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胫骨部分负重。

Partial weight bearing of the tibia.

作者信息

Ganse Bergita, Yang Peng-Fei, Gardlo Jenny, Gauger Peter, Kriechbaumer Andreas, Pape Hans-Christoph, Koy Timmo, Müller Lars-Peter, Rittweger Jörn

机构信息

Institute of Aerospace Medicine, German Aerospace Center (DLR), Cologne, Germany; Department of Orthopedic Trauma Surgery, University Hospital RWTH Aachen, Aachen, Germany.

Institute of Aerospace Medicine, German Aerospace Center (DLR), Cologne, Germany; Key Laboratory for Space Bioscience and Biotechnology, School of Life Sciences, Northwestern Polytechnical University, Xi'an, China.

出版信息

Injury. 2016 Aug;47(8):1777-82. doi: 10.1016/j.injury.2016.06.003. Epub 2016 Jun 2.

DOI:10.1016/j.injury.2016.06.003
PMID:27316448
Abstract

INTRODUCTION

Partial weight bearing is part of treatment schemes in orthopedic surgery and traumatology. The aim of the present study was to explore to what degree ground reaction forces during partial weight bearing of the lower leg are related to given instructions and to tibia deformation.

MATERIALS AND METHODS

Tibia deformation (torsion, medio-lateral and anterio-posterior bending) was measured for rear foot and forefoot loading, 10kg, 20kg and half body weight instructions compared to full loading in five healthy male subjects using the "Optical Segment Tracking" approach, a motion-capturing based method that uses monocortically fixed bone screws.

RESULTS

  1. Ground reaction force was a good indicator of tibia deformation. 2. Participants significantly under-loaded during half-body weight instructions (P<0.001) while they overloaded when loading the forefoot only. 3. Partial-loading instructions led to a highly significant and systematic reduction in peak ground reaction force (GRFpk) in all three types of tibia deformation with substantial variation between measurements. 4. Forefoot usage was associated with significant, albeit moderate increases in GRFpk (P=0.0031), in AP-bending (P=0.0027) and in torsion (P<0.001), compared to rear foot loading.

DISCUSSION

These findings result in the following clinical "lessons learned": 1. GRF is a good reflection of loading-induced deformation of the tibia. 2. GRFs are hard to control by subjects/patients. 3. The expectation that forefoot-loading results in larger tibia deformation could not be confirmed in our study. 4. When aiming at a reduction in tibia deformation, rear-foot loading is more preferable than forefoot loading.

摘要

引言

部分负重是骨科手术和创伤学治疗方案的一部分。本研究的目的是探讨小腿部分负重时地面反作用力与给定指令以及胫骨变形之间的相关程度。

材料与方法

使用“光学节段跟踪”方法,一种基于运动捕捉且使用单皮质固定骨螺钉的方法,对五名健康男性受试者在足跟和前足负重、10千克、20千克及半体重指令下与全负重相比时的胫骨变形(扭转、内外侧弯曲和前后弯曲)进行测量。

结果

  1. 地面反作用力是胫骨变形的良好指标。2. 参与者在半体重指令下明显负重不足(P<0.001),而仅在前足负重时则超重。3. 部分负重指令导致所有三种类型胫骨变形的地面反作用力峰值(GRFpk)高度显著且系统性降低,测量值之间存在较大差异。4. 与足跟负重相比,前足使用与GRFpk、前后弯曲(P=0.0027)和扭转(P<0.001)的显著增加相关,尽管增加幅度适中。

讨论

这些发现得出以下临床“经验教训”:1. GRF是加载引起的胫骨变形的良好反映。2. GRF难以被受试者/患者控制。3. 前足负重会导致更大胫骨变形的预期在我们的研究中未得到证实。4. 当旨在减少胫骨变形时,足跟负重比前足负重更可取。

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