Computerized monitoring of depth of anaesthesia with isoflurane.

C E Thomsen; K N Christensen; A Rosenfalck

Computerized monitoring of depth of anaesthesia with isoflurane.

C E Thomsen, K N Christensen, A Rosenfalck

29 Citations (Scopus)

Abstract

Changes in brain activity were studied at different depths of isoflurane anaesthesia. Ten healthy women (ASA group I) were investigated during non-critical surgery. Two channels of the EEG were stored on tape simultaneously with alveolar concentration of carbon dioxide, inspired oxygen concentration, mean arterial pressure, ECG and temperature. Signal processing was made offline. Spectral information from 2-s EEG segments was extracted using autoregressive modelling. Repetitive hierarchical clustering was used to define a common learning set of basic patterns. With this learning set, the EEG was classified, and the results presented in a class probability histogram. The basic patterns were related to the clinical depth of anaesthesia in all patients and assigned specific colours. Using this colour code, the class probability histogram showed a high degree of simplicity. Decreasing or increasing the isoflurane concentration caused the same trend in the class profile in all patients. This indicates that the EEG pattern might be a sensitive tool for decision making during administration of general anaesthetics.

Original language	English
Journal	British Journal of Anaesthesia
Volume	63
Issue number	1
Pages (from-to)	36-43
Number of pages	7
ISSN	0007-0912
Publication status	Published - 1989

Cite this

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title = "Computerized monitoring of depth of anaesthesia with isoflurane.",

abstract = "Changes in brain activity were studied at different depths of isoflurane anaesthesia. Ten healthy women (ASA group I) were investigated during non-critical surgery. Two channels of the EEG were stored on tape simultaneously with alveolar concentration of carbon dioxide, inspired oxygen concentration, mean arterial pressure, ECG and temperature. Signal processing was made offline. Spectral information from 2-s EEG segments was extracted using autoregressive modelling. Repetitive hierarchical clustering was used to define a common learning set of basic patterns. With this learning set, the EEG was classified, and the results presented in a class probability histogram. The basic patterns were related to the clinical depth of anaesthesia in all patients and assigned specific colours. Using this colour code, the class probability histogram showed a high degree of simplicity. Decreasing or increasing the isoflurane concentration caused the same trend in the class profile in all patients. This indicates that the EEG pattern might be a sensitive tool for decision making during administration of general anaesthetics.",

author = "Thomsen, {C E} and Christensen, {K N} and A Rosenfalck",

note = "Keywords: Adult; Anesthesia, Inhalation; Brain; Computers; Electroencephalography; Female; Humans; Isoflurane; Middle Aged; Monitoring, Physiologic",

year = "1989",

language = "English",

volume = "63",

pages = "36--43",

journal = "British Journal of Anaesthesia",

issn = "0007-0912",

publisher = "Oxford University Press",

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TY - JOUR

T1 - Computerized monitoring of depth of anaesthesia with isoflurane.

AU - Thomsen, C E

AU - Christensen, K N

AU - Rosenfalck, A

N1 - Keywords: Adult; Anesthesia, Inhalation; Brain; Computers; Electroencephalography; Female; Humans; Isoflurane; Middle Aged; Monitoring, Physiologic

PY - 1989

Y1 - 1989

N2 - Changes in brain activity were studied at different depths of isoflurane anaesthesia. Ten healthy women (ASA group I) were investigated during non-critical surgery. Two channels of the EEG were stored on tape simultaneously with alveolar concentration of carbon dioxide, inspired oxygen concentration, mean arterial pressure, ECG and temperature. Signal processing was made offline. Spectral information from 2-s EEG segments was extracted using autoregressive modelling. Repetitive hierarchical clustering was used to define a common learning set of basic patterns. With this learning set, the EEG was classified, and the results presented in a class probability histogram. The basic patterns were related to the clinical depth of anaesthesia in all patients and assigned specific colours. Using this colour code, the class probability histogram showed a high degree of simplicity. Decreasing or increasing the isoflurane concentration caused the same trend in the class profile in all patients. This indicates that the EEG pattern might be a sensitive tool for decision making during administration of general anaesthetics.

AB - Changes in brain activity were studied at different depths of isoflurane anaesthesia. Ten healthy women (ASA group I) were investigated during non-critical surgery. Two channels of the EEG were stored on tape simultaneously with alveolar concentration of carbon dioxide, inspired oxygen concentration, mean arterial pressure, ECG and temperature. Signal processing was made offline. Spectral information from 2-s EEG segments was extracted using autoregressive modelling. Repetitive hierarchical clustering was used to define a common learning set of basic patterns. With this learning set, the EEG was classified, and the results presented in a class probability histogram. The basic patterns were related to the clinical depth of anaesthesia in all patients and assigned specific colours. Using this colour code, the class probability histogram showed a high degree of simplicity. Decreasing or increasing the isoflurane concentration caused the same trend in the class profile in all patients. This indicates that the EEG pattern might be a sensitive tool for decision making during administration of general anaesthetics.

M3 - Journal article

C2 - 2765343

SN - 0007-0912

VL - 63

SP - 36

EP - 43

JO - British Journal of Anaesthesia

JF - British Journal of Anaesthesia

IS - 1

ER -

Computerized monitoring of depth of anaesthesia with isoflurane.

Abstract

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