• Exp Brain Res · Jan 1987

    Mechanisms mediating the brain stem control of somatosensory transmission in the dorsal horn of the cat's spinal cord: an intracellular analysis.

    • S S Mokha and A Iggo.
    • Department of Preclinical Veterinary Sciences, Royal Dick School of Veterinary Studies, University of Edinburgh, Summerhall, U.K.
    • Exp Brain Res. 1987 Jan 1; 69 (1): 93-106.

    AbstractThe effect of brainstem stimulation was studied on neurones recorded intracellularly in the superficial and deeper laminae of the lumbosacral dorsal horn of the spinal cord in anaesthetised cats. Stimulation in the nucleus locus coeruleus (LC) produced a hyperpolarization in 4/13 multireceptive neurones and produced a biphasic action consisting of a hyperpolarization which was followed by a depolarization in 3/13 neurones. These actions were produced irrespective of whether the multireceptive neurone was located in the superficial or deeper laminae of the dorsal horn. Stimulation failed to produced postsynaptic potentials in the remaining 6/13 multireceptive neurones. The amplitude of hyperpolarization was increased by the passage of depolarising pulses through the recording microelectrode and decreased by hyperpolarizing pulses. Stimulation in other brainstem areas such as, the lateral (FTL), paralemniscal (FTP) and central (FTC) divisions of the tegmental field and the nuclei raphe magnus (NRM) and reticularis magnocellularis (RMc) also hyperpolarized neurones in the dorsal horn. The polarity of hyperpolarization evoked from some brainstem areas (FTP, FTC, RMc) could be reversed to depolarisation by the passive diffusion of ions from the recording microelectrode containing 3M-KCl. Brainstem (LC, NRM, FTP, FTL) stimulation generated long lasting (700 ms) hyperpolarization on 4/4 selectively nocireceptive neurones of lamina I. There was, however, no effect on the activity of 5/5 neurones recorded in laminae I/II which in addition to receiving excitatory cutaneous inputs were inhibited by heat stimuli. Stimulation in LC also produced dorsal root potentials (DRPs) and reduced the amplitude of simultaneously recorded excitatory postsynaptic potentials (EPSPs) generated by the activation of primary afferent fibres in 3 multireceptive neurones. It is concluded that inhibition of nociceptive transmission in the spinal cord from LC and other brainstem areas may involve both pre- and postsynaptic mechanisms.

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