Can anaesthetists be taught to interpret the effects of general anaesthesia on the electroencephalogram? Comparison of performance with the BIS and spectral entropy

Unlike the other physiological waveforms monitored in anaesthesia, the EEG lacks a regularly repeating pattern, implying that it would be very difficult for an anaesthetist to obtain any useful information from the raw EEG. There are, however, clear changes in the EEG caused by GABA-ergic anaestheti...

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Veröffentlicht in:	British journal of anaesthesia : BJA 2007-10, Vol.99 (4), p.532-537
Hauptverfasser:	Barnard, J.P., Bennett, C., Voss, L.J., Sleigh, J.W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Anesthesia Anesthesia, General Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Anesthesiology - education Anesthetics, General - pharmacology Biological and medical sciences bispectral index Clinical Competence Education, Medical, Continuing - methods electroencephalogram Electroencephalography - drug effects Entropy Humans Medical sciences monitoring monitoring, bispectral index monitoring, electroencephalogram Monitoring, Intraoperative - methods New Zealand Signal Processing, Computer-Assisted
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container_title	British journal of anaesthesia : BJA
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creator	Barnard, J.P. Bennett, C. Voss, L.J. Sleigh, J.W.
description	Unlike the other physiological waveforms monitored in anaesthesia, the EEG lacks a regularly repeating pattern, implying that it would be very difficult for an anaesthetist to obtain any useful information from the raw EEG. There are, however, clear changes in the EEG caused by GABA-ergic anaesthetic agents. The anaesthetized EEG still looks like a random waveform, but clearly a different random waveform from that seen when conscious. The aim of this study was to assess how 40 anaesthetists would perform at interpreting intra-operative EEGs compared with two processed EEG (pEEG) monitors, BIS and entropy, after a short educational presentation. Short segments of EEGs were used from the pre-induction phase, the intra-operative phase with adequate surgical anaesthesia, and the transition phase between these two states. While anaesthetists’ performance varied widely, most could reliably differentiate an anaesthetized from a conscious EEG. Further, both humans (41% wrong) and machines (30% wrong) made mistakes. Unlike the anaesthetists, the pEEG monitors did not make a major error (i.e. producing a number in the conscious range (>85) when analysing an anaesthetized EEG or the converse error). A brief PowerPoint presentation enables anaesthetists to recognize the effects on the EEG of GABA-ergic anaesthetic agents. In the clinical context, it remains likely that the combination of a pEEG monitor that clearly presents the EEG and a clinician who has a good, basic understanding of, and a willingness to look at, the raw EEG will result in more accurate interpretation of the intra-operative EEG.
doi_str_mv	10.1093/bja/aem198
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Comparison of performance with the BIS and spectral entropy</title><title>British journal of anaesthesia : BJA</title><addtitle>Br J Anaesth</addtitle><addtitle>Br J Anaesth</addtitle><description>Unlike the other physiological waveforms monitored in anaesthesia, the EEG lacks a regularly repeating pattern, implying that it would be very difficult for an anaesthetist to obtain any useful information from the raw EEG. There are, however, clear changes in the EEG caused by GABA-ergic anaesthetic agents. The anaesthetized EEG still looks like a random waveform, but clearly a different random waveform from that seen when conscious. The aim of this study was to assess how 40 anaesthetists would perform at interpreting intra-operative EEGs compared with two processed EEG (pEEG) monitors, BIS and entropy, after a short educational presentation. Short segments of EEGs were used from the pre-induction phase, the intra-operative phase with adequate surgical anaesthesia, and the transition phase between these two states. While anaesthetists’ performance varied widely, most could reliably differentiate an anaesthetized from a conscious EEG. Further, both humans (41% wrong) and machines (30% wrong) made mistakes. Unlike the anaesthetists, the pEEG monitors did not make a major error (i.e. producing a number in the conscious range (>85) when analysing an anaesthetized EEG or the converse error). A brief PowerPoint presentation enables anaesthetists to recognize the effects on the EEG of GABA-ergic anaesthetic agents. In the clinical context, it remains likely that the combination of a pEEG monitor that clearly presents the EEG and a clinician who has a good, basic understanding of, and a willingness to look at, the raw EEG will result in more accurate interpretation of the intra-operative EEG.</description><subject>Anesthesia</subject><subject>Anesthesia, General</subject><subject>Anesthesia. Intensive care medicine. Transfusions. 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Comparison of performance with the BIS and spectral entropy</atitle><jtitle>British journal of anaesthesia : BJA</jtitle><stitle>Br J Anaesth</stitle><addtitle>Br J Anaesth</addtitle><date>2007-10-01</date><risdate>2007</risdate><volume>99</volume><issue>4</issue><spage>532</spage><epage>537</epage><pages>532-537</pages><issn>0007-0912</issn><eissn>1471-6771</eissn><coden>BJANAD</coden><abstract>Unlike the other physiological waveforms monitored in anaesthesia, the EEG lacks a regularly repeating pattern, implying that it would be very difficult for an anaesthetist to obtain any useful information from the raw EEG. There are, however, clear changes in the EEG caused by GABA-ergic anaesthetic agents. The anaesthetized EEG still looks like a random waveform, but clearly a different random waveform from that seen when conscious. The aim of this study was to assess how 40 anaesthetists would perform at interpreting intra-operative EEGs compared with two processed EEG (pEEG) monitors, BIS and entropy, after a short educational presentation. Short segments of EEGs were used from the pre-induction phase, the intra-operative phase with adequate surgical anaesthesia, and the transition phase between these two states. While anaesthetists’ performance varied widely, most could reliably differentiate an anaesthetized from a conscious EEG. Further, both humans (41% wrong) and machines (30% wrong) made mistakes. Unlike the anaesthetists, the pEEG monitors did not make a major error (i.e. producing a number in the conscious range (>85) when analysing an anaesthetized EEG or the converse error). A brief PowerPoint presentation enables anaesthetists to recognize the effects on the EEG of GABA-ergic anaesthetic agents. 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subjects	Anesthesia Anesthesia, General Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Anesthesiology - education Anesthetics, General - pharmacology Biological and medical sciences bispectral index Clinical Competence Education, Medical, Continuing - methods electroencephalogram Electroencephalography - drug effects Entropy Humans Medical sciences monitoring monitoring, bispectral index monitoring, electroencephalogram Monitoring, Intraoperative - methods New Zealand Signal Processing, Computer-Assisted
title	Can anaesthetists be taught to interpret the effects of general anaesthesia on the electroencephalogram? Comparison of performance with the BIS and spectral entropy
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