Effect of different pulses of nitric oxide on venous admixture in the anaesthetized horse

doi:10.1093/bja/88.3.394

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British Journal of Anaesthesia, 2002, Vol. 88, No. 3 394-398
© 2002 The Board of Management and Trustees of the British Journal of Anaesthesia

Clinical Investigations

Effect of different pulses of nitric oxide on venous admixture in the anaesthetized horse

E. Heinonen¹^,3, G. Nyman², P. Meriläinen³ and M. Högman^*^,1

¹Department of Medical Cell Biology, Section of Integrative Physiology, Uppsala University, Box 571, SE-75123 Uppsala, Sweden. ²Department of Large Animal Clinical Sciences, Faculty of Veterinary Medicine, Swedish University of Agricultural Sciences, Uppsala, Sweden. ³Datex-Ohmeda Research Department, Helsinki, Finland*Corresponding author

Background. Dependent atelectatic lung areas open towards theend of inspiration when the lung opening pressure increases,and recollapse during expiration. We hypothesized that inhalednitric oxide (NO) counteracts hypoxic vasoconstriction in thesecollapsing lung areas, resulting in increased pulmonary shuntperfusion.

Methods. We administered NO as a pulse and varied the pulsetiming during inspiration in equine anaesthesia, where atelectasisdevelops regularly. Six spontaneously breathing standard breedtrotters were studied under isoflurane anaesthesia in lateral recumbency.NO pulsed into the first 30% of inspiration (group NOp1) wasassumed to affect open lung areas. To cover more open lung areasNO was then pulsed into the first 60% of inspiration (groupNOp2). In a third group, administration between 50 and 80% ofinspiration was aimed at the intermittently opening lung areas(group NOp3).

Results. With NOp1, venous admixture decreased by 8 (2)% (mean(SEM), P=0.045) and with NOp2 by 10 (1)% (P=0.01). With NOp3,venous admixture reduction was insignificant.

Conclusions. Pulsed administration of NO in early inspirationis optimal in reducing right to left vascular shunt in atelectaticequine lung. This reduction is positively correlated with themagnitude of the initial shunt. With administration in earlyinspiration, NO is mostly taken up by the lung. This preventsNO accumulation and NO₂ formation in rebreathing circuits. Thesefindings may be important in humans when atelectasis occurs increasinglywith overweight and age during anaesthesia, but also in postoperativeintensive care and in ARDS.

Br J Anaesth 2002; 88: 394–8

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