The descending inhibition of spinal neuronal responses by focal electrical stimulation in the periaqueductal gray (PAG) or nucleus raphe magnus (NRM) was quantitatively studied and compared in the anesthetized, paralyzed cat. All 60 dorsal horn neurons studied were driven by electrical stimulation of hindlimb cutaneous nerves at strengths supramaximal for activation of A-alpha,delta- and C-fibers, and 52 also responded to noxious radiant heating (50 degrees C, 10 s) of the skin of the foot- or toepads; 8 units had receptive fields in the hairy skin of the hindlimb. All neurons studied also responded to mechanical stimuli; recording sites were located in laminae I-VI of the dorsal horn. The inhibition of spinal neuronal heat-evoked responses by stimulation in the PAG or NRM differed quantitatively when examined on the same spinal neurons. Inhibition of heat-evoked spinal neuronal responses occurred at a lower threshold of stimulation in the NRM than in the PAG. The mean intensity of stimulation in the NRM producing an attenuation to 50% of the control 50 degrees C heat-evoked response was significantly lower than the mean intensity of stimulation in the PAG producing a 50% attenuation of the same spinal units. The mean magnitude of inhibition produced by stimulation in the NRM was significantly greater than that produced on the same spinal units by the same intensity of stimulation in the PAG. However, stimulation in the NRM and PAG produced the same mean percent change in inhibition per 100-microA increase in the intensity of stimulation. Thus, the slopes of the recruitment of descending inhibition from the PAG and the NRM as a function of increasing intensities of stimulation are the same; the lines of recruitment of inhibition are parallel. When examined on the same dorsal horn units, stimulation in the PAG influenced their intensity coding to graded noxious heating of the skin differently than did stimulation in the NRM. The responses of the class 2 and class 3 spinal units examined to increasing temperatures of heat applied to the skin was a monotonic linear function throughout the temperature range studied (42-50 degrees C). Stimulation in the PAG decreased the slope of the stimulus-response function (SRF) without affecting unit thresholds of response, thus influencing the gain control of nociceptive transmission in the dorsal horn. Stimulation in the NRM produced a parallel shift to the right of the SRF, influencing the set point and threshold of response.(ABSTRACT TRUNCATED AT 400 WORDS)
Spinal dorsal horn neuronal responses to myelinatedversusunmyelinated heat nociceptors and their modulation by activation of the periaqueductal grey in the rat