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Clinical Trial Summary

Heart disease is the leading cause of death in the United States, accounting for one in every four deaths in 2010 and costing over $300 billion annually in health care, medication, and lost productivity. Heart failure with a reduced ejection fraction (HFrEF), a clinical syndrome that develops as a consequence of heart disease, now affects almost 6 million Americans. Within the VA Health Care System, HFrEF hospital admission rates continue to rise, and remain the number one reason for discharge from VA hospitals nationwide. Unfortunately, over one-third of all Veterans suffering from HFrEF die within two years of discharge despite optimized drug therapy, an unacceptably high number. This proposal is focused on how impaired muscle blood flow contributes to exercise intolerance in HFrEF, and on subsequently developing strategies for restoring exercise tolerance and slowing disease progression in this patient group. It is anticipated that knowledge gained from these studies will contribute to improved standard of care, quality of life, and prognosis in this VA patient group.


Clinical Trial Description

Heart failure with reduced ejection fraction (HFrEF), a clinical syndrome that develops as a consequence of heart disease from multiple etiologies, now affects almost six million Americans, presenting an imminent need for further research addressing the pathophysiology of this pervasive disease. One of the most damaging consequences of the disease is an elevation in sympathetic nervous system (SNS) activity, which manifests peripherally as chronic vasoconstriction. In HFrEF patients, peripheral vasoconstriction acts to limit blood flow in the exercising muscle, promoting exercise intolerance, premature skeletal muscle fatigue, inactivity, and a subsequent acceleration in disease progression. Fortunately, disease-related sympathoexcitation may be remediable. Among the most influential modulators of peripheral SNS expression is the nitric oxide (NO) pathway. Thus, interventions focused on improving NO bioavailability may offer a new, unexplored strategy for inhibiting SNS overactivity in HFrEF, and thus represent a novel approach for improving and exercise tolerance. Specific Aim 1 will utilize an oral antioxidant (AOx) cocktail to study whether disruptions in oxidative stress can favorably influence exercise tolerance in HFrEF patients. Specific Aim 2 will examine the efficacy of oral tetrahydrobiopterin (BH4), a cofactor for endothelial nitric oxide synthase (eNOS), to improve exercise intolerance in HFrEF patients. Specific Aim 3 will examine the therapeutic potential of aerobic, knee-extensor (KE) exercise training to improve skeletal muscle blood flow and thus exercise tolerance in HF patients. Importantly, this exercise modality produces a potent training stimulus without the significant cardiopulmonary stress that accompanies more traditional, whole-body exercise. It is proposed that 12 weeks of supervised KE training will increase NO bioavailability and inhibit SNS activity, which will in turn improve vascular function and exercising limb blood flow. Specific Aim 4 will examine whether the interventional strategies in Aims 1-3 can improve adherence to an 8-week clinical cardiac rehabilitation program. It is hypothesized that chronic AOx consumption (Aim 1), BH4 consumption (Aim 2), and aerobic exercise training (Aim 3) interventions will reduce the rate of attrition from Phase II outpatient Cardiac Rehabilitation in HFrEF patients compared to patients that did not participate in an interventional phase of the study. The investigators anticipate that disrupting this "vicious cycle" of vasoconstriction in HFrEF may improve overall vascular health to such a degree that significant improvements in exercise-related symptoms are realized, which could therefore improve enrollment in a cardiac rehabilitation program. In this context, findings from the proposed work may provide an important link between vascular and rehabilitative medicine, thus serving to refine current strategies for the treatment of Veterans with HFrEF, ultimately leading to enhanced quality of life in this cohort. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03136029
Study type Interventional
Source VA Office of Research and Development
Contact David W Wray, PhD
Phone (801) 582-1565
Email walter.wray@hsc.utah.edu
Status Recruiting
Phase Early Phase 1
Start date June 1, 2018
Completion date May 31, 2025

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