Effects of Therapeutic Gait Training Using a Prosthesis and a Treadmill for Ambulatory Patients With Hemiparesis

Abstract

Hase K, Suzuki E, Matsumoto M, Fujiwara T, Liu M. Effects of therapeutic gait training using a prosthesis and a treadmill for ambulatory patients with hemiparesis. Objective To examine the short-term effects of a newly developed hemiparetic gait training in which patients walk with a prosthesis applied to the nonparetic leg in the flexed knee position. Design Pre-post nonrandomized controlled trial. Setting Rehabilitation center and gait laboratory of a university hospital. Participants Community-dwelling ambulatory volunteers (N=22) with chronic hemiparesis caused by a unilateral stroke. Intervention Study subjects participated in a gait training program using either a below-knee prosthesis or a treadmill. Treadmill gait training was performed at a speed approximating the maximum gait velocity for each patient. The 3-week program consisted of a 5-minute gait training session 2 to 3 times a day. Main Outcome Measures The ground reaction forces, stance time, step length and cadence during walking at a comfortable speed, and maximum gait speed, as well as the Berg Balance Score, were estimated before and after each training program. Results In comparison with changes after the treadmill gait training, analyses of covariance demonstrated a significant increase of the fore-aft ground reaction forces during the paretic propulsion phase and a significant increase in the relative durations of the paretic and nonparetic single stance involved in a gait cycle after the prosthetic gait training ( P<.05). Conclusions Prosthetic gait training would have different effects on a hemiparetic gait than treadmill gait training. The gait-related task inducing the dominant use of the paretic leg to support the body may be useful as a rehabilitative treatment to improve the kinetic abilities in the paretic stance period.