Axial strain enhances osteotomy repair with a concomitant increase in connexin43 expression

The mechanical environment is known to influence fracture healing. We speculated that connexin43 （Cx43） gap junctions, which impact skeletal homeostasis, fracture healing and the osteogenic response to mechanical load, may play a role in mediating the response of the healing bone to mechanical strai...

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Veröffentlicht in:	骨研究：英文 2015, Vol.3 (2), p.83-91
1. Verfasser:	Rishi R Gupta Hyunchul Kim Yu-Kwan Chan Carla Hebert Leah Gitajn David J Yoo Robert V Oτoole Adam H Hsieh Joseph P Stains
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Sprache:	chi
Schlagworte:	Cx43 修复术愈伤组织机械负荷蛋白表达轴向应变间隙连接骨折愈合
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creator	Rishi R Gupta Hyunchul Kim Yu-Kwan Chan Carla Hebert Leah Gitajn David J Yoo Robert V Oτoole Adam H Hsieh Joseph P Stains
description	The mechanical environment is known to influence fracture healing. We speculated that connexin43 （Cx43） gap junctions, which impact skeletal homeostasis, fracture healing and the osteogenic response to mechanical load, may play a role in mediating the response of the healing bone to mechanical strain. Here, we used an established rat fracture model, which uses a 2 mm osteotomy gap stabilized by an external fixator, to examine the impact of various cyclical axial loading protocols （2%, 10%, and 30% strain） on osteotomy healing. We examined the presence of Cx43 in the osteotomy-healing environment and assessed how mechanical strain modulates Cx43 expression patterns in the callus. We demonstrated that increased cyclical axial strain results in increased radiographic and histologic bone formation. In addition, we show by immunohistochemistry that Cx43 is abundantly expressed in the healing callus, with the expression most robust in samples exposed to increased cyclical axial strain. These data are consistent wit
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subjects	Cx43 修复术愈伤组织机械负荷蛋白表达轴向应变间隙连接骨折愈合
title	Axial strain enhances osteotomy repair with a concomitant increase in connexin43 expression
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