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Publication AbstractsGravitational Changes Affect Tibial Growth Plates According to Hert's CurveMontufar-Solis D, Duke PJAviat Space Environ Med 1999; 70:245-9 AbstractBackground: Microgravity significantly affects chondrocyte differentiation within the tibial epiphyseal growth plate of space flown rats. The changes produced in height and number of cells in different zones of the plate are associated with ultrastructural changes in the extracellular matrix. Given the importance of the growth plate in endochondral ossification, we began to assess the response of the plate to hypergravity, and the countermeasure value of excess G. Methods: Rats of the strain used in Cosmos biosatellite missions were housed under conditions similar to Cosmos flights and subjected to continuous hypergravity (2 G) for 14 d, in a 12-ft radius centrifuge. Results: Histomorphometrical analyses of tibial growth plates from these rats found the hypertrophic/calcification zone to be significantly reduced in both height and cell number, and the proliferation zone in cell number. Conclusions: These results, along with those of spaceflight and of studies using suspension-centrifugation, indicate that rat growth plate responds to gravitational changes according to Hert's curve: i.e., a) an increased baseline (minimal) loading reduces cartilage differentiation; and b) a reduced baseline loading may lead to increased cartilage differentiation but only within a range, beyond which lack of differentiation results. The plasticity of the plate, i.e., its ability to increase or decrease its activity in response to changes in gravity suggests the possibility of a range of G that will produce the load necessary to maintain normal growth of the plate, i.e., possible countermeasures to the effects of either hypo- or hyper-gravity.Keywords: epiphyses, hypergravity, weightlessness countermeasures. 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.
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