Clinical Trials Directory

Trials / Terminated

TerminatedNCT03716778

Rehabilitation by Eccentric Exercise in Heart Failure Patients

Enhanced Effectiveness of Combined Eccentric and Concentric Exercise Over Traditional Cardiac Exercise Rehabilitation Program in Patients With Chronic Heart Failure: a Randomized Controlled Study

Status
Terminated
Phase
N/A
Study type
Interventional
Enrollment
23 (actual)
Sponsor
University Hospital, Clermont-Ferrand · Academic / Other
Sex
All
Age
18 Years – 75 Years
Healthy volunteers
Not accepted

Summary

As part of the regular rehabilitation program for chronic heart failure (CHF) patients, the addition of dynamic eccentric endurance (ECC) exercise sessions to the conventional concentric cycling program (CON) would enable greater gains in functional capacity that the CON alone. Furthermore, in the case of severe heart failure, results of conventional exercise rehabilitation remains limited on account of the poor physical fitness and deconditioning. Dynamic ECC has been shown to enhance muscle mass and improve muscle strength in subjects with functional limitations comparable to those in CHF, but to date reports on effects on muscle endurance and overall functional capacity remain scarce or non-existent. Investigator hypothesize that a combination of these two types of training will allow both an improvement in strength and oxidative muscle capacities. These benefits must be objectified at the level of the walking distance covered in 6 min (6-WT).

Detailed description

Investigator hypothesize that the combination of CON and ECC forms of endurance exercise will potentiate peripheral muscle and cardio-circulatory adaptations. All sessions, regardless of the modality, will be performed at the same percentage of the concentric peakVO2. Sessions performed in ECC mode will induce a mechanical overload. The ECC training of such intensity and duration seemingly having little or no effect on mitochondrial muscle adaptations, the maintenance of conventional training will allow stimulation of the aerobic endurance component. A synergistic effect is expected from the combination of the two modalities; the muscle strength gain induced by ECC allowing to sustained greater cycling workloads yet compatible with the cardio-circulatory capabilities of patients with CHF and more specifically their exercise cardiac output adjustment. Investigator chose to assess the extent of benefits through functional capacity tests reflecting adaptation of both the aerobic (endurance capacity) and anaerobic (muscle strength) components of adaptive response, namely, 1) 6 min. walk test (6-WT), 2) time up and go test (TUGT), 3) quadriceps isometric muscular strength (IMS) and gait speed test. The study is a prospective, open, controlled and randomized study in two parallel groups carried out in a single center. Patients will be included in the study if: i) they are referred to the cardiac rehabilitation center for the 5-week training program, ii) they meet the inclusion criteria and iii) they provide their signed consent. Patients will be followed for 5 weeks, the duration of the cardiac rehabilitation program. They will benefit from the standard evaluation of any CHF patient referred for rehabilitation including an initial 12-lead ECG, a trans-thoracic cardiac ultrasound assessment and a cycling exercise stress test with gas exchange analysis and non-invasive measurement of cardiac output using a bio-impedance device. A standard biological blood analysis will be performed for NFS-platelets, blood electrolytes, CRP, NTproBNP, nutritional status with albumin and pre-albumin. All subjects will perform 5 exercise sessions per week on a cycle ergometer. As per randomization outcome, the "intervention" group will perform three of the five weekly sessions in ECC mode (the other two in CON) while the control group will perform the five weekly sessions in CON mode. The intensity of the cycling will be the same in both groups as determined from the initial cycling incremental test targeted to correspond to the VO2 associated with the ventilatory threshold.

Conditions

Interventions

TypeNameDescription
OTHEREccentric rehabilitation sessionsECC cycling will be conducted using a commercially available ECC motor-driven ergometer. Intensity and duration are progressively increased during the first five sessions in order to minimize the extent of exercise-induced muscle soreness. The subjects will perform five sessions of endurance training on cycle ergometer per week. Each session lasting 30 minutes will be achieved at an intensity corresponding to the pre-determined CON ventilatory threshold. In the ECC group, 3 sessions of ECC (Monday, Wednesday and Friday) and two session of concentric (Tuesday and Thursday) cycling will be carried out each week. In the control group CON all sessions will be achieved using the traditional pedaling mode.

Timeline

Start date
2018-11-09
Primary completion
2022-05-26
Completion
2022-05-26
First posted
2018-10-23
Last updated
2023-06-12

Locations

1 site across 1 country: France

Source: ClinicalTrials.gov record NCT03716778. Inclusion in this directory is not an endorsement.