Effects of ephedrine, dobutamine and dopexamine on cerebral haemodynamics: transcranial Doppler studies in healthy volunteers

doi:10.1093/bja/aeh014

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British Journal of Anaesthesia, 2004, Vol. 92, No. 1 39-44
© 2004 The Board of Management and Trustees of the British Journal of Anaesthesia

Clinical Investigations

Effects of ephedrine, dobutamine and dopexamine on cerebral haemodynamics: transcranial Doppler studies in healthy volunteers

I. K. Moppett^*^,1, M. J. Wild², R. W. Sherman², J. A. Latter², K. Miller³ and R. P. Mahajan¹^,2

¹ University Department of Anaesthesia, Queen’s Medical Centre, Nottingham, UK. ² Nottingham City Hospital, Nottingham, UK. ³ Medical School, Nottingham University, Nottingham, UK

*Corresponding author. E-mail: iain.moppett@nottingham.ac.uk

Background. Sympathomimetic drugs are assumed to have no directeffects on cerebral haemodynamics on the basis of animal experiments;there is little evidence of their direct effects in humans.This study aimed to address this issue.

Methods. The effects of ephedrine, dobutamine, and dopexamineon cerebral autoregulation, cerebral vascular reactivity tocarbon dioxide, estimated cerebral perfusion pressure, and zeroflow pressure (ZPF) were studied in 10 healthy volunteers usingtranscranial Doppler ultrasound. The strength of autoregulationwas measured using the transient hyperaemic response test. Thereactivity to carbon dioxide was measured as the change in middlecerebral artery flow velocity with a step change in end-tidalcarbon dioxide. For the estimated cerebral perfusion pressureand the ZFP, established formulae were used which utilized instantaneousvalues of arterial pressure and middle cerebral artery flowvelocity. Measurements were made at baseline and after i.v.infusion of the study drug to an endpoint of 25% increase inmean arterial pressure (MAP) (ephedrine, dobutamine) or cardiacindex (dopexamine).

Results. There was no significant change in the strength ofautoregulation (from (mean (SD)) 1.07 (0.16) to 1.07 (0.18);from 1.07 (0.16) to 1.03 (0.19); from 1.04 (0.12) to 1.04 (0.25)),reactivity to carbon dioxide (from 40% (8) to 36 (10); from37 (12) to 37 (11); from 45 (12) to 43 (11)) with ephedrine,dobutamine, or dopexamine, respectively. Despite a clinicallysignificant increase in MAP with ephedrine and dobutamine anda clinically significant increase in cardiac index with dopexamine,the estimated cerebral perfusion pressure did not change significantly(from 81 (38) to 60 (16) mm Hg with ephedrine; from 67 (22)to 63 (11) mm Hg with dobutamine; from 87 (27) to 79 (17) mmHg with dopexamine). The ZFP increased significantly with ephedrine(from 29 (10) to 44 (11) mm Hg) and dobutamine (from 35 (14)to 43 (10) mm Hg) but not dopexamine (from 3 (23) to 11 (22)mm Hg).

Conclusions. Sympathomimetic agents do not significantly changecerebrovascular homeostasis as assessed by the transient hyperaemicresponse test, reactivity to carbon dioxide and estimated cerebralperfusion pressure.

Br J Anaesth 2004; 92: 39–44

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