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J Neurophysiol (December 1, 2002). 10.1152/jn.00121.2002
Submitted on 19 February 2002
Accepted on 2 August 2002
1Centre de Recherche en Sciences Neurologiques, Département de Physiologie and 2École de Réadaptation, Faculté de Médecine, Université de Montréal, Montreal, Quebec H3T 1J4, Canada
Meftah, El-Mehdi,
Jafar Shenasa, and
C. Elaine Chapman.
Effects of a Cross-Modal Manipulation of Attention on
Somatosensory Cortical Neuronal Responses to Tactile Stimuli in
the Monkey. J. Neurophysiol. 88: 3133-3149, 2002. The role of attention in modulating tactile sensitivity in
primary (SI) and secondary somatosensory cortex (SII) was addressed using a cross-modal manipulation of attention, somatosensory versus visual. Two adult monkeys (Macaca mulatta) were trained to
perform two tasks: tactile discrimination of a change in the texture of a surface presented to digits 3 and 4 and visual discrimination of a
change in the intensity of a light. In each trial, standard texture (2 mm spatial period, SP) and visual stimuli were presented. These were
followed by an increase in SP and/or luminance. Each trial was preceded
by an instruction cue (colored light) that directed the animal to
attend and respond to the change in one modality while ignoring any
change in the other modality. The two tasks were interleaved during the
recording, on a trial-by-trial basis. Extracellular recordings were
made from 178 neurons (SI, 102; SII, 76), all with a cutaneous
receptive field on the stimulated digit tips. Discharge was quantified
in both tasks during the instruction, the standard-stimuli, and the
texture-change periods. The results showed that selective attention to
tactile stimuli had qualitatively and quantitatively greater and
earlier effects in SII than SI. Twenty-four of 102 SI cells showed a
significant change in discharge with the direction of attention. For
almost all cells (20/24), discharge was enhanced when attention was
directed toward the tactile stimuli; the effects were most frequent in the analysis interval that encompassed the change in SP (16/24). A
significantly higher proportion of SII cells were attention-sensitive (47/76). The effects were concentrated in the texture-change period (39/47) but also included earlier periods in the trial (instruction period, n = 15; standard-stimuli period,
n = 32). Attention-related modulation that spanned all
three intervals (n = 11) likely reflected baseline
changes in discharge. For the texture-sensitive cells (43 in SI, 37 in
SII), the mean change in discharge frequency (post texture change 
pre-texture change) in each task was significantly increased in SII
but not SI with selective attention. The results are consistent with a
two-stage modulation of parietal cortical discharge, an initial stage
(SI) in which there is some enhancement of sensory responses to the
salient feature, the texture change, and a second stage (SII) in which
baseline changes occur, along with further feature selection. These
controls may be independently exerted on SI and SII, or they may
reflect top-down controls from SII to SI.
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