硬式和软式髋部保护器的生物力学比较以及软组织的影响。

Biomechanical comparison of hard and soft hip protectors, and the influence of soft tissue.

作者信息

van Schoor N M, van der Veen A J, Schaap L A, Smit T H, Lips P

机构信息

Institute for Research in Extramural Medicine, VU University Medical Center, Van der Boechorststraat 7, D4, 1081 BT Amsterdam, The Netherlands.

出版信息

Bone. 2006 Aug;39(2):401-7. doi: 10.1016/j.bone.2006.01.156. Epub 2006 Mar 20.

DOI:10.1016/j.bone.2006.01.156

PMID:16546458

Abstract

INTRODUCTION

Hip protectors appear to be promising in preventing hip fractures. Currently, many different hip protectors exist, and it is not clear which hip protector has the best biomechanical properties. Therefore, the objective of this study was to compare the force attenuation capacity of 10 different hip protectors. Both hard hip protectors, which primarily shunt away energy, and soft hip protectors, which primarily absorb energy, were included.

METHODS

Using a drop weight impact testing system and a surrogate femur, a weight of 25 kg was dropped from a height of 8 cm causing a force of almost 7,806 N on the bare femur, which simulates a severe fall. After this calibration test, soft tissue and the different hip protectors in combination with the soft tissue were tested. Each test was repeated six times. To simulate normal-weight elderly people, a 1/2-inch-thick layer of foam was chosen, reducing the force by 18%. To examine the influence of soft tissue thickness, soft tissue was also simulated by a 1-inch-thick layer of foam, reducing the force by 49%.

RESULTS

In the 1-inch soft tissue test, all hip protectors were capable in reducing the impact to below the average fracture threshold of elderly people (3,100 N), although the hard types performed significantly better than the soft ones (P < 0.001). In the 1/2-inch soft tissue test, only the hard hip protectors were capable of attenuating the peak force to below the average fracture threshold of 3,100 N (hard vs. soft hip protectors: P < 0.001).

CONCLUSIONS

This study showed that the hard, energy-shunting hip protectors were superior to the soft, energy-absorbing ones, especially in a simulation of normal-weight elderly people. With increased soft tissue thickness, soft hip protectors were also capable in reducing the impact to below the average fracture threshold of 3,100 N.

摘要

引言

髋部保护器在预防髋部骨折方面似乎很有前景。目前，存在许多不同类型的髋部保护器，尚不清楚哪种髋部保护器具有最佳的生物力学性能。因此，本研究的目的是比较10种不同髋部保护器的力衰减能力。研究纳入了主要用于分散能量的硬质髋部保护器和主要用于吸收能量的软质髋部保护器。

方法

使用落锤冲击测试系统和模拟股骨，将25千克的重物从8厘米高度落下，对裸露的股骨产生近7806牛的力，这模拟了一次严重跌倒。在这次校准测试之后，对软组织以及不同髋部保护器与软组织组合进行测试。每个测试重复6次。为模拟正常体重的老年人，选用了一层半英寸厚的泡沫，可使力降低18%。为研究软组织厚度的影响，还使用一层1英寸厚的泡沫模拟软组织，可使力降低49%。

结果

在1英寸软组织测试中，所有髋部保护器都能够将冲击力降低到老年人平均骨折阈值（3100牛）以下，尽管硬质髋部保护器的表现明显优于软质髋部保护器（P<0.001）。在半英寸软组织测试中，只有硬质髋部保护器能够将峰值力衰减到3100牛的平均骨折阈值以下（硬质与软质髋部保护器比较：P<0.001）。

结论

本研究表明，硬质、能量分散型髋部保护器优于软质、能量吸收型髋部保护器，尤其是在模拟正常体重老年人的情况下。随着软组织厚度增加，软质髋部保护器也能够将冲击力降低到3100牛的平均骨折阈值以下。

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硬式和软式髋部保护器的生物力学比较以及软组织的影响。

Biomechanical comparison of hard and soft hip protectors, and the influence of soft tissue.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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