NEURAL RESPONSES OF THERMAL-SENSITIVE LINGUAL FIBERS TO BRIEF MENTHOL STIMULATION

The addition of the coolant menthol to several oral and facial products is to increase their attractiveness and commercial value. Little is, however, known about the physiological basis of menthol's sensory effects. We studied the electrophysiological responses of 45 thermal-sensitive lingual fibers to anterior tongue stimulation (10 s) with menthol in male Sprague-Dawley rats. Menthol responses were unlike the responses to cold water. Cold water (6-degrees-C, 15-degrees-C) elicited an immediate sustained increase impulse frequencies of thermal-sensitive fibers adapted to room temperature water (22-24-degrees-C). Inhibitory off-response followed cold water stimulation. Depending on the concentration and time of measurement, menthol stimulation either excited, inhibited. or had no effect on impulse frequencies of thermal-sensitive fibers. Strong menthol (0.64 mM, 1.28 mM) unequivocally excited thermal-sensitive fibers with a response latency of 4-6 s. In most cases after menthol stimulation. the impulse frequencies returned to baseline; there were no off-responses. Weak menthol (0.0128 mM, 0.064 mM, 0.128 mM) inhibited impulse frequencies of 14 thermal-sensitive fibers and excited impulse frequencies of 6 fibers primarily during the first 2 s of stimulation. Menthol responses were also unlike responses to stimulation with taste solutions. Most taste solutions (30 and 100 mM NaCl, 0.3 and 1 mM quinine-HCl, 0.3 mM citric acid) significantly inhibited impulse frequencies but only during the first 2-5 s of stimulation. The effect of NaCl was biphasic with the initial inhibitory phase followed by an excitatory phase during the second 5 s of stimulation. An excitatory off-response followed quinine stimulation. While considered principally a coolant. menthol elicits a unique pattern of responses from trigeminal and taste nerve endings quite unlike those of conventional thermal and taste stimuli.