Journal article
Journal of Neurophysiology, 2014
APA
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Ng, C.-W., Plakke, B., & Poremba, A. (2014). Neural correlates of auditory recognition memory in the primate dorsal temporal pole. Journal of Neurophysiology.
Chicago/Turabian
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Ng, Chi-Wing, B. Plakke, and A. Poremba. “Neural Correlates of Auditory Recognition Memory in the Primate Dorsal Temporal Pole.” Journal of Neurophysiology (2014).
MLA
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Ng, Chi-Wing, et al. “Neural Correlates of Auditory Recognition Memory in the Primate Dorsal Temporal Pole.” Journal of Neurophysiology, 2014.
BibTeX Click to copy
@article{chi-wing2014a,
title = {Neural correlates of auditory recognition memory in the primate dorsal temporal pole.},
year = {2014},
journal = {Journal of Neurophysiology},
author = {Ng, Chi-Wing and Plakke, B. and Poremba, A.}
}
Temporal pole (TP) cortex is associated with higher-order sensory perception and/or recognition memory, as human patients with damage in this region show impaired performance during some tasks requiring recognition memory (Olson et al. 2007). The underlying mechanisms of TP processing are largely based on examination of the visual nervous system in humans and monkeys, while little is known about neuronal activity patterns in the auditory portion of this region, dorsal TP (dTP; Poremba et al. 2003). The present study examines single-unit activity of dTP in rhesus monkeys performing a delayed matching-to-sample task utilizing auditory stimuli, wherein two sounds are determined to be the same or different. Neurons of dTP encode several task-relevant events during the delayed matching-to-sample task, and encoding of auditory cues in this region is associated with accurate recognition performance. Population activity in dTP shows a match suppression mechanism to identical, repeated sound stimuli similar to that observed in the visual object identification pathway located ventral to dTP (Desimone 1996; Nakamura and Kubota 1996). However, in contrast to sustained visual delay-related activity in nearby analogous regions, auditory delay-related activity in dTP is transient and limited. Neurons in dTP respond selectively to different sound stimuli and often change their sound response preferences between experimental contexts. Current findings suggest a significant role for dTP in auditory recognition memory similar in many respects to the visual nervous system, while delay memory firing patterns are not prominent, which may relate to monkeys' shorter forgetting thresholds for auditory vs. visual objects.