Brain research
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In this study, we recorded single unit activity at the ventromedial medulla (VMM) level in the awake, freely moving rat. In agreement with previous work under the same conditions, we found a vast majority of neurons which possess heterosensory and heterosegmental inputs ('convergent'). These units are activated either by auditory or mechanical innocuous and noxious stimuli applied all over the body surface. ⋯ We propose that these differential properties might reflect separate pathways reaching the VMM, the one carrying innocuous information possibly relayed through the dorsal column nuclei. Although obtaining stimulus-response functions might implicate the VMM convergent neurons in the sensory-discriminative aspect of pain, their massive heterosensory and heterosegmental inputs favor a role in more general processes such as alertness or stress. Also, due to massive convergent properties, the involvement of this neuronal class in specific bulbospinal descending control systems of nociceptive information is questionable, Finally, our results obtained in the awake, freely moving rat strongly differ from the anesthetized preparation in that we found neither nociceptive specific units nor neurons inhibited by noxious peripheral stimulations largely described in this approach.
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The acoustic stapedius reflex (ASR) threshold on non-anesthetized rabbits was compared to some measures of the single auditory nerve fiber activity of rabbits. The observations were made on normal-hearing animals, with some additional data from noise-exposed individuals. The results showed that the ASR threshold was reached at a sound level above saturation of discharge rate for individual neurons at their characteristic frequency (CF) in normal animals. ⋯ The raise of ASR threshold was, however, somewhat larger than the raise of the tails which might be explained by the significant relative decrease in the total number of units found in the frequency region corresponding to the lesion. There was also a decrease in the high spontaneous rate (SR) compared to the low and medium SR fibers for higher frequencies. It is concluded that the FTC tails can be a major eighth-nerve correlate to ASR activation.