Brain research
-
The relationship between stimulus intensity and its efficacy in inducing diffuse noxious inhibitory controls (DNIC) was investigated in anaesthetized rats by using thermal stimulation of the tail for conditioning dorsal horn convergent neuronal responses to C fibres emanating from the hindpaw extremity. The threshold for obtaining inhibition of the neuronal responses ranged between 40 and 44 degrees C and there was a highly significant correlation between noxious temperatures (44-52 degrees C) and the degree of inhibition. These data provide support for the notion of an involvement of inhibitory processes (DNIC) in the signalling of pain by convergent neurones.
-
In cerebellum, the evoked responses of the Purkinje cell to both excitatory and inhibitory afferent input have previously been shown to be enhanced by local iontophoresis of norepinephrine (NE). The influence of locus coeruleus (LC) conditioning stimulation on Purkinje cell responses to climbing fiber input was examined to determine whether endogenous NE, released from synaptic terminals, could exert similar potentiative effects. Stimulation of LC, at intensities which by themselves were subthreshold for directly affecting background activity, markedly enhanced complex spike excitation of Purkinje cells elicited by activation of climbing fiber inputs from sensorimotor cortex. ⋯ Iontophoretic application of sotalol, a specific beta-adrenergic receptor blocker, reversibly antagonized this facilitation of climbing fiber-evoked responses. In addition, the potentiative effects of LC stimulation were not observed after destruction of NE-containing axons and terminals in cerebellum by 6-OHDA. These results suggest that noradrenergic input from the LC can enhance the efficacy of climbing fiber synaptic action on the Purkinje cell, and are thus consistent with the hypothesis of a 'modulatory' role rather than a specific information transfer function for NE in cerebellum.
-
Tactile thresholds and sensation magnitudes for single mechanical pulses of varying frequency and probe area were studied in order to provide psychophysical data for correlations of tactile sensations with functional properties of different types of human peripheral nerve fibers. Single mechanical pulses were delivered to the hairy or glabrous skin of the hand by means of a perspex probe (area 0.07, 0.7, 3.1, or 12.5 sq.-mm) fixed to the moving coil of an electromechanical vibrator. The frequency of the single pulse was 20, 60 or 150 HZ. ⋯ Larger sensation magnitudes were obtained with increasing frequency of the pulse and probe area on both skin areas. These psychophysical findings indicate that there is a functional difference at absolute sensation thresholds between hairy and glabrous skin. This difference, however, disappears at higher sensation levels.
-
Diffuse Noxious Inhibitory Controls (DNIC) were investigated in anaesthetized intact rats, with or without p-chlorophenylalanine (pCPA) pretreatment. Dorsal horn convergent neurones responding to both noxious and non-noxious stimuli applied to their excitatory receptive field located on the distal part of the hindlimb, were recorded in the lumbar spinal cord. These cells received A alpha and C fibre inputs as shown by electrical stimulation of their receptive field. ⋯ These results strongly suggest that serotonergic pathways partially involved in DNIC. They are discussed with reference to the descending control systems, originating from the caudal raphé, which modulate the transmission and/or the integration of nociceptive messages at the spinal level. The possible involvement of DNIC and 5-HT mechanisms to the hypo-algesic phenomena induced by hyper-stimulation is also suggested.
-
The effects of exogenous opiates upon diffuse noxious inhibitory controls (DNIC) was investigated in intact anaesthetized rats. 58 convergent neurones, responding to both noxious and innocuous stimuli applied to their cutaneous receptive fields, were recorded at the lumbar level. These cells received A- and C-peripheral fibre inputs as shown by electrical stimulation of their receptive fields and were mainly located in the medial part of the dorsal horn. The immersion of the distal two-thirds of the tail in hot water (52 degrees C) induced strong inhibition of the responses to both A-(23%) and C-(69%) fibres. ⋯ In addition, they were shown to be stereospecific since while the dextrogyre stereoisomer, dextrorphan, was ineffective the levogyre derivative, levorphanol, induced a significant lifting of DNIC. It is concluded that morphine decreases the supraspinal inhibitory controls of dorsal horn convergent neurones, at least when these controls are triggered by noxious stimuli. Assuming that a basic somatosensory background activity (noise) is transmitted to higher centres by dorsal horn convergent neurones, and that the pain-signalling message is the contrast between the activity of the segmental pool of neurones induced by the noxious stimulus and the DNIC-mediated silence of the remaining neuronal population, it is proposed that, by a reduction in DNIC, low-dose morphine could restore the initial level of background activity, the final result being analgesia.