Название | Farm Animal Anesthesia |
---|---|
Автор произведения | Группа авторов |
Жанр | Биология |
Серия | |
Издательство | Биология |
Год выпуска | 0 |
isbn | 9781119672531 |
Figure 1.9 Technique for endotracheal intubation in swine.
Source: Illustration by Kim Crosslin.
It is important to understand the anatomical and physiological differences of ruminants, camelids, and pigs as compared to other species. Veterinarians should incorporate this knowledge with proper preanesthetic preparations and appropriate perioperative management to ensure successful outcome of anesthesia in these animals.
References
1 1 Craigmill, A., Rangel‐Lugo, M., Damian, P., and Riviere, J. (1997). Extralabel use of tranquilizers and general anesthetics. Journal of the American Veterinary Medical Association 211: 302–304.
2 2 Davis, J., Smith, G., Baynes, R. et al. (2009). Update on drug prohibited for extralabel use in food animals. Journal of the American Veterinary Medical Association 235: 528–534.
3 3 US Food and Drug Administration. Animal Medicinal Drug Use Clarification Act of 1994 (AMDUCA). http://www.fda.gov/RegulatoryInformation/Legistration/FederalFoodDrugandCosmeticActFDCAct/SignificantAmendamentstotheFDCAct/AnimalMedicinalDrugUseClarificationActAMDUCAof1994/default.htm (accessed 21 January 2014).
4 4 Papich, M. (1996). Drug residue considerations for anesthetics and adjunctive drugs in food‐producing animals. The Veterinary Clinics of North America. Food Animal Practice 12: 693–706.
5 5 Perkins, G. (2004). Examination of the surgical patient. In: Farm Animal Surgery (eds. S. Fubini and N. Ducharme), 3–14. St. Louis: Saunders‐Elsevier.
6 6 Lee, D. and Swanson, C. (1996). General principles of anesthesia and sedation in food animals. The Veterinary Clinics of North America. Food Animal Practice 12: 473–480.
7 7 Klein, L. and Fisher, N. (1988). Cardiopulmonary effects of restraint in dorsal recumbency on awake cattle. American Journal of Veterinary Research 49: 1605–1608.
8 8 Dyce, K., Sack, W., and Wensing, C. (1987). The abdomen of the ruminants. In: Textbook of Veterinary Anatomy (eds. K. Dyce, W. Sack and C. Wensing), 633–656. Philadelphia: WB Saunders.
9 9 Habel, R. (1975). Ruminants digestive system. In: Sisson and Grossman's the Anatomy of the Domestic Animals, 5e (ed. S. Getty), 861–915. Philadelphia: WB Saunders.
10 10 Steffey, E. (1986). Some characteristics of ruminants and swine that complicate management of general anesthesia. The Veterinary Clinics of North America. Food Animal Practice 2: 507–516.
11 11 Wolff, P. (2009). Pet pig problems. In: North American Veterinary Community Conference, Orlando, FL, USA, 416–419.
12 12 DeRouchey, J., Goodband, B., Tokach, M. et al. (2009). Digestive system of the pig‐anatomy and function. In: North American Veterinary Community Conference, 375–376.
13 13 Hinchcliff, K., Jernigan, A., Upson, D., and Constable, P. (1991). Ruminant pharmacology. The Veterinary Clinics of North America. Food Animal Practice 7: 633–649.
14 14 Fowler, M. (2010). Digestive system. In: Medicine and Surgery of Camelids, 3e (ed. M. Fowler), 351–402. Ames: Wiley‐Blackwell.
15 15 Somers, M. (1958). Comparison of the salivary secretion of both parotid glands in a sheep. Nature 182: 400.
16 16 Kay, R. (1960). The rate of flow and composition of various salivary secretion in sheep and calves. The Journal of Physiology 150: 515–537.
17 17 Weaver, A. (1971). Complications in halothane anesthesia of cattle. Zentralblatt für Veterinärmedizin. Reihe A 18: 409–416.
18 18 Thurmon, J. and Benson, G. (1981). Anesthesia in ruminants and swine. In: Current Veterinary Therapy: Food Animal Practice (ed. J. Howard), 58–81. Philadelphia: WB Saunders.
19 19 Fujii, J., Otsu, K., Zorzato, F. et al. (1991). Identification of a mutation in porcine ryanodine receptor associated with malignant hyperthermia. Science 253: 448–451.
20 20 Geers, R., Decanniere, C., Ville, H. et al. (1992). Identification of halothane gene carriers by use of an in vivo 3IP nuclear magnetic resonance spectroscopy in pigs. American Journal of Veterinary Research 0002‐9645 (P) 53: 1711–1714.
21 21 Houde, A., Pomnier, S., and Roy, R. (1993). Detection of the ryanodine receptor mutation associated with malignant hyperthermia in purebred swine populations. Journal of Animal Science 71: 1414–1418.
22 22 Fraser, C. (1991). Hearty disease. In: The Merck Veterinary Manual, 7e (ed. C. Fraser), 3–50. Rahway: Merck.
23 23 Thurmon, J. and Benson, G. (1987). Special anesthesia considerations of swine. In: Principles & Practice: Veterinary Anesthesia (ed. C. Short), 308–322. Williams & Wilkins: Baltimore.
24 24 Tarrant, G., Elkelenboom, G., and Monin, G. (1986). Evaluation and Control of Meat Quality in Pigs. Commission of the European Communities Coordination of Agricultural Research. Kluwer Academic Publishers.
25 25 Hildebrand, S. (1987). Hyperthermia, malignant hyperthermia, and myopathy. In: Principle & Practice of Veterinary Anesthesia (ed. C. Short), 517–532. Baltimore: Williams & Wilkins.
26 26 Stoelting, R. and Hillier, S. (2006). Inhaled anesthetics. In: Pharmacology & Physiology in Anesthetic Practice, 4e (eds. R. Stoelting and S. Hillier), 42–86. Philadelphia: Lippincott Williams & Wilkins, A Wolters Kluwer Company.
27 27 Hopkins, P. (2011). Malignant hyperthermia: pharmacology of triggering. British Journal of Anaesthesia 107: 48–56.
28 28 Reed, S. and Strobel, G. (1978). An in‐vitro model of malignant hyperthermia: differential effects of inhalation anesthetics on caffeine‐induced muscle contractures. Anesthesiology 48: 254–259.
29 29 Wedel, D., Gammel, S., Milde, J., and Iaizzo, P. (1993). Delayed onset of malignant hyperthermia induced by isoflurane and desflurane compared with halothane in susceptible swine. Anesthesiology 78: 1138–1144.
30 30 Claxton‐Gill, M., Cornick‐Seahorn, J., Gamboa, J., and Boatright, B. (1993). Suspected malignant hyperthermia syndrome in a miniature pot‐bellied pig anesthetized with isoflurane. Journal of the American Veterinary Medical Association 203: 1434–1436.
31 31 Shulman, M., Braverman, B., Ivankovich, A., and Gronert, G. (1981). Sevoflurane triggers malignant hyperthermia in swine. Anesthesiology 54: 259–260.
32 32 Bonome‐Gonzales, C., Alvarez‐Refojo, F., Fernandez‐Goti, C. et al. (2001). Malignant hyperthermia in a pig anesthetized with desflurane. Revista Española de Anestesiología y Reanimación 48: 81–84.
33 33 Skelding, A. and Valverde, A. (2017). Intra‐operative hyperthermia in a young Angus bull with a fatal outcome. Canadian Veterinary Journal 58: 614–616.
34 34 Brunson, D. and Hogan, K. (2004). Malignant hyperthermia: a syndrome not a disease. Veterinary Clinics: Small Animal Practice 34: 1419–1433.
35 35 de Carmo, P., Zapata‐Sudo, G., Trachez, M. et al. (2010). Intravenous administration of azumolene to reverse malignant hyperthermia in swine. Journal of Veterinary Internal Medicine 24: 1224–1228.
36 36 Aleman, M., Nieto, J., and Magdesian, K. (2009). Malignant hyperthermia associated with ryanodine receptor 1 (C7360G) mutation in quarter horses. Journal of Veterinary Internal Medicine 23: 329–334.
37 37 Chohan, A. and Greene, S. (2011). Anesthesia case of the month: malignant hyperthermia. Journal of the American Veterinary Medical Association 239: 936–940.
38 38 Thomson, S., Burton, C., and Armitage‐Chan, E. (2014). Intra‐operative hyperthermia in a cat with a fatal outcome. Veterinary Anaesthesia and Analgesia 41: 290–296.
39 39 McGrath, C., Rempel, W., Addis, P., and Crimi, A. (1981). Acepromazine and