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机械刺激对人松质骨中骨细胞凋亡和骨活力的影响。

The influence of mechanical stimulation on osteocyte apoptosis and bone viability in human trabecular bone.

作者信息

Mann V, Huber C, Kogianni G, Jones D, Noble B

机构信息

Musculoskeletal Tissue Engineering Collaboration, University of Edinburgh Medical School, Edinburgh, UK.

出版信息

J Musculoskelet Neuronal Interact. 2006 Oct-Dec;6(4):408-17.

PMID:17185839
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1847464/
Abstract

It has been shown previously using in vivo and ex vivo animal models, that cyclical mechanical stimulation is capable of maintaining osteocyte viability through the control of apoptotic cell death. Here we have studied the effect of mechanical stimulation on osteocyte viability in human trabecular bone maintained in a 3-D bioreactor system. Bone samples, maintained in the bioreactor system for periods of 3, 7 and 27 days, were subjected to either cyclical mechanical stimulation which engendered a maximum of 3,000 microstrain in a waveform corresponding to physiological jumping exercise for 5 minutes daily or control unloading. Unloading resulted in a decrease in osteocyte viability within 3 days that was accompanied by increased levels of cellular apoptosis. Mechanical stimulation significantly reduced apoptosis (p< or =0.032) and improved the maintenance of osteocyte viability in bone from all patient samples. The percentage Alkaline Phosphatase (ALP) labelled bone surface was significantly increased (p< or =0.05) in response to mechanical stimulation in all samples as was the Bone Formation Rate (BFR/BS) (p=0.005) as determined by calcein label incorporation in the 27-day experiment. These data indicate that in this model system, mechanical stimulation is capable of maintaining osteocyte viability in human bone.

摘要

先前使用体内和体外动物模型已表明,周期性机械刺激能够通过控制凋亡性细胞死亡来维持骨细胞的活力。在此,我们研究了机械刺激对维持在三维生物反应器系统中的人松质骨中骨细胞活力的影响。将在生物反应器系统中维持3天、7天和27天的骨样本,要么施加周期性机械刺激,该刺激在对应于生理性跳跃运动的波形中产生最大3000微应变,每天持续5分钟,要么进行对照卸载。卸载在3天内导致骨细胞活力下降,并伴有细胞凋亡水平升高。机械刺激显著降低了凋亡(p≤0.032),并改善了所有患者样本骨中骨细胞活力的维持。在27天的实验中,通过钙黄绿素标记掺入测定,所有样本中响应机械刺激的碱性磷酸酶(ALP)标记骨表面百分比显著增加(p≤0.05),骨形成率(BFR/BS)也是如此(p = 0.005)。这些数据表明,在该模型系统中,机械刺激能够维持人骨中骨细胞的活力。

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