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Anesthetics fragment hippocampal network activity, alter spine dynamics, and affect memory consolidation

by Dieter, Alexander , Formozov, Andrey , Morellini, Fabio , Sporns, Olaf , Hanganu-Opatz, Ileana L. , Piechocinski, Patrick , Pöpplau, Jastyn A. , Wiegert, J. Simon , Rais, Cynthia , Yang, Wei , Chini, Mattia

in Amnesia / Anesthetics / Biology and Life Sciences / Cerebral cortex / Consciousness / Consolidation / Fentanyl / Firing pattern / General anesthesia / Hippocampus / Hippocampus (Brain) / Investigations / Medicine and Health Sciences / Memory / Neocortex / Phase matching / Physiological aspects / Physiological effects / Research and Analysis Methods / Sleep / Sleep and wakefulness / Spine / Unconsciousness / Wakefulness

2021

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Anesthetics fragment hippocampal network activity, alter spine dynamics, and affect memory consolidation

2021

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Anesthetics fragment hippocampal network activity, alter spine dynamics, and affect memory consolidation

2021

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Journal Article

Anesthetics fragment hippocampal network activity, alter spine dynamics, and affect memory consolidation

Dieter, Alexander,

Formozov, Andrey,

Morellini, Fabio,

Sporns, Olaf,

Hanganu-Opatz, Ileana L.,

Piechocinski, Patrick,

Pöpplau, Jastyn A.,

Wiegert, J. Simon,

Rais, Cynthia,

Yang, Wei,

Chini, Mattia

2021

Overview

General anesthesia is characterized by reversible loss of consciousness accompanied by transient amnesia. Yet, long-term memory impairment is an undesirable side effect. How different types of general anesthetics (GAs) affect the hippocampus, a brain region central to memory formation and consolidation, is poorly understood. Using extracellular recordings, chronic 2-photon imaging, and behavioral analysis, we monitor the effects of isoflurane (Iso), medetomidine/midazolam/fentanyl (MMF), and ketamine/xylazine (Keta/Xyl) on network activity and structural spine dynamics in the hippocampal CA1 area of adult mice. GAs robustly reduced spiking activity, decorrelated cellular ensembles, albeit with distinct activity signatures, and altered spine dynamics. CA1 network activity under all 3 anesthetics was different to natural sleep. Iso anesthesia most closely resembled unperturbed activity during wakefulness and sleep, and network alterations recovered more readily than with Keta/Xyl and MMF. Correspondingly, memory consolidation was impaired after exposure to Keta/Xyl and MMF, but not Iso. Thus, different anesthetics distinctly alter hippocampal network dynamics, synaptic connectivity, and memory consolidation, with implications for GA strategy appraisal in animal research and clinical settings.

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Publisher

Public Library of Science,Public Library of Science (PLoS)

Subject

Amnesia

/ Anesthetics

/ Biology and Life Sciences