Peer-reviewed veterinary case report
Which sedative works best before anesthesia in dogs?
By Redondo, J I et al.·Published in Canadian journal of veterinary research = Revue canadienne de recherche veterinaire·1999·Department of Animal Medicine and Surgery, Spain·View original on PubMed →
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Original publication title: Romifidine, medetomidine or xylazine before propofol-halothane-N2O anesthesia in dogs.
- Species:
- dog
Plain-English summary
Ten healthy dogs were given different sedatives before undergoing anesthesia to see which worked best. They received either romifidine, medetomidine, or xylazine along with atropine, followed by propofol for induction and halothane with nitrous oxide for maintenance. All three sedatives were safe, but those given romifidine or medetomidine needed less halothane to stay anesthetized compared to those given xylazine. Overall, the combination of romifidine and other medications proved effective for anesthesia in dogs, with no significant issues during the procedure.
People also search for: dog anesthesia options · romifidine for dogs · xylazine side effects in dogs
Abstract
The objective of this paper was to evaluate romifidine as a premedicant in dogs prior to propofol-halothane-N2O anesthesia, and to compare it with the other alpha2-agonists (medetomidine and xylazine). For this, ten healthy dogs were anesthetized. Each dog received 3 preanesthetic protocols: atropine (10 microg/kg BW, IM), and as a sedative, romifidine (ROM; 40 microg/kg BW, IM), xylazine (XYL; 1 microg/kg, IM), or medetomidine (MED; 20 microg/kg BW, IM). Induction of anesthesia was delivered with propofol 15 min later and maintained with halothane and N2O for one hour in all cases. The following variables were registered before preanesthesia, 10 min after the administration of preanesthesia, and at 5-minute intervals during maintenance: PR, RR, rectal temperature (RT), MAP, SAP, and DAP. During maintenance, arterial oxygen saturation (SpO2), end-tidal CO2 (EtCO2) and percentage of halothane necessary for maintaining anesthesia (%HAL) were also recorded. Induction dose of propofol (DOSE), time to extubation (TE), time to sternal recumbency (TSR) and time to standing (TS) were also registered. The statistical analysis was carried out during the anesthetic period. ANOVA for repeat measures revealed no differences between the 3 groups for PR and RR; however, MAP, SAP and DAP were higher in the MED group; SpO2 was lower in MED and EtCO2 was lower in ROM; %HAL was higher in XYL. No statistical differences were observed in DOSE, TE, TSR or TS. Percentage of halothane was lower in romifidine and medetomidine than in xylazine premedicated dogs also anesthetized with propofol. All the cardiorespiratory variables measured were within normal limits. The studied combination of romifidine, atropine, propofol, halothane and N2O appears to be a safe and effective drug combination for inducing and maintaining general anesthesia in healthy dogs.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/9918331/