Electroencephalogram monitoring during anesthesia and critical care: a guide for the clinician

Nitin Manohara; Alessandra Ferrari; Adam Greenblatt; Andrea Berardino; Cristina Peixoto; Flávia Duarte; Zahra Moyiaeri; Chiara Robba; Fabio A. Nascimento; Matthias Kreuzer; Susana Vacas; Francisco A. Lobo

doi:10.1007/s10877-024-01250-2

Electroencephalogram monitoring during anesthesia and critical care: a guide for the clinician

Nitin Manohara, Alessandra Ferrari, Adam Greenblatt, Andrea Berardino, Cristina Peixoto, Flávia Duarte, Zahra Moyiaeri, Chiara Robba, Fabio A. Nascimento, Matthias Kreuzer, Susana Vacas, Francisco A. Lobo

Section of Adult Epilepsy

Research output: Contribution to journal › Review article › peer-review

2 Scopus citations

Abstract

Perioperative anesthetic, surgical and critical careinterventions can affect brain physiology and overall brain health. The clinical utility of electroencephalogram (EEG) monitoring in anesthesia and intensive care settings is multifaceted, offering critical insights into the level of consciousness and depth of anesthesia, facilitating the titration of anesthetic doses, and enabling the detection of ischemic events and epileptic activity. Additionally, EEG monitoring can aid in predicting perioperative neurocognitive disorders, assessing the impact of systemic insults on cerebral function, and informing neuroprognostication. This review provides a comprehensive overview of the fundamental principles of electroencephalography, including the foundations of processed and quantitative electroencephalography. It further explores the characteristic EEG signatures associated wtih anesthetic drugs, the interpretation of the EEG data during anesthesia, and the broader clinical benefits and applications of EEG monitoring in both anesthetic practice and intensive care environments.

Original language	English
Pages (from-to)	315-348
Number of pages	34
Journal	Journal of Clinical Monitoring and Computing
Volume	39
Issue number	2
DOIs	https://doi.org/10.1007/s10877-024-01250-2
State	Published - Apr 2025

Keywords

Anesthesia
Anesthetic drugs and EEG signatures
Depth of anesthesia
Electroencephalogram
Intensive care
Processed electroencephalogram

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10.1007/s10877-024-01250-2

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Manohara, N., Ferrari, A., Greenblatt, A., Berardino, A., Peixoto, C., Duarte, F., Moyiaeri, Z., Robba, C., Nascimento, F. A., Kreuzer, M., Vacas, S., & Lobo, F. A. (2025). Electroencephalogram monitoring during anesthesia and critical care: a guide for the clinician. Journal of Clinical Monitoring and Computing, 39(2), 315-348. https://doi.org/10.1007/s10877-024-01250-2

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abstract = "Perioperative anesthetic, surgical and critical careinterventions can affect brain physiology and overall brain health. The clinical utility of electroencephalogram (EEG) monitoring in anesthesia and intensive care settings is multifaceted, offering critical insights into the level of consciousness and depth of anesthesia, facilitating the titration of anesthetic doses, and enabling the detection of ischemic events and epileptic activity. Additionally, EEG monitoring can aid in predicting perioperative neurocognitive disorders, assessing the impact of systemic insults on cerebral function, and informing neuroprognostication. This review provides a comprehensive overview of the fundamental principles of electroencephalography, including the foundations of processed and quantitative electroencephalography. It further explores the characteristic EEG signatures associated wtih anesthetic drugs, the interpretation of the EEG data during anesthesia, and the broader clinical benefits and applications of EEG monitoring in both anesthetic practice and intensive care environments.",

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AU - Peixoto, Cristina

AU - Duarte, Flávia

AU - Moyiaeri, Zahra

AU - Robba, Chiara

AU - Nascimento, Fabio A.

AU - Kreuzer, Matthias

AU - Vacas, Susana

AU - Lobo, Francisco A.

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AB - Perioperative anesthetic, surgical and critical careinterventions can affect brain physiology and overall brain health. The clinical utility of electroencephalogram (EEG) monitoring in anesthesia and intensive care settings is multifaceted, offering critical insights into the level of consciousness and depth of anesthesia, facilitating the titration of anesthetic doses, and enabling the detection of ischemic events and epileptic activity. Additionally, EEG monitoring can aid in predicting perioperative neurocognitive disorders, assessing the impact of systemic insults on cerebral function, and informing neuroprognostication. This review provides a comprehensive overview of the fundamental principles of electroencephalography, including the foundations of processed and quantitative electroencephalography. It further explores the characteristic EEG signatures associated wtih anesthetic drugs, the interpretation of the EEG data during anesthesia, and the broader clinical benefits and applications of EEG monitoring in both anesthetic practice and intensive care environments.

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Electroencephalogram monitoring during anesthesia and critical care: a guide for the clinician

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