OBJECTIVES: To identify characteristics of upper-body kinematics and torque transmission to the ground during locomotion in a group of patients with transfemoral amputation as compared with a group of asymptomatic subjects; and to investigate the influence of walking velocity and residual limb length on several characteristics of upper-body motion. DESIGN: Three-dimensional gait analysis with an optoelectronic device. SETTING: Gait laboratory. PARTICIPANTS: Twenty-seven patients with transfemoral amputation and a control group of 33 nondisabled subjects. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Three-dimensional kinematics of the pelvis and the thorax and ground reaction force for amputees and control subjects. RESULTS: For subjects with transfemoral amputation, it was observed that upper-body angular ranges of motion (ROMs) increased globally as walking velocity decreased. For these subjects, specific patterns of pelvic rotation and torque transmission by the lower limbs around the vertical axis were found. The counter-rotation between the pelvic and scapular girdles was reduced. This reduction proved to be linked with the decrease of walking velocity. Walking velocity also affected all the parameters describing the motion of upper body. Pelvic ROM increased with the length of the limb decreasing. CONCLUSIONS: The huge differences found between subjects with and without amputation suggest that the motion of the upper body must be considered to enhance gait.
OBJECTIVES: To identify characteristics of upper-body kinematics and torque transmission to the ground during locomotion in a group of patients with transfemoral amputation as compared with a group of asymptomatic subjects; and to investigate the influence of walking velocity and residual limb length on several characteristics of upper-body motion. DESIGN: Three-dimensional gait analysis with an optoelectronic device. SETTING: Gait laboratory. PARTICIPANTS: Twenty-seven patients with transfemoral amputation and a control group of 33 nondisabled subjects. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: Three-dimensional kinematics of the pelvis and the thorax and ground reaction force for amputees and control subjects. RESULTS: For subjects with transfemoral amputation, it was observed that upper-body angular ranges of motion (ROMs) increased globally as walking velocity decreased. For these subjects, specific patterns of pelvic rotation and torque transmission by the lower limbs around the vertical axis were found. The counter-rotation between the pelvic and scapular girdles was reduced. This reduction proved to be linked with the decrease of walking velocity. Walking velocity also affected all the parameters describing the motion of upper body. Pelvic ROM increased with the length of the limb decreasing. CONCLUSIONS: The huge differences found between subjects with and without amputation suggest that the motion of the upper body must be considered to enhance gait.
Authors: Julian C Acasio; Iman Shojaei; Rajit Banerjee; Christopher L Dearth; Babak Bazrgari; Brad D Hendershot Journal: J Biomech Date: 2019-08-19 Impact factor: 2.712
Authors: Emeline Simonetti; Coralie Villa; Joseph Bascou; Giuseppe Vannozzi; Elena Bergamini; Hélène Pillet Journal: Med Biol Eng Comput Date: 2019-12-23 Impact factor: 2.602
Authors: Brecca M M Gaffney; Cory L Christiansen; Amanda M Murray; Bradley S Davidson Journal: Clin Biomech (Bristol, Avon) Date: 2017-07-29 Impact factor: 2.063
Authors: Brad D Hendershot; Iman Shojaei; Julian C Acasio; Christopher L Dearth; Babak Bazrgari Journal: J Biomech Date: 2017-11-28 Impact factor: 2.712
Authors: Chin Youb Chung; Moon Seok Park; Sang Hyeong Lee; Se Jin Kong; Kyoung Min Lee Journal: J Neuroeng Rehabil Date: 2010-02-15 Impact factor: 4.262