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Publication AbstractsNo Effect of Hypergravity on Adult Rat Ventral Horn Neuron Size or SDH ActivityRoland R. Roy, Ph.D., Akihiko Ishihara, Ph.D., Megan M. Moran, M.S., Charles E. Wade, Ph.D., and V. Reggie Edgerton, Ph.D.Aviat Space Environ Med 2001; 72:1107-12 AbstractBackground: Spaceflights of short duration (~2 wk) result in adaptations in the size and/or metabolic properties of a select population of motoneurons located in the lumbosacral region of the rat spinal cord. A decrease in succinate dehydrogenase (SDH, an oxidative marker enzyme) activity of moderately sized (500-800 µm2) motoneurons in the retrodorsolateral region of the spinal cord (L6) has been observed after a 14-d flight. Hypothesis: Our hypothesis was that exposure to short-term hypergravity would result in adaptations in the opposite direction, reflecting a continuum of morphological and biochemical responses in the spinal motoneurons from zero gravity to hypergravity. Methods: Young, male rats were centrifuged at either 1.5 or 2.0 G for 2 wk. The size and SDH activity of a population of motoneurons in the retrodorsolateral region of the spinal cord (L5) were determined and compared with age-matched rats maintained at 1.0 G. The absolute and relative (to body weight) masses of the soleus, gastrocnemius, adductor longus and tibialis anterior muscles were compared among the three groups. Results: There were no effects of either hypergravity intervention on the motoneuron properties. Rats maintained under hypergravity conditions gained less body mass than rats kept at 1.0 G. For the 1.5 and 2.0 G groups, the muscle absolute mass was smaller and relative mass similar to that observed in the 1.0 G rats, except for the adductor longus. The adductor longus absolute mass was similar to and the relative mass larger in both hypergravity groups than in the 1.0 G group. Conclusions: Our hypothesis was rejected. The findings suggest that rat motoneurons are more responsive to short-term chronic exposure to spaceflight than to hypergravity conditions.Keywords: hypergravity, ventral horn neurons, skeletal muscle, rat. Information on subscribing, and on obtaining copies of an article or of an entire issue. Table of Contents for Volume 72, Number 12 of the ASME journal.
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