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Positive energy balance is associated with accelerated muscle atrophy and increased erythrocyte glutathione turnover during 5 wk of bed rest

2008; Elsevier BV; Volume: 88; Issue: 4 Linguagem: Inglês

10.1093/ajcn/88.4.950

1938-3207

Gianni Biolo, Francesco Agostini, Boštjan Šimunič, Mariella Sturma, Lucio Torelli, Jean Charles Preiser, G. Deby‐Dupont, Paolo Magni, Felice Strollo, Pietro di Prampero, Gianfranco Guarnieri, Igor B. Mekjavić, Rado Pišot, Marco Narici,

Thermoregulation and physiological responses

Background: Physical inactivity is often associated with positive energy balance and fat gain. Objective: We aimed to assess whether energy intake in excess of requirement activates systemic inflammation and antioxidant defenses and accelerates muscle atrophy induced by inactivity. Design: Nineteen healthy male volunteers were studied before and at the end of 5 wk of bed rest. Subjects were allowed to spontaneously adapt to decreased energy requirement (study A, n = 10) or were provided with an activity-matched diet (study B, n = 9). Groups with higher (HEB) or lower (LEB) energy balance were identified according to median values of inactivity-induced changes in fat mass (ΔFM, assessed by bioelectrical impedance analysis). Results: In pooled subjects (n = 19; median ΔFM: 1.4 kg), bed rest–mediated decreases in fat-free mass (bioelectrical impedance analysis) and vastus lateralis thickness (ultrasound imaging) were significantly greater (P < 0.03) in HEBAB (−3.8 ± 0.4 kg and −0.32 ± 0.04 cm, respectively) than in LEBAB (−2.3 ± 0.5 kg and −0.09 ± 0.04 cm, respectively) subjects. In study A (median ΔFM: 1.8 kg), bed rest–mediated increases in plasma leptin, C-reactive protein, and myeloperoxidase were greater (P < 0.04) in HEBA than in LEBA subjects. Bed rest–mediated changes of glutathione synthesis rate in eythrocytes (l-[3,3-2H2]cysteine incorporation) were greater (P = 0.03) in HEBA (from 70 ± 19 to 164 ± 29%/d) than in LEBA (from 103 ± 23 to 84 ± 27%/d) subjects. Conclusions: Positive energy balance during inactivity is associated with greater muscle atrophy and with activation of systemic inflammation and of antioxidant defenses. Optimizing caloric intake may be a useful strategy for mitigating muscle loss during period of chronic inactivity.