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  • Title: Modulation of spinal nociceptive transmission from nuclei tractus solitarii: a relay for effects of vagal afferent stimulation.
    Author: Ren K, Randich A, Gebhart GF.
    Journal: J Neurophysiol; 1990 May; 63(5):971-86. PubMed ID: 1972739.
    Abstract:
    1. The effects of electrical and chemical stimulation in the nucleus tractus solitarii (NTS) on spinal nociceptive transmission were examined in pentobarbital sodium-anesthetized, paralyzed rats. These studies also examined the role of the NTS as a relay for the effects of vagal afferent stimulation (VAS) on spinal nociceptive transmission. All 75 neurons studied were located in laminae I-VI in the L3-L5 spinal segments, with receptive fields on the glabrous skin of the plantar surface of the ipsilateral hindpaw. The units responded to mechanical (low and/or high intensities) and thermal stimuli (42-52 degrees C). 2. Electrical stimulation in the NTS either ipsilateral or contralateral to the spinal unit inhibited neuronal responses to noxious thermal stimuli. The magnitude of inhibition did not significantly differ as a function of either ipsilateral (15 units) or contralateral (12 units) NTS stimulation (NTSS) as indicated by extrapolated thresholds for inhibition of responses to heat, intensities to produce 50% inhibition of responses to heat, and the slope of recruitment lines for inhibition. Tracking experiments also revealed that stimulation in the area ventral to the NTS produced a greater magnitude of inhibition of these units than did NTSS. 3. NTSS significantly decreased the slope of the stimulus-response functions (SRFs) of dorsal horn units to graded thermal stimuli (42-52 degrees C), whereas response threshold was unaffected by NTSS. The apparent latency of NTSS to produce inhibition of unit responses to heating of the hindpaw was determined to be 50 +/- 10 ms (mean +/- SE). 4. Microinjection of 50 nmol of glutamate into the NTS ipsilateral to the spinal unit also inhibited neuronal responses to thermal stimuli in 17/21 units; responses of 2/21 units were facilitated. Inhibition typically lasted 4-7 min and was shown to be dose-volume dependent. 5. The effects of VAS and NTSS on spinal nociceptive transmission were directly compared. The responses of 17 units to 50 degrees C heating of the hindpaw were facilitated by low and inhibited by greater intensities of VAS (Biphasic units); the responses of 12 units were only inhibited by VAS (Inhib units); three were only facilitated (Facil units), and 2 were unaffected by VAS. In contrast, NTSS generally inhibited the same spinal units, although modest facilitation was produced by NTSS contralateral to the recording site. NTSS produced greater inhibition of the Biphasic units than did VAS, shown by a leftward shift of the recruitment line of inhibition and greater inhibition at the same intensity of electrical stimulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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