Pharmacologic Options for the Management of Systolic Heart Failure: Examining Underlying Mechanisms

Relationship Between Sarcopenia and Cardiovascular Diseases in the Elderly: An Overview

With the advent of population aging, aging-related diseases have become a challenge for governments worldwide. Sarcopenia has defined as a clinical syndrome associated with age-related loss such as skeletal muscle mass, strength, function, and physical performance. It is commonly seen in elderly patients with chronic diseases. Changes in lean mass are common critical determinants in the pathophysiology and progression of cardiovascular diseases (CVDs). Sarcopenia may be one of the most important causes of poor physical function and decreased cardiopulmonary function in elderly patients with CVDs. Sarcopenia may induce CVDs through common pathogenic pathways such as malnutrition, physical inactivity, insulin resistance, inflammation; these mechanisms interact. In this study, we aimed to investigate the relationship between sarcopenia and CVDs in the elderly. Further research is urgently needed to understand better the relationship, pathophysiology, clinical presentation, diagnostic criteria, and mechanisms of sarcopenia and CVDs, which may shed light on potential interventions to improve clinical outcomes and provide greater insight into the disorders above.

A Novel Approach to Medical Management of Heart Failure With Reduced Ejection Fraction

The advent of newly available medical therapies for heart failure with reduced ejection fraction (HFrEF) has resulted in many potential therapeutic combinations, increasing treatment complexity. Publication of expert consensus guidelines and initiatives aimed to improve implementation of treatment has emphasized sequential stepwise initiation and titration of medical therapy, which is labour intensive. Data taken from heart failure registries show suboptimal use of medications, prolonged titration times, and consequently little change in dose intensity, all of which indicate therapeutic inertia. Recently published evidence indicates that 4 medication classes-renin-angiotensin-neprilysin inhibitors, β-blockers, mineralocorticoid antagonists, and sodium-glucose cotransporter inhibitors-which we refer to as Foundational Therapy, confer rapid and robust reduction in both morbidity and mortality in most patients with HFrEF and that they work in additive fashion. Additional morbidity and mortality may be observed following addition of several personalized therapies in specific subgroups of patients. In this review, we discuss mechanisms of action of these therapies and propose a framework for their implementation, based on several principles. These include the critical importance of rapid initiation of all 4 Foundational Therapies followed by their titration to target doses, emphasis on multiple simultaneous drug changes with each patient encounter, attention to patient-specific factors in choice of medication class, leveraging inpatient care, use of the entire health care team, and alternative (ie, virtual visits) modes of care. We have incorporated these principles into a Cluster Scheme designed to facilitate timely and optimal medical treatment for patients with HFrEF.

Impact of long-lasting spontaneous physical activity on bone morphogenetic protein 4 in the heart and tibia in murine model of heart failure

Bone morphogenetic protein 4 (BMP4) plays an important role in bone remodeling and in heart failure pathogenesis. The aim of this study was to evaluate the effect of spontaneous physical activity on the expression of BMP4 in the heart and tibia of the transgenic (Tgαq*44) mice, representing a model of chronic heart failure. Tgαq*44 and wild-type FVB mice (WT) were randomly assigned either to sedentary or to trained groups undergoing 8 weeks of spontaneous wheel running. The BMP4 protein expression in heart and tibiae was evaluated using Western immunoblotting and the phosphorus and calcium in the tibiae was assessed using the X-ray microanalysis. BMP4 content in the hearts of the Tgαq*44-sedentary mice was by ~490% higher than in the WT-sedentary mice, whereas in tibiae the BMP4 content of the Tgαq*44-sedentary mice was similar to that in the WT-sedentary animals. Tgαq*44 mice revealed by ~28% poorer spontaneous physical activity than the WT mice. No effect of performed physical activity on the BMP4 content in the hearts of either in the Tgαq*44 or WT mice was observed. However, 8-week spontaneous wheel running resulted in a decrease in the BMP4 expression in tibiae (by ~43%) in the group of Tgαq*44 mice only, with no changes in their bone phosphorus and calcium contents. We have concluded that prolonged period of spontaneous physical exercise does not increase the risk of the progression of the BMP4-mediated pathological cardiac hypertrophy and does not affect bone mineral status in the chronic heart failure mice.

Impact of Event Severity on Hospital Rankings Based on Heart Failure Readmission Rates

The Medicare Readmissions Reduction Program penalizes hospitals with higher than expected readmission rates after discharge for congestive heart failure (CHF). This exploratory study analyzed whether categorizing readmissions by event severity might have implications for the program. The authors used the 5% MedPAR (Medicare Provider and Analysis Review) data for 2008 to 2014 and ranked 1820 hospitals based on all readmissions, readmissions for CHF, short-stay CHF readmissions, and readmissions for severe CHF with evidence of cardiogenic shock. Ranking hospitals based on severe CHF readmissions changes their relative rank order significantly compared to counting all readmissions. If confirmed in the full Medicare data, the finding could inform the design of the Readmission Reduction Program.

Management of heart failure in the elderly

PURPOSE OF REVIEW

Heart failure is a major chronic illness with no definitive cure. With improving healthcare and with an aging population in many countries, heart failure has become a common disease of the elderly. Pharmacological management of heart failure in the elderly remains a challenge. The syndrome of heart failure cannot be isolated from other comorbidities, which are very common in this population. The purpose of this review is to assist practicing clinicians to more effectively make decisions about management of heart failure in the elderly.

RECENT FINDINGS

In this review, we will try to integrate recent research studies, recent guidelines, and new treatment modalities, and discuss some controversies.

SUMMARY

In general, the elderly patient with heart failure should be treated according to current heart failure guidelines; however, untailored heart failure management may cause untoward effects in this age group and may worsen clinical outcome.

Treatment of Heart Failure With Reduced Ejection Fraction-Recent Developments

Heart failure with reduced ejection fraction (HFrEF) represents at least half of the cases of heart failure, which is a syndrome defined as the inability of the heart to supply the body's tissues with an adequate amount of blood under conditions of normal cardiac filling pressure. HFrEF is responsible for high costs and rates of mortality, morbidity, and hospital admissions, mainly in developed countries. Thus, the need for better diagnostic methods and therapeutic approaches and consequently better outcomes is clear. In this article, we review the principal aspects of pathophysiology and diagnosis of HFrEF, with focus on emerging biomarkers and on recent echocardiographic methods for the assessment of left ventricular function. Furthermore, we discuss several major developments in pharmacological and nonpharmacological treatment of HFrEF in the last years, including cardiac resynchronization therapy, implantable cardioverter defibrillators, and the recent and promising drug LCZ696, focusing on current indications, unanswered questions, and other relevant aspects.

Cellular, structural and functional cardiac remodelling following pressure overload and unloading

BACKGROUND

The cardiac remodelling process in advanced heart failure due to pressure overload has not been clearly defined but likely involves mechanisms of cardiac fibrosis and cardiomyocyte hypertrophy. The aim of this study was to examine pressure overload (PO)-induced cardiac remodelling processes and their reversibility after unloading in both humans with heart failure and a mouse model of PO induced by aortic constriction.

METHODS & RESULTS

Speckle tracking echocardiography showed PO-induced cardiac dysfunction in mice was reversible after removal of aortic constriction to unload. Masson's Trichrome staining suggested that PO-induced myocardial fibrosis was reversible, however detailed analysis of 3-dimensional collagen architecture by scanning electron microscopy demonstrated that matrix remodelling was not completely normalised as a disorganised network of thin collagen fibres was evident. Analysis of human left ventricular biopsy samples from HF patients revealed increased presence of large collagen fibres which were greatly reduced in paired samples from the same individuals after unloading by left ventricular assist device implantation. Again, an extensive network of small collagen fibres was still clearly seen to closely surround cardiomyocytes after unloading. Other features of PO-induced remodelling including increased myofibroblast content, cardiomyocyte disarray and hypertrophy were largely reversed upon unloading in both humans and mouse model. Previous work in humans demonstrated that receptors for adiponectin, an important mediator of cardiac fibrosis and hypertrophy, decreased in heart failure patients and returned to normal after unloading. Here we provide novel data showing a similar trend for adiponectin receptor adaptor protein APPL1, but not APPL2 isoform.

CONCLUSIONS

LV unloading diminishes PO-induced cardiac remodelling and improves function. These findings add new insights into the cardiac remodelling process, and provide novel targets for future pharmacologic therapies.