Cerebral Mechanisms of General Anesthesia

Overview

Journal Ann Fr Anesth Reanim

Publisher Elsevier

Specialties Anesthesiology
Critical Care

Date 2013 Dec 26

PMID 24368069

Citations 19

Authors

L Uhrig

S Dehaene

B Jarraya

Affiliations

Soon will be listed here.

Abstract

How does general anesthesia (GA) work? Anesthetics are pharmacological agents that target specific central nervous system receptors. Once they bind to their brain receptors, anesthetics modulate remote brain areas and end up interfering with global neuronal networks, leading to a controlled and reversible loss of consciousness. This remarkable manipulation of consciousness allows millions of people every year to undergo surgery safely most of the time. However, despite all the progress that has been made, we still lack a clear and comprehensive insight into the specific neurophysiological mechanisms of GA, from the molecular level to the global brain propagation. During the last decade, the exponential progress in neuroscience and neuro-imaging led to a significant step in the understanding of the neural correlates of consciousness, with direct consequences for clinical anesthesia. Far from shutting down all brain activity, anesthetics lead to a shift in the brain state to a distinct, highly specific and complex state, which is being increasingly characterized by modern neuro-imaging techniques. There are several clinical consequences and challenges that are arising from the current efforts to dissect GA mechanisms: the improvement of anesthetic depth monitoring, the characterization and avoidance of intra-operative awareness and post-anesthesia cognitive disorders, and the development of future generations of anesthetics.

Citing Articles

Comparison of cerebral metabolic rate of oxygen, blood flow, and bispectral index under general anesthesia.

Tagliabue S, Lindner C, da Prat I, Sanchez-Guerrero A, Serra I, Kacprzak M Neurophotonics. 2023; 10(1):015006.

PMID: 36911206 PMC: 9993084. DOI: 10.1117/1.NPh.10.1.015006.

Effect of sedatives or anesthetics on the measurement of resting brain function in common marmosets.

Muta K, Hata J, Kawaguchi N, Haga Y, Yoshimaru D, Hagiya K Cereb Cortex. 2022; 33(9):5148-5162.

PMID: 36222604 PMC: 10151911. DOI: 10.1093/cercor/bhac406.

Multiscale depth of anaesthesia prediction for surgery using frontal cortex electroencephalography.

Nsugbe E, Connelly S Healthc Technol Lett. 2022; 9(3):43-53.

PMID: 35662750 PMC: 9160818. DOI: 10.1049/htl2.12025.

Analyzing the Loss and the Recovery of Consciousness: Functional Connectivity Patterns and Changes in Heart Rate Variability During Propofol-Induced Anesthesia.

Sattin D, Duran D, Visintini S, Schiaffi E, Panzica F, Carozzi C Front Syst Neurosci. 2021; 15:652080.

PMID: 33889078 PMC: 8055941. DOI: 10.3389/fnsys.2021.652080.

Dopamine D1 receptor in the NAc shell is involved in delayed emergence from isoflurane anesthesia in aged mice.

Zhang Y, Gui H, Hu L, Li C, Zhang J, Liang X Brain Behav. 2020; 11(1):e01913.

PMID: 33094567 PMC: 7821614. DOI: 10.1002/brb3.1913.