Development of a New Device Implementing Standardized Closed Fracture in the Rat

American Journal of Biomedical Engineering Pub Date : 2013-01-07 DOI:10.5923/J.AJBE.20120206.09

N. Rozen, G. Rubin, L. Alexander, LewinsonDina

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引用次数: 1

Abstract

The objective of the study was to produce a user-friendly device for creating standardized close fracture in an experimental animal. We describe a device that takes advantage of the elastic and plastic nature of the bone for producing a closed fracture with reproducible location and structure. Fractures were p roduced by a pendulum-like device applying an external blo w directly over the tibiae of female Wistar rats fixed to a platform by dynamic holders. The tibiae were immed iately stabilized by plaster fixation that was covered by dental wa x. Rad iographically, this method resulted in a highly reproducible bi -cortical transverse fracture. M inimal soft tissue damage was noticed around the fracture site. Creatine phosphokinase activity in the seru m and in the gastrocnemius muscle of the posterior calf compart ment was analy zed in order to evaluate the standardization of the soft tissue damage. The device is simp le to build and can be modulated and adapted to different sizes of animals. By using this device, a highly reproducible closed fracture system can be imp lemented with minimal damage to local soft tissues, but still with the local hematoma that is essential for the fracture healing process.

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大鼠标准化闭合性骨折新装置的研制

本研究的目的是生产一种用户友好的装置，用于在实验动物中制造标准化的闭合性骨折。我们描述了一种利用骨的弹性和塑性来产生具有可复制位置和结构的闭合性骨折的装置。骨折是通过一个钟摆状的装置，将外部打击直接施加在雌性Wistar大鼠的胫骨上，通过动态支架固定在平台上。用牙瓦覆盖的石膏固定立即稳定胫骨。从地理上看，这种方法导致高度可重复性的双皮质横向骨折。骨折部位周围有软组织损伤。分析血清及小腿后段腓肠肌肌酸磷酸激酶活性，以评价软组织损伤的规范化程度。该装置建造简单，可以调节和适应不同大小的动物。通过使用该装置，可以实现高度可重复性的闭合骨折系统，对局部软组织的损伤最小，但仍然存在局部血肿，这对骨折愈合过程至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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American Journal of Biomedical Engineering

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