Acute effects of fentanyl on breathing pattern in anaesthetized subjects

doi:10.1093/bja/ael011

BJA Advance Access published online on January 31, 2006
British Journal of Anaesthesia, doi:10.1093/bja/ael011

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© The Board of Management and Trustees of the British Journal of Anaesthesia 2006. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org
Accepted December 28, 2005

Clinical Investigation

Acute effects of fentanyl on breathing pattern in anaesthetized subjects

L. M. Ferguson ¹ and G. B. Drummond ¹ ^*

¹ University Department of Anaesthesia, Critical Care and Pain Medicine Edinburgh University, Scotland, UK

^* To whom correspondence should be addressed.
G. B. Drummond, E-mail: g.b.drummond{at}ed.ac.uk

Abstract

Background. The predominant effect of opioids on respiratorypattern during anaesthesia is an increase in the duration ofexpiration (an effect on ‘timing’), but there mayalso be changes in tidal volume (an effect on ‘drive’).Timing and drive are controlled by separate neuronal systems,but are infrequently considered individually. The effects ofopioids on breathing are not well characterized clinically becausechanges in carbon dioxide and anaesthetic levels usually occurat the same time, and can obscure the effects of the opioid.

Methods.To study these effects in isolation, we established stable mildhypercapnia in female patients breathing spontaneously duringsevoflurane anaesthesia, and then gave fentanyl 0.5 µgkg^-1 i.v. End-tidal carbon dioxide and sevoflurane concentrationswere maintained constant, and the changes in timing of inspiration,expiration and tidal volume were measured.

Results. The durationof inspiration increased by 30%, and the duration of expirationincreased by 95%. Tidal volume increased in proportion to inspiratoryduration, and the pattern of flow during the breath was recognizablychanged, with a reduction in the rate of increase of flow atthe onset of inspiration.

Conclusions. Small doses of opioidgiven when anaesthesia and carbon dioxide are stable affectrespiratory timing predominantly, but in addition changes inthe pattern of motor output can be detected.

Keywords: analgesics opioid, fentanyl; ventilation, anaesthetics, effects of respiration; ventilation, analgesics, effects of respiration; ventilation, pattern.

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