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Effect of intermittent weight bearing on soleus fiber force-velocity-power and force-pCa relationships 总被引:1,自引:0,他引:1
Bangart, J. J., J. J. Widrick, and R. H. Fitts. Effectof intermittent weight bearing on soleus fiber force-velocity-power andforce-pCa relationships. J. Appl.Physiol. 82(6): 1905-1910, 1997.Ratpermeabilized type I soleus fibers displayed a 33% reduction in peakpower output and a 36% increase in the freeCa2+ concentration required forone-half maximal activation after 14 days of hindlimb non-weightbearing (NWB). We examined the effectiveness of intermittent weightbearing (IWB; consisting of four 10-min periods of weight bearing/day)as a countermeasure to these functional changes. At peak power output,type I fibers from NWB animals produced 54% less force and shortenedat a 56% greater velocity than did type I fibers from controlweight-bearing animals while type I fibers from the IWB rats produced26% more absolute force than did fibers from the NWB group andshortened at a velocity that was only 80% of the NWB group mean. As aresult, no difference was observed in the average peak power of fibers from the IWB and NWB animals. Hill plot analysis of force-pCa relationships indicated that fibers from the IWB group required similarlevels of free Ca2+ to reachhalf-maximal activation in comparison to fibers from the weight-bearinggroup. However, at forces <50% of peak force, the force-pCa curvefor fibers from the IWB animals clearly fell between the relationshipsobserved for the other two groups. In summary, IWB treatments1) attenuated the NWB-inducedreduction in fiber Ca2+sensitivity but 2) failed to preventthe decline in peak power that occurs during NWB because of opposingeffects on fiber force (an increase vs. NWB) and shortening velocity (adecrease vs. NWB). 相似文献
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