Peri‐operative neurological monitoring with electroencephalography and cerebral oximetry: a narrative review
Surgery and anaesthesia subject the brain to considerable stress in the peri‐operative period. This may be caused by potentially neurotoxic anaesthetic drugs, impaired cerebral perfusion and reperfusion injury related to surgery or thromboembolic events. Patient monitoring using electroencephalogram...
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| Published in | Anaesthesia Vol. 77; no. S1; pp. 113 - 122 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Blackwell Publishing Ltd
01.01.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0003-2409 1365-2044 1365-2044 |
| DOI | 10.1111/anae.15616 |
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| Abstract | Surgery and anaesthesia subject the brain to considerable stress in the peri‐operative period. This may be caused by potentially neurotoxic anaesthetic drugs, impaired cerebral perfusion and reperfusion injury related to surgery or thromboembolic events. Patient monitoring using electroencephalogram and cerebral oximetry can assist in optimising depth of anaesthesia and assessment of cerebral metabolic activity. However, research findings have been contradictory as to whether these monitors can help ameliorate peri‐operative neurocognitive complications. In this narrative review, we will discuss recent evidence in the use of electroencephalography and cerebral oximetry and the underlying scientific principles. It is important to appreciate the raw electroencephalographic changes under anaesthesia and those associated with ageing, in order to interpret depth of anaesthesia indices correctly. Cerebral oximetry is useful not only for the detection of cerebral desaturation but also to identify those patients who are particularly vulnerable to injury, for better risk stratification. An algorithm‐based approach may be most effective in managing the episodes of cerebral desaturation. |
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| AbstractList | Surgery and anaesthesia subject the brain to considerable stress in the peri-operative period. This may be caused by potentially neurotoxic anaesthetic drugs, impaired cerebral perfusion and reperfusion injury related to surgery or thromboembolic events. Patient monitoring using electroencephalogram and cerebral oximetry can assist in optimising depth of anaesthesia and assessment of cerebral metabolic activity. However, research findings have been contradictory as to whether these monitors can help ameliorate peri-operative neurocognitive complications. In this narrative review, we will discuss recent evidence in the use of electroencephalography and cerebral oximetry and the underlying scientific principles. It is important to appreciate the raw electroencephalographic changes under anaesthesia and those associated with ageing, in order to interpret depth of anaesthesia indices correctly. Cerebral oximetry is useful not only for the detection of cerebral desaturation but also to identify those patients who are particularly vulnerable to injury, for better risk stratification. An algorithm-based approach may be most effective in managing the episodes of cerebral desaturation. Surgery and anaesthesia subject the brain to considerable stress in the peri-operative period. This may be caused by potentially neurotoxic anaesthetic drugs, impaired cerebral perfusion and reperfusion injury related to surgery or thromboembolic events. Patient monitoring using electroencephalogram and cerebral oximetry can assist in optimising depth of anaesthesia and assessment of cerebral metabolic activity. However, research findings have been contradictory as to whether these monitors can help ameliorate peri-operative neurocognitive complications. In this narrative review, we will discuss recent evidence in the use of electroencephalography and cerebral oximetry and the underlying scientific principles. It is important to appreciate the raw electroencephalographic changes under anaesthesia and those associated with ageing, in order to interpret depth of anaesthesia indices correctly. Cerebral oximetry is useful not only for the detection of cerebral desaturation but also to identify those patients who are particularly vulnerable to injury, for better risk stratification. An algorithm-based approach may be most effective in managing the episodes of cerebral desaturation.Surgery and anaesthesia subject the brain to considerable stress in the peri-operative period. This may be caused by potentially neurotoxic anaesthetic drugs, impaired cerebral perfusion and reperfusion injury related to surgery or thromboembolic events. Patient monitoring using electroencephalogram and cerebral oximetry can assist in optimising depth of anaesthesia and assessment of cerebral metabolic activity. However, research findings have been contradictory as to whether these monitors can help ameliorate peri-operative neurocognitive complications. In this narrative review, we will discuss recent evidence in the use of electroencephalography and cerebral oximetry and the underlying scientific principles. It is important to appreciate the raw electroencephalographic changes under anaesthesia and those associated with ageing, in order to interpret depth of anaesthesia indices correctly. Cerebral oximetry is useful not only for the detection of cerebral desaturation but also to identify those patients who are particularly vulnerable to injury, for better risk stratification. An algorithm-based approach may be most effective in managing the episodes of cerebral desaturation. |
| Author | Poon, C. C. M. Irwin, M. G. Chung, C. K. E. |
| Author_xml | – sequence: 1 givenname: C. K. E. orcidid: 0000-0002-5731-8357 surname: Chung fullname: Chung, C. K. E. organization: Department of Anaesthesiology Queen Mary Hospital Hong Kong China – sequence: 2 givenname: C. C. M. orcidid: 0000-0002-2898-676X surname: Poon fullname: Poon, C. C. M. organization: Department of Anaesthesiology Queen Mary Hospital Hong Kong Special Administrative Region China – sequence: 3 givenname: M. G. orcidid: 0000-0001-5801-274X surname: Irwin fullname: Irwin, M. G. organization: Department of Anaesthesiology University of Hong Kong Hong Kong Special Administrative Region China |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/35001382$$D View this record in MEDLINE/PubMed |
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| Keywords | cerebral oximetry neuromonitoring electroencephalography neuroanaesthesia neurocritical care |
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| Snippet | Surgery and anaesthesia subject the brain to considerable stress in the peri‐operative period. This may be caused by potentially neurotoxic anaesthetic drugs,... Surgery and anaesthesia subject the brain to considerable stress in the peri-operative period. This may be caused by potentially neurotoxic anaesthetic drugs,... |
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| SubjectTerms | Aging Algorithms Anesthesia Anesthesia - methods Anesthesia - standards Brain - drug effects Brain - physiology Cerebrovascular Circulation - drug effects Cerebrovascular Circulation - physiology Cognition Complications Desaturation EEG Electroencephalography Electroencephalography - methods Electroencephalography - standards Health risks Humans Monitoring Monitoring, Intraoperative - methods Monitoring, Intraoperative - standards Neurotoxicity Oximetry Oximetry - methods Oximetry - standards Patients Perfusion Perioperative care Perioperative Care - methods Perioperative Care - standards Postoperative Complications - diagnosis Postoperative Complications - prevention & control Reperfusion Surgery Thromboembolism |
| Title | Peri‐operative neurological monitoring with electroencephalography and cerebral oximetry: a narrative review |
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