Raphe magnus inhibition of primate T1-T4 spinothalamic cells with cardiopulmonary visceral input

Abstract

Effects of stimulation of nucleus raphe magnus on upper thoracic spinothalamic tract neurons were determined. Experiments were performed on 15 monkeys (Macaca fascicularis) anesthetized with .alpha.-chloralose. T1-T4 spinothalamic tract neurons [42] with viscerosomatic inputs were studied. Stimulation of nucleus raphe magnus inhibited activity of all 42 neurons. Of these cells, 32 had background activity. The magnitude of the inhibition of background activity was related to the raphe magnus stimulus current. Current strengths as low as 300 .mu.A (100 Hz, 0.2 ms duration) completely inhibited most cells. Current thresholds averaged 80 .+-. 10 .mu.A and were unrelated to the type of somatic or visceral input the cell received, or to the cell location. Conditioning stimuli applied to nucleus raphe magnus inhibited cell responses to electrical stimulation of cardiopulmonary sympathetic A.delta. and C afferent fibers. To demonstrate preferential inhibition of responses to C fiber input it was necessary to use 200 ms trains of raphe stimuli which were concurrent with the cell response to sympathetic afferent stimuli. Spinothalamic neurons (25) were tested for responses to intracardiac injections of bradykinin and 17 cells increased their discharge rate. Stimulation of nucleus raphe magnus (280 .+-. 25 .mu.A) near the peak of the response reduced activity of all 17 cells from 26 .+-. 3 to 4 .+-. 1 spikes/s (P < 0.001). Raphe stimulation inhibited responses of 41 of 41 cells to noxious pinch and responses of 15 of 15 wide dynamic range and the 1 low ithreshold cell to blowing hair. The results establish the capacity of the raphe-spinal pathway to modulate activity of upper thoracic spinothalamic tract neurons including their response to potentially noxious cardiac stimuli. Descending inhibitory systems may modulate ascending information related to cardiac pain and perhaps account for myocardial ischemic attacks which occur without pain.