Systemic recirculation assessed in apnoeic anaesthetized patients using carbon dioxide concentration measurements during stepwise expiration

doi:10.1093/bja/aep052

BJA Advance Access originally published online on April 3, 2009
British Journal of Anaesthesia 2009 102(5):698-703; doi:10.1093/bja/aep052

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© The Author [2009]. Published by Oxford University Press on behalf of The Board of Directors of the British Journal of Anaesthesia. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournal.org

Systemic recirculation assessed in apnoeic anaesthetized patients using carbon dioxide concentration measurements during stepwise expiration

F. Pizzichetta and G. B. Drummond^*

Department of Anaesthesia, Critical Care and Pain Medicine, University of Edinburgh, Royal Infirmary, Edinburgh EH16 4SA, UK

^* Corresponding author. E-mail: g.b.drummond{at}ed.ac.uk

Background: Mixed venous partial pressure of carbon dioxide has often beenestimated in anaesthesia, usually by rebreathing techniques.This assumes equilibrium between respired gas and mixed venousblood before significant recirculation can occur, and requiresvigorous rebreathing and precise identification of equilibrium.Modern clinical sidestream capnometers do not measure gas compositionas rapidly as the devices used in previous studies, and cannotmeasure end-tidal values adequately during vigorous rebreathing.In contrast, a single-staged exhalation provides a stable samplefor more accurate measurement of gas composition, and clinicalmeasurements then allow examination of the evidence that equilibrationoccurs before recirculation. Theoretically, this assumptionis optimistic, although it forms the basis of a method for non-invasivemeasurement of cardiac output. We used measurements of stagedexhalation to study the evidence for equilibrium more closely.

Methods: We studied 19 patients during general anaesthesia. The lungswere inflated with mixed exhaled gas. Stepwise expiration allowedexhaled gas to be analysed over $~$ 1 min. The rate of increasein exhaled carbon dioxide fraction was related to the durationof expiration.

Results: Carbon dioxide concentration continued to change throughoutthe study period. The lack of equilibrium of carbon dioxideconcentration over this time supports simulation studies whichpredict recirculation from well-perfused body compartments within20 s, and that the subsequent increase of carbon dioxide reflectsthe wash in of multiple body compartments.

Conclusions: This method allows adequate time for full response of sidestreamanalysers. Recirculation is an important early feature affectingbreath-hold estimates of mixed venous carbon dioxide. Carbondioxide accumulation during apnoea or rebreathing will haveprompt effects on arterial carbon dioxide values and a constantmixed venous composition cannot be assumed when methods basedon partial rebreathing are used over this time period.

Keywords: carbon dioxide, measurement; measurement techniques, carbon dioxide; ventilation, apnoea

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