【 摘 要 】

Background

Establishment of haematological and biochemical reference intervals is important to assess health of animals on individual and population level. Reference intervals for 13 haematological and 34 biochemical variables were established based on 88 apparently healthy free-ranging brown bears (39 males and 49 females) in Sweden. The animals were chemically immobilised by darting from a helicopter with a combination of medetomidine, tiletamine and zolazepam in April and May 2006–2012 in the county of Dalarna, Sweden. Venous blood samples were collected during anaesthesia for radio collaring and marking for ecological studies. For each of the variables, the reference interval was described based on the 95% confidence interval, and differences due to host characteristics sex and age were included if detected. To our knowledge, this is the first report of reference intervals for free-ranging brown bears in Sweden.

Results

The following variables were not affected by host characteristics: red blood cell, white blood cell, monocyte and platelet count, alanine transaminase, amylase, bilirubin, free fatty acids, glucose, calcium, chloride, potassium, and cortisol. Age differences were seen for the majority of the haematological variables, whereas sex influenced only mean corpuscular haemoglobin concentration, aspartate aminotransferase, lipase, lactate dehydrogenase, β-globulin, bile acids, triglycerides and sodium.

Conclusions

The biochemical and haematological reference intervals provided and the differences due to host factors age and gender can be useful for evaluation of health status in free-ranging European brown bears.

【 授权许可】

   
2014 Græsli et al.; licensee BioMed Central Ltd

【 预 览 】

附件列表

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【 参考文献 】

• [1]Geffre A, Friedrichs K, Harr K, Concordet D, Trumel C, Braun JP: Reference values: a review. Vet Clin Path 2009, 38:288-298.
• [2]Friedrichs KR, Harr KE, Freeman KP, Szladovits B, Walton RM, Barnhart KF, Blanco-Chavez J: ASVCP reference interval guidelines: determination of de novo reference intervals in veterinary species and other related topics. Vet Clin Path 2012, 41:441-453.
• [3]Ramsay EC: Ursidae and hyaenidae. In Zoo and Wild Animal Medicine. 5th edition. Edited by Fowler ME, Miller RE. Elsevier Science, USA; 1999:523-528.
• [4]Kindberg J, Swenson JE, Ericsson G, Bellemain E, Miquel C, Taberlet P: Estimating population size and trends of the Swedish brown bear (Ursus arctos) population. Wildl Biol 2011, 17:114-123.
• [5]Pearson AM, Halloran DW: Hematology of the brown bear (Ursus arctos) from southwestern Yukon Territory, Canada. Can J Zool 1972, 50:279-286.
• [6]Brannon RD: Serum chemistry of central and northern Alaska grizzly bears. J Wildl Manage 1985, 49:893-900.
• [7]Hissa R, Siekkinen J, Hohtola E, Saarela S, Hakala A, Pudas J: Seasonal patterns in the physiology of the European brown bear (Ursus arctos arctos) in Finland. Comp Biochem Physiol A 1994, 109:781-791.
• [8]Karjalainen M, Surcel HM, Hissa R: Quantitative and functional analysis of peripheral blood mononuclear cells in European brown bear (Ursus arctos arctos). Comp Biochem Physiol A 1995, 112:495-501.
• [9]Musiani M, Gentile L, Valentini M, Roth HU, Musiani P: White cells in the blood of Apennine brown bears: an ultrastructural study. J Mammal 1996, 77:761-767.
• [10]Huber D, Kusak J, Zvorc Z, Rafaj RB: Effects of sex, age, capturing method, and season on serum chemistry values of brown bears in Croatia. J Wildl Dis 1997, 33:790-794.
• [11]Kusak J, Rafaj RB, Zvorc Z, Huber D, Forsek J, Bedrica L, Mrljak V: Effects of sex, age, body mass, and capturing method on hematologic values of brown bears in Croatia. J Wildl Dis 2005, 41:843-847.
• [12]Fahlman Å, Arnemo JM, Swenson JE, Pringle J, Brunberg S, Nyman G: Physiologic evaluation of capture and anesthesia with medetomidine-zolazepam-tiletamine in brown bears (Ursus arctos). J Zoo Wildl Med 2011, 42:1-11.
• [13][http:/ / www1.nina.no/ RovviltPub/ pdf/ Biomedical%20Protocols%20Carnivores %20March%202012.pdf] webcite Arnemo JM, Evans A, Fahlman Å: Biomedical protocols for free-ranging brown bears, gray wolves, wolverines and lynx..
• [14]Matson GM: A Laboratory manual for cementum age determination of Alaska brown bear first premolar teeth. Alaska Dept. of Fish and Game, Division of Wildlife Conservation, Anchorage, Alaska; 1993.
• [15][http://www.sentrallaboratoriet.no/metoder.htm] webcite Metodebeskrivelse. []
• [16]Box GEP, Cox DR: An analysis of transformations. J R Stat Soc Ser B Stat Methodol 1964, 26:211-252.
• [17]Arnemo JM, Caulkett N: Stress. In Zoo Animal and Wildlife Immobilization and Anaesthesia. Edited by West G, Heard D, Caulkett N. Blackwell Publishing, Ames, Iowa, USA; 2007:103-109.
• [18]Reeder DM, Kramer KM: Stress in free-ranging mammals: Integrating physiology, ecology, and natural history. J Mammal 2005, 86:225-235.
• [19]Franzmann AW, Flynn A, Arneson PD: Serum corticoid levels relative to handling stress in Alaskan moose. Can J Zool 1975, 53:1424-1426.
• [20]Morton DJ, Anderson E, Foggin CM, Kock MD, Tiran EP: Plasma-cortisol as an indicator of stress due to capture and translocation in wildlife species. Vet Rec 1995, 136:60-63.
• [21]Sire JE, Blom A, Sjaastad OV, Ropstad E, Nilsen AB, Pedersen O, Forsberg M: The effect of blood sampling on plasma cortisol in female reindeer (Rangifer tarandus tarandus ). Acta Vet Scand 1995, 36:583-587.
• [22]Villiers E, Dunn JK: Basic haematology. In BSAVA Manual of Small Animal Clinical Pathology. Edited by Davidson MG, Else RW, Lumsden JH. British Small Animal Veterinary Association, Cheltenham, UK; 1998:33-60.
• [23]Wolkers J, Wensing T, Bruinderink G: Sedation of wild boar (Sus scrofa) and red deer (Cervus elaphus) with medetomidine and the influence on some hematological and serum biochemical variables. Vet Q 1994, 16:7-9.
• [24]Arnemo JM, Ranheim B: Effects of medetomidine and atipamezole on serum glucose and cortisol levels in captive reindeer (Rangifer tarandus tarandus). Rangifer 1999, 19:85-89.
• [25]Soveri T, Sankari S, Salonen JS, Nieminen M: Effects of immobilization with medetomidine and reversal with atipamezole on blood chemistry of semi-domesticated reindeer (Rangifer tarandus tarandus) in autumn and late winter. Acta Vet Scand 1999, 40:335-349.
• [26]Ambrisko TD, Hikasa Y: Neurohormonal and metabolic effects of medetomidine compared with xylazine in beagle dogs. Can J Vet Res 2002, 66:42-49.
• [27]Carroll GL, Hartsfield SM, Champney TH, Geller SC, Martinez EA, Haley EL: Effect of medetomidine and its antagonism with atipamezole on stress-related hormones, metabolites, physiologic responses, sedation, and mechanical threshold in goats. Vet Anaesth Analg 2005, 32:147-157.
• [28]Kallio A, Koulu M, Scheinin H, Viikari J, Scheinin M: Acute effects of medetomidine, a selective alpha-2-adrenoceptor agonist, on anterior pituitary hormone and cortisol secretion in man. Acta Endocrinol 1988, 119:11-15.
• [29]Ranheim B, Horsberg TE, Soli NE, Ryeng KA, Arnemo JM: The effects of medetomidine and its reversal with atipamezole on plasma glucose, cortisol and noradrenaline in cattle and sheep. J Vet Pharmacol Ther 2000, 23:379-387.
• [30]Ambrisko TD, Hikasa Y, Sato K: Influence of medetomidine on stress-related neurohormonal and metabolic effects caused by butorphanol, fentanyl, and ketamine administration in dogs. Am J Vet Res 2005, 66:406-412.
• [31]Seal US, Swaim WR, Erickson AW: Hematology of ursidae. Comp Biochem Physiol A 1967, 22:451.
• [32]Matula GJ, Lindzey JS, Rothenbacher H: Sex, age, and seasonal differences in the blood profile of black bears captured in northeastern Pennsylvania. Bears: Their Biol Manage 1980, 4:49-56.
• [33]Hellgren EC, Rogers LL, Seal US: Serum chemistry and hematology of black bears: physiological indices of habitat quality or seasonal patterns? J Mammal 1993, 74:304-315.
• [34]Stockham SL, Scott MA: Fundamentals of veterinary clinical pathology. Blackwell Publishing, Ames, Iowa, USA; 2008.
• [35]Schroeder MT: Blood chemistry, hematology, and condition evaluation of black bears in northcoastal California. Bears: Their Biol Manage 1987, 7:333-349.
• [36]Storm GL, Alt GL, Matula GJ, Nelson RA: Blood-chemistry of black bears from Pennsylvania during winter dormancy. J Wildl Dis 1988, 24:515-521.
• [37]Thoresen SI, Arnemo JM, Liberg O: Hematology and serum clinical chemistry reference intervals for free-ranging Scandinavian gray wolves (Canis lupus). Vet Clin Path 2009, 38:224-229.
• [38]Rosol TJ, Capen CC: Calcium-regulating hormones and diseases of abnormal mineral (calcium, phosphorus, magnesium) metabolism. In Clinical Biochemistry of domestic Animals. 5th edition. Edited by Kaneko JJ, Harvey JW, Bruss ML. Academic Press, San Diego, California, USA; 1997:619-702.
• [39]Tryland M, Brun E, Derocher AE, Arnemo JM, Kierulf P, Olberg RA, Wiig O: Plasma biochemical values from apparently healthy free-ranging polar bears from Svalbard. J Wildl Dis 2002, 38:566-575.
• [40]Tryland M, Brun E: Serum chemistry of the minke whale from the northeastern Atlantic. J Wildl Dis 2001, 37:332-341.
• [41]Rostal MK, Evans AL, Solberg EJ, Arnemo JM: Hematology and serum chemistry reference ranges of free-ranging moose (Alces alces) in Norway. J Wildl Dis 2012, 48:548-559.
• [42]Shanmugam AA, Kumar JK, Selvaraj I, Selvaraj V: Effects of body weight and season on serum lipid concentrations in sloth bears (Melusus ursinus ursinus). J Zoo Wildl Med 2011, 42:373-381.
• [43]Frank N, Elliott SB, Allin SB, Ramsay EC: Blood lipid concentrations and lipoprotein patterns in captive and wild American black bears (Ursus americanus). Am J Vet Res 2006, 67:335-341.
• [44]Swenson JE, Jansson A, Riig R, Sandegren F: Bears and ants: myrmecophagy by brown bears in central Scandinavia. Can J Zool 1999, 77:551-561.