Villa Coralie, Loiret Isabelle, Langlois Karine, Bonnet Xavier, Lavaste François, Fodé Pascale, Pillet Hélène
INI, Centre d'Etude et de Recherche sur l'Appareillage des Handicapés, Woippy Cédex, France; Arts et Metiers ParisTech, Institut de Biomécanique Humaine Georges Charpak, Paris, France.
Centre de médecine physique et de réadaptation Louis Pierquin, IRR-UGECAM Nord-Est 75, Nancy Cedex, France.
Arch Phys Med Rehabil. 2017 Jun;98(6):1149-1157. doi: 10.1016/j.apmr.2016.10.007. Epub 2016 Nov 7.
To quantitatively analyze prosthetic limb swing phase gait strategies used to adapt to cross slopes compared with flat surfaces.
Cross-sectional study.
Gait laboratory.
A volunteer sample (N=49) of individuals with transfemoral amputation (n=17), individuals with transtibial amputation (n=15), and able-bodied individuals (n=17).
Participants walked on flat and 6° (10%) inclined cross-slope surfaces at a self-selected walking speed.
Gait speed, step width, sagittal plane kinematics (ankle, knee, hip) on the prosthetic side during swing (uphill limb) and on the contralateral side during stance (downhill limb), frontal plane pelvic kinematics on the prosthetic side during swing, contralateral side ankle power during stance, and timing of gait events.
All groups reduced gait speed and downhill limb knee flexion during the stance phase. Able-bodied participants adjusted their uphill limb ankle flexion during the swing phase. Participants with lower limb amputation used additional adjustments during the swing phase of the prosthetic limb when positioned uphill on cross slopes. Transtibial amputee participants mainly adapted with increased flexion of the residual hip and knee joints. Transfemoral amputee participants primarily compensated using increased pelvic hiking and vaulting gait strategies.
The swing phase of the uphill limb during cross-slope walking results in compensatory mechanisms that should be addressed during rehabilitation to gain confidence and reduce avoidance when encountering cross slopes in daily life.
定量分析与平坦表面相比,用于适应横向斜坡的假肢摆动期步态策略。
横断面研究。
步态实验室。
一个志愿者样本(N = 49),包括经股骨截肢者(n = 17)、经胫骨截肢者(n = 15)和健全个体(n = 17)。
参与者以自选步行速度在平坦和6°(10%)倾斜的横向斜坡表面行走。
步态速度、步宽、摆动期(上坡肢体)假肢侧矢状面运动学(踝关节、膝关节、髋关节)以及站立期对侧(下坡肢体)的运动学、摆动期假肢侧额状面骨盆运动学、站立期对侧踝关节功率以及步态事件的时间。
所有组在站立期均降低了步态速度和下坡肢体的膝关节屈曲。健全参与者在摆动期调整了上坡肢体的踝关节屈曲。下肢截肢参与者在横向斜坡上处于上坡位置时,在假肢摆动期进行了额外调整。经胫骨截肢参与者主要通过增加残端髋关节和膝关节的屈曲来适应。经股骨截肢参与者主要通过增加骨盆上提和跳跃步态策略进行补偿。
横向斜坡行走时上坡肢体的摆动期会产生代偿机制,康复过程中应解决这些问题,以增强信心并减少日常生活中遇到横向斜坡时的回避行为。
