Human Ability to Discriminate Direction of Three-Dimensional Force Stimuli Applied to the Finger Pad
Identifieur interne : 001783 ( Ncbi/Merge ); précédent : 001782; suivant : 001784Human Ability to Discriminate Direction of Three-Dimensional Force Stimuli Applied to the Finger Pad
Auteurs : Alessandro Panarese [Italie] ; Benoni B. Edin [Suède]Source :
- Journal of Neurophysiology [ 0022-3077 ] ; 2010.
Abstract
Sensory information from tactile mechanoreceptors located in the glabrous skin of the hand is crucial for skillful object exploration and manipulation. These mechanoreceptors reliably encode the direction of fingertip forces, and the brain certainly relies on this information in both sensorimotor and cognitive tasks. In this study, we examined human ability to discriminate the direction of force stimuli applied to the volar surface of the index fingertip on the basis of tactile information only. We show that humans can discriminate three-dimensional (3D) force stimuli whose directions differ by an angle as small as 7.1° in the plane tangential to the skin surface. Moreover, we found that the discrimination ability was mainly affected by the time-varying phases of the stimulus, because adding a static plateau phase to the stimulus improved the discrimination threshold only to a limited extent.
Url:
DOI: 10.1152/jn.00322.2010
PubMed: 21106897
PubMed Central: 3059162
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PMC:3059162Le document en format XML
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<front><div type="abstract" xml:lang="en"><p>Sensory information from tactile mechanoreceptors located in the glabrous skin of the hand is crucial for skillful object exploration and manipulation. These mechanoreceptors reliably encode the direction of fingertip forces, and the brain certainly relies on this information in both sensorimotor and cognitive tasks. In this study, we examined human ability to discriminate the direction of force stimuli applied to the volar surface of the index fingertip on the basis of tactile information only. We show that humans can discriminate three-dimensional (3D) force stimuli whose directions differ by an angle as small as 7.1° in the plane tangential to the skin surface. Moreover, we found that the discrimination ability was mainly affected by the time-varying phases of the stimulus, because adding a static plateau phase to the stimulus improved the discrimination threshold only to a limited extent.</p>
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ARTSLab, Scuola Superiore Sant'Anna, Pontedera, Italy; and</aff>
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Physiology Section, Department of Integrative Medical Biology, Umeå University, Umeå, Sweden</aff>
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<author-notes><corresp>Address for reprint requests and other correspondence: A. Panarese, <addr-line>ARTSLab, Scuola Superiore Sant'Anna, Pontedera (PI), 56025 Italy</addr-line>
(E-mail: <email>alessandro.panarese@sssup.it</email>
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<abstract><p>Sensory information from tactile mechanoreceptors located in the glabrous skin of the hand is crucial for skillful object exploration and manipulation. These mechanoreceptors reliably encode the direction of fingertip forces, and the brain certainly relies on this information in both sensorimotor and cognitive tasks. In this study, we examined human ability to discriminate the direction of force stimuli applied to the volar surface of the index fingertip on the basis of tactile information only. We show that humans can discriminate three-dimensional (3D) force stimuli whose directions differ by an angle as small as 7.1° in the plane tangential to the skin surface. Moreover, we found that the discrimination ability was mainly affected by the time-varying phases of the stimulus, because adding a static plateau phase to the stimulus improved the discrimination threshold only to a limited extent.</p>
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