We studied the effect of low-intensity extrahigh-frequency (EHF) electromagnetic radiation (EMR) on changes of behavior phenomena in rats observed under conditions of experimentally induced tonic somatic, visceral, and acute thermal pain. Preliminary irradiation of the animals with EHF EMR was found to exert clear antinociceptive effects. Decreases in the intensity of pain reactions were observed under conditions of both single and repeated irradiation sessions.
We studied the effect of low-intensity extrahigh-frequency (EHF) electromagnetic radiation (EMR) on the duration of a pain behavioral reaction in rats under conditions of experimental induction of tonic pain (formalin test). The antinociceptive effect of EHF irradiation was modulated by suppression of the activity of a few neurochemical systems resulting from the blockade of receptors of opioid peptides, α-and β-adrenoreceptors, receptors of dopamine and melatonin, as well as from inhibition of serotonin synthesis. We demonstrated that all the respective neurochemical systems are to a certain extent involved in the mechanisms underlying the analgesic action of EHF EMR. Within an early phase of pain stress, functioning of the opioidergic and noradrenergic systems and the effects of melatonin play leading roles, while the activity of the serotonergic system plays such a role within the second (tonic) phase.
We analyze the published information on the techniques of studies of pain sensitivity using objective electroneuromyographic approaches and the results of these studies. In particular, we describe works where the H reflex, nociceptive flexor and blinking reflexes, and exteroceptive suppression of voluntary muscle activity were examined. Some aspects of using somatosensory evoked potentials in the studies of pain phenomena are also discussed.
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