Abstract

The trion model is a highly structured representation of cortical organizationl which predicts families of symmetric spatial-temporal firing patterns inherent in cortical activity. The symmetries of these inherent firing patterns are used by the brain in short-term memory to perform higher level computations. In the present study, symmetric temporal patterns were searched for in spike trains recorded from cells in parietal cortex of a monkey performing a short-term memory task. A new method of analysis was used to map neuronal firing into sequences of integers representing relative levels of firing rate about the mean (i.e. -1, 0 and 1). The results of this analysis show families of patterns related by symmetry operations. These operations are: i. the interchanging of all the + l’s and -l’s in a given pattern sequence (CT symmetry), ii. the inverting of the temporal sequence of the mapping (T symmetry)1 and iii. the combination of the two previous operations (CT symmetry). Patterns of a given family are found across cells especially in the memory periods of the task; in most cases they reoccur within a given spike train. The pattern families predicted by the model and reported here should be further investigated in multiple microelectrode and EEG recordings. [Neural Res 1997; 19: 509-514]

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