Investigation of escalating and large bolus doses of a novel, nano-droplet, aqueous 1% propofol formulation in cats.


OBJECTIVE Identify, describe, and quantitate effects of an escalating dose of a nano-droplet formulation of 1% w/v propofol in telemetered cats. STUDY DESIGN Prospective two-period parallel design with one treatment procedure per period. ANIMALS Four female intact, purpose-bred domestic short-hair cats. METHODS Each animal served as its own control in each period. Telemetered cats were anesthetized on two separate occasions. In Phase I, cats received propofol (8 mg kg(-1)) over 90 seconds. Unless a severe adverse event (SAE) had occurred by this time, repeated doses of 4 mg kg(-1) intravenous (IV) propofol were administered every 3 minutes until the onset of an SAE. In Phase 2, the IV dose of propofol required to produce at least one SAE in Phase I was administered unless an SAE occurred before the dose was completed. Propofol infusion ceased after development of the first SAE. Heart rate, heart rhythm, respiratory rate, systolic, diastolic, and mean arterial blood pressure, SpO(2) and body temperature were continuously recorded before, during and after propofol administration. The incidence and time to onset of an SAE and dose of propofol required to produce an SAE were recorded. The response criteria included time to lateral recumbency, times to orotracheal intubation and extubation, time to sternal recumbency during recovery, time to and duration of first adverse event(s), and total dose of propofol administered. RESULTS The dose of propofol required to produce an SAE in Phase I was 16.6 and 15.2 mg kg(-1) in Phase 2. Hypotension was the first and most frequently observed SAE. CONCLUSIONS Larger doses of a novel, nano-droplet propofol formulation can produce SAEs similar to those reported for lipid emulsion formulations. CLINICAL RELEVANCE Systemic arterial blood pressure should be monitored in cats administered IV propofol.

DOI: 10.1111/j.1467-2995.2010.00529.x

3 Figures and Tables

Cite this paper

@article{Wiese2010InvestigationOE, title={Investigation of escalating and large bolus doses of a novel, nano-droplet, aqueous 1% propofol formulation in cats.}, author={Ashley J. Wiese and Phillip Lerche and Ralph M Cleale and William W . Muir}, journal={Veterinary anaesthesia and analgesia}, year={2010}, volume={37 3}, pages={250-7} }