Reduced Finger and Wrist Flexor Activity During Propulsion With a New Flexible Handrim
Abstract
Richter WM, Rodriguez R, Woods KR, Karpinski AP, Axelson PW. Reduced finger and wrist flexor activity during propulsion with a new flexible handrim.
Objective
To test the hypothesis that finger and wrist flexor activity is lower when pushing with a high-friction flexible handrim than with a standard uncoated handrim.
Design
Case series.
Setting
Biomechanics laboratory.
Participants
Twenty-four manual wheelchair users.
Intervention
Subjects pushed their own wheelchairs on a research treadmill set to level, 3°, and 6° grades using both a standard uncoated handrim and a high friction flexible handrim. Propulsion speed was self-selected and held constant between handrim trials. Handrim order was randomized. Finger and wrist flexor muscle activity was measured at the forearm using surface electromyography.
Main Outcome Measures
Electromyographic data were rectified and normalized by each subject’s maximum voluntary contraction. Total muscle exertion was determined by integrating the rectified signal over each push. Peak and total muscle exertion for each push were averaged across grade conditions and compared across handrims using a repeated measures t test.
Results
The flexible handrim resulted in statistically significant reductions in both peak and total forearm muscle activation. Averaging across all subjects and grade conditions, peak muscle activation was reduced by 11.8% (P=.026) and overall muscle exertion was reduced by 14.5% (P=.016).
Conclusions
The flexible handrim was shown to require less finger and wrist flexor activity than a standard uncoated handrim for the same propulsion conditions.
cCollege of Engineering, Technology and Computer Science, Tennessee State University, Nashville, TN
Reprint requests to W. Mark Richter, PhD, MAX Mobility LLC, 3301 Cobble St, Ste B2, Nashville, TN 37211
Supported by the National Center for Medical Rehabilitation Research, National Institute of Child Health and Human Development, National Institutes of Health (grant no. 2 R44 HD36533-02A2) and the College of Engineering, Technology and Computer Science, Tennessee State University.
A commercial party having a direct financial interest in the results of the research supporting this article has conferred or will confer a financial benefit upon the author or 1 or more of the authors. Richter, Rodriguez, Woods, Karpinski, and Axelson are employees of Beneficial Designs Inc, which developed the FlexRim used in this study.
ABSTRACT