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Does precision grip research extend to unconstrained, multidigit grasping?

Does precision grip research extend to unconstrained, multidigit grasping?
Does precision grip research extend to unconstrained, multidigit grasping?
Most daily tasks require using our hands. Whether taking a sip from a glass or throwing a ball, we effortlessly select appropriate grasps. Yet, despite many possible hand configurations, most grasping research has focused on the finger-and-thumb “precision grip.” We thus questioned whether findings on precision grip—such as sensitivity to object mass and material configuration—hold under unconstrained grasping conditions. To test this, we compared how participants grasped three-dimensional (3-D) objects made of brass and wood, with both precision grip and unconstrained grasps. When unconstrained, participants rarely selected precision grips, favoring multidigit grasps. Nevertheless, in both conditions, participants shifted their grasps toward the objects’ center of mass and, when grasp factors conflicted, the variability in their selections increased, indicating greater uncertainty about the optimal strategy. Furthermore, despite favoring multidigit grasps, participants consistently placed the thumb and index finger on the same positions on the objects, suggesting that in multidigit grasps, the additional fingers primarily provided support. Our findings thus reveal that object material affects unconstrained grasping similarly to precision grip and imply that previous precision grip research may extend to unconstrained, multidigit conditions.
grasping, material configuration, multidigit grasp, precision grip
0022-3077
1836-1843
Lepori, Fabrizio
2bbd0dec-61e9-46c6-aebc-5781fd212965
Hartmann, Frieder T.
14fc55a9-2bb5-40ac-8772-9424a5bcb8af
Dehn, Kira I.
bfaaa680-a682-4211-9458-27d175423bbb
Chessa, Manuela
13751164-2d41-400a-8b5c-9b7079e6c147
Fleming, Roland W.
41afa8fc-d604-4530-a455-2398c2902109
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295
Lepori, Fabrizio
2bbd0dec-61e9-46c6-aebc-5781fd212965
Hartmann, Frieder T.
14fc55a9-2bb5-40ac-8772-9424a5bcb8af
Dehn, Kira I.
bfaaa680-a682-4211-9458-27d175423bbb
Chessa, Manuela
13751164-2d41-400a-8b5c-9b7079e6c147
Fleming, Roland W.
41afa8fc-d604-4530-a455-2398c2902109
Maiello, Guido
c122b089-1bbc-4d3e-b178-b0a1b31a5295

Lepori, Fabrizio, Hartmann, Frieder T., Dehn, Kira I., Chessa, Manuela, Fleming, Roland W. and Maiello, Guido (2025) Does precision grip research extend to unconstrained, multidigit grasping? Journal of Neurophysiology, 133 (6), 1836-1843. (doi:10.1152/jn.00008.2025).

Record type: Article

Abstract

Most daily tasks require using our hands. Whether taking a sip from a glass or throwing a ball, we effortlessly select appropriate grasps. Yet, despite many possible hand configurations, most grasping research has focused on the finger-and-thumb “precision grip.” We thus questioned whether findings on precision grip—such as sensitivity to object mass and material configuration—hold under unconstrained grasping conditions. To test this, we compared how participants grasped three-dimensional (3-D) objects made of brass and wood, with both precision grip and unconstrained grasps. When unconstrained, participants rarely selected precision grips, favoring multidigit grasps. Nevertheless, in both conditions, participants shifted their grasps toward the objects’ center of mass and, when grasp factors conflicted, the variability in their selections increased, indicating greater uncertainty about the optimal strategy. Furthermore, despite favoring multidigit grasps, participants consistently placed the thumb and index finger on the same positions on the objects, suggesting that in multidigit grasps, the additional fingers primarily provided support. Our findings thus reveal that object material affects unconstrained grasping similarly to precision grip and imply that previous precision grip research may extend to unconstrained, multidigit conditions.

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Accepted/In Press date: 5 May 2025
Published date: 30 May 2025
Additional Information: Publisher Copyright: Copyright © 2025 The Authors.
Keywords: grasping, material configuration, multidigit grasp, precision grip
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Identifiers

Local EPrints ID: 502425
URI: http://eprints.soton.ac.uk/id/eprint/502425
DOI: doi:10.1152/jn.00008.2025
ISSN: 0022-3077
PURE UUID: 737b43ff-0e18-4457-adae-533e0523d6d5
ORCID for Guido Maiello: ORCID iD orcid.org/0000-0001-6625-2583

Catalogue record

Date deposited: 25 Jun 2025 16:51
Last modified: 22 Aug 2025 02:38

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Contributors

Author: Fabrizio Lepori
Author: Frieder T. Hartmann
Author: Kira I. Dehn
Author: Manuela Chessa
Author: Roland W. Fleming
Author: Guido Maiello ORCID iD

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