S Hesse1, D Uhlenbrock, T Sarkodie-Gyan. 1. Klinik Berlin, Department of Neurological Rehabilitation, Free University Berlin, Germany. bhesse@mail.zedat.fu-berlin.de
Abstract
OBJECTIVES: To investigate to what extent and with how much therapeutic effort nonambulatory stroke patients could train a gait-like movement on a newly developed, machine-supported gait trainer. DESIGN: Open study comparing the movement on the gait trainer with assisted walking on the treadmill. SETTING: Motion analysis laboratory of a rehabilitation centre. SUBJECTS: Fourteen chronic, nonambulatory hemiparetic patients. INTERVENTION: Complex gait analysis while training on the gait trainer and while walking on the treadmill. MAIN OUTCOME MEASURES: Gait kinematics, kinesiological EMG of several lower limb muscles and the required assistance. RESULTS: Patients could train a gait-like movement on the gait trainer, characterized kinematically by a perfect symmetry, larger hip extension during stance, less knee flexion and less ankle plantar flexion during swing as compared to treadmill walking (p <0.01). The pattern and amount of activation of relevant weight-bearing muscles was comparable with an even larger activation of the M. biceps femoris on the gait trainer (p <0.01). The tibialis anterior muscle of the nonaffected side, however, was less activated during swing (p <0.01). Two therapists assisted walking on the treadmill while only one therapist was necessary to help with weight shifting on the new device. CONCLUSION: The newly developed gait trainer offered severely disabled hemiparetic subjects the possibility of training a gait-like, highly symmetrical movement with a favourable facilitation of relevant anti-gravity muscles. At the same time, the effort required of the therapists was reduced.
OBJECTIVES: To investigate to what extent and with how much therapeutic effort nonambulatory strokepatients could train a gait-like movement on a newly developed, machine-supported gait trainer. DESIGN: Open study comparing the movement on the gait trainer with assisted walking on the treadmill. SETTING: Motion analysis laboratory of a rehabilitation centre. SUBJECTS: Fourteen chronic, nonambulatory hemiparetic patients. INTERVENTION: Complex gait analysis while training on the gait trainer and while walking on the treadmill. MAIN OUTCOME MEASURES: Gait kinematics, kinesiological EMG of several lower limb muscles and the required assistance. RESULTS:Patients could train a gait-like movement on the gait trainer, characterized kinematically by a perfect symmetry, larger hip extension during stance, less knee flexion and less ankle plantar flexion during swing as compared to treadmill walking (p <0.01). The pattern and amount of activation of relevant weight-bearing muscles was comparable with an even larger activation of the M. biceps femoris on the gait trainer (p <0.01). The tibialis anterior muscle of the nonaffected side, however, was less activated during swing (p <0.01). Two therapists assisted walking on the treadmill while only one therapist was necessary to help with weight shifting on the new device. CONCLUSION: The newly developed gait trainer offered severely disabled hemiparetic subjects the possibility of training a gait-like, highly symmetrical movement with a favourable facilitation of relevant anti-gravity muscles. At the same time, the effort required of the therapists was reduced.
Authors: Sriya Avadhani; Muhammad Ihsan; Arismendy Nunez; Haroon Kamran; Sahib Singh; Zohair Hasan; Louis Salciccioli; John G Kral; Ellen M Godwin; Jason Lazar Journal: Dose Response Date: 2018-11-25 Impact factor: 2.658
Authors: Juliet Am Haarman; Jasper Reenalda; Jaap H Buurke; Herman van der Kooij; Johan S Rietman Journal: J Rehabil Assist Technol Eng Date: 2016-11-29