Shoulder joint contact force during lever-propelled wheelchair propulsion

Article


Sasaki, M., Stefanov, D., Ota, Y., Miura, H. and Nakayama, A. 2015. Shoulder joint contact force during lever-propelled wheelchair propulsion. Robomech Journal. 2, pp. 1-10. https://doi.org/10.1186/s40648-015-0037-8
TypeArticle
TitleShoulder joint contact force during lever-propelled wheelchair propulsion
AuthorsSasaki, M., Stefanov, D., Ota, Y., Miura, H. and Nakayama, A.
Abstract

The aim of this study was to obtain quantitative results about shoulder contact force during wheelchair lever propulsion when the gear ratio of the lever propulsion mechanism is changing. The effect of the gear ratio on the shoulder contact force was investigated for few different wheelchair loading. For the experiments we designed a special mechatronic wheelchair simulator that allowed the simulation of different gear ratios ofthe wheelchair lever propulsion mechanism and simulation of different road inclinations. The same simulator was also used for simulation of a hand rim propelled wheelchair. We conducted also a hand rim propulsion experiment and used the results from it for comparison with the lever propulsion data. Four nondisabled male adults with no prior wheeling experience participated in the experiment. In the first tests, a lever propelled wheelchair was simulated with the simulator. The target speed of the wheelchair was set to 2 km/h. For the test the gear ratio was varied from 1.5 to 1/1.5. A load torque was applied to the rear wheels to imitate road inclinations of 0, 2° and 4°.ln the second part of the test, the simulator was structured to simulate a hand rim propelled wheelchair. The participants were asked to keep the same speed (2 km/h) and the simulator was set sequentially to imitate climbing a ramp inclined on 0°,2° and 4°. Kinematic data of the body were collected by a motion capture system. Kinetic data such as hand force and driving torque, were measured by instrumented wheels with incorporated six-axis force sensor. The intersegmental joint forces and moments were calculated from the obtained kinematic and kinetic data via inverse dynamics analysis procedure. Muscle forces were computed from the measured joint moments by using an optimization approach. Shoulder joint contact force, which indicates the joint surface loading, was computed as a synthetic vector of the intersegmental force for shoulder joint acquired from the inverse dynamics analysis and the compressive forces from muscles, tendons, ligaments and cartilages crossing the shoulder joint It was observed that the decrease of the gear ratio causes increased cycle frequency and reduces the shoulder joint contact force. Result showed that the shoulder joint contact force during lever propulsion with a gear ratio 1/1.5 was up to 70% lower than the shoulder joint contact force during handrim propulsion. The results from this study could be used in the design of new lever propulsion mechanisms that reduce the risks of secondary shoulder disorders and increase user's comfort.

LanguageEnglish
PublisherSpringer Open
JournalRobomech Journal
ISSN2197-4225
Publication dates
Print03 Oct 2015
Publication process dates
Deposited09 Oct 2015
Accepted25 Sep 2015
Output statusPublished
Additional information

Article number = 13

Digital Object Identifier (DOI)https://doi.org/10.1186/s40648-015-0037-8
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