| Literature DB >> 8828655 |
D A Riley1, S Ellis, G R Slocum, F R Sedlak, J L Bain, B B Krippendorf, C T Lehman, M Y Macias, J L Thompson, K Vijayan, J A De Bruin.
Abstract
Spacelab Life Sciences-1 and -2 provided skeletal muscles from rats dissected in flight for the first time and 2 h to 14 days postflight. The muscles permitted the distinguishing of primary adaptations to microgravity from secondary reloading-induced alterations. In microgravity, rats adopted bipedal forelimb locomotion with the hindlimbs relegated to grasping activities. On landing day, body posture was abnormally low and walking was stilted at a rate one-third of normal. The adductor longus (AL) and soleus muscles exhibited decreased myofiber areas that did not recover 14 days postflight. Doubling of the nonmyofiber area indicated interstitial edema in AL muscles 2.3 h postflight. Solei did not manifest edema postflight, and neither muscle showed edema in flight. Sarcomere eccentric contraction-like lesions were detected in 2.6% of AL myofibers 4.5 h postflight; lesions were absent earlier postflight and in flight. At 9 days postflight, these lesions were repaired but regenerating AL myofibers were present, which suggests that myofiber necrosis occurred 1-2 days postflight. These studies demonstrate that muscle atrophy occurs in microgravity, whereas interstitial edema and sarcomere lesions are postflight phenomena.Entities:
Keywords: NASA Discipline Musculoskeletal; NASA Discipline Number 00-00; NASA Discipline Number 26-10; NASA Program Flight; NASA Program Space Physiology and Countermeasures; Non-NASA Center
Mesh:
Year: 1996 PMID: 8828655 DOI: 10.1152/jappl.1996.81.1.133
Source DB: PubMed Journal: J Appl Physiol (1985) ISSN: 0161-7567