Integration of neural responses originating from different regions of the cortical somatosensory map

Abstract

The neural pathways responsible for detecting peripheral tactile stimuli are well known; however, the interactions between different somatosensory regions have been less well investigated. This study demonstrates how the contralateral sensory response of rat barrel cortex to whisker stimulation is affected by stimulation of contralateral forepaw and ipsilateral whisker and forepaw. The barrel cortex in the right hemisphere was located using optical imaging. A 16-channel multielectrode was used to measure field potentials evoked by contralateral electrical stimulation of the whisker pad. A standard response in the right barrel cortex to single pulse electrical stimulation of the contralateral whisker pad was modulated by applying conditioning stimulation to one of three other regions of the body (the ipsilateral whisker pad, the ipsilateral or contralateral forepaws). In conditions where the standard contralateral whisker stimulus preceded the conditioning pulse, the size of response was identical to when it was stimulated alone. However, when the ipsilateral whisker and contralateral forepaw conditioning stimuli preceded the contralateral whisker pad stimulation, up to a 35% reduction in the contralateral whisker response was observed. These results confirm and extend previous studies [Proc. Natl. Acad. Sci. U. S. A. 97 (2000) 11026–11031; J. Neurosci. 21 (2001) 5251–5261], which show bilateral integration of neural activity within the rat somatosensory system. Furthermore, the longer latency of the inhibition following stimulation of the contralateral forepaw suggests the possible involvement of extracortical circuitry.