Non-invasive heart failure monitoring: leveraging smart scales and digital biomarkers to improve heart failure outcomes.

Heart failure (HF) is a significant global concern, impacting patient morbidity, mortality, and healthcare costs. Guideline-directed medical therapy and various preventive measures have proven effective in improving clinical outcomes and reducing HF hospitalizations. Recent data indicates that remote HF monitoring facilitates early detection of HF decompensation by observing upstream events and parameters before clinical signs and symptoms manifest. Moreover, these innovative devices have been shown to decrease unnecessary HF hospitalizations and, in some cases, provide predictive insights before an actual HF incident. In this review, we aim to explore the data regarding smart scales and digital biomarkers and summarize both FDA-approved devices and emerging technologies by assessing their clinical utility, mechanism of HF decompensation detection, and ongoing trials. Furthermore, we also discuss the future trend of integrating these devices into routine clinical practice to improve patient clinical outcomes.

Interatrial Shunt Devices.

Elevated left atrial pressure during exercise is a hallmark of heart failure (HF) and is associated with adverse left atrial remodeling and poor outcomes. To decompress the pressure-overloaded left atrium in patients with HF, several device-based approaches have been developed to create a permanent, pressure-dependent, left-to-right interatrial shunt. Such approaches are currently in various stages of investigations in both HF with reduced ejection fraction (EF) and HF with preserved EF. This review discusses the evolution of the concept of left atrial decompression and summarizes the current landscape of device-based approaches used for left atrial decompression.

Device Interventions for Heart Failure.

Despite remarkable advances in drug therapy for heart failure (HF), the residual HF-related morbidity, mortality, and hospitalizations remain substantial across all HF phenotypes, and significant proportions of patients with HF remain symptomatic despite optimal drug therapy. Driven by these unmet clinical needs, the exponential growth of transcatheter interventions, and a recent shift in the regulatory landscape of device-based therapies, novel device-based interventions have emerged as a potential therapy for various phenotypes of HF. Device-based interventions can overcome some of the limitations of drug therapy (eg, intolerance, nonadherence, inconsistent delivery, and recurrent and long-term cost) and can target some HF-related pathophysiologic pathways more effectively than drug therapy. This paper reviews the current evolving landscape of device-based interventions in HF and highlights critical points related to implementation of these therapies in the current workflow of HF management.

Sodium-glucose cotransporter-2 inhibitors in heart failure: Potential decongestive mechanisms and current clinical studies.

Congestion is a key pathophysiological feature of heart failure (HF) syndrome that drives most of the clinical manifestations of acute HF and is related with poor quality of life and outcomes. Therefore, safe and effective decongestion is an important therapeutic target in the management of acute HF and despite the use of guideline-recommended loop diuretics, adequate decongestion is not always achieved in patients with acute HF. Recently, sodium-glucose cotransporter-2 (SGLT-2) inhibitors have been shown to provide clinical benefits across a broad spectrum of patients with HF, including consistent reduction in the risk of acute HF episodes. While the exact mechanisms underlying these benefits remain a matter of debate, a growing body of evidence suggests that effective decongestion may be partly responsible, especially in the setting of acute HF. In this review, we discuss the potential decongestive mechanisms of SGLT-2 inhibitors, such as osmotic diuresis, natriuresis, preservation of glomerular filtration and facilitation of interstitial drainage, which can collectively translate into effective and safe decongestion. Furthermore, we provide a comprehensive review of up-to-date clinical data of SGLT-2 inhibitor use in the acute HF population.

Role of the Renal Lymphatic System in Heart Failure.

PURPOSE OF REVIEW: The lymphatic system plays a major but overlooked role in maintaining fluid homeostasis. Given the unique fluid homeostasis functions of the kidneys, dysregulation of the renal lymphatic system underlies the development of self-propagating congestive pathomechanisms. In this review, we outline the roles of the renal lymphatic system in heart failure (HF). RECENT FINDINGS: Studies have uncovered several pathomechanisms involving the renal lymphatic system in congestive states, such as impaired interstitial draining by the renal lymphatic system, impaired structure and valves of renal lymphatics, lymphatic-induced increase in renal reabsorption of water and sodium, and development of albuminuria with proteinuria-induced renal lymphangiogenesis. These self-propagating mechanisms result in "renal tamponade" with manifestations of cardiorenal syndrome and inappropriate renal response to diuretics. Dysregulation of the renal lymphatic system is integral to the development and progression of congestion in HF. Targeting renal lymphatics may provide a novel pathway to treat intractable congestion.

Intravenous iron infusion in patients with heart failure: a systematic review and study-level meta-analysis.

AIMS: There is considerable variability in the effect of intravenous iron on hard cardiovascular (CV)-related outcomes in patients with heart failure (HF) in randomized controlled trials (RCTs). We use a meta-analytic approach to analyse data from existing RCTs to derive a more robust estimate of the effect size of intravenous iron infusion on CV-related outcomes in patients with HF. METHOD AND RESULTS: PubMed/Medline was searched using the following terms: ('intravenous' and 'iron' and 'heart failure') from inception till 6 November 2022 for RCTs comparing intravenous iron infusion with placebo or standard of care in patients with HF and iron deficiency. Outcomes were the composite of CV mortality and first hospitalization for HF; all-cause mortality; CV mortality; first hospitalization for HF; and total hospitalizations for HF. Random effects risk ratio (RR) with 95% confidence intervals (CIs) were calculated. Ten RCTs with a total of 3438 patients were included. Intravenous iron resulted in a significant reduction in the composite of CV mortality and first hospitalization for HF [RR 0.0.85; 95% CI (0.77, 0.95)], first hospitalization for HF [RR 0.82; 95% CI (0.67, 0.99)], and total hospitalizations for HF [RR 0.74; 95% CI (0.60, 0.91)] but no statistically significant difference in all-cause mortality [RR 0.95; 95% CI. (0.83, 1.09)] or CV mortality [OR 0.89; 95% CI (0.75, 1.05)]. CONCLUSIONS: Intravenous iron infusion in patients with HF reduces the composite risk of first hospitalization for HF and CV mortality as well as the risks of first and recurrent hospitalizations for HF, with no effect on all-cause mortality or CV mortality alone.

Gender Differences and Outcomes of Hypoattenuated Leaflet Thickening (HALT) Following Transcatheter Aortic Valve Replacement: A Meta-analysis of Randomized and Cohort Studies.

Subclinical leaflet thrombosis is characterized by hypoattenuated leaflet thickening (HALT) after transcatheter aortic valve replacement (TAVR) on computed tomography. However, given the low incidence of HALT after TAVR, the clinical significance of HALT is still being investigated. We sought to generate a more reliable estimate of the risk factors and adverse outcomes associated with HALT after TAVR by pooling data from randomized trials and cohort studies. PubMed/Medline database was systematically searched from inception until November 24, 2021, using the following terms: ("hypoattenuated leaflet thickening" and "transcatheter aortic valve replacement") and ("Subclinical leaflet thrombosis" and "transcatheter aortic valve replacement"). A random effects model meta-analysis was conducted using Mantel-Haenszel odds ratios (ORs) and the associated 95% confidence intervals (CIs), mean difference and the associated 95%. Ten studies with a total of 1462 patients were included, with follow-up ranging between 4 months and 3 years. HALT occurred in 14.4% of the patients undergoing TAVR. HALT was not associated with increased risk of stroke/TIA (OR 1.38; 95% CI [0.61-3.11]; I2=0%) or increased risk of all-cause mortality (OR 0.67; 95% CI [0.25-1.80]; I2=0). HALT was associated with a greater post-procedural mean aortic valve gradient (mean difference 2.31 mmHg; 95% CI [0.27, 4.35]; I2=71%). Interestingly, there was a trend of higher risk of HALT in men (OR 1.37; 95% CI [0.82-2.30]; I2=44%) while there was a trend towards lower risk of HALT in the presence of CKD (OR 0.76; 95% CI [0.49-1.19]; I2=0%); these trends did not reach statistical significance. This meta-analysis shows that the occurrence of HALT following TAVR is associated with a greater post-procedural mean aortic valve gradient but no excess risk of death or cerebrovascular events. The clinical significance of this higher post-procedural mean aortic valve gradient is uncertain and requires further investigations.

Association of Non-Alcoholic Fatty Liver Disease With in-Hospital Outcomes in Primary Heart Failure Hospitalizations With Reduced or Preserved Ejection Fraction.

Recent studies focusing on the prevalence, characteristics, and outcomes of primary heart failure (HF) with preserved ejection fraction (HFpEF) and reduced ejection fraction (HFrEF) in non-alcoholic fatty liver disease (NAFLD) are sparse. We sought to assess these using a nationally-representative population. We used the 2016-2018 National Inpatient Sample database to study the prevalence, characteristics, clinical risk profiles, morbidity, mortality, cost, and resource utilization among primary HFpEF and HFrEF hospitalizations with and without NAFLD. In the period from January 1, 2016, to December 31, 2018, there were 3,522,459 admissions of patients aged ≥18 years with a diagnosis of primary HF. Of these, 82,585 (2.3%) hospitalizations had secondary diagnosis of NAFLD. Admissions with NAFLD and HFrEF were associated with higher rates of in-hospital mortality (aOR 1.84, CI 1.66-2.04, P < 0.001) compared to admissions of HFrEF without NAFLD. Similarly, hospitalizations with HFpEF-NAFLD were associated with higher rates of in hospital mortality (aOR 1.65 CI 1.43-1.9, P < 0.001) compared to HFpEF admissions without NAFLD. Pressors use, cardiogenic shock, AKI with or without dialysis use, cardiac arrest, LOS and hospitalization cost were higher in admissions of HFrEF and HFpEF with NAFLD compared to those without NAFLD. In-hospital mortality, was higher in primary HFrEF and HFpEF admissions with NAFLD compared to without NAFLD. Physicians must be aware of the worse clinical outcomes of HFrEF and HFpEF in patients with NAFLD. Further clinical research is needed to address the knowledge gap and treatment options available for the patients with HF and NAFLD.

Role of Lymphatics in Heart Failure.

The lymphatic system plays a crucial, yet often overlooked, role in maintaining fluid homeostasis, and its dysregulation is a key feature of heart failure (HF). Lymphatic dysregulation in patients with HF typically results from a combination of self-perpetuating congestive mechanisms, such as increased fluid filtration, decreased lymph drainage into the central venous system, impaired lymph vessel integrity, dysfunctional lymphatic valves, and dysfunctional renal lymphatic system. These pathomechanisms collectively overwhelm the lymphatic system and hinder its ability to decongest the interstitial space with subsequent manifestation and progression of clinical congestion. Targeting the lymphatic system to counteract these congestive pathomechanisms and facilitate interstitial fluid removal represents a novel pathway to treat congestion in HF. In this study, we discuss the physiological roles of the lymphatic system in fluid homeostasis and the pathophysiological alteration of these roles in HF. We also discuss innovative technologies that aim to use the lymphatic system pathway to treat congestion in HF and provide future directions related to these approaches.

Age, Hypertension, and Exercise Capacity are Independently Associated with Likelihood of Multi-Vessel Disease in Patients Referred for Treadmill Exercise Testing: The Intermediate-High-Workload Treadmill Score (IHWTS).

Background: To identify factors that increase the specificity of the treadmill exercise test (TMET), and develop a novel scoring system which accounts for functional capacity to aid in determining the need for further testing. Methods: We retrospectively evaluated the electronic health records of 600 patients who had positive TMET results and follow-up stress echocardiography from 1-January-2004, through 31-December-2016. Correlations between clinical and aerobic variables and multivessel disease (MVD) were determined. Duke Treadmill Score (DTS) was calculated and compared with a novel scoring system titled the Intermediate-High-Workload Treadmill Score (IHWTS) that used variables associated with MVD. Results: In total, 124 of 600 patients (21%) had coronary catheterization, and 51 of these patients (41%) had MVD. Mean (SD) DTS was -2.10 (6.3) among patients with MVD vs -0.16 (5) among patients without MVD (p = 0.06). Mean (SD) functional aerobic capacity (FAC) was 76% (20%) among patients with MVD vs 90% (21%) among patients without MVD (p < 0.001). Mean (SD) metabolic equivalent (MET) was 7 (2) among patients with MVD vs 8 (2) among patients without MVD (p = 0.002). Only 6 (12%) of patients with MVD achieved 9 MET or greater on TMET. DTS less than 4 did not distinguish between patients with and without MVD (p = 0.67). Age, hypertension and FAC were independently associated with MVD (all p < 0.05). Conclusions: Our novel scoring system IHWTS utilized age, hypertension, and FAC appeared comparable to DTS to risk-stratify patients regardless of baseline symptoms. Clinical parameters such as hypertension along with exercise functional capacity should be considered when evaluating a positive TMET result in patients that achieve an intermediate-high workload > 5 Metabolic Equivalents (METs).

Influence of Iron Deficiency on Clinical and Haemodynamic Parameters in Pulmonary Arterial Hypertension Cohorts.

BACKGROUND: Iron deficiency (Fedef) has been shown to be common in patients with group 1 or pulmonary arterial hypertension (PAH). Several studies have shown a negative impact of Fedef on clinical and haemodynamic parameters of the disease, but data from individual studies have not been strong enough to lead to incorporation of the finding of Fedef into prognostic or therapeutic algorithms. The goal of this meta-analysis was to combine data from available studies to better define any associations between Fedef and established variables of prognostic importance in PAH. METHODS: A literature search identified nine studies with extractable data relevant to the study questions. The impact of Fedef upon the following parameters was evaluated: 6-minute walk distance (6MWD), WHO-functional class, N-terminal pro-brain natriuretic peptide (NT-proBNP) levels, echocardiography, and findings from right heart catheterisation (RHC). Pooled results were reported as mean difference or risk difference with 95% confidence intervals utilising a random effects modeling approach. RESULTS: Fedef in the PAH population was common (47% of cases) and was associated with cardiovascular dysfunction (lower tricuspid annular plane systolic excursion [TAPSE], elevated NT-proBNP, and lower mixed venous oxygen saturation) and with reduction in functional capacity (lower 6MWD and higher functional class). CONCLUSION: This meta-analysis strengthens the relationships between Fedef and several markers of poor outcome in PAH. Fedef in patients with PAH warrants further scrutiny and merits consideration as a cause of clinical deterioration. Even though causation and longitudinal relationships between Fedef and PAH could not be identified, effect of Fedef on factors that affect disease prognosis is noteworthy and worthy of more focussed studies.

Sodium-glucose Cotransporter 2 Inhibitors and Nonalcoholic Fatty Liver Disease.

Nonalcoholic fatty liver disease (NAFLD) is a systemic disorder with cardiovascular manifestations; due to its complex and multifactorial pathophysiological mechanisms, no effective pharmacologic treatment has been identified to date. Sodium-glucose cotransporter 2 (SGLT2) inhibitors have demonstrated potentially favorable effects on NAFLD incidence and progression in preclinical and clinical studies. This review summarizes the evidence from preclinical and human studies supporting the use of SGLT2 inhibitors in NAFLD and proposes several mechanisms that may drive these favorable effects (ie, increasing insulin sensitivity, decreasing intrahepatic fat accumulation and lipotoxicity, decreasing oxidative stress and endoplasmic reticulum (ER) stress, improving autophagy, and inhibiting apoptosis).

Diaphragmatic Function in Cardiovascular Disease: JACC Review Topic of the Week.

In addition to the diaphragm's role as the primary respiratory muscle, it also plays an under-recognized role in cardiac function. It serves as a pump facilitating venous and lymph return, modulating left ventricular afterload hemodynamics and pericardial pressures, as well as regulating autonomic tone. Heart failure (HF) is associated with diaphragmatic changes (ie, muscle fiber atrophy and weakness, increased ratio of type I to type II muscle fibers, and altered muscle metaboreflex) that lead to diaphragmatic dysfunction with subsequent symptomatic manifestations of HF. Herein, it is proposed that targeting the diaphragm in patients with HF via inspiratory muscle training or device-based stimulation can provide a novel treatment pathway for HF. Reviewed are several potential mechanisms through which therapies targeting the diaphragm can be beneficial in HF (ie, improving preload reserve, atrial and ventricular synchrony, and metaboreflex activity; reducing pericardial restraint; and restoring diaphragm strength).

Device Therapy for Heart Failure with Preserved Ejection Fraction.

Heart failure with preserved ejection fraction (HFpEF) is a heterogeneous syndrome with few options for effective pharmacologic therapies. Numerous device-based approaches to HFpEF therapy have emerged, which aim to treat the clinical and pathophysiologic features common to the varied causes of this syndrome. This review summarizes the current landscape of device therapy in HFpEF with a focus on structural interventions, such as left-to-right atrial shunts; cardiac contractility modulation; autonomic modulation, such as baroreflex activation therapy and splanchnic nerve modulation; and respiratory modulation, such as phrenic nerve stimulation.

Post-recovery COVID-19 and incident heart failure in the National COVID Cohort Collaborative (N3C) study.

Cardiac involvement has been noted in COVID-19 infection. However, the relationship between post-recovery COVID-19 and development of de novo heart failure has not been investigated in a large, nationally representative population. We examined post-recovery outcomes of 587,330 patients hospitalized in the United States (257,075 with COVID-19 and 330,255 without), using data from the National COVID Cohort Collaborative study. Patients hospitalized with COVID-19 were older (51 vs. 46 years), more often male (49% vs. 42%), and less often White (61% vs. 69%). Over a median follow up of 367 days, 10,979 incident heart failure events occurred. After adjustments, COVID-19 hospitalization was associated with a 45% higher hazard of incident heart failure (hazard ratio = 1.45; 95% confidence interval: 1.39-1.51), with more pronounced associations among patients who were younger (P-interaction = 0.003), White (P-interaction = 0.005), or who had established cardiovascular disease (P-interaction = 0.005). In conclusion, COVID-19 hospitalization is associated with increased risk of incident heart failure.