Author(s): PaddonJones D, SheffieldMoore M, Cree MG, Hewlings SJ, Aarsland A,
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Abstract CONTEXT: We recently demonstrated that 28-d bed rest in healthy volunteers results in a moderate loss of lean leg mass and strength. OBJECTIVE: The objective of this study was to quantify changes in muscle protein kinetics, body composition, and strength during a clinical bed rest model reflecting both physical inactivity and the hormonal stress response to injury or illness. DESIGN: Muscle protein kinetics were calculated during a primed, continuous infusion (0.08 micromol/kg.min) of 13C6-phenylalanine on d 1 and 28 of bed rest. SETTING: The setting for this study was the General Clinical Research Center at the University of Texas Medical Branch. PARTICIPANTS: Participants were healthy male volunteers (n = 6, 28 +/- 2 yr, 84 +/- 4 kg, 178 +/- 3 cm). INTERVENTION: During bed rest, hydrocortisone sodium succinate was administered iv (d 1 and 28) and orally (d 2-27) to reproduce plasma cortisol concentrations consistent with trauma or illness (approximately 22 microg/dl). MAIN OUTCOME MEASURES: We hypothesized that inactivity and hypercortisolemia would reduce lean muscle mass, leg extension strength, and muscle protein synthesis. RESULTS: Volunteers experienced a 28.4 +/- 4.4\% loss of leg extension strength (P = 0.012) and a 3-fold greater loss of lean leg mass (1.4 +/- 0.1 kg) (P = 0.004) compared with our previous bed rest-only model. Net protein catabolism was primarily due to a reduction in muscle protein synthesis [fractional synthesis rate, 0.081 +/- 0.004 (d 1) vs. 0.054 +/- 0.007\%/h (d 28); P = 0.023]. There was no change in muscle protein breakdown. CONCLUSION: Prolonged inactivity and hypercortisolemia represents a persistent catabolic stimulus that exacerbates strength and lean muscle loss via a chronic reduction in muscle protein synthesis.
This article was published in J Clin Endocrinol Metab
and referenced in Journal of Sports Medicine & Doping Studies