Daily Acute Bouts of Weight-bearing During Hindlimb Unloading Mitigate Disuse-Induced Deficits in Cancellous Bone

Gravitational and space research : publication of the American Society for Gravitational and Space Research Pub Date : 2018-12-01 DOI:10.2478/GSR-2018-0006

R. Bokhari, C. Metzger, M. Allen, S. Bloomfield

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引用次数: 3

Abstract

Abstract International Space Station crewmembers experience microgravity, resulting in musculoskeletal losses. It remains unclear how much mechanical loading during disuse is sufficient to mitigate disuse-induced bone loss. We examined 75 minutes of weight-bearing per day on disuse-induced bone loss during hindlimb unloading (HU). Female C57BL/6J mice, 17 weeks (n=10/group), were exposed to HU for 28 days or were ambulatory controls (CC). Half of the HU animals were continuously unloaded while the remainder were removed from tail suspension for ~75 min/day for cage activity weight-bearing (HU+WB). HU and HU+WB led to total body mass and bone mineral density loss. HU+WB mitigated HU-induced losses in total body fat and lean mass and, in the distal femur, prevented losses in μCT measures of cancellous bone volume and microarchitecture. These findings support the robust impact of short durations of normal loading on preventing or mitigating HU-induced bone loss.

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后肢卸卸期间每日急性负重发作可减轻因废用引起的松质骨缺陷

国际空间站的工作人员经历了微重力，导致肌肉骨骼损失。目前尚不清楚废弃期间多少机械负荷足以减轻废弃引起的骨质流失。我们检测了后肢卸荷期间每天负重75分钟的废用性骨质流失(HU)。雌性C57BL/6J小鼠，17周(n=10/组)，暴露于HU 28天或作为流动对照(CC)。一半的HU动物连续卸载，其余动物从尾悬挂中移除约75分钟/天进行笼活动负重(HU+WB)。HU和HU+WB导致总体重和骨密度损失。HU+WB减轻了HU引起的全身脂肪和瘦质量的损失，并且在股骨远端，防止松质骨体积和微结构的μCT测量损失。这些发现支持短时间正常负荷对预防或减轻hu引起的骨质流失的强大影响。

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Gravitational and space research : publication of the American Society for Gravitational and Space Research

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