Effects of elastic band resistance training and nutritional supplementation on muscle quality and circulating muscle growth and degradation factors of institutionalized elderly women: the Vienna Active Ageing Study (VAAS).
Study Goal
The researchers aimed to investigate the effects of elastic band resistance training and nutritional supplementation on muscle growth, degradation factors, physical performance, and muscle quality in institutionalized elderly women.
Results Summary
Resistance training (RT) and RT plus nutritional supplementation (RTS) significantly improved muscle quality and physical performance (e.g., chair stand test) after 6 months. The improvements appeared mediated by increased follistatin and reduced activin A-to-follistatin ratio, not by IGF-1 or myostatin pathways.
Population
Institutionalized elderly women (aged 65.0–92.2 years, mean 83.6).
Effective Dosage
Not specified (elastic band resistance training frequency/intensity not detailed).
Duration
6 months.
Interactions
None mentioned.
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
elastic band resistance training | increase | MQ of lower extremities | institutionalized elderly women | +14 % | significantly increased | #1 |
resistance training plus nutritional supplementation | increase | MQ of lower extremities | institutionalized elderly women | +12 % | significantly increased | #2 |
elastic band resistance training | increase | chair stand test performance | institutionalized elderly women | +18 % | improved | #3 |
resistance training plus nutritional supplementation | increase | chair stand test performance | institutionalized elderly women | +15 % | improved | #4 |
elastic band resistance training | increase | Follistatin | institutionalized elderly women | +18 % | increased | #5 |
elastic band resistance training | decrease | activin A-to-follistatin ratio | institutionalized elderly women | -7 % | decrease | #6 |
elastic band resistance training | no change | IGF-1 levels | institutionalized elderly women | no significant change | were not affected | #7 |
elastic band resistance training | no change | myostatin levels | institutionalized elderly women | no significant change | were not affected | #8 |
elastic band resistance training | no change | GDF-15 levels | institutionalized elderly women | no significant change | were not affected | #9 |
PURPOSE: Regular resistance exercise training and a balanced diet may counteract the age-related muscular decline on a molecular level. The aim of this study was to investigate the influence of elastic band resistance training and nutritional supplementation on circulating muscle growth and degradation factors, physical performance and muscle quality (MQ) of institutionalized elderly. METHODS: Within the Vienna Active Ageing Study, 91 women aged 83.6 (65.0-92.2) years were randomly assigned to one of the three intervention groups (RT, resistance training; RTS, resistance training plus nutritional supplementation; CT, cognitive training). Circulating levels of myostatin, activin A, follistatin, IGF-1 and GDF-15, as well as MQ and functional parameters were tested at baseline as well as after 3 and 6 months of intervention. RESULTS: MQ of lower extremities significantly increased in the RT group (+14 %) and RTS group (+12 %) after 6 months. Performance improved in the RT and RTS groups for chair stand test (RT: +18 %; RTS: +15 %). Follistatin increased only in the RT group (+18 %) in the latter phase of the intervention, accompanied by a decrease in the activin A-to-follistatin ratio (-7 %). IGF-1, myostatin and GDF-15 levels were not affected by the intervention. CONCLUSION: Our data confirm that strength training improves physical performance and MQ even in very old institutionalized women. This amelioration appears to be mediated by blocking muscle degradation pathways via follistatin rather than inducing muscle growth through the IGF-1 pathway. As plasma levels of biomarkers reflect an overall status of various organ systems, future studies of tissue levels are suggested.