Cerebral protection

doi:10.1093/bja/aem140

British Journal of Anaesthesia 2007 99(1):10-17; doi:10.1093/bja/aem140

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Cerebral protection

S. Fukuda¹ and D. S. Warner¹^,2^,3^,*

¹ Department of Anesthesiology
² Department of Neurobiology
³ Department of Surgery, Duke University Medical Center, Box 3094, Durham, NC 27710, USA

^* Corresponding author: Department of Anesthesiology, Duke University Medical Center, Box 3094, Durham, NC 27710, USA. E-mail: david.warner{at}duke.edu

Ischaemic/hypoxic insults to the brain during surgery and anaesthesiacan result in long-term disability or death. Advances in resuscitationscience encourage progress in clinical management of these problems.However, current practice remains largely founded on extrapolationfrom animal studies and limited clinical investigation. A majorstep was made with demonstration that rapid induction of mildsustained hypothermia in comatose survivors of out-of-hospitalventricular fibrillation cardiac arrest reduces death and neurologicalmorbidity with negligible adverse events. This provides thefirst irrefutable evidence that outcome can be favourably alteredin humans with widely applicable neuroprotection protocols.How far hypothermic protection can be extended to global ischaemiaof other aetiologies remains to be determined. All availableevidence suggests an adverse response to hyperthermia in ischaemicor post-ischaemic brain. Management of other physiological valuescan have dramatic effects in experimental injury models andthis is largely supported by available clinical data. Hyperoxaemiamay be beneficial in transient focal ischaemia but deleteriousin global ischaemia. Hyperglycaemia causes exacerbation of mostforms of cerebral ischaemia and this can be abated by restorationof normoglycaemia. Studies indicate little, if any, role forhyperventilation. There is little evidence in humans that pharmacologicalintervention is advantageous. Anaesthetics consistently andmeaningfully improve outcome from experimental cerebral ischaemia,but only if present during the ischaemic insult. Emerging experimentaldata portend clinical breakthroughs in neuroprotection. In theinterim, organized large-scale clinical trials could serve tobetter define limitations and efficacy of already availablemethods of intervention, aimed primarily at regulation of physiologicalhomeostasis.

Keywords: brain, ischaemia; complications, cerebral ischaemia; recovery, neurological

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Hyperbaric Oxygen and cerebral protection: Mark E Edsell; British Journal of Anaesthesia, 14 Aug 2007 [Full text]