AI Article Synopsis
- Human tactile afferents play a crucial role in maintaining grasp stability when manipulating objects.
- Researchers studied how these afferents respond to slip events by monitoring skin deformation while a transparent surface slid against a fingerpad.
- Findings revealed that all afferents react to slips, with fast-adapting type I (FA-I) afferents being particularly good at detecting changes in strain rates, making them important for adjusting grip force.
Article Abstract
Human tactile afferents provide essential feedback for grasp stability during dexterous object manipulation. Interacting forces between an object and the fingers induce slip events that are thought to provide information about grasp stability. To gain insight into this phenomenon, we made a transparent surface slip against a fixed fingerpad while monitoring skin deformation at the contact. Using microneurography, we simultaneously recorded the activity of single tactile afferents innervating the fingertips. This unique combination allowed us to describe how afferents respond to slip events and to relate their responses to surface deformations taking place inside their receptive fields. We found that all afferents were sensitive to slip events, but fast-adapting type I (FA-I) afferents in particular faithfully encoded compressive strain rates resulting from those slips. Given the high density of FA-I afferents in fingerpads, they are well suited to detect incipient slips and to provide essential information for the control of grip force during manipulation.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8169108 | PMC |
| http://dx.doi.org/10.7554/eLife.64679 | DOI Listing |
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