Vet Med - Czech, 2013, 58(6):312-317 | DOI: 10.17221/6867-VETMED

Early analgesia after periodontal treatment in dogs: a comparison of three analgesic protocolsOriginal Paper

P. Rauser, P. Janalik, M. Markova, T. Fichtel
Faculty of Veterinary Medicine, University of Veterinary and Pharmaceutical Sciences Brno, Czech Republic

The analgesic effects of carprofen, morphine and bupivacaine on early oral pain after periodontal treatment in dogs have been poorly investigated. Forty-five client-owned dogs (8.5 ± 6.4 kg and 7.8 ± 3.2 years) scheduled for periodontal treatment were allocated to carprofen, morphine and bupivacaine groups (n = 15 each). The study was designed as a prospective, randomised, double "blinded" clinical study. Carprofen (CAR, 4 mg/kg, subcutaneously) or morphine (MOR, 0.3 mg/kg, intramuscularly) was given thirty minutes before the dogs were placed under anesthesia. Bilateral maxillary and mandibular nerve blocks were performed with bupivacaine (BUP, 1 mg/kg), after the induction of anesthesia. Dogs were anaesthetised with medetomidine-propofol-isoflurane and reversal was carried out using atipamezole. Periodontal painful sub-gingival scaling was performed in all dogs. Periodontal treatment lasted for up to one hour. A modified University of Melbourne Pain Score (UMPS, 0-28 points), Visual Analog pain Scale (VAS, 0-100 mm), plasma glucose (Glu) and serum cortisol (Cor) levels were assessed before administration of analgesics (MOR-0, CAR-0, BUP-0) and two hours thereafter, that is thirty minutes after atipamezole administration (MOR-2, CAR-2, BUP-2). Analgesia rescue with tramadol (2 mg/kg intramuscularly) was provided for animals with modified UMPS over 14 or VAS over 50 points. Differences in Glu and Cor values were analysed with analysis of variance (ANOVA) for repeated measures, in UMPS and VAS over time for each group with the Friedman test and pre- and postoperatively using the Mann-Whitney U-test. Differences were considered significant at P < 0.05. Analgesia rescue was provided to one patient of the CAR group and one patient of the MOR group. No differences in UMPS values between groups were detected. A significant increase in VAS values after treatment was detected in all groups. Plasma glucose levels significantly increased in MOR-2 compared to MOR-0 and CAR-2. Serum cortisol levels significantly increased in MOR-2 compared to MOR-0, CAR-2 and BUP-2. The results of this study indicate that bupivacaine nerve blocks could be superior to carprofen, which in turn could be superior to morphine, for early analgesia (up to two hours) following sub-gingival scaling for periodontal treatment in dogs.

Keywords: oral pain; carprofen; morphine; bupivacaine; teeth

Published: June 30, 2013  Show citation

ACS AIP APA ASA Harvard Chicago Chicago Notes IEEE ISO690 MLA NLM Turabian Vancouver
Rauser P, Janalik P, Markova M, Fichtel T. Early analgesia after periodontal treatment in dogs: a comparison of three analgesic protocols. Vet Med - Czech. 2013;58(6):312-317. doi: 10.17221/6867-VETMED.
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. Ambrisko TD, Hikasa Y (2002): Neurohormonal and metabolic effects of medetomidine compared with xylazine in beagle dogs. Canadian Journal of Veterinary Research 66, 42-49.
    2. Becker DE (2010): Pain management. Part 1: Managing acute and postoperative dental pain. Anesthesia Progress 57, 67-79. Go to original source... Go to PubMed...
    3. Beckman BW (2006): Pathophysiology and management of surgical and chronic oral pain in dogs and cats. Journal of Veterinary Dentistry 23, 50-60. Go to original source... Go to PubMed...
    4. Beckman B, Legendre L (2002): Regional nerve blocks for oral surgery in companion animals. Compendium of Continuing Education 24, 439-442.
    5. Brown DC, Bernier N, Shofer F, Steinberg SA, Perkowski SZ (2002): Use of noninvasive dental dolorimetry to evaluate analgesic effects of intravenous and intrathecal administration of morphine in anesthetized dogs. American Journal of Veterinary Research 63, 1349-1353. Go to original source... Go to PubMed...
    6. Dzikiti TB, Joubert KE, Venter LJ, Dzikiti LN (2006): Comparison of morphine and carprofen administered alone or in combination for analgesia in dogs undergoing ovariohysterectomy. Journal of the South African Veterinary Association 77, 120-126. Go to original source... Go to PubMed...
    7. Haas DA (2002): An update on analgesics for the management of acute postoperative dental pain. Journal of Canadian Dental Association 68, 476-482.
    8. Hansen BD (2003): Assessment of pain in dogs: Veterinary clinical studies. ILAR Journal 55, 197-205. Go to original source... Go to PubMed...
    9. Huber MA, Terezhalmy GT (2006): The use of COX-2 inhibitors for acute dental pain: A second look. Journal of the American Dental Association 137, 480-487. Go to original source... Go to PubMed...
    10. Joubert K, Tutt C (2007): Anaesthesia and analgesia. In:Tutt C, Deeprose J, Crossley D (eds.): BSAVA Manual of Canine and Feline Dentistry. 3rd ed. Blackwell Publishing, London. 41-55.
    11. Lang WJ, Rush ML, Pearson L (1969): Pharmacological investigation of the mechanism of conditional salivation in dogs induced by atropine and morphine. European Journal of Pharmacology 5, 191-195. Go to original source... Go to PubMed...
    12. Kuner R (2010): Central mechanisms of pathological pain. Nature Medicine 16, 1258-1266. Go to original source... Go to PubMed...
    13. Lavand'homme P (2011): From preemptive to preventive analgesia. Time to reconsider the role of perioperative peripheral nerve blocks? Regional Anesthesia and Pain Medicine 36, 4-6. Go to original source... Go to PubMed...
    14. Locher-Claus MT, Erickson TE, Law AS, Johnson WT, Gebhart GF (2005): Effects of pre-emptive morphine, ibuprofen or local anesthetic on fos expression in the spinal trigeminal nucleus following tooth pulp exposure in the rat. Journal of Endodontics 31, 578-583. Go to original source... Go to PubMed...
    15. Martins LT, Kahvegian MAP, Noel-Morgan J, LeonRoman MA, Otsuki DA, Fantoni DT (2010): Comparison of the effects of tramadol, codeine, and ketoprofen alone or in combination on postoperative pain and on concentrations of blood glucose, serum cortisol, and serum interleukin-6 in dogs undergoing maxillectomy or mandibulectomy. American Journal of Veterinary Research 71, 1019-1026. Go to original source... Go to PubMed...
    16. Radosevich PM, Williams PE, Lacy DB, McRae JR, Steiner KE, Cherrington AD, Lacy WW, Abumrad NN (1984): Effects of morphine on glucose homeostasis in the conscious dog. Journal of Clinical Investigation 74, 1473-1480. Go to original source... Go to PubMed...
    17. Vanegas H, Tortorici V (2002): Opioidergic effects of nonopioid analgesics on the central nervous system. Cellular and Molecular Neurobiology 22, 655-661. Go to original source... Go to PubMed...
    18. Woodward TM (2008): Pain management and regional anesthesia for the dental patient. Topics in Companion Animal Medicine 23, 106-114. Go to original source... Go to PubMed...
    19. Yaksh TL, Malmberg AB (1993): Spinal actions of NSAIDs in blocking spinally mediated hyperalgesia: the role of cyclooxygenase products. Agents and Actions, Supplements 41, 89-100. Go to PubMed...

    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial 4.0 International (CC BY NC 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content