Abstract
There are many somatosensory neurons in the hamster superior colliculus (SC); some respond to innocuous tactile stimuli, while others respond either preferentially, or solely, to noxious stimuli. Yet, there are little quantitative data describing the responses of these neurons. We sought to provide such information by relating stimulus intensity to the magnitude of the neural response using controlled innocuous and noxious mechanical and thermal stimuli. Of 122 somatosensory SC neurons studied in urethane-anesthetized hamsters, the majority (52%) had low-threshold mechanoreceptive properties (LT). LT neurons had force thresholds less than 1 gm, adapted rapidly to maintained stimuli, and did not respond with higher numbers of impulses to noxious mechanical or thermal stimuli. A smaller, though substantial, proportion of neurons (45%) responded either preferentially, or solely, to noxious stimuli. A few neurons (3%) were inhibited by either light tactile or noxious mechanical stimuli. Two populations of nociceptive neurons were found and classified either as wide dynamic range (WDR) neurons (n = 25), those that responded to gentle mechanical, noxious mechanical, and/or thermal stimuli; or nociceptive-specific (NS) neurons (n = 30), those that responded solely to high-intensity mechanical or noxious thermal stimuli. WDR neurons responded monotonically to increases in the intensity of innocuous mechanical stimuli, and displacement-response relationship for this population was a slightly negatively accelerating power function with an exponent of 0.785. However, the thermal stimulus-response relationships (to graded skin temperatures) of both WDR and NS neurons were positively accelerating power functions with exponents of 2.3 and 2.5 (r2 = 0.988), respectively. These values are consistent with both electrophysiological data from dorsal horn nociceptive neurons and from human psychophysical results using the same range of thermal stimuli. These experiments demonstrate that SC neurons are capable of signaling not only the presence and location of a noxious stimulus but its intensity as well. Presumably, these neurons play a significant role in the animal's reactions to potentially harmful stimuli. The partial laminar segregation of WDR and NS neurons may reflect different involvements of particular nociceptive subtypes in the various overt responses mediated by the SC.
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