Effects of Aging and Disuse on Bone Remodeling in Response to Microdamage.
[摘要] The risk of whole bone fracture in osteoporosis may be substantially increased as a result of microdamage accumulation in bone in conjunction with the associated remodeling that attempts to repair the damage.The risk may be increased as a result of age and disuse, which are hypothesized to alter remodeling in response to microdamage. Elucidating the effects of age and disuse on bone repair may provide clinically important insight into the relationship between microdamage accumulation and increased fracture risk in the elderly.The goals of this study were to experimentally determine the influence of age and mechanical usage on microdamage accumulation and repair. A unique animal model was developed that enabled loading of distal femoral trabecular bone of rats in-vivo. Utilizing this model, older rats (compared with adults) demonstrated a reduced ability of bone to recover after damage and a reduction in the removal of microdamage.For the second series of studies a hindlimb suspension system and four-point bending apparatus were developed to simulate disuse and induce tibial cortical microdamage.Utilizing these models, it was shown that disuse alters the bone’s response to microdamage through a reduction in woven bone production and cessation of microdamage resorption.Finally, it was shown that daily short-term weight-bearing during disuse rescued the targeted bone remodeling response following microdamage induction.These findings suggest that individuals with severe activity reductions may further accumulate microdamage. Most importantly, while many studies have proposed that microdamage repair is triggered by cell apoptosis, our present results suggest this mechanism may be insufficient without the stimulus associated with mechanical usage. In addition, the ability to rescue the remodeling response through intermittent physiologic loading provides support to early clinical evidence that moderate loading can reduce recovery time from stress fractures.In aggregate, advanced age and disuse were shown to lead to a reduction in targeted remodeling associated with microdamage. This could potentially increase fracture risk due to potential microdamage accumulation. In addition, the importance of physiological loading to the process of microdamage repair suggests that the current clinical practice of limiting weight-bearing for the treatment of stress fractures should be reconsidered.
[发布日期] [发布机构] University of Michigan
[效力级别] Engineering [学科分类]
[关键词] Bone Microdamage Repair;Engineering;Health Sciences;Science;Biomedical Engineering [时效性]