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Didier Pinault

2 papers in the library · publishing 2020-2022

Papers

The psychotomimetic ketamine disrupts the transfer of late sensory information in the corticothalamic network

bioRxiv Preprint Server February 21, 2022 Yi Qin, Ali Mahdavi, Marine Bertschy et al. preprint

In early schizophrenia, attention and perception problems are linked to brain structure and chemistry abnormalities, as well as disrupted brain rhythms in corticothalamic networks. The drug ketamine, which blocks NMDA receptors, mimics these symptoms. In lightly anesthetized rats, a single psychotomimetic dose of ketamine (2.5 mg/kg, subcutaneous) transiently increased baseline beta/gamma oscillations but decreased sensory-induced beta/gamma oscillations. It also disrupted information transfer in the somatosensory thalamus and cortex and reduced sensory-induced thalamocortical connectivity in the broadband gamma range. These findings support the hypothesis that NMDA receptor antagonism disrupts the transfer of perceptual information in the somatosensory cortico-thalamo-cortical system.

A single psychotomimetic dose of ketamine decreases thalamocortical spindles and delta oscillations in the sedated rat

arXiv Preprint Archive May 4, 2020 Didier Pinault

A single low dose of ketamine, an NMDA receptor antagonist, transiently reduces sleep spindles and delta oscillations in the thalamocortical systems of rats, while amplifying gamma-frequency oscillations and shifting neuronal firing from burst to single-spike mode. The antipsychotic clozapine prevents these effects. The findings support the hypothesis that reduced NMDA receptor function contributes to the spindle deficit observed in schizophrenia.