Effects of Ketamine Administration on Auditory Information Processing in the Neocortex of Nonhuman Primates

Komatsu, Misako; Ichinohe, Noritaka

doi:10.3389/fpsyt.2020.00826

Cited by 6 publications

(2 citation statements)

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“…Auditory responses observed from other channels provide some evidence to support the latter explanation, although electrode spacing is too large to provide a more comprehensive analysis of tonotopy. A study with very similar methods demonstrated sensitivity to different frequency tones in different subjects ( Komatsu and Ichinohe, 2020 ), which may be accounted for by the precise location of recording electrodes in relation to tonotopically sensitive regions of the auditory cortex. Analysis of auditory responses to ascending versus descending frequency transitions in the roving oddball sequence indicates that this plays a central role in shaping MMN-like response morphology.…”

Section: Discussionmentioning

confidence: 99%

“…Their published findings identify an MMN-like response between 50 and 120 ms post-stimulus, providing a basis for the development of the common marmoset as a model of MMN. Mechanisms underlying this response were not discussed at length, although experiments to investigate its potential relationship with NMDA receptor function were proposed; research which has since made progress ( Komatsu and Ichinohe, 2020 ). The authors did not express consideration for alternative explanations for the observed MMN-like response, briefly stating that it conveys information regarding violation of a regularity with the auditory input stream ( Komatsu et al, 2015 ), which is generally in-keeping with the prevailing theoretical interpretation of MMN ( Fitzgerald and Todd, 2020 , Ross and Hamm, 2020 ).…”

Section: Introductionmentioning

confidence: 99%

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Roving oddball paradigm elicits sensory gating, frequency sensitivity, and long-latency response in common marmosets

O’Reilly

2021

IBRO Neuroscience Reports

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Mismatch negativity (MMN) is a candidate biomarker for neuropsychiatric disease. Understanding the extent to which it reflects cognitive deviance-detection or purely sensory processes will assist practitioners in making informed clinical interpretations. This study compares the utility of deviance-detection and sensory-processing theories for describing MMN-like auditory responses of a common marmoset monkey during roving oddball stimulation. The following exploratory analyses were performed on an existing dataset: responses during the transition and repetition sequence of the roving oddball paradigm (standard -> deviant/S1 -> S2 -> S3) were compared; long-latency potentials evoked by deviant stimuli were examined using a double-epoch waveform subtraction; effects of increasing stimulus repetitions on standard and deviant responses were analyzed; and transitions between standard and deviant stimuli were divided into ascending and descending frequency changes to explore contributions of frequency-sensitivity. An enlarged auditory response to deviant stimuli was observed. This decreased exponentially with stimulus repetition, characteristic of sensory gating. A slow positive deflection was viewed over approximately 300–800 ms after the deviant stimulus, which is more difficult to ascribe to afferent sensory mechanisms. When split into ascending and descending frequency transitions, the resulting difference waveforms were disproportionally influenced by descending frequency deviant stimuli. This asymmetry is inconsistent with the general deviance-detection theory of MMN. These findings tentatively suggest that MMN-like responses from common marmosets are predominantly influenced by rapid sensory adaptation and frequency preference of the auditory cortex, while deviance-detection may play a role in long-latency activity.

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Section: Discussionmentioning

confidence: 99%