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- Title
Wideband phase locking to modulated whisker vibration point to a temporal code for texture in the rat's barrel cortex.
- Authors
Ewert, Tobias; Möller, Johannes; Engel, Andreas; Vahle-Hinz, Christiane
- Abstract
Rats probe objects with their whiskers and make decisions about sizes, shapes, textures and distances within a few tens of milliseconds. This perceptual analysis requires the processing of tactile high-frequency object components reflecting surface roughness. We have shown that neurons in the barrel cortex of rats encode high-frequency sinusoidal vibrations of whiskers for sustained periods when presented with constant amplitudes and frequencies. In a natural situation, however, stimulus parameters change rapidly when whiskers are brushing across objects. In this study, we therefore analysed cortical responses to vibratory movements of single whiskers with rapidly changing amplitudes and frequencies. The results show that different neural codes are employed for a processing of stimulus parameters. The frequency of whisker vibration is encoded by the temporal pattern of spike discharges, i.e., the phase-locked responses of barrel cortex neurons. In addition, oscillatory gamma band activity was induced during high-frequency stimulation. The pivotal descriptor of the amplitude of whisker displacement, the velocity, is reflected in the rate of spike discharges. While phase-locked discharges occurred over the entire range of frequencies tested (10-600 Hz), the discharge rate increased with stimulus velocity only up to about 60 µm/ms, saturating at a mean rate of ~117 spikes/s. In addition, the results show that whisker movements of more than 500 Hz bandwidth may be encoded by phase-locked responses of small groups of cortical neurons. Thus, even single whiskers may transmit information about wide ranges of textural components owing to their set of different types of hair follicle mechanoreceptors.
- Subjects
MOTOR cortex; WHISKERS; MECHANORECEPTORS; NEURAL codes; HAIR follicles; SURFACE roughness; LABORATORY rats; NEURAL stimulation
- Publication
Experimental Brain Research, 2015, Vol 233, Issue 10, p2869
- ISSN
0014-4819
- Publication type
Article
- DOI
10.1007/s00221-015-4357-y