Laboratory animal science
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Laboratory animal science · May 1990
Comparative StudyAn evaluation of three intravenous anesthetic regimens in New Zealand rabbits.
Intravenous anesthetics can be readily administered to rabbits through the marginal ear vein. In this study, three intravenous anesthetic protocols were evaluated in New Zealand White rabbits. The three anesthetic regimens were: (a) pentobarbital (40 mg/kg); (b) ketamine-xylazine (25-5 mg/kg); (c) midazolam-xylazine-alfentanil (1-1-0.1 mg/kg). ⋯ When choosing an anesthetic regimen for rabbits, intravenous infusion should be considered as an option. Advantages include ease of administration, possibility of redosing as required, and minimal requirements for equipment. Disadvantages of intravenous anesthetic infusion in rabbits include potential for lethal overdose and metabolic alterations after administration.
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Laboratory animal science · Sep 1989
The effects of prolonged ketamine-xylazine intravenous infusion on arterial blood pH, blood gases, mean arterial blood pressure, heart and respiratory rates, rectal temperature and reflexes in the rabbit.
The prolonged and safe maintenance of general anesthesia in rabbits with commonly used injectable agents is difficult. Protracted, stable anesthesia with short recovery time has been described in humans using continuous intravenous infusion of ketamine with or without sedatives, muscle relaxants and paralytics. This study evaluated the anesthetic plane achieved and respiratory and cardiovascular effects produced with a ketamine-xylazine intravenous infusion in New Zealand White rabbits. ⋯ Both mean arterial pO2 and pCO2 values returned to baseline within 20 minutes after completion of infusion. Heart rate and rectal temperature remained stable during the trial. The righting reflex was abolished in all rabbits throughout the study.(ABSTRACT TRUNCATED AT 250 WORDS)
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Laboratory animal science · Jun 1986
Transoral tracheal intubation of rodents using a fiberoptic laryngoscope.
A fiberoptic laryngoscope which allows direct visualization of the deep pharynx and epiglottis has been developed for transoral tracheal intubation of small laboratory mammals. The device has been employed in the intubation and instillation of a variety of substances into the lungs of rats, and with minor modification, has had similar application in mice, hamsters, and guinea pigs. ⋯ Instillation of 7Be-labeled carbon particles into the lungs of mice, hamsters, rats, and guinea pigs resulted in reasonably consistent interlobal distribution of particles for each test animal species with minimal tracheal deposition. However, actual lung tissue doses of carbon exhibited some species dependence.