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物理应变训练器对部分负重监测的不准确性。

Inaccuracy of a physical strain trainer for the monitoring of partial weight bearing.

机构信息

Division of Orthopedic Rheumatology, University of Erlangen-Nuremberg, Germany.

出版信息

Arch Phys Med Rehabil. 2011 Nov;92(11):1847-51. doi: 10.1016/j.apmr.2011.06.007. Epub 2011 Aug 15.

DOI:10.1016/j.apmr.2011.06.007
PMID:21840501
Abstract

OBJECTIVE

To investigate the use of a physical strain trainer for the monitoring of partial weight bearing.

DESIGN

Case series with healthy volunteers.

SETTING

Orthopedic clinic.

PARTICIPANTS

Healthy volunteers (N=10) with no history of foot complaints.

INTERVENTIONS

Volunteers were taught to limit weight bearing to 10% body weight (BW) and 50% BW, monitored by a physical strain trainer.

MAIN OUTCOME MEASURES

The parameters peak pressure, maximum force, force-time integral, and pressure-time integral were assessed by dynamic pedobarography when volunteers walked with full BW (condition 1), 50% BW (condition 2), and 10% BW (condition 3).

RESULTS

With 10% BW (condition 3), forces with normative gait (condition 1) were statistically significantly reduced under the hindfoot where the physical strain trainer is placed. All pedobarographic parameters were, however, exceeded when the total foot was measured. A limitation to 10% BW with the physical strain trainer (condition 3) was equal to a bisection of peak pressure and maximum force for the total foot with normative gait (condition 1). Halved BW (condition 2) left a remaining mean 82% of peak pressure and mean 59% of maximum force from full BW (condition 1).

CONCLUSIONS

The concept of controlling partial weight bearing with the hindfoot-addressing device does not represent complete foot loading. Such devices may be preferably applied in cases when the hindfoot in particular must be off-loaded. Other training devices (eg, biofeedback soles) that monitor forces of the total foot have to be used to control partial weight bearing of the lower limb accurately.

摘要

目的

研究使用物理应变训练器来监测部分负重。

设计

健康志愿者的病例系列。

设置

矫形诊所。

参与者

无足部疾病史的健康志愿者(N=10)。

干预措施

志愿者接受教导,将体重限制在 10%体重(BW)和 50% BW,由物理应变训练器监测。

主要观察指标

当志愿者以全 BW(条件 1)、50% BW(条件 2)和 10% BW(条件 3)行走时,通过动态足底压力计评估峰值压力、最大力、力-时间积分和压力-时间积分等参数。

结果

当使用 10% BW(条件 3)时,在放置物理应变训练器的后脚处,符合正常步态(条件 1)的力明显降低。然而,当整个足部被测量时,所有足底压力参数都超过了正常值。使用物理应变训练器将 BW 限制在 10%(条件 3)与全 BW(条件 1)下的正常步态时整个足部的峰值压力和最大力减半相同。将 BW 减半(条件 2)后,剩余的平均峰值压力为全 BW(条件 1)的 59%,最大力为全 BW(条件 1)的 59%。

结论

使用后跟定位装置控制部分负重的概念并不能代表整个足部的负重。这种装置可能更适合需要特别减轻后跟负重的情况。其他训练装置(例如生物反馈鞋底),可监测整个足部的力,从而更准确地控制下肢的部分负重。

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引用本文的文献

1
Foot loading with an ankle-foot orthosis: the accuracy of an integrated physical strain trainer.足踝矫形器的足部负荷:集成物理应变训练器的准确性。
Int Orthop. 2012 Jul;36(7):1411-5. doi: 10.1007/s00264-012-1501-1. Epub 2012 Feb 24.