TBD Meeting (5314-22)

Ventricular arrhythmias more commonly occur on days when there are higher levels of air pollution, especially with fine particulate matter (PM), a new study suggests.

The investigators studied the relationship between air pollution and ventricular arrhythmias in Piacenza, Italy by examining 5-year data on patients who received an implantable cardioverter defibrillator (ICD).

Thomas321/iStock/Getty Images Plus

They found a significant association between PM2.5 levels and ventricular arrhythmias, especially those treated with direct current shock. Moreover, higher levels of PM2.5 and PM10 were associated with increased risk of all ventricular arrhythmias.

“These data confirm that environmental pollution is not only a climate emergency but also a public health problem,” lead author Alessia Zanni, currently at Maggiore Hospital, Bologna, Italy, and previously at Piacenza Hospital, said in an interview.

“The study suggests that the survival of patients with heart disease is affected not only by pharmacological therapies and advances in cardiology, but also by the air that they breathe,” she said.

The results were presented at European Society of Cardiology Heart Failure 2022.
 

More ED visits

The World Health Organization estimates around 7 million people die every year from exposure to polluted air, “as 91% of the world’s population lives in areas where air contaminants exceed safety levels,” Dr. Zanni said. Furthermore, “air pollution has been defined as the fourth-highest ranking risk factor for mortality – more important than LDL cholesterol, obesity, physical activity, or alcohol use.”

She noted that Piacenza has “historically been very attentive to the issues of early defibrillation and cardiac arrest.” Her group had previously found a correlation between out-of-hospital cardiac arrests and air pollution in the general population.

Moreover, her group recently observed that ED visits for patients with ICDs “tended to cluster; on some special days, many patients with ICDs had cardiac arrhythmias, and during those days, air pollution levels were particularly high.”

Her group therefore decided to compare the concentration of air pollutants on days when patients suffered from an arrhythmia event versus pollution levels on days without an arrhythmia, she said.
 

Further piece in a complex puzzle

The researchers studied 146 patients with ICDs between January 2013 and December 2017, assigning exposures (short, mid, and long term) to these patients based on their residential addresses.

They extracted day-by-day urban PM10, PM2.5, CO, NO₂, and O₃ levels from the Environmental Protection Agency monitoring stations and then, using time-stratified case-crossover analysis methodology, they calculated the association of ventricular arrhythmia onset with 0- to 7-day moving averages of the various air pollutants prior to the event.

Patients had received their ICD to control cardiac dysfunction brought on by previous myocardial infarction (n = 93), genetic or inflammatory conditions (n = 53), secondary prevention after a lethal arrhythmia (n = 67), and primary prevention (n = 79).

Of the 440 ventricular arrhythmias recorded, 322 were treated with antitachycardia pacing, while the remaining 118 were treated with direct current shock.

The researchers found a significant association between PM2.5 levels and ventricular arrhythmia treated with shock, corresponding to a 15% increased risk or every additional 10mg/m³ (P < .019).

They also found that, when PM2.5 concentrations were elevated by 1 mg/m³ for an entire week, compared with average levels, there was a 2.4% higher likelihood of ventricular arrhythmias, regardless of the temperature, and when PM10 was 1 mg/m³ above average for a week, there was a 2.1% increased risk for arrhythmias (odds ratio, 1,024; 95% confidence interval, 1,009-1,040] and OR, 1,021; 95% CI, 1,009-1,033, respectively), Dr. Zanni reported.

“Since the majority of out-of-hospital cardiac arrest causes still remain unclear, our data add a further piece to the complex puzzle of cardiac arrest triggers,” Dr. Zanni commented. “We think that particulate matter can cause acute inflammation of the heart muscle and potentially act as a trigger for lethal cardiac arrhythmias.

“As these toxic particles are emitted from power plants, industries, and cars, we think that cardiovascular research should highlight these new findings to promote green projects among the general population, clarifying the risks to the health of the human being, and we think strategies to prevent air pollutant exposure in high-risk patients [with previous cardiac disease] should be developed,” she added.

Further, “we advise patients at risk, during days with high PM2.5 (> 35 mg/m³) and PM10 (> 50 mg/m³) to use a mask of the N95 type outdoors, to reduce time spent outdoors – particularly in traffic – and to improve home air filtration,” Dr. Zanni said.
 

Entering the mainstream

In a comment, Joel Kaufman, MD, MPH, professor of internal medicine and environmental health, University of Washington, Seattle, said the study “adds to a fairly substantial literature already on this topic of short-term exposure to air pollution.”

The evidence that air pollutants “can be a trigger of worsening of cardiovascular disease is fairly consistent at this time, and although the effect sizes are small, they are consistent,” said Dr. Kaufman, who was the chair of the writing group for the American Heart Association’s 2020 policy statement, “Guidance to Reduce Cardiovascular Burden of Ambient Air Pollutants.”

“The research into this issue has become clearer during the past 10 years but still is not in the mainstream of most cardiologists’ awareness. They tend to focus more on controlling cholesterol and performing procedures, etc., but there are modifiable risk factors like air pollution that are increasingly recognized as being part of the picture,” said Dr. Kaufman, who was not involved with the current study.

Dr. Zanni added: “It is important that politics work hand in hand with the scientific community in order to win the battle against global warming, which will reduce the number of cardiovascular deaths – the leading cause of death worldwide – as well as environmental integrity.”

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Dr. Zanni and coauthors and Dr. Kaufman reported no relevant financial relationships.

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

Ventricular arrhythmias more commonly occur on days when there are higher levels of air pollution, especially with fine particulate matter (PM), a new study suggests.

The investigators studied the relationship between air pollution and ventricular arrhythmias in Piacenza, Italy by examining 5-year data on patients who received an implantable cardioverter defibrillator (ICD).

Thomas321/iStock/Getty Images Plus

They found a significant association between PM2.5 levels and ventricular arrhythmias, especially those treated with direct current shock. Moreover, higher levels of PM2.5 and PM10 were associated with increased risk of all ventricular arrhythmias.

“These data confirm that environmental pollution is not only a climate emergency but also a public health problem,” lead author Alessia Zanni, currently at Maggiore Hospital, Bologna, Italy, and previously at Piacenza Hospital, said in an interview.

“The study suggests that the survival of patients with heart disease is affected not only by pharmacological therapies and advances in cardiology, but also by the air that they breathe,” she said.

The results were presented at European Society of Cardiology Heart Failure 2022.
 

More ED visits

The World Health Organization estimates around 7 million people die every year from exposure to polluted air, “as 91% of the world’s population lives in areas where air contaminants exceed safety levels,” Dr. Zanni said. Furthermore, “air pollution has been defined as the fourth-highest ranking risk factor for mortality – more important than LDL cholesterol, obesity, physical activity, or alcohol use.”

She noted that Piacenza has “historically been very attentive to the issues of early defibrillation and cardiac arrest.” Her group had previously found a correlation between out-of-hospital cardiac arrests and air pollution in the general population.

Moreover, her group recently observed that ED visits for patients with ICDs “tended to cluster; on some special days, many patients with ICDs had cardiac arrhythmias, and during those days, air pollution levels were particularly high.”

Her group therefore decided to compare the concentration of air pollutants on days when patients suffered from an arrhythmia event versus pollution levels on days without an arrhythmia, she said.
 

Further piece in a complex puzzle

The researchers studied 146 patients with ICDs between January 2013 and December 2017, assigning exposures (short, mid, and long term) to these patients based on their residential addresses.

They extracted day-by-day urban PM10, PM2.5, CO, NO₂, and O₃ levels from the Environmental Protection Agency monitoring stations and then, using time-stratified case-crossover analysis methodology, they calculated the association of ventricular arrhythmia onset with 0- to 7-day moving averages of the various air pollutants prior to the event.

Patients had received their ICD to control cardiac dysfunction brought on by previous myocardial infarction (n = 93), genetic or inflammatory conditions (n = 53), secondary prevention after a lethal arrhythmia (n = 67), and primary prevention (n = 79).

Of the 440 ventricular arrhythmias recorded, 322 were treated with antitachycardia pacing, while the remaining 118 were treated with direct current shock.

The researchers found a significant association between PM2.5 levels and ventricular arrhythmia treated with shock, corresponding to a 15% increased risk or every additional 10mg/m³ (P < .019).

They also found that, when PM2.5 concentrations were elevated by 1 mg/m³ for an entire week, compared with average levels, there was a 2.4% higher likelihood of ventricular arrhythmias, regardless of the temperature, and when PM10 was 1 mg/m³ above average for a week, there was a 2.1% increased risk for arrhythmias (odds ratio, 1,024; 95% confidence interval, 1,009-1,040] and OR, 1,021; 95% CI, 1,009-1,033, respectively), Dr. Zanni reported.

“Since the majority of out-of-hospital cardiac arrest causes still remain unclear, our data add a further piece to the complex puzzle of cardiac arrest triggers,” Dr. Zanni commented. “We think that particulate matter can cause acute inflammation of the heart muscle and potentially act as a trigger for lethal cardiac arrhythmias.

“As these toxic particles are emitted from power plants, industries, and cars, we think that cardiovascular research should highlight these new findings to promote green projects among the general population, clarifying the risks to the health of the human being, and we think strategies to prevent air pollutant exposure in high-risk patients [with previous cardiac disease] should be developed,” she added.

Further, “we advise patients at risk, during days with high PM2.5 (> 35 mg/m³) and PM10 (> 50 mg/m³) to use a mask of the N95 type outdoors, to reduce time spent outdoors – particularly in traffic – and to improve home air filtration,” Dr. Zanni said.
 

Entering the mainstream

In a comment, Joel Kaufman, MD, MPH, professor of internal medicine and environmental health, University of Washington, Seattle, said the study “adds to a fairly substantial literature already on this topic of short-term exposure to air pollution.”

The evidence that air pollutants “can be a trigger of worsening of cardiovascular disease is fairly consistent at this time, and although the effect sizes are small, they are consistent,” said Dr. Kaufman, who was the chair of the writing group for the American Heart Association’s 2020 policy statement, “Guidance to Reduce Cardiovascular Burden of Ambient Air Pollutants.”

“The research into this issue has become clearer during the past 10 years but still is not in the mainstream of most cardiologists’ awareness. They tend to focus more on controlling cholesterol and performing procedures, etc., but there are modifiable risk factors like air pollution that are increasingly recognized as being part of the picture,” said Dr. Kaufman, who was not involved with the current study.

Dr. Zanni added: “It is important that politics work hand in hand with the scientific community in order to win the battle against global warming, which will reduce the number of cardiovascular deaths – the leading cause of death worldwide – as well as environmental integrity.”

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Dr. Zanni and coauthors and Dr. Kaufman reported no relevant financial relationships.

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

Ventricular arrhythmias more commonly occur on days when there are higher levels of air pollution, especially with fine particulate matter (PM), a new study suggests.

The investigators studied the relationship between air pollution and ventricular arrhythmias in Piacenza, Italy by examining 5-year data on patients who received an implantable cardioverter defibrillator (ICD).

Thomas321/iStock/Getty Images Plus

They found a significant association between PM2.5 levels and ventricular arrhythmias, especially those treated with direct current shock. Moreover, higher levels of PM2.5 and PM10 were associated with increased risk of all ventricular arrhythmias.

“These data confirm that environmental pollution is not only a climate emergency but also a public health problem,” lead author Alessia Zanni, currently at Maggiore Hospital, Bologna, Italy, and previously at Piacenza Hospital, said in an interview.

“The study suggests that the survival of patients with heart disease is affected not only by pharmacological therapies and advances in cardiology, but also by the air that they breathe,” she said.

The results were presented at European Society of Cardiology Heart Failure 2022.
 

More ED visits

The World Health Organization estimates around 7 million people die every year from exposure to polluted air, “as 91% of the world’s population lives in areas where air contaminants exceed safety levels,” Dr. Zanni said. Furthermore, “air pollution has been defined as the fourth-highest ranking risk factor for mortality – more important than LDL cholesterol, obesity, physical activity, or alcohol use.”

She noted that Piacenza has “historically been very attentive to the issues of early defibrillation and cardiac arrest.” Her group had previously found a correlation between out-of-hospital cardiac arrests and air pollution in the general population.

Moreover, her group recently observed that ED visits for patients with ICDs “tended to cluster; on some special days, many patients with ICDs had cardiac arrhythmias, and during those days, air pollution levels were particularly high.”

Her group therefore decided to compare the concentration of air pollutants on days when patients suffered from an arrhythmia event versus pollution levels on days without an arrhythmia, she said.
 

Further piece in a complex puzzle

The researchers studied 146 patients with ICDs between January 2013 and December 2017, assigning exposures (short, mid, and long term) to these patients based on their residential addresses.

They extracted day-by-day urban PM10, PM2.5, CO, NO₂, and O₃ levels from the Environmental Protection Agency monitoring stations and then, using time-stratified case-crossover analysis methodology, they calculated the association of ventricular arrhythmia onset with 0- to 7-day moving averages of the various air pollutants prior to the event.

Patients had received their ICD to control cardiac dysfunction brought on by previous myocardial infarction (n = 93), genetic or inflammatory conditions (n = 53), secondary prevention after a lethal arrhythmia (n = 67), and primary prevention (n = 79).

Of the 440 ventricular arrhythmias recorded, 322 were treated with antitachycardia pacing, while the remaining 118 were treated with direct current shock.

The researchers found a significant association between PM2.5 levels and ventricular arrhythmia treated with shock, corresponding to a 15% increased risk or every additional 10mg/m³ (P < .019).

They also found that, when PM2.5 concentrations were elevated by 1 mg/m³ for an entire week, compared with average levels, there was a 2.4% higher likelihood of ventricular arrhythmias, regardless of the temperature, and when PM10 was 1 mg/m³ above average for a week, there was a 2.1% increased risk for arrhythmias (odds ratio, 1,024; 95% confidence interval, 1,009-1,040] and OR, 1,021; 95% CI, 1,009-1,033, respectively), Dr. Zanni reported.

“Since the majority of out-of-hospital cardiac arrest causes still remain unclear, our data add a further piece to the complex puzzle of cardiac arrest triggers,” Dr. Zanni commented. “We think that particulate matter can cause acute inflammation of the heart muscle and potentially act as a trigger for lethal cardiac arrhythmias.

“As these toxic particles are emitted from power plants, industries, and cars, we think that cardiovascular research should highlight these new findings to promote green projects among the general population, clarifying the risks to the health of the human being, and we think strategies to prevent air pollutant exposure in high-risk patients [with previous cardiac disease] should be developed,” she added.

Further, “we advise patients at risk, during days with high PM2.5 (> 35 mg/m³) and PM10 (> 50 mg/m³) to use a mask of the N95 type outdoors, to reduce time spent outdoors – particularly in traffic – and to improve home air filtration,” Dr. Zanni said.
 

Entering the mainstream

In a comment, Joel Kaufman, MD, MPH, professor of internal medicine and environmental health, University of Washington, Seattle, said the study “adds to a fairly substantial literature already on this topic of short-term exposure to air pollution.”

The evidence that air pollutants “can be a trigger of worsening of cardiovascular disease is fairly consistent at this time, and although the effect sizes are small, they are consistent,” said Dr. Kaufman, who was the chair of the writing group for the American Heart Association’s 2020 policy statement, “Guidance to Reduce Cardiovascular Burden of Ambient Air Pollutants.”

“The research into this issue has become clearer during the past 10 years but still is not in the mainstream of most cardiologists’ awareness. They tend to focus more on controlling cholesterol and performing procedures, etc., but there are modifiable risk factors like air pollution that are increasingly recognized as being part of the picture,” said Dr. Kaufman, who was not involved with the current study.

Dr. Zanni added: “It is important that politics work hand in hand with the scientific community in order to win the battle against global warming, which will reduce the number of cardiovascular deaths – the leading cause of death worldwide – as well as environmental integrity.”

This research received no specific grant from any funding agency in the public, commercial, or not-for-profit sectors. Dr. Zanni and coauthors and Dr. Kaufman reported no relevant financial relationships.

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

A small group of patients with heart failure (HF) who underwent a novel transcatheter nerve-ablation procedure seemed to benefit with improved hemodynamics, symptoms, and quality of life in an admittedly limited observational series.

All had HF with preserved ejection fraction (HFpEF) and remained on guideline-directed medical therapy during the study.

The open-label experience has launched a randomized trial, featuring a sham control group, that could ultimately challenge dogma about volume overload in patients with chronic and acute HF and the perceived essential role of diuretics.

Researchers see transvenous ablation of the right greater splanchnic nerve (GSN) as potentially appropriate for patients with HF, regardless of ventricular function or acuity. But the ongoing REBALANCE-HF trial aims to enroll up to 80 patients with chronic HFpEF.

Meanwhile, the current 18 patients with elevated resting or exertional pulmonary capillary wedge pressure (PCWP), given the procedure as part of the main trial’s “roll-in” phase, showed declines in exercise PCWP after 1 month (P = .007) and improved quality-of-life scores at both 1 and 3 months (P < .01). Also at 1 month, a third of the patients improved by at least one step in NYHA functional class.

The procedure, called splanchnic ablation for volume management (SAVM), could potentially be used “across the spectrum of acute and chronic heart failure, maybe even with reduced ejection fraction (HFrEF) and preserved ejection fraction,” Marat Fudim, MD, MHS, Duke University Medical Center, Durham, N.C., told this news organization.

However, “for outcomes, we’ve really only looked in the ambulatory setting,” and only at symptomatic and functional responses. To that extent, based on the current experience and a few small previous studies, Dr. Fudim said, SAVM seems to benefit patients with HF in general who have dyspnea at exercise. Beyond that, the kind of patient who may be most suitable for it “is something I hope we will be able answer once the randomized dataset is in.”

Dr. Fudim reported the REBALANCE-HF roll-in results at the Heart Failure Association of the European Society of Cardiology (HFA-ESC) 2022 sessions, held virtually and live in Madrid. He is also lead author on the same-day publication in the European Journal of Heart Failure.

A different treatment paradigm

Splanchnic-nerve blockade as a possible HF treatment is based on growing evidence that volume overload in patients with HF is not always the cause, at least not a main cause, of congestion and dyspnea. Rather, those classic HF signs and symptoms may often be triggered by adverse redistribution of stable fluid volume from primarily the splanchnic vascular compartment to the intrathoracic space.

In other words, what might seem like classic volume overload calling for diuresis often might actually be euvolemic redistribution of fluid from the abdomen to the chest, raising intracardiac pressures and causing dyspnea.

In that scenario, loop diuretics might only dehydrate the patient and potentially put the kidneys at risk, Dr. Fudim proposed. His recent experience with HF patients implanted with a pulmonary-artery pressure monitor, he said, suggests many who received standard volume-overload therapy had actually been normo- or hypovolemic.

More then half the patients “did not have high volume, they just had high pressures,” he said. “So there is a significant portion of the population that has pathological processes leading to high pressures, but it’s not volume overload. Diuresing those patients would probably not be the right decision.”

The unilateral SAVM procedure appears to attenuate sympathetically mediated splanchnic volume redistribution to the heart and lungs, but as it doesn’t affect the left GSN, preserves some normal sympathetic response.

Sometimes in studies of surgical or catheter-based SAVM, Dr. Fudim said, “we have observationally seen that people discontinued diuretics or decreased doses in the treatment arm.”
 

‘Beyond our classical thinking’

It’s “impressive” that such right-GSN ablation seemed to reduce exercise-filling pressures, but one should be circumspect because “it’s way beyond our classical thinking,” Wilfried Mullens, MD, PhD, Hospital Oost-Limburg, Genk, Belgium, said as a panelist after Dr. Fudim’s presentation.

“These are invasive procedures,” he noted, “and our physiological understanding does not always match up with what we’re doing in real life, if you look at other interventional procedures, like renal denervation, which showed neutral effects, or if you look at even interatrial shunt devices, which might even be dangerous.”

The field should be “very prudent” before using SAVM in practice, which shouldn’t be “before we have sufficient data to support the efficacy and safety,” Dr. Mullens said. “It remains to be seen how treatment success will be defined. Is it during exercise? How long does the treatment last? What is the effect of the treatment over time; is it not harmful? These are things that we don’t know yet.”

The procedure was considered successful in all 18 patients, 14 of whom were women and 16 of whom were in NYHA class 3. Their average age was 75, and their mean left ventricular ejection fraction (LVEF) at baseline was 61%. The primary efficacy endpoints were a reduction in PCWP at rest, with legs raised, and at 20W exercise at 1 month. Their baseline invasively measured peak exercise PCWP was at least 25 mm Hg.

At 1 month, mean PCWP at 20W exercise fell from 36.4 mm Hg to 28.9 mm Hg (P = .007) and peak PCWP declined from 39.5 mm Hg to 31.9 mm Hg (P = .013); resting PCWP wasn’t significantly affected. Twelve patients improved by at least one NYHA functional class (P = .02).

Scores on the Kansas City Cardiomyopathy Questionnaire (KCCQ), which assesses quality of life, improved by 22 points at 1 month and 18.3 points at 3 months (P < .01 for both differences).

No significant effects on 6-minute walk distance or natriuretic peptide levels were observed, nor were any observed on LVEF or echocardiographic measures of diastolic function, left ventricular (LV) atrial volume, or LV mass at 3 months.

Three “nonserious” device-related adverse events were observed, including one case of acute decompensation early in the experience, ostensibly due to excessive saline administration, Dr. Fudim reported. There was also one case of transient periprocedural hypertension and one instance of postprocedure back pain.

The SAVM procedure is performed transvenously and in general is technically “really not that challenging,” Dr. Fudim said. In most cases, the necessary skills would be accessible not only to interventional cardiologists but also heart failure specialists. “I have performed this procedure myself, and I’m a heart failure guy.”

The REBALANCE-HF roll-in phase and main trial are supported by Axon Therapies. Dr. Fudim discloses receiving support from Bayer, Bodyport, and BTG Specialty Pharmaceuticals; and consulting fees from Abbott, Audicor, Axon Therapies, Bodyguide, Bodyport, Boston Scientific, CVRx, Daxor, Edwards LifeSciences, Feldschuh Foundation, Fire1, Gradient, Intershunt, NXT Biomedical, Pharmacosmos, PreHealth, Splendo, Vironix, Viscardia, and Zoll. Dr. Mullens discloses receiving fees for speaking from Medtronic, Abbott, Novartis, Boston Scientific, AstraZeneca, and Boehringer Ingelheim.

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

A small group of patients with heart failure (HF) who underwent a novel transcatheter nerve-ablation procedure seemed to benefit with improved hemodynamics, symptoms, and quality of life in an admittedly limited observational series.

All had HF with preserved ejection fraction (HFpEF) and remained on guideline-directed medical therapy during the study.

The open-label experience has launched a randomized trial, featuring a sham control group, that could ultimately challenge dogma about volume overload in patients with chronic and acute HF and the perceived essential role of diuretics.

Researchers see transvenous ablation of the right greater splanchnic nerve (GSN) as potentially appropriate for patients with HF, regardless of ventricular function or acuity. But the ongoing REBALANCE-HF trial aims to enroll up to 80 patients with chronic HFpEF.

Meanwhile, the current 18 patients with elevated resting or exertional pulmonary capillary wedge pressure (PCWP), given the procedure as part of the main trial’s “roll-in” phase, showed declines in exercise PCWP after 1 month (P = .007) and improved quality-of-life scores at both 1 and 3 months (P < .01). Also at 1 month, a third of the patients improved by at least one step in NYHA functional class.

The procedure, called splanchnic ablation for volume management (SAVM), could potentially be used “across the spectrum of acute and chronic heart failure, maybe even with reduced ejection fraction (HFrEF) and preserved ejection fraction,” Marat Fudim, MD, MHS, Duke University Medical Center, Durham, N.C., told this news organization.

However, “for outcomes, we’ve really only looked in the ambulatory setting,” and only at symptomatic and functional responses. To that extent, based on the current experience and a few small previous studies, Dr. Fudim said, SAVM seems to benefit patients with HF in general who have dyspnea at exercise. Beyond that, the kind of patient who may be most suitable for it “is something I hope we will be able answer once the randomized dataset is in.”

Dr. Fudim reported the REBALANCE-HF roll-in results at the Heart Failure Association of the European Society of Cardiology (HFA-ESC) 2022 sessions, held virtually and live in Madrid. He is also lead author on the same-day publication in the European Journal of Heart Failure.

A different treatment paradigm

Splanchnic-nerve blockade as a possible HF treatment is based on growing evidence that volume overload in patients with HF is not always the cause, at least not a main cause, of congestion and dyspnea. Rather, those classic HF signs and symptoms may often be triggered by adverse redistribution of stable fluid volume from primarily the splanchnic vascular compartment to the intrathoracic space.

In other words, what might seem like classic volume overload calling for diuresis often might actually be euvolemic redistribution of fluid from the abdomen to the chest, raising intracardiac pressures and causing dyspnea.

In that scenario, loop diuretics might only dehydrate the patient and potentially put the kidneys at risk, Dr. Fudim proposed. His recent experience with HF patients implanted with a pulmonary-artery pressure monitor, he said, suggests many who received standard volume-overload therapy had actually been normo- or hypovolemic.

More then half the patients “did not have high volume, they just had high pressures,” he said. “So there is a significant portion of the population that has pathological processes leading to high pressures, but it’s not volume overload. Diuresing those patients would probably not be the right decision.”

The unilateral SAVM procedure appears to attenuate sympathetically mediated splanchnic volume redistribution to the heart and lungs, but as it doesn’t affect the left GSN, preserves some normal sympathetic response.

Sometimes in studies of surgical or catheter-based SAVM, Dr. Fudim said, “we have observationally seen that people discontinued diuretics or decreased doses in the treatment arm.”
 

‘Beyond our classical thinking’

It’s “impressive” that such right-GSN ablation seemed to reduce exercise-filling pressures, but one should be circumspect because “it’s way beyond our classical thinking,” Wilfried Mullens, MD, PhD, Hospital Oost-Limburg, Genk, Belgium, said as a panelist after Dr. Fudim’s presentation.

“These are invasive procedures,” he noted, “and our physiological understanding does not always match up with what we’re doing in real life, if you look at other interventional procedures, like renal denervation, which showed neutral effects, or if you look at even interatrial shunt devices, which might even be dangerous.”

The field should be “very prudent” before using SAVM in practice, which shouldn’t be “before we have sufficient data to support the efficacy and safety,” Dr. Mullens said. “It remains to be seen how treatment success will be defined. Is it during exercise? How long does the treatment last? What is the effect of the treatment over time; is it not harmful? These are things that we don’t know yet.”

The procedure was considered successful in all 18 patients, 14 of whom were women and 16 of whom were in NYHA class 3. Their average age was 75, and their mean left ventricular ejection fraction (LVEF) at baseline was 61%. The primary efficacy endpoints were a reduction in PCWP at rest, with legs raised, and at 20W exercise at 1 month. Their baseline invasively measured peak exercise PCWP was at least 25 mm Hg.

At 1 month, mean PCWP at 20W exercise fell from 36.4 mm Hg to 28.9 mm Hg (P = .007) and peak PCWP declined from 39.5 mm Hg to 31.9 mm Hg (P = .013); resting PCWP wasn’t significantly affected. Twelve patients improved by at least one NYHA functional class (P = .02).

Scores on the Kansas City Cardiomyopathy Questionnaire (KCCQ), which assesses quality of life, improved by 22 points at 1 month and 18.3 points at 3 months (P < .01 for both differences).

No significant effects on 6-minute walk distance or natriuretic peptide levels were observed, nor were any observed on LVEF or echocardiographic measures of diastolic function, left ventricular (LV) atrial volume, or LV mass at 3 months.

Three “nonserious” device-related adverse events were observed, including one case of acute decompensation early in the experience, ostensibly due to excessive saline administration, Dr. Fudim reported. There was also one case of transient periprocedural hypertension and one instance of postprocedure back pain.

The SAVM procedure is performed transvenously and in general is technically “really not that challenging,” Dr. Fudim said. In most cases, the necessary skills would be accessible not only to interventional cardiologists but also heart failure specialists. “I have performed this procedure myself, and I’m a heart failure guy.”

The REBALANCE-HF roll-in phase and main trial are supported by Axon Therapies. Dr. Fudim discloses receiving support from Bayer, Bodyport, and BTG Specialty Pharmaceuticals; and consulting fees from Abbott, Audicor, Axon Therapies, Bodyguide, Bodyport, Boston Scientific, CVRx, Daxor, Edwards LifeSciences, Feldschuh Foundation, Fire1, Gradient, Intershunt, NXT Biomedical, Pharmacosmos, PreHealth, Splendo, Vironix, Viscardia, and Zoll. Dr. Mullens discloses receiving fees for speaking from Medtronic, Abbott, Novartis, Boston Scientific, AstraZeneca, and Boehringer Ingelheim.

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

A small group of patients with heart failure (HF) who underwent a novel transcatheter nerve-ablation procedure seemed to benefit with improved hemodynamics, symptoms, and quality of life in an admittedly limited observational series.

All had HF with preserved ejection fraction (HFpEF) and remained on guideline-directed medical therapy during the study.

The open-label experience has launched a randomized trial, featuring a sham control group, that could ultimately challenge dogma about volume overload in patients with chronic and acute HF and the perceived essential role of diuretics.

Researchers see transvenous ablation of the right greater splanchnic nerve (GSN) as potentially appropriate for patients with HF, regardless of ventricular function or acuity. But the ongoing REBALANCE-HF trial aims to enroll up to 80 patients with chronic HFpEF.

Meanwhile, the current 18 patients with elevated resting or exertional pulmonary capillary wedge pressure (PCWP), given the procedure as part of the main trial’s “roll-in” phase, showed declines in exercise PCWP after 1 month (P = .007) and improved quality-of-life scores at both 1 and 3 months (P < .01). Also at 1 month, a third of the patients improved by at least one step in NYHA functional class.

The procedure, called splanchnic ablation for volume management (SAVM), could potentially be used “across the spectrum of acute and chronic heart failure, maybe even with reduced ejection fraction (HFrEF) and preserved ejection fraction,” Marat Fudim, MD, MHS, Duke University Medical Center, Durham, N.C., told this news organization.

However, “for outcomes, we’ve really only looked in the ambulatory setting,” and only at symptomatic and functional responses. To that extent, based on the current experience and a few small previous studies, Dr. Fudim said, SAVM seems to benefit patients with HF in general who have dyspnea at exercise. Beyond that, the kind of patient who may be most suitable for it “is something I hope we will be able answer once the randomized dataset is in.”

Dr. Fudim reported the REBALANCE-HF roll-in results at the Heart Failure Association of the European Society of Cardiology (HFA-ESC) 2022 sessions, held virtually and live in Madrid. He is also lead author on the same-day publication in the European Journal of Heart Failure.

A different treatment paradigm

Splanchnic-nerve blockade as a possible HF treatment is based on growing evidence that volume overload in patients with HF is not always the cause, at least not a main cause, of congestion and dyspnea. Rather, those classic HF signs and symptoms may often be triggered by adverse redistribution of stable fluid volume from primarily the splanchnic vascular compartment to the intrathoracic space.

In other words, what might seem like classic volume overload calling for diuresis often might actually be euvolemic redistribution of fluid from the abdomen to the chest, raising intracardiac pressures and causing dyspnea.

In that scenario, loop diuretics might only dehydrate the patient and potentially put the kidneys at risk, Dr. Fudim proposed. His recent experience with HF patients implanted with a pulmonary-artery pressure monitor, he said, suggests many who received standard volume-overload therapy had actually been normo- or hypovolemic.

More then half the patients “did not have high volume, they just had high pressures,” he said. “So there is a significant portion of the population that has pathological processes leading to high pressures, but it’s not volume overload. Diuresing those patients would probably not be the right decision.”

The unilateral SAVM procedure appears to attenuate sympathetically mediated splanchnic volume redistribution to the heart and lungs, but as it doesn’t affect the left GSN, preserves some normal sympathetic response.

Sometimes in studies of surgical or catheter-based SAVM, Dr. Fudim said, “we have observationally seen that people discontinued diuretics or decreased doses in the treatment arm.”
 

‘Beyond our classical thinking’

It’s “impressive” that such right-GSN ablation seemed to reduce exercise-filling pressures, but one should be circumspect because “it’s way beyond our classical thinking,” Wilfried Mullens, MD, PhD, Hospital Oost-Limburg, Genk, Belgium, said as a panelist after Dr. Fudim’s presentation.

“These are invasive procedures,” he noted, “and our physiological understanding does not always match up with what we’re doing in real life, if you look at other interventional procedures, like renal denervation, which showed neutral effects, or if you look at even interatrial shunt devices, which might even be dangerous.”

The field should be “very prudent” before using SAVM in practice, which shouldn’t be “before we have sufficient data to support the efficacy and safety,” Dr. Mullens said. “It remains to be seen how treatment success will be defined. Is it during exercise? How long does the treatment last? What is the effect of the treatment over time; is it not harmful? These are things that we don’t know yet.”

The procedure was considered successful in all 18 patients, 14 of whom were women and 16 of whom were in NYHA class 3. Their average age was 75, and their mean left ventricular ejection fraction (LVEF) at baseline was 61%. The primary efficacy endpoints were a reduction in PCWP at rest, with legs raised, and at 20W exercise at 1 month. Their baseline invasively measured peak exercise PCWP was at least 25 mm Hg.

At 1 month, mean PCWP at 20W exercise fell from 36.4 mm Hg to 28.9 mm Hg (P = .007) and peak PCWP declined from 39.5 mm Hg to 31.9 mm Hg (P = .013); resting PCWP wasn’t significantly affected. Twelve patients improved by at least one NYHA functional class (P = .02).

Scores on the Kansas City Cardiomyopathy Questionnaire (KCCQ), which assesses quality of life, improved by 22 points at 1 month and 18.3 points at 3 months (P < .01 for both differences).

No significant effects on 6-minute walk distance or natriuretic peptide levels were observed, nor were any observed on LVEF or echocardiographic measures of diastolic function, left ventricular (LV) atrial volume, or LV mass at 3 months.

Three “nonserious” device-related adverse events were observed, including one case of acute decompensation early in the experience, ostensibly due to excessive saline administration, Dr. Fudim reported. There was also one case of transient periprocedural hypertension and one instance of postprocedure back pain.

The SAVM procedure is performed transvenously and in general is technically “really not that challenging,” Dr. Fudim said. In most cases, the necessary skills would be accessible not only to interventional cardiologists but also heart failure specialists. “I have performed this procedure myself, and I’m a heart failure guy.”

The REBALANCE-HF roll-in phase and main trial are supported by Axon Therapies. Dr. Fudim discloses receiving support from Bayer, Bodyport, and BTG Specialty Pharmaceuticals; and consulting fees from Abbott, Audicor, Axon Therapies, Bodyguide, Bodyport, Boston Scientific, CVRx, Daxor, Edwards LifeSciences, Feldschuh Foundation, Fire1, Gradient, Intershunt, NXT Biomedical, Pharmacosmos, PreHealth, Splendo, Vironix, Viscardia, and Zoll. Dr. Mullens discloses receiving fees for speaking from Medtronic, Abbott, Novartis, Boston Scientific, AstraZeneca, and Boehringer Ingelheim.

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

A voice can carry a long distance, but in patients with heart failure (HF) a voice can also carry otherwise hidden signs useful for predicting short-term risk for worsening disease, even acute decompensation. Potentially, it only has to reach a smartphone to do it, suggests a preliminary study of a mobile app designed to alert patients and clinicians to such looming HF events, if possible in time to avert them.

The proprietary app and analysis system (HearO, Cordio Medical), used daily at home by 180 patients with stable HF, demonstrated 82% accuracy in picking out vocal signals of early congestion that would soon be followed by a need for intensified therapy or acute decompensation.

Andrew D. Bowser/MDedge News

In practice, clinicians receiving the system’s alerts about altered fluid status would intervene with medication adjustments before the patient deteriorates and possibly heads for the ED. That would be the plan; there were no interventions in the current study, which was designed only to explore the strategy’s feasibility and accuracy.

The system could emerge as “a useful tool in remote monitoring of heart failure patients, providing early warning of worsening heart failure,” said William Abraham, MD, from Ohio State University Wexner Medical Center, Columbus. “It has the potential to reduce acute decompensated heart failure hospitalizations and improve patient quality of life and economic outcomes. But, of course, we have to show that now in larger and randomized clinical studies.”

Abraham presented the Cordio HearO Community Study preliminary results at the Heart Failure Association of the European Society of Cardiology sessions. It follows a recent small study that showed the same app could identify vocal signals linked to altered fluid status in patients with HF hospitalized with acute decompensation.

In the current study, researchers prospectively tracked any worsening HF events that hit patients within a month after the system sent them an alert suggesting early changes in fluid status. Then, they retrospectively assessed the strategy’s predictive accuracy for an initial episode.

The system correctly predicted 32 of 39 first HF events, for an 82% sensitivity and a false-positive rate of 18%. On an annualized basis, Dr. Abraham said, the patients experienced an estimated two to three false alarms per year, alerts that were not followed by HF events. For context, the standard practice of monitoring the patient’s weight “has a sensitivity of about 10%-20%. So this performs very well as a noninvasive technology.”

On average, Dr. Abraham said, “we were able to detect future events about 18 days prior to the worsening heart failure event,” which in practice would provide “a pretty broad window for intervention.”

The false positives were not a surprise. Lung fluid status can change in conditions other than heart failure, he observed, and the HearO system alerts aren’t meant to be followed blindly.

“I don’t know that we clearly understand what those false-positives represent just yet,” Dr. Abraham said. “The bottom line is, as with any diagnostic tool, you have to use the totality of clinical information you have available. If you get an alert and the patient has a fever and a cough, you might think of pneumonia before worsening heart failure.”

“The false positives don’t appear to be alarming,” agreed Antoni Bayés-Genís, MD, PhD, Hospital Universitari Germans Trias i Pujol, Badalona, Spain, and Universitat Autònoma de Barcelona.

The study suggests that the HearO system, combined with sound clinical judgment, “has the potential to identify early congestion that may allow for treatment management, and then avoiding hospital admission,” Dr. Bayés-Genís, who isn’t connected with the study, said in an interview.

The entirely noninvasive, smartphone-based app would be more appealing than implanted devices that, for example, measure thoracic bioimpedance or pulmonary artery pressure and are also intended as congestion early-warning systems, he proposed. “Its scalability makes it very attractive as well.”

But all that “would have to be validated in a large clinical trial,” Dr. Bayés-Genís, who comoderated the conference session featuring Dr. Abraham’s presentation, said when interviewed.

The ongoing study has enrolled 430 clinically stable adult patients with HF in New York Heart Association functional class II or III, regardless of left ventricular ejection fraction, who were cared for by teams at eight centers in Israel. At the outset, during a period of stability, each patient spoke a few sentences into the app to establish a vocal-pattern baseline.

Once home, their assignment was to speak the same sentences into their phones once a day. The app, working through a cloud-based, artificial intelligence–derived processing system, compared each day’s vocal signature with the baseline and alerted researchers when it detected signs of altered fluid status.

About 460,000 recordings were collected from the 180 patients in the current analysis, of whom about 27% were women. They used the app for a mean of 512 days.

The system seems to work well regardless of language or dialect, Dr. Abraham said. About 70% of the current study’s patients spoke Hebrew, and most of the rest spoke either Russian or Arabic.

Most patients (almost 80%) used the app at least 70% of the prescribed time. Only 14 patients used the app less than 60% of the time, he reported.

Dr. Bayés-Genís proposed that, in practice, unfamiliarity with or resistance to smartphone technology would be unlikely to figure greatly in any nonadherence with the daily app regimen, except “maybe for the eldest of the eldest.” The current cohort’s mean age was 70 years. In his experience, he said, most older persons younger than age 80 use a smartphone, at least in more developed countries.

Dr. Abraham disclosed serving on an advisory board for and receiving consulting fees from Cordio Medical; receiving consulting fees from Abbott, Boehringer Ingelheim, CVRx, Edwards Lifesciences, and Respicardia; receiving salary from V-Wave Medical; and receiving research support from the National Heart, Lung, and Blood Institute. Dr. Bayés-Genís reported receiving personal fees from AstraZeneca, Vifor-Fresenius, Novartis, Boehringer Ingelheim, Abbott, Roche Diagnostics, and Critical Diagnostics.

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

A voice can carry a long distance, but in patients with heart failure (HF) a voice can also carry otherwise hidden signs useful for predicting short-term risk for worsening disease, even acute decompensation. Potentially, it only has to reach a smartphone to do it, suggests a preliminary study of a mobile app designed to alert patients and clinicians to such looming HF events, if possible in time to avert them.

The proprietary app and analysis system (HearO, Cordio Medical), used daily at home by 180 patients with stable HF, demonstrated 82% accuracy in picking out vocal signals of early congestion that would soon be followed by a need for intensified therapy or acute decompensation.

Andrew D. Bowser/MDedge News

In practice, clinicians receiving the system’s alerts about altered fluid status would intervene with medication adjustments before the patient deteriorates and possibly heads for the ED. That would be the plan; there were no interventions in the current study, which was designed only to explore the strategy’s feasibility and accuracy.

The system could emerge as “a useful tool in remote monitoring of heart failure patients, providing early warning of worsening heart failure,” said William Abraham, MD, from Ohio State University Wexner Medical Center, Columbus. “It has the potential to reduce acute decompensated heart failure hospitalizations and improve patient quality of life and economic outcomes. But, of course, we have to show that now in larger and randomized clinical studies.”

Abraham presented the Cordio HearO Community Study preliminary results at the Heart Failure Association of the European Society of Cardiology sessions. It follows a recent small study that showed the same app could identify vocal signals linked to altered fluid status in patients with HF hospitalized with acute decompensation.

In the current study, researchers prospectively tracked any worsening HF events that hit patients within a month after the system sent them an alert suggesting early changes in fluid status. Then, they retrospectively assessed the strategy’s predictive accuracy for an initial episode.

The system correctly predicted 32 of 39 first HF events, for an 82% sensitivity and a false-positive rate of 18%. On an annualized basis, Dr. Abraham said, the patients experienced an estimated two to three false alarms per year, alerts that were not followed by HF events. For context, the standard practice of monitoring the patient’s weight “has a sensitivity of about 10%-20%. So this performs very well as a noninvasive technology.”

On average, Dr. Abraham said, “we were able to detect future events about 18 days prior to the worsening heart failure event,” which in practice would provide “a pretty broad window for intervention.”

The false positives were not a surprise. Lung fluid status can change in conditions other than heart failure, he observed, and the HearO system alerts aren’t meant to be followed blindly.

“I don’t know that we clearly understand what those false-positives represent just yet,” Dr. Abraham said. “The bottom line is, as with any diagnostic tool, you have to use the totality of clinical information you have available. If you get an alert and the patient has a fever and a cough, you might think of pneumonia before worsening heart failure.”

“The false positives don’t appear to be alarming,” agreed Antoni Bayés-Genís, MD, PhD, Hospital Universitari Germans Trias i Pujol, Badalona, Spain, and Universitat Autònoma de Barcelona.

The study suggests that the HearO system, combined with sound clinical judgment, “has the potential to identify early congestion that may allow for treatment management, and then avoiding hospital admission,” Dr. Bayés-Genís, who isn’t connected with the study, said in an interview.

The entirely noninvasive, smartphone-based app would be more appealing than implanted devices that, for example, measure thoracic bioimpedance or pulmonary artery pressure and are also intended as congestion early-warning systems, he proposed. “Its scalability makes it very attractive as well.”

But all that “would have to be validated in a large clinical trial,” Dr. Bayés-Genís, who comoderated the conference session featuring Dr. Abraham’s presentation, said when interviewed.

The ongoing study has enrolled 430 clinically stable adult patients with HF in New York Heart Association functional class II or III, regardless of left ventricular ejection fraction, who were cared for by teams at eight centers in Israel. At the outset, during a period of stability, each patient spoke a few sentences into the app to establish a vocal-pattern baseline.

Once home, their assignment was to speak the same sentences into their phones once a day. The app, working through a cloud-based, artificial intelligence–derived processing system, compared each day’s vocal signature with the baseline and alerted researchers when it detected signs of altered fluid status.

About 460,000 recordings were collected from the 180 patients in the current analysis, of whom about 27% were women. They used the app for a mean of 512 days.

The system seems to work well regardless of language or dialect, Dr. Abraham said. About 70% of the current study’s patients spoke Hebrew, and most of the rest spoke either Russian or Arabic.

Most patients (almost 80%) used the app at least 70% of the prescribed time. Only 14 patients used the app less than 60% of the time, he reported.

Dr. Bayés-Genís proposed that, in practice, unfamiliarity with or resistance to smartphone technology would be unlikely to figure greatly in any nonadherence with the daily app regimen, except “maybe for the eldest of the eldest.” The current cohort’s mean age was 70 years. In his experience, he said, most older persons younger than age 80 use a smartphone, at least in more developed countries.

Dr. Abraham disclosed serving on an advisory board for and receiving consulting fees from Cordio Medical; receiving consulting fees from Abbott, Boehringer Ingelheim, CVRx, Edwards Lifesciences, and Respicardia; receiving salary from V-Wave Medical; and receiving research support from the National Heart, Lung, and Blood Institute. Dr. Bayés-Genís reported receiving personal fees from AstraZeneca, Vifor-Fresenius, Novartis, Boehringer Ingelheim, Abbott, Roche Diagnostics, and Critical Diagnostics.

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

A voice can carry a long distance, but in patients with heart failure (HF) a voice can also carry otherwise hidden signs useful for predicting short-term risk for worsening disease, even acute decompensation. Potentially, it only has to reach a smartphone to do it, suggests a preliminary study of a mobile app designed to alert patients and clinicians to such looming HF events, if possible in time to avert them.

The proprietary app and analysis system (HearO, Cordio Medical), used daily at home by 180 patients with stable HF, demonstrated 82% accuracy in picking out vocal signals of early congestion that would soon be followed by a need for intensified therapy or acute decompensation.

Andrew D. Bowser/MDedge News

In practice, clinicians receiving the system’s alerts about altered fluid status would intervene with medication adjustments before the patient deteriorates and possibly heads for the ED. That would be the plan; there were no interventions in the current study, which was designed only to explore the strategy’s feasibility and accuracy.

The system could emerge as “a useful tool in remote monitoring of heart failure patients, providing early warning of worsening heart failure,” said William Abraham, MD, from Ohio State University Wexner Medical Center, Columbus. “It has the potential to reduce acute decompensated heart failure hospitalizations and improve patient quality of life and economic outcomes. But, of course, we have to show that now in larger and randomized clinical studies.”

Abraham presented the Cordio HearO Community Study preliminary results at the Heart Failure Association of the European Society of Cardiology sessions. It follows a recent small study that showed the same app could identify vocal signals linked to altered fluid status in patients with HF hospitalized with acute decompensation.

In the current study, researchers prospectively tracked any worsening HF events that hit patients within a month after the system sent them an alert suggesting early changes in fluid status. Then, they retrospectively assessed the strategy’s predictive accuracy for an initial episode.

The system correctly predicted 32 of 39 first HF events, for an 82% sensitivity and a false-positive rate of 18%. On an annualized basis, Dr. Abraham said, the patients experienced an estimated two to three false alarms per year, alerts that were not followed by HF events. For context, the standard practice of monitoring the patient’s weight “has a sensitivity of about 10%-20%. So this performs very well as a noninvasive technology.”

On average, Dr. Abraham said, “we were able to detect future events about 18 days prior to the worsening heart failure event,” which in practice would provide “a pretty broad window for intervention.”

The false positives were not a surprise. Lung fluid status can change in conditions other than heart failure, he observed, and the HearO system alerts aren’t meant to be followed blindly.

“I don’t know that we clearly understand what those false-positives represent just yet,” Dr. Abraham said. “The bottom line is, as with any diagnostic tool, you have to use the totality of clinical information you have available. If you get an alert and the patient has a fever and a cough, you might think of pneumonia before worsening heart failure.”

“The false positives don’t appear to be alarming,” agreed Antoni Bayés-Genís, MD, PhD, Hospital Universitari Germans Trias i Pujol, Badalona, Spain, and Universitat Autònoma de Barcelona.

The study suggests that the HearO system, combined with sound clinical judgment, “has the potential to identify early congestion that may allow for treatment management, and then avoiding hospital admission,” Dr. Bayés-Genís, who isn’t connected with the study, said in an interview.

The entirely noninvasive, smartphone-based app would be more appealing than implanted devices that, for example, measure thoracic bioimpedance or pulmonary artery pressure and are also intended as congestion early-warning systems, he proposed. “Its scalability makes it very attractive as well.”

But all that “would have to be validated in a large clinical trial,” Dr. Bayés-Genís, who comoderated the conference session featuring Dr. Abraham’s presentation, said when interviewed.

The ongoing study has enrolled 430 clinically stable adult patients with HF in New York Heart Association functional class II or III, regardless of left ventricular ejection fraction, who were cared for by teams at eight centers in Israel. At the outset, during a period of stability, each patient spoke a few sentences into the app to establish a vocal-pattern baseline.

Once home, their assignment was to speak the same sentences into their phones once a day. The app, working through a cloud-based, artificial intelligence–derived processing system, compared each day’s vocal signature with the baseline and alerted researchers when it detected signs of altered fluid status.

About 460,000 recordings were collected from the 180 patients in the current analysis, of whom about 27% were women. They used the app for a mean of 512 days.

The system seems to work well regardless of language or dialect, Dr. Abraham said. About 70% of the current study’s patients spoke Hebrew, and most of the rest spoke either Russian or Arabic.

Most patients (almost 80%) used the app at least 70% of the prescribed time. Only 14 patients used the app less than 60% of the time, he reported.

Dr. Bayés-Genís proposed that, in practice, unfamiliarity with or resistance to smartphone technology would be unlikely to figure greatly in any nonadherence with the daily app regimen, except “maybe for the eldest of the eldest.” The current cohort’s mean age was 70 years. In his experience, he said, most older persons younger than age 80 use a smartphone, at least in more developed countries.

Dr. Abraham disclosed serving on an advisory board for and receiving consulting fees from Cordio Medical; receiving consulting fees from Abbott, Boehringer Ingelheim, CVRx, Edwards Lifesciences, and Respicardia; receiving salary from V-Wave Medical; and receiving research support from the National Heart, Lung, and Blood Institute. Dr. Bayés-Genís reported receiving personal fees from AstraZeneca, Vifor-Fresenius, Novartis, Boehringer Ingelheim, Abbott, Roche Diagnostics, and Critical Diagnostics.

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