Manual wheelchair downhill stability: an analysis of factors affecting tip probability

Manual wheelchair propulsion in daily life and sports is increasingly being studied. Initially, an engineering and physiological perspective was taken. More recently a concomitant biomechanics interest is seen. Themes of biomechanical and physiological studies today are performance enhancing aspects of wheelchair use and the ergonomics of wheelchair design. Apart from the propulsion technique the focus of biomechanics research of manual wheelchair propulsion is mainly towards injury mechanisms, especially phenomena of overuse to the upper extremity. Obviously, the vehicle mechanics of wheelchairs must be included within this biological framework. Scientific research is progressing, but is still hampered by methodological limitations, such as the heterogeneity and small numbers of the population at study as well as the inconsistency of employed technologies and methodologies. There is a need for consensus regarding methodology and research strategy, and a strong need for collaboration to improve the homogeneity and size of subject groups and thus the power of the experimental results. Thus a sufficiently strong knowledge database will emerge, leading to an evidence-base of performance enhancing factors and the understanding of the risks of wheelchair sports and long-term wheelchair use. In the light of the current biomechanical and physiological knowledge of manual wheelchair propulsion there seems to be a need for the stimulation of other than hand rim propelled manual wheelchairs.

To test the hypothesis that a brief, formalized period of additional wheelchair skills training is safe and results in significantly greater improvements in wheelchair skills performance than a standard rehabilitation program. Randomized controlled trial. Rehabilitation center. Thirty-five wheelchair users (20 with musculoskeletal disorders, 15 with neurologic disorders) admitted for initial rehabilitation. Subjects' mean age +/- standard deviation (SD) was 59+/-18.3 years. Subjects randomly allocated to the treatment group participated in the Wheelchair Skills Training Program (WSTP), averaging 4.5+/-1.5 training sessions, each 30 minutes long. Subjects in the control group did not receive any wheelchair skills training beyond that given in a typical rehabilitation stay. Wheelchair Skills Test (WST), version 2.4, before and after training. Changes in total percentage WST score and individual skill scores were examined. There were no adverse incidents. The control group's mean percentage score +/- SD increased from 60.1%+/-14.4% to 64.9%+/-13.3%, an 8% improvement of the posttest relative to the pretest (P=.01). The WSTP group's mean score increased from 64.9%+/-9.4% to 80.9%+/-5.6%, a 25% improvement of the posttest relative to the pretest (P<.000). The WSTP group showed significantly greater improvements than the control group (P<.000). Among the specific skills, significantly greater improvements were seen in the WSTP group for the gravel and high-curb descent skills (P<.001). The WSTP is safe and practical and has a clinically significant effect on the independent wheeled mobility of new wheelchair users. These findings have implications for the standards of care in rehabilitation programs.