Randomized controlled trial of effects of the airflow through the upper respiratory tract of intubated brain-injured patients on brain temperature and selective brain cooling

doi:10.1093/bja/aei025

BJA Advance Access published online on November 5, 2004
British Journal of Anaesthesia, doi:10.1093/bja/aei025
© 2004 by The Board of Management and Trustees of the British Journal of Anaesthesia

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Accepted October 14, 2004

Clinical Investigation

Randomized controlled trial of effects of the airflow through the upper respiratory tract of intubated brain-injured patients on brain temperature and selective brain cooling

P. J. D. Andrews ¹^*, B. Harris ¹, and G. D. Murray ²

¹ Department of Anaesthesia, Intensive Care and Pain Management, University of Edinburgh, UK
² Division of Community Health Sciences (Medical Statistics), University of Edinburgh, UK

^* To whom correspondence should be addressed.
P. J. D. Andrews, E-mail: p.andrews{at}ed.ac.uk

Abstract

Background. Pyrexia is common after brain injury; it is generallybelieved to affect outcome adversely and the usual clinicalmethods of reducing temperature are not effective. The normalphysiological mechanisms of brain cooling are heat loss fromthe upper airways and through the skull, and these can produceselective brain cooling.

Methods. Air at room temperature andhumidity was continuously administered to 15 brain-injured,intubated and mechanically ventilated patients via a sponge-tippedoxygen catheter in each nostril at a combined rate of 115 mlkg^-1 min^-1. Brain temperature was measured using a pressure-temperatureCamino catheter which is designed to site the thermistor 1 cminto the parenchyma in the frontal lobe. Oesophageal temperaturewas measured using an oesophageal stethoscope with a thermistor.After establishing baseline for 30 min, patients were randomizedto receive airflow or no airflow for 6 h and then crossed overfor a further 6 h.

Results. Airflow replicating normal restingminute volume did not produce clinically relevant or statisticallysignificant reductions in brain temperature [0.13 (SD 0.55)°C;95% CI, 0.43-0.17°C]. However, we serendipitously foundsome evidence of selective brain cooling via the skull, butthis needs further substantiation.

Conclusions. A flow of humidifiedair at room temperature through the upper respiratory tractsof intubated brain-injured patients did not produce clinicallyrelevant or statistically significant reductions in brain temperaturemeasured in the frontal lobe.

Keywords: brain, direct brain cooling; brain, injury; brain, selective brain cooling; complications, head injury; complications, subarachnoid haemorrhage.

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