Effects of propofol on cerebral oxygenation and metabolism after head injury

doi:10.1093/bja/aeg256

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British Journal of Anaesthesia, 2003, Vol. 91, No. 6 781-786
© 2003 The Board of Management and Trustees of the British Journal of Anaesthesia

Clinical Investigations

Effects of propofol on cerebral oxygenation and metabolism after head injury

A. J. Johnston¹^,3, L. A. Steiner¹^,3, D. A. Chatfield¹^,3, M. R. Coleman³, J. P. Coles¹^,3, P. G. Al-Rawi², D. K. Menon¹^,3 and A. K. Gupta¹

¹ University of Cambridge Department of Anaesthesia, Box 93, ² Academic Neurosurgery, Box 167, and ³ University of Cambridge Wolfson Brain Imaging Centre, Addenbrooke’s Hospital, Cambridge CB2 2QQ, UK

*Corresponding author. E-mail: ajj29@cam.ac.uk

Background. Flow-metabolism coupling is thought to be derangedafter traumatic brain injury, while the effects of propofolon flow-metabolism coupling are controversial. We have useda step increase in target plasma propofol concentration in headinjured patients to explore flow-metabolism coupling in thesepatients.

Methods. Ten patients with a moderate to severe head injuryreceived a step increase in propofol target controlled infusionof 2 µg ml^–1. Cerebral tissue gas measurements wererecorded using a multimodal sensor, and regional chemistry wasassessed using microdialysis. Arterial-jugular venous oxygendifferences (AVDO₂) were measured and all patients had corticalfunction monitoring (EEG).

Results. The step increase in propofol led to a large increasein EEG burst-suppression ratio (0% (range 0–1.1) to 46.1%(range 0–61.7), P<0.05); however, this did not significantlychange tissue gas levels, tissue chemistry, or AVDO₂.

Conclusions. Flow-metabolism coupling remains intact duringa step increase in propofol after traumatic brain injury. TheEEG burst-suppression induced by propofol after traumatic braininjury does not appear to be a useful therapeutic tool in reducingthe level of regional ischaemic burden.

Br J Anaesth 2003; 91: 781–6

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