| Abstract: | To investigate mechanisms of formation of the electrocorticographic slow negative potential (SNP) evoked by direct electrical stimulation of the cortical surface, poststimulus single unit activity in the stimulated area was studied in anesthetized cats and changes in SNP in the depth of the cortex were analyzed. The results showed that membrane hyperpolarization, accompanied by cessation of action potential generation, develops parallel with SNP in neuron bodies in the stimulated area. Investigation of the nature of this hyperpolarization showed that during its development excitability of the neuron and resistance of the postsynaptic membrane fall. It is concluded from the results that this membrane hyperpolarization is an indicator of IPSP development in the neuron bodies. The results of laminar recording showed that SNP may diminish or even disappear in the depth of the cortex without subsequent reversal. Determination of dipoles formed along an axis perpendicular to the cortical surface showed that SNP has one source and two sinks, which are located symmetrically relative to it. The presence of two symmetrical sinks must indicate an active source, formed as a result of hyperpolarization of the neuron membrane. On the basis of the results SNP can be regarded as a field potential formed on the cortical surface as a result of IPSP development in the neuron bodies.Institute of Clinical and Experimental Neurology, Ministry of Health of the Georgian SSR, Tbilisi. Translated from Neirofiziologiya, Vol. 15, No. 3, pp. 314–320, May–June, 1983. |
