Journal of Neurophysiology, Vol 62, Issue 4 823-833, Copyright © 1989 by APS

ARTICLES

Across unit patterns in the neural response to taste: vector space analysis

P. M. Di Lorenzo
Department of Psychology, State University of New York, Binghamton 13901.

1. In the study of the neural code for gustation, it has been suggested that the pattern of responsiveness across fibers or units in the neural pathway for taste may provide the basis for identification and discrimination among taste qualities. Two possible mechanisms of comparison between pairs of stimuli were discussed, as follows: 1) a labeled-line code, where one subset of units responds to one stimulus but not the other, and a second subset of units responds in just the opposite fashion; and 2) a frequency code, where all units always respond well to one stimulus and always respond poorly to the other. 2. Conventional analyses of across unit patterns of response in the taste system have employed the Pearson product-moment correlation and/or the neural mass difference as measures of similarity. These measures consider the relative firing rates for a given pair of stimuli (correlation) or the averaged absolute differences in the firing rates (neural mass difference) evoked by two stimuli. Neither of these metrics considers both the absolute and the relative strengths of response to a given pair of stimuli in the comparison of across unit patterns. 3. A new approach to the analysis of across unit patterns of response, called vector space analysis, was described. With this method, the responses to a given stimulus across units are viewed as a vector in n-dimensional space, where n is the number of units in the sample. The length of each vector provides an index of the overall strength of the response to a particular tastant, and the angle between two vectors is a measure of the similarity of the across unit patterns for a given pair of tastants. 4. A neural discrimination (delta, delta) was derived from this approach as a measure of the similarity of two vectors that incorporates information about both the overall magnitude of response and the distribution of responses across units for a given pair of of stimuli. A labeled line index (lambda, lambda) was also proposed to indicate the extent to which the discrimination between two stimuli may be encoded by the responses in two separate subsets of units. 5. Electrophysiological responses to representatives of the four basic taste qualities (salty, sour, sweet, and bitter) were recorded in 47 single units located in the parabrachial nucleus of the pons (PbN) of the rat. Conventional and vector space analyses were applied to the across unit patterns that were recorded from these units. Multidimensional scaling techniques were used to compare the results of each analysis.(ABSTRACT TRUNCATED AT 400 WORDS)

This article has been cited by other articles:

				S. Schrader, S. Grun, M. Diesmann, and G. L. Gerstein Detecting Synfire Chain Activity Using Massively Parallel Spike Train Recording J Neurophysiol, October 1, 2008; 100(4): 2165 - 2176. [Abstract] [Full Text] [PDF]

				W. E. Vinje and J. L. Gallant Sparse Coding and Decorrelation in Primary Visual Cortex During Natural Vision Science, February 18, 2000; 287(5456): 1273 - 1276. [Abstract] [Full Text]

				S. J. St. John and A. C. Spector Behavioral Discrimination between Quinine and KCl Is Dependent on Input from the Seventh Cranial Nerve: Implications for the Functional Roles of the Gustatory Nerves in Rats J. Neurosci., June 1, 1998; 18(11): 4353 - 4362. [Abstract] [Full Text] [PDF]