| Abstract: | Preganglionic visceral vasoconstrictor (VVC) neurons and motility-regulating (MR) neurons and other visceral preganglionic neurons, which project in the lumbar splanchnic nerves, were analyzed for their segmental distribution, the conduction velocity of their axons, ongoing activity and reflexes elicited by electrical stimulation of visceral afferents in white rami and of somatic afferents in spinal nerves. Identified preganglionic neurons and neurons without ongoing and reflex activity were distributed over segments L1-L5. VVC neurons were distributed over segments L1-L4 and MR neurons over segments L3-L5. VVC axons conducted at 2.8 +/- 2.5 m/s (mean +/- 1 S.D., n = 49), MR axons at 8.1 +/- 4.7 m/s (n = 131). The ongoing activity of VVC neurons was 1.6 +/- 0.7 imp/s (n = 46), that of MR neurons 0.8 +/- 0.7 imp/s (n = 91). There was no correlation between the conduction velocity of preganglionic axons and the rate of ongoing activity for VVC and MR neurons. (4) Electrical stimulation of visceral afferents in white rami and of somatic afferents in spinal nerves elicited short-latency (less than 50 ms) and long-latency (greater than 50 ms) reflexes in practically all VVC neurons, but preferentially short-latency reflexes in only 50 to 60% of the MR neurons. These results show that VVC and MR neurons are not only different in their reflex patterns, elicited by stimulation of visceral receptors and of arterial baro- and chemoreceptors, but also in the 4 properties analyzed in this paper. |
