Kinematics of unconstrained tactile texture exploration

A hallmark of tactile texture exploration is that it involves movement between skin and surface. When we scan a surface, small texture-specific vibrations are produced in the skin, and specialized cutaneous mechanoreceptors convert these vibrations into highly repeatable, precise, and informative te...

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Bibliographic Details
Published in:Journal of neurophysiology 2015-04, Vol.113 (7), p.3013-3020
Main Authors: Callier, Thierri, Saal, Hannes P, Davis-Berg, Elizabeth C, Bensmaia, Sliman J
Format: Article
Language:English
Subjects:
Adult
Exploratory Behavior - physiology
Female
Fingers - physiology
Humans
Male
Physical Stimulation - methods
Sensory Processing
Skin Physiological Phenomena
Surface Properties
Touch - physiology
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Summary:A hallmark of tactile texture exploration is that it involves movement between skin and surface. When we scan a surface, small texture-specific vibrations are produced in the skin, and specialized cutaneous mechanoreceptors convert these vibrations into highly repeatable, precise, and informative temporal spiking patterns in tactile afferents. Both texture-elicited vibrations and afferent responses are highly dependent on exploratory kinematics, however; indeed, these dilate or contract systematically with decreases or increases in scanning speed, respectively. These profound changes in the peripheral response that accompany changes in scanning speed and other parameters of texture scanning raise the question as to whether exploratory behaviors change depending on what surface is explored or what information is sought about that surface. To address this question, we measure and analyze the kinematics as subjects explore textured surfaces to evaluate different types of texture information, namely the textures' roughness, hardness, and slipperiness. We find that the exploratory movements are dependent both on the perceptual task, as has been previously shown, but also on the texture that is scanned. We discuss the implications of our findings regarding the neural coding and perception of texture.
ISSN:0022-3077
1522-1598
DOI:10.1152/jn.00703.2014