| Abstract: | Individual nerves of the superior cervical sympathetic ganglion were stimulated in acute experiments on cats, and action potentials (AP) were recorded from other nerves of the ganglion in order to clarify whether or not there is transmission of excitation through the ganglion from one nerve to another and to establish whether this transmission is continuous or synaptic. The method of intracellular recording from neurons of the ganglion was also used. It is established that stimulation of the cervical sympathetic nerve evokes AP in all of the peripheral nerves of the ganglion, a circumstance that is the result of synaptic transmission of excitation. There is no transmission of excitation in the reverse direction or between any of the 12 peripheral nerves of the ganglion (including the four branches of the internal carotid nerve). Orthodromic excitation is recorded intracellularly from neurons of the ganglion during stimulation of the cervical sympathetic nerve, and antidromic excitation is recorded during stimulation of a peripheral nerve (the internal carotid nerve). It follows that the pathways through the ganglion which conduct excitation from the cervical sympathetic nerve into all of the remaining nerves of the ganglion are synaptic. Analysis of EPSP latent periods indicated that preganglionic fibers that differ sharply with respect to threshold and conduction rate (groups S2 and S4) converge on one and the same neurons of the ganglion.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 2, No. 2, pp. 216–224, March–April, 1970. |
