An evaluation of contralateral hand involvement in the operation of the Delft Self-Grasping Hand, an adjustable passive prosthesis
An evaluation of contralateral hand involvement in the operation of the Delft Self-Grasping Hand, an adjustable passive prosthesis
The Delft Self-Grasping Hand is an adjustable passive prosthesis operated using the concept of tenodesis (where opening and closing of the hand is mechanically linked to the flexion and extension of the wrist). As a purely mechanical device that does not require harnessing, the Self-Grasping Hand offers a promising alternative to current prostheses. However, the contralateral hand is almost always required to operate the mechanism to release a grasp and is sometimes also used to help form the grasp; hence limiting the time it is available for other purposes. In this study we quantified the amount of time the contralateral hand was occupied with operating the Self-Grasping Hand, classified as either direct or indirect interaction, and investigated how these periods changed with practice. We studied 10 anatomically intact participants learning to use the Self-Grasping Hand fitted to a prosthesis simulator. The learning process involved 10 repeats of a feasible subset of the tasks in the Southampton Hand Assessment Procedure (SHAP). Video footage was analysed, and the time that the contralateral hand was engaged in grasping or releasing was calculated. Functionality scores increased for all participants, plateauing at an Index of Functionality of 33.5 after 5 SHAP attempts. Contralateral hand involvement reduced significantly from 6.47 (first 3 attempts) to 4.68 seconds (last three attempts), but as a proportion of total task time remained relatively steady (increasing from 29% to 32%). For 9/10 participants most of this time was supporting the initiation of grasps rather than releases. The reliance on direct or indirect interactions between the contralateral hand and the prosthesis varied between participants but appeared to remain relatively unchanged with practice. Future studies should consider evaluating the impact of reliance on the contralateral limb in day-to-day life and development of suitable training methods.
Chadwell, Alix
c337930e-a6b5-43e3-8ca5-eed1d2d71340
Chinn, Natalie
78ae3484-18e5-44b7-8462-c21328aed84c
Kenney, Laurence
67e5d27a-3331-4eeb-85f2-1f85bb103252
Karthaus, Zoë J.
9df3c94d-338f-46a3-a008-06fd4cafab8f
Mos, Daniek
5e8b3ffd-497b-4fc7-875d-13fa085067aa
Smit, Gerwin
478e5218-c0f4-4423-bd1d-f6a2549d7887
17 June 2021
Chadwell, Alix
c337930e-a6b5-43e3-8ca5-eed1d2d71340
Chinn, Natalie
78ae3484-18e5-44b7-8462-c21328aed84c
Kenney, Laurence
67e5d27a-3331-4eeb-85f2-1f85bb103252
Karthaus, Zoë J.
9df3c94d-338f-46a3-a008-06fd4cafab8f
Mos, Daniek
5e8b3ffd-497b-4fc7-875d-13fa085067aa
Smit, Gerwin
478e5218-c0f4-4423-bd1d-f6a2549d7887
Chadwell, Alix, Chinn, Natalie, Kenney, Laurence, Karthaus, Zoë J., Mos, Daniek and Smit, Gerwin
(2021)
An evaluation of contralateral hand involvement in the operation of the Delft Self-Grasping Hand, an adjustable passive prosthesis.
PLoS ONE, 16 (6), [e0252870].
(doi:10.1371/journal.pone.0252870).
Abstract
The Delft Self-Grasping Hand is an adjustable passive prosthesis operated using the concept of tenodesis (where opening and closing of the hand is mechanically linked to the flexion and extension of the wrist). As a purely mechanical device that does not require harnessing, the Self-Grasping Hand offers a promising alternative to current prostheses. However, the contralateral hand is almost always required to operate the mechanism to release a grasp and is sometimes also used to help form the grasp; hence limiting the time it is available for other purposes. In this study we quantified the amount of time the contralateral hand was occupied with operating the Self-Grasping Hand, classified as either direct or indirect interaction, and investigated how these periods changed with practice. We studied 10 anatomically intact participants learning to use the Self-Grasping Hand fitted to a prosthesis simulator. The learning process involved 10 repeats of a feasible subset of the tasks in the Southampton Hand Assessment Procedure (SHAP). Video footage was analysed, and the time that the contralateral hand was engaged in grasping or releasing was calculated. Functionality scores increased for all participants, plateauing at an Index of Functionality of 33.5 after 5 SHAP attempts. Contralateral hand involvement reduced significantly from 6.47 (first 3 attempts) to 4.68 seconds (last three attempts), but as a proportion of total task time remained relatively steady (increasing from 29% to 32%). For 9/10 participants most of this time was supporting the initiation of grasps rather than releases. The reliance on direct or indirect interactions between the contralateral hand and the prosthesis varied between participants but appeared to remain relatively unchanged with practice. Future studies should consider evaluating the impact of reliance on the contralateral limb in day-to-day life and development of suitable training methods.
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Published date: 17 June 2021
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Local EPrints ID: 481322
URI: http://eprints.soton.ac.uk/id/eprint/481322
ISSN: 1932-6203
PURE UUID: 26f079f9-87b9-4e73-9552-0ea2a4348850
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Date deposited: 23 Aug 2023 16:50
Last modified: 17 Mar 2024 04:21
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Author:
Alix Chadwell
Author:
Natalie Chinn
Author:
Laurence Kenney
Author:
Zoë J. Karthaus
Author:
Daniek Mos
Author:
Gerwin Smit
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