A New Model to Study Healing of a Complex Femur Fracture with Concurrent Soft Tissue Injury in Sheep
A New Model to Study Healing of a Complex Femur Fracture with Concurrent Soft Tissue Injury in Sheep作者机构:AO Research Institute Davos Switzerland Department of Biomedical Engineering Eindhoven University of Technology Eindhoven Netherlands Institute of Health and Biomedical Innovation Queensland University of Technology Brisbane Australia Institute of Health and Biomedical Innovation Queensland University of Technology Brisbane Australia Trauma Service Princess Alexandra Hospital Brisbane Australia
出 版 物:《Open Journal of Orthopedics》 (矫形学期刊(英文))
年 卷 期:2013年第3卷第2期
页 面:62-68页
学科分类:1002[医学-临床医学] 100214[医学-肿瘤学] 10[医学]
主 题:Fracture Ovine Large Animal Model Bone Soft Tissue Injury
摘 要:High energy bone fractures resulting from impact trauma are often accompanied by subcutaneous soft tissue injuries, even if the skin remains intact. There is evidence that such closed soft tissue injuries affect the healing of bone fractures, and vice versa. Despite this knowledge, most impact trauma studies in animals have focussed on bone fractures or soft tissue trauma in isolation. However, given the simultaneous impact on both tissues a better understanding of the interaction between these two injuries is necessary to optimise clinical treatment. The aim of this study was therefore to develop a new experimental model and characterise, for the first time, the healing of a complex fracture with concurrent closed soft tissue trauma in sheep. A pendulum impact device was designed to deliver a defined and standardised impact to the distal thigh of sheep, causing a reproducible contusion injury to the subcutaneous soft tissues. In a subsequent procedure, a reproducible femoral butterfly fracture (AO C3-type) was created at the sheep’s femur, which was initially stabilised for 5 days by an external fixator construct to allow for soft tissue swelling to recede, and ultimately in a bridging construct using locking plates. The combined injuries were applied to twelve sheep and the healing observed for four or eight weeks (six animals per group) until sacrifice. The pendulum impact led to a moderate to severe circumferential soft tissue injury with significant bruising, haematomas and partial muscle disruptions. Posttraumatic measurements showed elevated intra-compartmental pressure and circulatory tissue breakdown markers, with recovery to normal, pre-injury values within four days. Clinically, no neurovascular deficiencies were observed. Bi-weekly radiological analysis of the healing fractures showed progressive callus healing over time, with the average number of callus bridges increasing from 0.4 at two weeks to 4.2 at eight weeks. Biomechanical testing after sacrific
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