  |
Publication AbstractsHoffmann-Reflex is Delayed During 6° Head-Down Tilt with Balanced TractionHaruna Y, Styf JR, Kahan N, Hargens ARAviat Space Environ Med 1999; 70:220-4 AbstractBackground: Increased spinal height due to the lack of of axial compression on spinal structures in microgravity may stretch the spinal cord, cauda equina, nerve roots, and paraspinal tissues. Hypothesis: Exposure to simulated microgravity causes dysfunction of nerve roots so that the synaptic portion of the Achilles tendon reflex is delayed. Methods: Six healthy male subjects were randomly divided into two groups with three in each group. The subjects in the first group underwent horizontal bed rest (HBR) for three days. After a two week interval they underwent bed rest in a position of head-down tilt with balanced traction (HDT). So that each subject could serve as his own control, the second group was treated identically but in opposite order. Bilateral F waves and H-reflexes were measured daily (18:30-20:30) on all subjects placed in a prone position. Results: By means of ANOVA, differences between HDT and HBR were observed only in M-latency and F-ratio, not in F-latency, central latency, and H-latency. Differences during the course of the bed rest were observed in M-latency and H-latency only. Tibial H latency was significantly lengthened in HDT group on day 2 and 3, although no significant difference between HDT and HBR was observed. Conclusion: The monosynaptic reflex assessed by H-reflex was delayed during 6° HDT with traction. The exact mechanism of this delay and whether the change was due to lengthening of the lower part of the vertebrae remain to be clarified.Keywords: bed rest, F-reflex, H-reflex, lumbar vertebrae, neurography, spaceflight, Achilles tendon reflex, weightlessness, microgravity. Information on subscribing, and on obtaining copies of an article or of an entire issue. Table of Contents for Volume 70, Number 3 of the ASME journal.
|
 |
 |