Effect of Eccentric Exercise Training in Rheumatoid Cachexia

Brief Summary

Detailed Description

Rheumatoid arthritis (RA) is characterized by severe disability and metabolic changes leading to an increase in cardiovascular mortality compared with the general population. RA is an independent cardiovascular risk factor. In contrast to the general population, RA patients with low body mass index (BMI) had a significantly higher risk of cardiovascular death. Low BMI may indicate rheumatoid cachexia and may explain the excess cardiovascular risk and mortality. Cachexia is defined by is a loss of body cell mass, predominantly in skeletal muscle, associated with increased fat mass and often stable weight. Rheumatoid cachexia, not well recognized, is frequent, affecting two third of patients. Pathogenesis may include inflammatory cytokine production, physical inactivity, higher catabolism and reduced peripheral insulin action. Therapeutic strategy includes increasing physical activity and the treatment of disease itself. Studies have shown that regular progressive resistance strength training improves strength and pain in patients with well-controlled RA without exacerbating disease activity or joint pain. At comparable mechanical power output, eccentric (ECC ) exercises are characterised by lower metabolic demand than concentric (CON) exercises. ECC exercise is characterised not only by its low energy cost, but also by specific cardiocirculatory specificity. In patients with Parkinson's disease, compared to a conventional rehabilitation programme, ECC training better improved quadriceps muscle volume. In overweight and diabetic patients, ECC training improved resting energy expenditure and fat oxidation, blood lipid profile and insulin resistance compared to CON training. As in cancers, ECC training appears to be particularly suitable for patients with rheumatoid cachexia as it can maximize the functional and structural muscle responses with low energy cost populations. This study aimed to determine the muscle effects of ECC training, with the primary outcome being the knee extensor strength gain at 3 months. Secondary outcomes are the improvement in muscle mass, functional status and cardiovascular risk. From patients who consented in ECC training group, muscle biopsy specimens from vastus lateralis will be obtained at baseline prior to the training period. Primary and secondary outcome criteria will be assessed at inclusion, at 3 months, and 6 months. In total, 48 patients will need to be recruited. These patients will be randomly assigned to one of the 3 groups, with each group comprising 16 patients: group 1 with ECC training, group 2 with CONC training, group 3 with no training (control). The training program will consist in 30 sessions over 12 weeks.

Primary Outcomes

Secondary Outcomes

• improvement in fonctional status(At the beginning of the training, after 3 and 6 months)
• improvement in cardiovascular risk(At the beginning of the training, after 3 and 6 months)
• improvement in muscle mass(Up to 30 days before the beginning of the training, after 3 and 6 months)