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J Neurophysiol (March 1, 2003). 10.1152/jn.0871.2002
Submitted on Submitted 30 September 2002; accepted in final form 23 November
2002
Laboratory of Neurophysiology, Faculty of Medicine, Laval University, Québec G1K 7P4, Canada
Cissé, Youssouf,
François Grenier,
Igor Timofeev, and
Mircea Steriade.
Electrophysiological Properties and Input-Output Organization of
Callosal Neurons in Cat Association Cortex. J. Neurophysiol. 89: 1402-1413, 2003. Intracellular
recordings from association cortical areas 5 and 7 were performed in
cats under barbiturate or ketamine-xylazine anesthesia to investigate
the activities of different classes of neurons involved in callosal
pathways, which were electrophysiologically characterized by
depolarizing current steps. Excitatory postsynaptic potentials (EPSPs),
inhibitory postsynaptic potentials (IPSPs), and/or antidromic responses
were elicited by stimulating homotopic sites in the contralateral
cortical areas. Differential features of EPSPs related to latencies,
amplitudes, and slopes were detected in closely located (50 µm or
less) neurons recorded in succession along the same electrode track. In
contrast to synchronous thalamocortical volleys that excited most
neurons within a cortical column, stimuli applied to homotopic sites in
the contralateral cortex activated neurons at restricted cortical
depths. Median latencies of callosally evoked EPSPs were 1.5 to 4 ms in
various cortical cell-classes. Fast-rhythmic-bursting neurons displayed
EPSPs whose amplitudes were threefold larger, and latencies two- or
threefold shorter, than those found in the three other cellular
classes. Converging callosal and thalamic inputs were recorded in the
same cortical neuron. EPSPs or IPSPs were elicited by stimulating foci
spaced by <1 mm in the contralateral cortex. In the overwhelming
majority of neurons, latencies of antidromic responses were between 1.2 and 3.1 ms; however, some callosal neurons had much longer latencies, 
18.5 ms. Some neurons were excited monosynaptically through the callosal pathway and identified antidromically from appropriate thalamic nuclei, thus revealing a callosal-corticothalamic pathway. Data are discussed in relation to the commissural spread of fast and
slow normal oscillations as well as paroxysmal activities.
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