth quartile representing the most severe neighborhood deprivation.
“Our hypothesis is that when you look at patients who are the poorest, who live in the most deprived neighborhoods, race may be less of a factor,” she said. Socioeconomic deprivation may have similar consequences for everyone “regardless of race, ethnicity, gender, or other demographic characteristics if you live in a neighborhood that’s highly deprived.”
Based on the current study, “it does appear that increased heart failure incident rates are related to living in deprived neighborhoods, and it raises important clinical and public health concerns that must be addressed,” Keith C. Ferdinand, MD, Tulane University, New Orleans, said as invited discussant after the presentation from Dr. Morris.
“These findings could serve as an aid to policy makers, going forward, in terms of allocating resources for primary health care,” he said. “And it’s important looking at these data and other [data] that we target heart failure patients who reside in deprived neighborhoods before, during, and [after] hospitalization.”
Dr. Morris agreed that policy makers are in a better position to attack the racial disparity in HF readmission rates identified in the study. “This is not a problem that can be fixed within the health care system.”
If the reported interpretation is correct, it could add a twist to the public health care debate in the United States, observed session moderator Mandeep R. Mehra, MD, Brigham and Woman’s Hospital in Boston.
That debate, he noted, has often focused on insurability, access to coverage, and the merits or shortcomings of a single-payer system. Yet the study suggests outcomes disparities stemming from neighborhood deprivation will not be corrected by improved access to health insurance, a conclusion he finds “startling,” Dr. Mehra said in an interview.
Some proposed explanations for the disparities by race blame unequal access to health care and or variable health insurance coverage, Dr. Morris observed in an interview. But “that may not fully explain the increased risk that we see.”
Black patients followed at Emory University’s advanced HF clinic still have a higher risk of rehospitalization than Whites. “These are patients who have insurance, who are followed by advanced heart failure providers, who are on equal amounts of guideline-recommended medical therapy – and you still see about a 50% higher risk of rehospitalization,” Dr. Morris said, citing data that isn’t part of the current analysis.
“We can say that these patients are certainly able to access care, because they are able to access our emergency room and be taken care of within the hospital setting,” he said. The study controlled for whether health coverage was by private insurance, Medicare, or Medicaid.
Instead, the current analysis points to socioeconomic and environmental factors as a major source of the disparity in 30-day readmissions, Dr. Morris said.
“When patients are discharged from our healthcare systems, they still go back into environments where they don’t have the same resources as patients who live in higher-SDI neighborhoods,” she explained.
For example, “we tell them to eat low-sodium [foods], exercise, eat fresh fruits and vegetables, take their medicines, but the reality is that certain neighborhoods within the United States – and this is much more true for Blacks – make it very difficult to follow those self-care recommendations.”
The analysis included 16,147 Black patients and 14,483 White patients hospitalized with HF within the Emory Healthcare system at least once from 2010-2018, Dr. Morris reported. Compared with Whites, Blacks were younger (63.5 vs 69.1 years) and less likely to be 65 or older (48.9% vs. 66.5%); more likely to be women (53.5% vs. 42.2%), more likely to reside in deprived census tracts and to have diabetes, hypertension, or chronic kidney disease; and had higher comorbidity scores.
In all, 20.6% of Black and 13.5% of White patients were readmitted for HF within 30 days of discharge, for an unadjusted risk ratio of 1.52 (95% CI, 1.44-1.61).
The RR hardly budged, 1.45 (95% CI, 1.37-1.54, P < .001), after adjustment for age, sex, type of insurance, type of HF, vital signs and laboratory values, medical history (diabetes, hypertension, atrial fibrillation, coronary disease, chronic kidney disease, and chronic pulmonary disease), Charlson Comorbidity Index, discharging medical specialty, and hospital location.
The excess in 30-day HF readmissions for Black, compared with White patients climbed from the first to the third neighborhood SDI quartile, the disparity peaking at 8.2 absolute percentage points.
A major criticism of the Hospital Readmissions Reduction Program component of the Affordable Care Act, Dr. Morris said in a Q&A discussion after her presentation, is that it can hold hospitals “responsible for structural inequalities that exist beyond the health care system,” including neighborhood deprivation.
“But public policy makers have to realize that there are certain patients we take care of who don’t have the resources to carry out the therapeutic lifestyle changes that will allow them to live healthy.”
The HRRP’s 30-day HF readmission metric that steers reimbursement “is penalizing health care systems across the United States” with its premise that hospital performance can be measured by 30-day HF readmission rates, Dr. Morris said in an interview.
“The reality is that some of these patients are going to a postdischarge environment that is inherently high risk, and that many of them are going to come back to us within 30 days,” she said. “We would like to make sure that we don’t put excess penalties on health care systems that take care of disproportionate numbers of African Americans in neighborhoods that have fewer resources.”
Dr. Morris and Dr. Ferdinand have disclosed no relevant financial relationships. Dr. Mehra discloses consulting or serving on an advisory board for Abbott, Medtronic, Janssen, Leviticus, NupulseCV, FineHeart, Portola, Bayer, the Baim Institute for Clinical Research, and Mesoblast.
A version of this article originally appeared on Medscape.com.
EMPEROR-Reduced: Empagliflozin’s HFrEF benefit holds steady on top of sacubitril/valsartan
The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.
“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.
EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).
Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).
The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).
For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.
“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.
Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.
Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.
EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.
The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.
“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.
EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).
Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).
The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).
For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.
“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.
Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.
Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.
EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.
The latest drug shown to benefit patients with heart failure with reduced ejection fraction, the SGLT2 inhibitor empagliflozin, works just as well when added on top of a second major agent used to treat these patients, the renin-angiotensin system–inhibiting combination of sacubitril/valsartan, based on a post-hoc analysis of data from the EMPEROR-Reduced trial.
“When there are two very effective treatments, it’s common for people to ask: Which should I use?’ The goal of my presentation was to emphasize that the answer is both. We shouldn’t choose between neprilysin inhibition [sacubitril inhibits the enzyme neprilysin] and SGLT2 [sodium-glucose transporter 2] inhibition; we should use both,” said Milton Packer, MD at the virtual annual meeting of the Heart Failure Society of America.
EMPEROR-Reduced had the primary goal of testing the safety and efficacy of the SGLT2 inhibitor empagliflozin (Jardiance) in patients with heart failure with reduced ejection fraction (HFrEF). The results showed that adding this drug on top of standard treatments led to a 25% relative cut in the study’s primary efficacy endpoint, compared with placebo, and had this effect regardless of whether or not patients also had type 2 diabetes (N Engl J Med. 2020 Aug 29. doi: 10.1056/NEJMoa2022190).
Among the 3,730 patients enrolled in the trial, 727 (19%) were on sacubitril/valsartan (Entresto) at entry, which gave Dr. Packer the data to perform the analysis he reported. He presented the study’s three major endpoints as well as a quality of life analysis that compared the performance of empagliflozin in patients who were on sacubitril/valsartan at baseline with the other study patients, who were either on a different type of renin-angiotensin system (RAS) blocker (roughly 70% of study patients) or on no RAS inhibition (about 10% of patients).
The results showed no statistically significant indication of an interaction, suggesting that patients with sacubitril/valsartan on board had just as good response to empagliflozin as patients who were not on this combination. The landmark PARADIGM-HF trial proved several years ago that treatment of HFrEF patients with sacubitril/valsartan led to significantly better outcomes than did treatment with another form of RAS inhibition (N Engl J Med. 2014 Sep 11;371[11]:993-1004).
For example, EMPEROR-Reduced’s primary endpoint, the combined rate of cardiovascular death or hospitalization for heart failure, fell by 36% relative to placebo in patients who received empagliflozin on top of sacubitril/valsartan, and by 23% relative to placebo among the remaining patients who received empagliflozin on top of a different type of RAS inhibitor drug or no RAS inhibition.
“Background treatment with sacubitril/valsartan did not diminish, and may have enhanced the efficacy of empagliflozin,” concluded Dr. Packer. Further analyses also showed that concurrent sacubitril/valsartan had no statistically significant impact on empagliflozin’s ability to reduce the rate of total heart failure hospitalizations, or to slow progressive loss of renal function, compared with placebo. The fourth efficacy analysis Dr. Packer presented showed that empagliflozin was also as effective for improving a quality-of-life measure in patients compared with placebo regardless of the type of RAS inhibition used. For all four outcomes, the point-estimate of empagliflozin’s benefit was higher when used along with sacubitril/valsartan.
Brian L. Claggett, PhD, a biostatistician at Brigham and Women’s Hospital and Harvard Medical School in Boston, designated discussant for the report, disagreed with Dr. Packer’s suggestion that the efficacy of empagliflozin may have been greater when administered against a background of sacubitril/valsartan. From a statistical perspective, there is no basis to suggest that patients did better when they were on both drugs, he cautioned. But Dr. Claggett acknowledged that the new analyses suggested that empagliflozin’s benefit wasn’t compromised by concurrent sacubitril/valsartan use. He also highlighted the value of more fully documenting the safety and efficacy of a new drug when used as part of “comprehensive therapy” with the established drugs that a patient may concurrently receive.
Dr. Packer also presented several measures of treatment safety that all showed similar rates of adverse effects between the empagliflozin and placebo recipients regardless of background RAS inhibition. A notable finding was that the incidence of hypokalemia was 5.9% in patients on empagliflozin and sacubitril/valsartan and 7.5% among patients on empagliflozin and a different type of RAS inhibition.
EMPEROR-Reduced was funded by Boehringer Ingelheim and Eli Lilly, the companies that market empagliflozin. Dr. Packer has received personal fees from Boehringer Ingelheim and Eli Lilly and from several other companies. Dr. Claggett has been a consultant to Amgen, AO Biome, Biogen, Corvia, Myokardia, and Novartis.
FROM HFSA 2020
Music’s charms may soothe heart failure’s effects
Music listening and singing each showed early, promising evidence for producing cardiovascular benefits, part of a burgeoning area of research that is exploring and documenting ways to effectively use music to improve health.
A study run at four centers in Italy randomized 159 patients with heart failure, primarily New York Heart Association class I or II disease, to either a daily regimen of at least 30 minutes spent listening to music daily or to a control group that received usual care with no music prescription. After 3 months, the 82 patients in the daily music-listening group had a statistically significant improvement in their Minnesota Living with Heart Failure Questionnaire scores, compared with 77 controls for the study’s primary outcome measure. The results also showed significant benefits, compared with placebo, for other, secondary efficacy measures including improvements in anxiety, depression, sleep quality, and cognition.
Although the results are considered preliminary, they drew significant attention when published in July 2020 (J Card Fail. 2020 Jul 1;26[7]:541-9), where it was accompanied by two editorials in the same issue as well as an editor’s statement. All these commentators as well as other experts interested in music as medicine gathered to further discuss the topic during a panel session at the virtual annual meeting of the Heart Failure Society of America.
Music as a calming influence
The source of the primary benefits seen in this Italian study likely involved “emotional, psychological, and relaxation,” suggested Jerome L. Fleg, MD, program officer for clinical cardiovascular disease at the National Heart, Lung, and Blood Institute in Bethesda, Md. Researchers had used calming potential as a major criterion when selecting the 80 classical pieces that the heart failure patients in the intervention arm of the study could shuffle on their play lists.
“The tempo/rhythm was set up in a range between 60 and 80 beats per minute, because this range mirrors the human heart rate and facilitates relaxation,” the investigators said in their published report. Unfortunately, noted Dr. Fleg, the study lacked physiologic and biomarker measurements that could have provided objective evidence of effects from music. And the study failed to include a control arm of patients instructed to spend 30 minutes a day resting and relaxing without instruction to listen to music, he noted.
Dr. Fleg had authored one of the July editorials, where he said “It is hoped that findings from these studies and others can expand the scientific evidence for music-based interventions and bring these therapies into clinical practice. The current study from Burrai et al. is a positive step in this direction for patients with heart failure.” (J Card Fail. 2020 Jul 1;26[7]: 550-1). What’s needed now, he added during the virtual session, are “more objective data” to better and more comprehensively document the benefits from a music-based intervention in patients with heart failure.
An add-on to standard care
The findings in heart failure patients follows a growing literature that’s shown music can generate a restful state by doing things like activating autonomic parasympathetic outflow while dampening sympathetic outflow. This produces moderation in mood and emotion as well as depressed heart rate, lowered blood pressure, and slowed respiration, commented Emmeline Edwards, PhD director of the division of extramural research of the National Center for Complementary and Integrative Health in Bethesda, Md. Music also seems able to stimulate higher-order brain regions that can result in reduced psychological stress, anxiety, and depression.
“It’s a promising protective intervention to add to standard care for cardiac patients,” Dr. Edwards said during the virtual session. “Music is part of the toolbox for managing symptoms and improving health and well-being.”
“Music is not a substitute for standard therapy, but could add to it,” declared Dr. Fleg.
The already-established intervention known as music therapy has identified music’s ability to modulate breathing as an important mediator of music’s effect.
“Breathing is one of the few physiological processes that can be voluntarily controlled making it a viable target for intervention,” noted opera soprano Renée Fleming and Sheri L. Robb, PhD, in the second editorial that accompanied the Italian heart failure report (J Card Fail. 2020 Jul 1;26[7]:552-4). The music-listening intervention “may have had more effect if they had used compositional features [of the music] to teach patients how to structure their breathing,” said Dr. Robb, a music therapist at Indiana University–Purdue University Indianapolis, during the virtual session.
Another variable to consider is the type of music. “What is the emotional response to the music, and how does that affect heart rate,” wondered Dr. Robb, a professor at the Indiana University School of Nursing in Indianapolis.
Music as exercise
The division that Dr. Edwards directs recently funded a pilot study that assessed the feasibility of using music to stimulate activity and improve breathing another way, by repurposing singing as a novel form of rehabilitative exercise.
The pilot study enrolled patients with coronary disease into a randomized study that tested whether a 14-minute session of supervised singing could produce acute improvement in vascular function, “a biomarker for the risk of future cardiovascular disease events,” explained Jacqueline P. Kulinski, MD, a preventive cardiologist at the Medical College of Wisconsin in Milwaukee. Dr. Kulinski did not report details of her yet-unpublished study, but said that her initial findings held promise for developing musical activities such as singing as a novel way to stimulate therapeutic physical activity in patients with heart disease.
“It’s exciting to see this signal” of benefit. “I envision music therapy as a part of cardiac rehabilitation, or an alternative for patients who can’t participate in traditional rehab,” Dr. Kulinski said during the virtual session. “I think of singing as a physical activity, as exercise, and using this exercise as medicine.”
Harmonizing with the NIH
“Singing is like swimming: You need to hold your breath,” agreed Ms. Fleming, who participated on the virtual panel and has spearheaded a collaboration between the National Institutes of Health and the Kennedy Center for the Performing Arts, the Sound Health Initiative, that’s coordinating research into the connections between music and health. Ms. Fleming helped launch the Sound Health Initiative in 2017 by coauthoring a JAMA article with the NIH director that spelled out the rationale and goals of the project (JAMA. 2017 Jun 27;317[24]:2470-1), and by launching a lecture tour on the topic in a presentation she calls Music and the Mind.
Ms. Fleming has given her talk in more than 30 locations worldwide, and she’s found that “audiences love” the combination of neuroscience and music that her talks cover, she said. Her lectures highlight that, in addition to cardiovascular disease, the potential for music therapy and related interventions has been shown in patients with disorders that include autism, psychosis, pain, Parkinson’s disease, Alzheimer’s disease, and epilepsy.
The research highlighted in the session “opens new doors to prevention and treatment strategies using music for patients with heart failure and cardiovascular disease,” summed up Biykem Bozkurt, MD, professor of medicine at the Baylor College of Medicine in Houston and president of the Heart Failure Society of America, who helped organize the virtual session.
Dr. Fleg, Dr. Edwards, Dr. Robb, Dr Kulinski, Ms. Fleming, and Dr. Bozkurt had no relevant financial disclosures.
Music listening and singing each showed early, promising evidence for producing cardiovascular benefits, part of a burgeoning area of research that is exploring and documenting ways to effectively use music to improve health.
A study run at four centers in Italy randomized 159 patients with heart failure, primarily New York Heart Association class I or II disease, to either a daily regimen of at least 30 minutes spent listening to music daily or to a control group that received usual care with no music prescription. After 3 months, the 82 patients in the daily music-listening group had a statistically significant improvement in their Minnesota Living with Heart Failure Questionnaire scores, compared with 77 controls for the study’s primary outcome measure. The results also showed significant benefits, compared with placebo, for other, secondary efficacy measures including improvements in anxiety, depression, sleep quality, and cognition.
Although the results are considered preliminary, they drew significant attention when published in July 2020 (J Card Fail. 2020 Jul 1;26[7]:541-9), where it was accompanied by two editorials in the same issue as well as an editor’s statement. All these commentators as well as other experts interested in music as medicine gathered to further discuss the topic during a panel session at the virtual annual meeting of the Heart Failure Society of America.
Music as a calming influence
The source of the primary benefits seen in this Italian study likely involved “emotional, psychological, and relaxation,” suggested Jerome L. Fleg, MD, program officer for clinical cardiovascular disease at the National Heart, Lung, and Blood Institute in Bethesda, Md. Researchers had used calming potential as a major criterion when selecting the 80 classical pieces that the heart failure patients in the intervention arm of the study could shuffle on their play lists.
“The tempo/rhythm was set up in a range between 60 and 80 beats per minute, because this range mirrors the human heart rate and facilitates relaxation,” the investigators said in their published report. Unfortunately, noted Dr. Fleg, the study lacked physiologic and biomarker measurements that could have provided objective evidence of effects from music. And the study failed to include a control arm of patients instructed to spend 30 minutes a day resting and relaxing without instruction to listen to music, he noted.
Dr. Fleg had authored one of the July editorials, where he said “It is hoped that findings from these studies and others can expand the scientific evidence for music-based interventions and bring these therapies into clinical practice. The current study from Burrai et al. is a positive step in this direction for patients with heart failure.” (J Card Fail. 2020 Jul 1;26[7]: 550-1). What’s needed now, he added during the virtual session, are “more objective data” to better and more comprehensively document the benefits from a music-based intervention in patients with heart failure.
An add-on to standard care
The findings in heart failure patients follows a growing literature that’s shown music can generate a restful state by doing things like activating autonomic parasympathetic outflow while dampening sympathetic outflow. This produces moderation in mood and emotion as well as depressed heart rate, lowered blood pressure, and slowed respiration, commented Emmeline Edwards, PhD director of the division of extramural research of the National Center for Complementary and Integrative Health in Bethesda, Md. Music also seems able to stimulate higher-order brain regions that can result in reduced psychological stress, anxiety, and depression.
“It’s a promising protective intervention to add to standard care for cardiac patients,” Dr. Edwards said during the virtual session. “Music is part of the toolbox for managing symptoms and improving health and well-being.”
“Music is not a substitute for standard therapy, but could add to it,” declared Dr. Fleg.
The already-established intervention known as music therapy has identified music’s ability to modulate breathing as an important mediator of music’s effect.
“Breathing is one of the few physiological processes that can be voluntarily controlled making it a viable target for intervention,” noted opera soprano Renée Fleming and Sheri L. Robb, PhD, in the second editorial that accompanied the Italian heart failure report (J Card Fail. 2020 Jul 1;26[7]:552-4). The music-listening intervention “may have had more effect if they had used compositional features [of the music] to teach patients how to structure their breathing,” said Dr. Robb, a music therapist at Indiana University–Purdue University Indianapolis, during the virtual session.
Another variable to consider is the type of music. “What is the emotional response to the music, and how does that affect heart rate,” wondered Dr. Robb, a professor at the Indiana University School of Nursing in Indianapolis.
Music as exercise
The division that Dr. Edwards directs recently funded a pilot study that assessed the feasibility of using music to stimulate activity and improve breathing another way, by repurposing singing as a novel form of rehabilitative exercise.
The pilot study enrolled patients with coronary disease into a randomized study that tested whether a 14-minute session of supervised singing could produce acute improvement in vascular function, “a biomarker for the risk of future cardiovascular disease events,” explained Jacqueline P. Kulinski, MD, a preventive cardiologist at the Medical College of Wisconsin in Milwaukee. Dr. Kulinski did not report details of her yet-unpublished study, but said that her initial findings held promise for developing musical activities such as singing as a novel way to stimulate therapeutic physical activity in patients with heart disease.
“It’s exciting to see this signal” of benefit. “I envision music therapy as a part of cardiac rehabilitation, or an alternative for patients who can’t participate in traditional rehab,” Dr. Kulinski said during the virtual session. “I think of singing as a physical activity, as exercise, and using this exercise as medicine.”
Harmonizing with the NIH
“Singing is like swimming: You need to hold your breath,” agreed Ms. Fleming, who participated on the virtual panel and has spearheaded a collaboration between the National Institutes of Health and the Kennedy Center for the Performing Arts, the Sound Health Initiative, that’s coordinating research into the connections between music and health. Ms. Fleming helped launch the Sound Health Initiative in 2017 by coauthoring a JAMA article with the NIH director that spelled out the rationale and goals of the project (JAMA. 2017 Jun 27;317[24]:2470-1), and by launching a lecture tour on the topic in a presentation she calls Music and the Mind.
Ms. Fleming has given her talk in more than 30 locations worldwide, and she’s found that “audiences love” the combination of neuroscience and music that her talks cover, she said. Her lectures highlight that, in addition to cardiovascular disease, the potential for music therapy and related interventions has been shown in patients with disorders that include autism, psychosis, pain, Parkinson’s disease, Alzheimer’s disease, and epilepsy.
The research highlighted in the session “opens new doors to prevention and treatment strategies using music for patients with heart failure and cardiovascular disease,” summed up Biykem Bozkurt, MD, professor of medicine at the Baylor College of Medicine in Houston and president of the Heart Failure Society of America, who helped organize the virtual session.
Dr. Fleg, Dr. Edwards, Dr. Robb, Dr Kulinski, Ms. Fleming, and Dr. Bozkurt had no relevant financial disclosures.
Music listening and singing each showed early, promising evidence for producing cardiovascular benefits, part of a burgeoning area of research that is exploring and documenting ways to effectively use music to improve health.
A study run at four centers in Italy randomized 159 patients with heart failure, primarily New York Heart Association class I or II disease, to either a daily regimen of at least 30 minutes spent listening to music daily or to a control group that received usual care with no music prescription. After 3 months, the 82 patients in the daily music-listening group had a statistically significant improvement in their Minnesota Living with Heart Failure Questionnaire scores, compared with 77 controls for the study’s primary outcome measure. The results also showed significant benefits, compared with placebo, for other, secondary efficacy measures including improvements in anxiety, depression, sleep quality, and cognition.
Although the results are considered preliminary, they drew significant attention when published in July 2020 (J Card Fail. 2020 Jul 1;26[7]:541-9), where it was accompanied by two editorials in the same issue as well as an editor’s statement. All these commentators as well as other experts interested in music as medicine gathered to further discuss the topic during a panel session at the virtual annual meeting of the Heart Failure Society of America.
Music as a calming influence
The source of the primary benefits seen in this Italian study likely involved “emotional, psychological, and relaxation,” suggested Jerome L. Fleg, MD, program officer for clinical cardiovascular disease at the National Heart, Lung, and Blood Institute in Bethesda, Md. Researchers had used calming potential as a major criterion when selecting the 80 classical pieces that the heart failure patients in the intervention arm of the study could shuffle on their play lists.
“The tempo/rhythm was set up in a range between 60 and 80 beats per minute, because this range mirrors the human heart rate and facilitates relaxation,” the investigators said in their published report. Unfortunately, noted Dr. Fleg, the study lacked physiologic and biomarker measurements that could have provided objective evidence of effects from music. And the study failed to include a control arm of patients instructed to spend 30 minutes a day resting and relaxing without instruction to listen to music, he noted.
Dr. Fleg had authored one of the July editorials, where he said “It is hoped that findings from these studies and others can expand the scientific evidence for music-based interventions and bring these therapies into clinical practice. The current study from Burrai et al. is a positive step in this direction for patients with heart failure.” (J Card Fail. 2020 Jul 1;26[7]: 550-1). What’s needed now, he added during the virtual session, are “more objective data” to better and more comprehensively document the benefits from a music-based intervention in patients with heart failure.
An add-on to standard care
The findings in heart failure patients follows a growing literature that’s shown music can generate a restful state by doing things like activating autonomic parasympathetic outflow while dampening sympathetic outflow. This produces moderation in mood and emotion as well as depressed heart rate, lowered blood pressure, and slowed respiration, commented Emmeline Edwards, PhD director of the division of extramural research of the National Center for Complementary and Integrative Health in Bethesda, Md. Music also seems able to stimulate higher-order brain regions that can result in reduced psychological stress, anxiety, and depression.
“It’s a promising protective intervention to add to standard care for cardiac patients,” Dr. Edwards said during the virtual session. “Music is part of the toolbox for managing symptoms and improving health and well-being.”
“Music is not a substitute for standard therapy, but could add to it,” declared Dr. Fleg.
The already-established intervention known as music therapy has identified music’s ability to modulate breathing as an important mediator of music’s effect.
“Breathing is one of the few physiological processes that can be voluntarily controlled making it a viable target for intervention,” noted opera soprano Renée Fleming and Sheri L. Robb, PhD, in the second editorial that accompanied the Italian heart failure report (J Card Fail. 2020 Jul 1;26[7]:552-4). The music-listening intervention “may have had more effect if they had used compositional features [of the music] to teach patients how to structure their breathing,” said Dr. Robb, a music therapist at Indiana University–Purdue University Indianapolis, during the virtual session.
Another variable to consider is the type of music. “What is the emotional response to the music, and how does that affect heart rate,” wondered Dr. Robb, a professor at the Indiana University School of Nursing in Indianapolis.
Music as exercise
The division that Dr. Edwards directs recently funded a pilot study that assessed the feasibility of using music to stimulate activity and improve breathing another way, by repurposing singing as a novel form of rehabilitative exercise.
The pilot study enrolled patients with coronary disease into a randomized study that tested whether a 14-minute session of supervised singing could produce acute improvement in vascular function, “a biomarker for the risk of future cardiovascular disease events,” explained Jacqueline P. Kulinski, MD, a preventive cardiologist at the Medical College of Wisconsin in Milwaukee. Dr. Kulinski did not report details of her yet-unpublished study, but said that her initial findings held promise for developing musical activities such as singing as a novel way to stimulate therapeutic physical activity in patients with heart disease.
“It’s exciting to see this signal” of benefit. “I envision music therapy as a part of cardiac rehabilitation, or an alternative for patients who can’t participate in traditional rehab,” Dr. Kulinski said during the virtual session. “I think of singing as a physical activity, as exercise, and using this exercise as medicine.”
Harmonizing with the NIH
“Singing is like swimming: You need to hold your breath,” agreed Ms. Fleming, who participated on the virtual panel and has spearheaded a collaboration between the National Institutes of Health and the Kennedy Center for the Performing Arts, the Sound Health Initiative, that’s coordinating research into the connections between music and health. Ms. Fleming helped launch the Sound Health Initiative in 2017 by coauthoring a JAMA article with the NIH director that spelled out the rationale and goals of the project (JAMA. 2017 Jun 27;317[24]:2470-1), and by launching a lecture tour on the topic in a presentation she calls Music and the Mind.
Ms. Fleming has given her talk in more than 30 locations worldwide, and she’s found that “audiences love” the combination of neuroscience and music that her talks cover, she said. Her lectures highlight that, in addition to cardiovascular disease, the potential for music therapy and related interventions has been shown in patients with disorders that include autism, psychosis, pain, Parkinson’s disease, Alzheimer’s disease, and epilepsy.
The research highlighted in the session “opens new doors to prevention and treatment strategies using music for patients with heart failure and cardiovascular disease,” summed up Biykem Bozkurt, MD, professor of medicine at the Baylor College of Medicine in Houston and president of the Heart Failure Society of America, who helped organize the virtual session.
Dr. Fleg, Dr. Edwards, Dr. Robb, Dr Kulinski, Ms. Fleming, and Dr. Bozkurt had no relevant financial disclosures.
Dapagliflozin’s CKD performance sends heart failure messages
The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.
Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
What DAPA-CKD means for heart failure
The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.
Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.
The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”
The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m2; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m2.
“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
DAPA-CKD grows the pool of eligible heart failure patients
A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.
Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.
In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
New DAPA-HF results show no drug, device interactions
In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.
Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.
DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.
The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.
Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
What DAPA-CKD means for heart failure
The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.
Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.
The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”
The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m2; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m2.
“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
DAPA-CKD grows the pool of eligible heart failure patients
A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.
Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.
In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
New DAPA-HF results show no drug, device interactions
In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.
Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.
DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.
The DAPA-CKD trial results, which proved dapagliflozin’s efficacy for slowing chronic kidney disease progression in patients selected for signs of worsening renal function, also have important messages for cardiologists, especially heart failure physicians.
Those messages include findings that were “consistent” with the results of the earlier DAPA-HF trial, which tested the same sodium-glucose transporter 2 (SGLT2) inhibitor in patients selected for having heart failure with reduced ejection fraction (HFrEF). In addition, a specific action of dapagliflozin (Farxiga) on the patients in DAPA-CKD, which enrolled patients based on markers of chronic kidney disease (CKD), was prevention of first and recurrent heart failure hospitalizations, John J.V. McMurray, MD, said at the virtual annual scientific meeting of the Heart Failure Society of America, further highlighting the role that dapagliflozin has in reducing both heart failure and renal events.
What DAPA-CKD means for heart failure
The main findings from the DAPA-CKD trial, published in September in the New England Journal of Medicine, included as a secondary outcome the combined rate of death from cardiovascular causes or hospitalization for heart failure (HHF). Treatment with dapagliflozin linked with a significant 29% relative reduction in this endpoint, compared with placebo-treated patients. At the HFSA meeting, Dr. McMurray reported for the first time the specific HHF numbers, a prespecified secondary endpoint for the study.
Patients on dapagliflozin had 37 total HHF events (1.7%), including both first-time and subsequent hospitalizations, while patients in the placebo arm had a total of 71 HHF events (3.3%) during the study’s median 2.4 years of follow-up, an absolute reduction of 1.6% that translated into a relative risk reduction of 49%.
The HHF findings from DAPA-CKD importantly showed that SGLT2 inhibition in patients with signs of renal dysfunction “will not only slow progression of kidney disease but will also reduce the risk of developing heart failure, crucially in patients with or without type 2 diabetes,” explained Dr. McMurray in an interview. “Cardiologists often consult in the kidney wards and advise on management of patients with chronic kidney disease, even those without heart failure.”
The DAPA-CKD findings carry another important message for heart failure management regarding the minimum level of renal function a patient can have and still safely receive dapagliflozin or possibly another agent from the same SGLT2 inhibitor class. In DAPA-CKD, patients safely received dapagliflozin with an estimated glomerular filtration rate (eGFR) as low as 25 mL/min per 1.73 m2; 14% of enrolled patients had an eGFR of 25-29 mL/min per 1.73 m2.
“Typically, about 40%-50% of patients with heart failure have chronic kidney disease,” which makes this safety finding important to clinicians who care for heart failure patients, but it’s also important for any patient who might be a candidate for dapagliflozin or another drug from its class. “We had no strong evidence before this trial that SGLT2 inhibition could reduce hard renal endpoints,” specifically need for chronic dialysis, renal transplant, or renal death, “in patients with or without diabetes,” Dr. McMurray said.
DAPA-CKD grows the pool of eligible heart failure patients
A further consequence of the DAPA-CKD findings is that when, as expected, regulatory bodies give dapagliflozin an indication for treating the types of CKD patients enrolled in the trial, it will functionally expand this treatment to an even larger swath of heart failure patients who currently don’t qualify for this treatment, specifically patients with CKD who also have heart failure with preserved ejection fraction (HFpEF). On Oct. 2, 2020, the Food and Drug Administration fast-tracked dapagliflozin for the CKD indication by granting it Breakthrough Therapy Designation based on the DAPA-CKD results.
Results first reported in 2019 from the DAPA-HF trial led to dapagliflozin receiving a labeled indication for treating HFrEF, the types of heart failure patients enrolled in the trial. Direct evidence on the efficacy of SGLT2 inhibitors for patients with HFpEF will not be available until results from a few trials now in progress become available during the next 12 months.
In the meantime, nearly half of patients with HFpEF also have CKD, noted Dr. McMurray, and another large portion of HFpEF patients have type 2 diabetes and hence qualify for SGLT2 inhibitor treatment that way. “Obviously, we would like to know specifically about heart failure outcomes in patients with HFpEF” on SGLT2 inhibitor treatment, he acknowledged. But the recent approval of dapagliflozin for patients with HFrEF and the likely indication coming soon for treating CKD means that the number of patients with heart failure who are not eligible for SGLT2 inhibitor treatment is dwindling down to some extent.
New DAPA-HF results show no drug, device interactions
In a separate session at the HFSA virtual meeting, Dr. McMurray and several collaborators on the DAPA-HF trial presented results from some new analyses. Dr. McMurray looked at the impact of dapagliflozin treatment on the primary endpoint when patients were stratified by the diuretic dosage they received at study entry. The results showed that “the benefits from dapagliflozin were irrespective of the use of background diuretic therapy or the diuretic dose,” he reported. Study findings also showed that roughly three-quarters of patients in the study had no change in their diuretic dosage during the course of the trial, that the fraction of patients who had an increase in their dosage was about the same as those whose diuretic dosage decreased, and that this pattern was similar in both the patients on dapagliflozin and in those randomized to placebo.
Another set of new analyses from DAPA-HF looked at the impact on dapagliflozin efficacy of background medical and device therapies for heart failure, as well as background diabetes therapies. The findings showed no signal of an interaction with background therapies. “The effects of dapagliflozin are incremental and complimentary to conventional therapies for HFrEF,” concluded Lars Kober, MD, a professor and heart failure physician at Copenhagen University Hospital.
DAPA-CKD was funded by AstraZeneca, the company that markets dapagliflozin (Farxiga). Dr. McMurray’s employer, Glasgow University, has received payments from AstraZeneca and several other companies to compensate for his time overseeing various clinical trials. Dr. Kober has received honoraria for speaking on behalf of several companies including AstraZeneca.
FROM HFSA 2020