Compression molded EVA midsole offers supreme cushioning throughout the gait cycle.
模压成型的EVA中底提供整个步态周期的最高缓冲。
AIM: To determine the stress and strain distribution of femur under impact force during human gait cycle.
目的:考察人体步态运动过程中冲击载荷作用时的应力和变形分布。
The purpose of this study is to explore the micromotion characteristics of prosthesis in gait cycle under physiological load.
采用接触非线性有限元模型,分析在生理载荷下一个完整步态中人工髋关节的微动规律。
Precisely contoured heel and medial arch areas for superior fit and performance-driven comfort, supporting the body's natural gait cycle.
精准轮廓的鞋跟和中部拱形区域提供良好的舒适感,更好地支撑身体。
Conclusion: Using the AFO in the early time can contribute to the improvements of gait cycle and its phases in the hemiplegic stroke patients.
结论早期使用A FO可以促进脑卒中偏瘫患者步态周期及各时相的改善。
Excessive focal pressure developed during the midstance and heel-rise parts of the gait cycle may cause skin loss or hypertrophy of the stratum corneum (callus) over bony prominences.
这样,在步态的中端和足跟抬升期会产生过量的局部压力,可能造成在骨突起部位的脱皮或角质增生。
Conclusion: The study indicates that the shorter single support time during the gait cycle in patients is responsible for the abnormal walking velocity , awful gait and decreased ability of walking.
结论:在自然行走过程中,偏瘫患者双下肢的单支撑期和摆动期的明显缩短是导致患者步行周期延长,步态异常,步速减慢,步行能力下降的根本原因。
Conclusion: The study indicates that the shorter single support time during the gait cycle in patients is responsible for the abnormal walking velocity , awful gait and decreased ability of walking.
结论:在自然行走过程中,偏瘫患者双下肢的单支撑期和摆动期的明显缩短是导致患者步行周期延长,步态异常,步速减慢,步行能力下降的根本原因。
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