Trials / Recruiting

RecruitingNCT07164911

Predictive Factors of Response to Phase II Cardiac Rehabilitation in Heart Failure With Reduced Ejection Fraction

Prédiction Des réponses du Patient Porteur d'Une Insuffisance Cardiaque à Fraction d'éjection altérée à Une Phase II de réadaptation Cardiaque

Summary

Exercise intolerance, measured as peak oxygen consumption (VO₂peak) during exercise in patients with heart failure with reduced ejection fraction (HFrEF). Change in VO₂peak (ΔVO₂peak), which serves as a prognostic marker for HFrEF engaged in exercise based cardiac rehabilitation program (ExCR). Responders to ExCR generally show improved cardiac function but some patients with HFrEF do not respond to ExCR. VO₂peak depends on three major components of oxygen transport: Pulmonary (lungs), circulatory (heart and vessels) and skeletal muscle (oxygen utilization) functions. These physiological responses to ExCR may be influenced by epigenetic regulation, specifically the expression of circulating microRNAs (c-miRNAs). Linking non-invasive measurements and epigenetic markers could 1) identify which component of the oxygen transport chain is most impaired and 2) allow personalized interventions to maximize VO₂peak improvements. The primary objective of this stidy is to assess the association between changes in VO₂peak during exercise training and circulating microRNA expression (miR-146a, miR-191, miR-23a, miR-140, miR-1, miR-21, miR-133a, miR-17-5p, miR-3200-3p). The secondary objective is to examine the relationship between pulmonary, cardiovascular, and neuromuscular adaptations to exercise and circulating microRNA expression.

Detailed description

Key Takeaways VO₂peak is a clinically relevant, prognostic measure in HFrEF. .ExCR benefits are heterogeneous, partly due to variable cardiac and muscular adaptations. c-miRNAs may mediate or indicate the molecular response to ExCR. c-miRNAs may Enhance pulmonary, cardiac, or muscular adaptations → improved VO₂peak, or, if maladaptive, contribute to fatigue → explaining non-response. Goal Connect ΔVO₂peak with cellular precursors of adaptation, providing a mechanistic understanding of CR responses. Method 62 patients with HFrEF will be engaged in a this prospective, single-center cohort follow-up study with a prognostic aim and minimal risk to human participants. Peak values of oxygen uptake, cardiac hemodynamics, cerebral and muscle oxygenation, non-coding RNA will be measured before and after Exercise based cardiac rehabilitation during a cardiopulmonary exercise testing. All the patients will perform a force - velocity test in order to prescribe an individualized resistance training program. Originality of study: Combines non-invasive physiological measurements during exercise and biomarker (c-miRNA) analysis before and after ExCR. Scientific and Clinical Significance Linking non-invasive measurements and epigenetic markers could: 1. Identify which component of the oxygen transport chain is most impaired. 2. Combining physiological and molecular assessments could guide tailored rehabilitation strategies.

Conditions

• HFrEF - Heart Failure With Reduced Ejection Fraction
• Cardiac Rehabilitation
• Exercise Training
• Exercise Adaptations
• Exercise Intolerance
• Exercise Intervention

Timeline

Start date

2025-11-25

Primary completion

2027-10-31

Completion

2027-11-30

First posted

2025-09-10

Last updated

2025-12-16

Locations

1 site across 1 country: France

Source: ClinicalTrials.gov record NCT07164911. Inclusion in this directory is not an endorsement.