M. J. Woliner scite author profile

In monkeys, dogs and swine (six each) we tested the reduction of the isoflurane MAC (minimal alveolar concentration) produced by 2 mg.kg-1 morphine intravenously (i.v.) and the concurrent effect on PCO2 with spontaneous ventilation. MAC fell to a minimum of 55% of control at 53 min in monkeys, 50% at 38 min in dogs and 13% at 33 min in swine. PaCO2 rose at constant MAC with morphine to 55-60 mmHg, but did not fall over the next several hours despite the decline of plasma morphine concentration, and the resulting needed rise in isoflurane concentration to keep the anaesthesia depth at 1 MAC. After isoflurane concentration had returned to pre-morphine control levels, naloxone immediately reduced PaCO2 to or below control level. Morphine pharmacokinetics in the three species studied conformed to a two-compartment model.

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Effects of xylazine hydrochloride during isoflurane-induced anesthesia in horses

Steffey

Pascoe

Woliner

et al. 2000

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Cardiovascular and respiratory effects of acetylpromazine and xylazine on halothaneanesthetized horses

Steffey

Kelly

Farver

et al. 1985

Vet Pharm & Therapeutics

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Circulatory and respiratory effects of intravenously administered acetylpromazine (0.033 and 0.067 mg/kg) and xylazine (0.5 and 1.0 mg/kg) were studied in drug cross-over fashion in eight laterally recumbent horses anesthetized only with halothane (1.06%, end-tidal) in O2. Both doses of acetylpromazine caused a significant and sustained elevation in cardiac output via a rise in stroke volume. Xylazine produced an initial significant fall in cardiac output followed by a return to control levels. Halothane anesthesia did not prevent xylazine-related atrioventricular conduction block. All treatments caused a similar significant fall in arterial blood pressure (acetylpromazine, total peripheral resistance-related; xylazine, cardiac output-related). PaCO2 significantly increased after all treatments. PaCO2 decreased significantly only following xylazine treatment. One horse (not included in the tabulation) developed ventricular fibrillation and died 15 min after receiving its first injection (0.5 mg/kg) of xylazine.

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Effects of sevoflurane dose and mode of ventilation on cardiopulmonary function and blood biochemical variables in horses

Steffey¹,

Mama²,

Galey³

et al. 2005

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Sevoflurane causes dose-related cardiopulmonary depression, and mode of ventilation further impacts the magnitude of this depression. Except for serum inorganic fluoride concentration, quantitative alterations in serum biochemical indices of liver- and muscle-cell disruption and kidney function were considered clinically unremarkable and similar to results from comparable studies of other inhalation anesthetics.

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Cardiopulmonary function during 5 hours of constant‐dose isoflurane in laterally recumbent, spontaneously breathing horses

Steffey

Hodgson

Dunlop

et al. 1987

Vet Pharm & Therapeutics

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Hemodynamic and respiratory effects of 5 h of unvarying 1.57%, end-tidal (1.2 MAC) isoflurane in O2 anesthesia were characterized in ten left laterally recumbent horses. Compared to base line values at 30 min of constant dose isoflurane, cardiac output, hematocrit, total plasma solids, PaCO2, and peak inspired gas flow progressively and significantly (P less than 0.05) increased over the course of study. Arterial blood pressure increased (P less than 0.05) during the first 2 h of constant dose of isoflurane then decreased and remained near base line values. Inspiratory time progressively decreased with time of anesthesia. All horses recovered from anesthesia uneventfully within 1 h of termination of isoflurane.

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M. J. Woliner

Morphine‐isoflurane interaction in dogs, swine and Rhesus monkeys

Effects of xylazine hydrochloride during isoflurane-induced anesthesia in horses

Cardiovascular and respiratory effects of acetylpromazine and xylazine on halothaneanesthetized horses

Effects of sevoflurane dose and mode of ventilation on cardiopulmonary function and blood biochemical variables in horses

Cardiopulmonary function during 5 hours of constant‐dose isoflurane in laterally recumbent, spontaneously breathing horses

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