Effect of acute head-down tilt on skeletal muscle cross-sectional area and proton transverse relaxation time

Conley, Michael S., Jeanne M. Foley, Lori L. Ploutz-Snyder,Ronald A. Meyer, and Gary A. Dudley. Effect of acute head-down tilt on skeletal muscle cross-sectional area and proton transverse relaxation time. J. Appl. Physiol.81(4): 1572-1577, 1996.This study investigated changes inskeletal muscle cross-sectional area (CSA) evoked by fluid shifts thataccompany short-term 6° head-down tilt (HDT) or horizontal bedrest, the time course of the resolution of these changes afterresumption of upright posture, and the effect of altered muscle CSA, inthe absence of increased contractile activity, on proton transverserelaxation time (T₂). Averagemuscle CSA and T₂ were determinedby standard spin-echo magnetic resonance imaging. Analyses wereperformed on contiguous transaxial images of the neck and calf. After aday of normal activity, 24 h of HDT increased neck muscle CSA 19 ± 4 (SE)% (P < 0.05) whilecalf muscle CSA decreased 14 ± 3%(P < 0.05). The horizontal posture(12 h) induced about one-half of these responses: an 11 ± 2%(P < 0.05) increase in neck muscleCSA and an 8 ± 2% decrease (P < 0.05) in the calf. Within 2 h after resumption of upright posture, neckand calf muscle CSA returned to within 0.5% (P > 0.05) of the values assessedafter a day of normal activity, with most of the change occurringwithin the first 30 min. No further change in muscle CSA was observedthrough 6 h of upright posture. Despite these large alterations inmuscle CSA, T₂ was not altered bymore than 1.1 ± 0.6% (P > 0.05)and did not relate to muscle size. These results suggest that posturalmanipulations and subsequent fluid shifts modeling microgravity elicitmarked changes in muscle size. Because these responses were notassociated with alterations in muscleT₂, it does not appear that simple movement of water into muscle can explain the contrast shift observed after exercise.