Peer-reviewed veterinary case report
Lidocaine with propofol effects on heart and breathing in healthy dogs
By Cazlan, Callie E & Hay Kraus, Bonnie L·Published in Journal of the American Veterinary Medical Association·2020·View original on PubMed →
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Original publication title: Effects of 2% lidocaine hydrochloride solution as a coinduction agent with propofol on cardiopulmonary variables and administered propofol doses in healthy dogs premedicated with hydromorphone hydrochloride and acepromazine maleate.
- Species:
- dog
Plain-English summary
A group of 40 healthy dogs, aged six months and older, were given either a lidocaine solution or a buffered fluid before being put under anesthesia with propofol and isoflurane for elective procedures. The goal was to see if lidocaine would reduce the amount of propofol needed and improve heart and lung function during the process. However, the study found that using lidocaine did not significantly lower the amount of propofol required, and while most heart and lung measurements were similar, oxygen levels were lower in the lidocaine group. Overall, the lidocaine did not provide the expected benefits in this setting.
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Abstract
OBJECTIVE: To evaluate the effects of lidocaine as a coinduction agent with propofol on cardiopulmonary variables and administered propofol doses in healthy dogs premedicated with hydromorphone hydrochloride and acepromazine maleate and anesthetized with isoflurane. ANIMALS: 40 client-owned dogs (American Society of Anesthesiologists physical status classification I or II and age ≥ 6 months) scheduled to undergo anesthesia for elective procedures. PROCEDURES: In a randomized, blinded, controlled clinical trial, dogs received 2% lidocaine hydrochloride solution (2.0 mg/kg [0.9 mg/lb], IV; n = 20) or buffered crystalloid solution (0.1 mL/kg [0.05 mL/lb], IV; 20; control treatment) after premedication with acepromazine (0.005 mg/kg [0.002 mg/lb], IM) and hydromorphone (0.1 mg/kg, IM). Anesthesia was induced with propofol (1 mg/kg [0.45 mg/lb], IV, with additional doses administered as needed) and maintained with isoflurane. Sedation was assessed, and anesthetic and cardiopulmonary variables were measured at various points; values were compared between treatment groups. RESULTS: Propofol doses, total sedation scores, and anesthetic and most cardiopulmonary measurements did not differ significantly between treatment groups over the monitoring period; only oxygen saturation as measured by pulse oximetry differed significantly (lower in the lidocaine group). Mean ± SD propofol dose required for endotracheal intubation was 1.30 ± 0.68 mg/kg (0.59 ± 0.31 mg/lb) and 1.41 ± 0.40 mg/kg (0.64 ± 0.18 mg/lb) for the lidocaine and control groups, respectively. CONCLUSIONS AND CLINICAL RELEVANCE: No propofol-sparing effect was observed with administration of lidocaine as a coinduction agent for the premedicated dogs of this study. Mean propofol doses required for endotracheal intubation were considerably lower than currently recommended doses for premedicated dogs. (2020;256:93-101).
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/31841086/