Innervation Patterns of Cutaneous Hair Receptors in Cat

Tuckett, R. P.

14 October 1982

Cat hair receptors were studied to determine whether they could be distinguished by the following receptive field characteristics: thickness of innervated guard hairs, distance between innervated follicles and receptive field size. Initially the receptors were classified as G1, GI, G2 or D on the basis of their velocity requirements for excitation, their degree of linear directionality, their vibrational sensitivity, and whether they were activated by movement of down hairs. It was found that the thickest guard hairs on the posterior aspect of a cat's hindleg were usually 4-5 times thicker than the thinnest guard hairs from the same area and that G1, GI and G2 neurons innervated the full range of guard hair thicknesses available. Although there was a tendency for thicker guard hairs to be more heavily innervated, none of the neurons studied innervated thick guard hairs exclusively. While movement of the down hair and most guard hairs within D-mechanoreceptive fields easily evoked activity, a few guard hairs were regularly found for which mechanical displacement did not elicit a discharge even though they were well within the receptive field. Receptive field sizes and nearest neighbor distances between innervated follicles were smaller for D than for G1, GI and G2 receptors and greater for G1 than GI and G2 receptors.

cutaneous receptor

down hair

guard hair

innervation pattern

mechanoreceptor

receptive field size

Spinal nerve innervation to the sonic muscle and sonic motor nucleus in red piranha, Pygocentrus nattereri (Characiformes, Ostariophysi)

Onuki, Atsushi, Ohmori, Yasushige, Somiya, Hiroaki

January 2006

journal's webpage is available at http://www.karger.com/bbe .

Innervation pattern

spinal nerve

occipital nerve

sonic muscle

sonic motor nucleus

sonic motor neuron

vocalizing fish

red piranha