Department of Kinesiology, University of Illinois at Chicago, Chicago, IL 60612, United States of America.
Department of Physical Medicine and Rehabilitation, Northwestern University, Chicago, IL 60611, United States of America; Department of Rehabilitation Medicine, University of Washington, Seattle, WA 98195, United States of America.
Clin Biomech (Bristol). 2022 Jul;97:105702. doi: 10.1016/j.clinbiomech.2022.105702. Epub 2022 Jun 4.
Valid comparisons of muscle strength between individuals or legs that differ in size requires normalization, often by simple anthropometric variables. Few studies of muscle strength in lower-limb prosthesis users have normalized strength data by any anthropometric variable, potentially confounding our understanding of strength deficits in lower-limb prosthesis users. The objective of this pilot study was to determine the need for as well as effectiveness and impact of normalizing hip strength in lower-limb prosthesis users.
Peak isometric hip extension and abduction torques were collected from 28 lower-limb prosthesis users. Allometric scaling was used to determine if hip torque values were significantly associated with, and therefore needed to be adjusted for, body mass, thigh length, or body mass x thigh length, and whether normalization was effective in reducing any associations. Between limb differences in peak hip torque, and correlations with balance ability, were inspected pre- and post-normalization.
Hip torques were consistently and significantly associated with body-mass x thigh length. Associations between peak hip torque and body-mass x thigh length were reduced by normalization. After normalization by body-mass x thigh length, between limb differences in hip extension torque, as well as the correlation between hip abduction torque and balance ability, changed from non-significant to significant.
In the absence of normalization, hip strength (i.e., peak torque) in lower-limb prosthesis users remains dependent on basic anthropometric variables, masking relationships between hip strength and balance ability, as well as between limb differences.
为了比较个体或大小不同的肢体之间的肌肉力量,需要进行标准化,通常使用简单的人体测量变量。很少有研究对下肢假体使用者的肌肉力量进行任何人体测量变量的标准化数据,这可能会混淆我们对下肢假体使用者的力量缺陷的理解。本初步研究的目的是确定在下肢假体使用者中,对髋关节力量进行标准化的必要性、有效性和影响。
从 28 名下肢假体使用者中收集了髋关节等速向心和向心外展的峰值扭矩。使用比例缩放来确定髋关节扭矩值是否与体重、大腿长度或体重×大腿长度显著相关,因此需要进行调整,以及标准化是否有效地减少任何关联。在标准化之前和之后,检查了峰值髋关节扭矩的肢体间差异,以及与平衡能力的相关性。
髋关节扭矩始终与体重×大腿长度显著相关。标准化后,峰值髋关节扭矩与体重×大腿长度之间的关联减少。经过体重×大腿长度的标准化后,髋关节伸展扭矩的肢体间差异以及髋关节外展扭矩与平衡能力的相关性从无显著差异变为有显著差异。
在没有标准化的情况下,下肢假体使用者的髋关节力量(即峰值扭矩)仍然依赖于基本的人体测量变量,掩盖了髋关节力量与平衡能力之间的关系,以及肢体间的差异。
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