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The Journal of Neurophysiology Vol. 83 No. 5 May 2000, pp. 3049-3061
Copyright ©2000 by the American Physiological Society
1Department of Orthopaedics, 2Program in Bioengineering, State University of New York, Stony Brook, New York 11794-8181
Khalsa, Partap S.,
Ce Zhang, and
Yi-Xian Qin.
Encoding of Location and Intensity of Noxious Indentation Into
Rat Skin by Spatial Populations of Cutaneous Mechano-Nociceptors. J. Neurophysiol. 83: 3049-3061, 2000. The
ability of a spatial population of cutaneous, A
, and C
mechano-nociceptors to encode the location and intensity of a noxious,
cutaneous indentation was examined using an isolated preparation in a
rat model. Skin and its intact innervation were harvested from the
medial thigh of the rat hindlimb and placed in a dish, with the corium
side down, containing synthetic interstitial fluid. The margins of the
skin were coupled to an apparatus that could stretch and apply
compression to the skin. The skin was suspended on top of a deformable
platform whose bulk, nonlinear, compressive compliance emulated that
found in vivo. The isolated preparation facilitated examination of the
spatial population response by eliminating the nonlinear geometry and
inhomogeneous compressive compliance present in-vivo. Spatial
population responses (SPR) were formed from recordings of single
neurons that were stimulated by compressing the skin with an indenter
(flat cylinder, 3-mm diam) at discrete intervals from the center of
their receptive fields. SPR were composed of the neural responses
(z axis) at each indentation location (x, y plane), and
were analyzed quantitatively using nonlinear regression to fit an
equation of a Gaussian surface. Both A and C SPR accurately encoded
the location and intensity of noxious indentation. The intensity of the
stimulus was encoded in the peak neural response of the SPR, which had
a nonlinear relationship to the compressive force. The location of the
stimulus was encoded in the x, y position of the peak of
the SPR. The position of the peak remained constant with increasing
magnitudes of compressive force. The overall form of the SPR also
remained constant with changes of compressive load, suggesting a
possible role for encoding in the SPR some aspects of shape of a
noxious stimulus.
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