Publication Type |
Journal Article |
School or College |
College of Engineering |
Department |
Bioengineering |
Creator |
Horch, Kenneth W.; Tuckett, Robert P.; Burgess, Paul Richard |
Other Author |
Mei, Jun; Ballinger, Carter M.; Poulos, Dennis A. |
Title |
Neural signal for skin indentation depth. I. Changing indentations |
Date |
1983 |
Description |
Psychophysical tests on human subjects showed that judgments of skin indentation depth made when the fingertip was indented at rates from 0.2 to 16 mm/set were quite insensitive to changes in indentation velocity. Similar results were obtained on the forearm at indentation velocities of 0.4 to 16 mm/set. Recordings were made from mechanoreceptors in the monkey's hand that were able to respond over the same range of velocities and at comparable depths to determine how skin indentation depth might be signaled (coded) at the receptor level and to examine the rate sensitivity of the possible depth codes. It was found that most of the receptors with foci under the stimulator were recruited relatively early during an indentation, especially at velocities of 1.6 mm/set and higher, making it improbable that the full range of indentation depths is signaled by the "subsurface" recruitment of different receptors at different indentation depths. A subsurface recruitment code involving subcutaneous receptors is not likely since subjects could feel virtually none of the stimuli after skin anesthesia. Progressive recruitment with depth of receptors whose foci lie further and further away from the stimulator ("lateral" recruitment) was considered an unlikely depth code because changing the area of the stimulator had little effect on its perceived depth. Also, it was shown that subjects could sense the curvature of the identation (the profile of the depth at right angles to the skin surface), which requires information about the depth of individual patches of skin beneath the stimulator. There is no obvious way that a lateral recruitment code can provide this information. Thus it is probable that the discharge rate of some or all of the receptors excited by the indentation is involved in indicating its depth. Both impulse frequency and receptor recruitment at any given depth increased as the velocity of the identation increased. The demonstrated reliability of information about skin indentation depth in humans indicates that the central neural circuitry responsible for judgments of skin indentation depth is able to compensate for the rate-sensitive receptor signals. |
Type |
Text |
Publisher |
Society for Neuroscience |
Volume |
3 |
Issue |
8 |
First Page |
1572 |
Last Page |
1585 |
Subject |
Skin; Indentation; Nerve impulses |
Subject LCSH |
Neural stimulation; Mechanoreceptors; Adaptation (Physiology) |
Language |
eng |
Bibliographic Citation |
Horch K. W., Burgess, P. R., Mei, J., Tuckett, R. P., Ballinger, C. M., & Poulos, D. A. (1983). Neural signal for skin indentation depth. I. Changing indentations. Journal of Neuroscience, 3(8), 1572-85. |
Rights Management |
(c) Society for Neuroscience |
Format Medium |
application/pdf |
Format Extent |
1,689,247 Bytes |
Identifier |
ir-main,3593 |
ARK |
ark:/87278/s60g43qh |
Setname |
ir_uspace |
ID |
706572 |
Reference URL |
https://collections.lib.utah.edu/ark:/87278/s60g43qh |