|
<< BACK TO INDEX
Clinical Biomechanics
Volume 13 Number 6: 434-440
September 1998
A kinematic comparison of overground and treadmill walking
F. Alton , L. Baldey , S. Caplan and M. C. Morrissey
ABSTRACT
Human Motion and Performance Laboratory, Department of Health Sciences, University of East London, London E15 4LZ, UK
Received 11 October 1996; accepted 30 January 1998. Available online 21 September 1998.
References and further reading may be available for this article. To view references and further reading you must purchase this article.
Abstract
Objective. To compare overground and treadmill ambulation for possible differences in gait temporal variables and leg joint kinematics.
Design. A human subject trial of walking in two conditions.
Background. The treadmill is frequently used to simulate overground ambulation; however, the literature shows a wide difference of opinion as to whether the treadmill replicates the overground environment.
Methods. A total of 17 uninjured subjects walked overground at their preferred velocity. The treadmill was then set at the average velocity obtained in overground walking. Gait temporal variables and leg joint kinematics were analysed using the three dimensional (3D) Kinemetrix Motion Analysis System. The data were analysed separately for the two gender groups and for the groups combined.
Results. In the females, only the maximum hip flexion angle was significantly different in the two conditions with greater flexion occurring on the treadmill. For males, significant differences were noted between the two conditions for cadence and maximum knee flexion angle with greater values in the treadmill walking. When all subjects were compared, significant increases were seen during treadmill walking in hip range of motion, maximum hip flexion joint angle and cadence, while a significant decrease was observed in stance time.
Conclusions. Statistically significant differences exist between overground and treadmill walking in healthy subjects for some joint kinematic and temporal variables.
Author Keywords: Author Keywords: Walking; Treadmill; Overground; Kinematics
Source Information
Online ISSN 1468-2834 - Print ISSN 0002-0729
<< BACK TO INDEX
|