Trials / Recruiting

RecruitingNCT07506499

Cardiac Rehabilitation in Decompensated Heart Failure

Effect of Cardiac Rehabilitation in Patients With Decompensated Heart Failure

Summary

Heart failure is a common clinical condition that often leads to reduced exercise tolerance, shortness of breath, and poor quality of life. Many patients with heart failure also develop weakness of the inspiratory muscles, which contributes to limited physical activity and worsening functional capacity. Inspiratory muscle training (IMT) has been suggested as a useful rehabilitation method to improve respiratory muscle strength and exercise tolerance. In addition, functional electrical stimulation (FES) of the lower limb muscles may help activate skeletal muscles and improve functional performance in patients who cannot tolerate conventional exercise. This randomized controlled study aims to investigate the effect of combining inspiratory muscle training with functional electrical stimulation of the lower limbs in patients with decompensated heart failure. A total of 135 hospitalized patients with decompensated heart failure will be recruited from the Cardiology Department at Beni-Suef University Hospital and randomly assigned into three groups. Group A (45 patients) will receive routine medical treatment in addition to inspiratory muscle training combined with functional electrical stimulation. Group B (45 patients) will receive routine medical treatment with inspiratory muscle training only. Group C (45 patients) will receive routine medical treatment alone. The intervention will start during hospitalization and will continue for four weeks. The study will evaluate the effects of these interventions on cardiac function, inspiratory muscle strength, and functional capacity as primary outcomes. Secondary outcomes will include dyspnea severity, quality of life, heart rate, oxygen saturation, hand grip strength, and maximum expiratory pressure. The findings of this study may help clarify the potential role of combining inspiratory muscle training with functional electrical stimulation as part of cardiac rehabilitation in patients with decompensated heart failure.

Detailed description

Heart failure is a progressive clinical syndrome in which the heart is unable to maintain adequate cardiac output to meet the body's metabolic demands. Decompensated heart failure represents an acute or subacute deterioration requiring hospitalization and is associated with significant morbidity, prolonged hospital stays, and high readmission rates. Beyond the primary cardiac impairment, patients with decompensated heart failure commonly develop secondary systemic consequences, including respiratory muscle dysfunction and peripheral skeletal muscle abnormalities, both of which contribute independently to exercise intolerance, symptom burden, and poor functional outcomes. Inspiratory muscle weakness has been identified in approximately 30-50% of patients with heart failure and is believed to result from a combination of diaphragmatic underperfusion, chronic hyperventilation, and systemic inflammatory and catabolic processes. This weakness leads to increased work of breathing, ventilatory inefficiency, and heightened perception of dyspnea, creating a vicious cycle that further limits physical activity and accelerates functional decline. Inspiratory muscle training (IMT) targets this mechanism by applying progressive resistive loading to the inspiratory muscles, promoting improvements in diaphragmatic strength, ventilatory efficiency, and autonomic modulation. Several studies have demonstrated favorable effects of IMT on inspiratory muscle performance, exercise capacity, and quality of life in stable heart failure populations; however, evidence regarding its application during the acute decompensated phase remains limited. Peripheral skeletal muscle dysfunction in heart failure is characterized by a shift from type I oxidative to type II glycolytic muscle fibers, reduced mitochondrial density, impaired oxygen utilization, and muscle atrophy driven by disuse, neurohormonal activation, and systemic inflammation. These changes are particularly pronounced during periods of decompensation and prolonged bed rest. Functional electrical stimulation (FES) offers a passive approach to muscle activation that bypasses the cardiovascular demand of voluntary exercise, making it a potentially suitable intervention for hemodynamically unstable or severely deconditioned patients. FES-induced muscle contractions have been shown to improve local blood flow, enhance oxidative enzyme activity, and promote favorable fiber-type remodeling in heart failure populations. Despite the established individual benefits of IMT and FES, no study to date has investigated the combined application of these two modalities in patients hospitalized with decompensated heart failure. The physiological rationale for combining them is based on the concept of addressing both central (respiratory muscle) and peripheral (skeletal muscle) components of exercise intolerance simultaneously, which may produce additive or synergistic improvements in functional capacity and clinical outcomes compared to either intervention alone. This study hypothesizes that the addition of combined IMT and FES to routine medical treatment will result in greater improvements in cardiac function, inspiratory muscle strength, and functional capacity compared to IMT alone or medical treatment alone in patients with decompensated heart failure. The findings may contribute to the development of early, comprehensive cardiac rehabilitation strategies for this high-risk population.

Conditions

• Decompensated Heart Failure

Interventions

Timeline

Start date

2026-04-01

Primary completion

2026-06-15

Completion

2026-07-01

First posted

2026-04-01

Last updated

2026-04-15

Locations

1 site across 1 country: Egypt

Source: ClinicalTrials.gov record NCT07506499. Inclusion in this directory is not an endorsement.