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Original Research

Bimanual wheelchair propulsion by people with severe hemiparesis after stroke

ORCID Icon, , , &
Pages 49-62 | Received 03 Apr 2019, Accepted 06 Jun 2019, Published online: 28 Jun 2019
 

Abstract

Purpose

Individuals who require manual wheelchairs after stroke are typically taught to ambulate with compensatory propulsion (i.e., using their non-paretic arm and foot), risking disuse of the paretic arm. We investigated whether stroke survivors can instead ambulate in a bimanual, lever-driven wheelchair that requires the paretic arm to contribute half the propulsive input.

Materials and methods

Seventeen individuals with chronic stroke and severe hemiparesis (upper extremity Fugl–Meyer scores between 10 and 24) participated across two experiments. In the first experiment, participants (n = 12) ambulated in straight paths. In the second experiment, participants (n = 12) also performed turns, using an improved version of the wheelchair that incorporated handbrakes. Twelve unimpaired controls also completed the second experiment. Motion capture and EMG were used to compare biomechanics between groups.

Results

Altogether, 15 of 17 participants with stroke could ambulate 30 m in straight paths, and 9 of 12 could turn 1800° entirely under the power of their paretic arm. Participants with stroke exhibited largely healthy biomechanics, with minimal shoulder hiking/leaning or trunk inclination. Their arm muscle EMG patterns were similar to those used by unimpaired participants, excepting delayed elbow extensor activation.

Conclusions

Individuals with severe arm impairment in the chronic stage of stroke retain sufficient strength and coordination with their paretic arm to manoeuvre bimanual, lever-driven wheelchairs. We suggest bimanual, lever-driven propulsion should be explored in stroke rehabilitation practice as an alternative to compensatory wheelchair propulsion, as it has the potential to exercise healthy movement synergies, which may in turn help drive use-dependent motor recovery.

    Implications for rehabilitation

  • Severe arm impairment arising after stroke does not generally eliminate the motor dexterity needed to bimanually propel a manual wheelchair, provided that the wheelchair is modified to remove the requirement to grasp and release the push rim.

  • Such exercise appears a good candidate to facilitate rehabilitation outcomes because it depends on alternating muscle activity and improving elbow extension.

  • Such wheelchair propulsion involves largely normal biomechanics; shoulder hiking and leaning are absent and trunk inclination is rare.

Acknowledgements

The authors thank Justin Rowe for his assistance writing the motion capture software and Vicky Chan for recruiting and coordinating all experimental participants.

Disclosure statement

Zondervan DK and Reinkensmeyer DJ are co-founders of and hold equity in Flint Rehabilitation Devices, a company that is commercializing rehabilitation technology. Zondervan DK is currently employed at Flint, and Reinkensmeyer DJ has received payment for consulting from Flint. Reinkensmeyer DJ holds equity in Hocoma, a manufacturer of rehabilitation technology. The terms of Reinkensmeyer DJ’s interests have been reviewed by the U.C. Irvine Conflict of Interest committee.

Additional information

Funding

This work was supported by Machines Assisting Recovery from Stroke and Spinal Cord Injury for Reintegration into Society (MARS3) of the National Institute of Disability, Independent Living, and Rehabilitation Engineering Research (NIDILRR) Center on Rehabilitation Robotics under Grant H133E120010; UC Irvine Institute for Clinical and Translational Science; and the project HYPER-CSD2009-00067 of the Spanish Government.

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