COMPARISON OF DIAGNOSTIC PREDICTORS OF NEONATAL SURVIVABILITY IN NONDOMESTIC CAPRINAE.
Journal
Journal of zoo and wildlife medicine : official publication of the American Association of Zoo Veterinarians
ISSN: 1042-7260
Titre abrégé: J Zoo Wildl Med
Pays: United States
ID NLM: 8915208
Informations de publication
Date de publication:
Mar 2022
Mar 2022
Historique:
accepted:
20
09
2021
entrez:
27
3
2022
pubmed:
28
3
2022
medline:
1
4
2022
Statut:
ppublish
Résumé
This retrospective study evaluated whether six methods (glutamyltransferase, glutaraldehyde coagulation test, sodium sulfite precipitation test, total serum protein, glucose, and fibrinogen) used to assess passive transfer status in ruminants were predictive of survival of nondomestic Caprinae neonates in a zoological collection. A total of 184 neonates from 10 nondomestic Caprinae species had one or more testing methods performed within 7 d of birth. Results of each test were compared with the clinical condition (alive or dead) at 7, 30, and 90 d of age. Total protein (TP) results were not considered for statistical significance in this study. No statistical correlations between results of the serum gamma glutamyltransferase (GGT), glutaraldehyde coagulation test, or sodium sulfite precipitation test (BOVA-S) and survival at any age were found. A higher glucose level within 7 d of birth was associated with a greater probability of survival. Fibrinogen levels were found to have a strong negative association with survival at 30 and 90 d. Increased glucose concentration was negatively associated with the probability of an infectious cause of mortality and the need for medical intervention. In contrast, increased fibrinogen levels were associated with higher probabilities of infectious death and the need for major medical care. Neonates who were confirmed to have nursed had a lower likelihood of requiring major medical intervention. These findings suggest that glucose and fibrinogen levels are better predictors of neonatal survival in nondomestic Caprinae when compared to the other three tests reviewed in this study. Using survival as an indicator of adequate passive transfer in this group of neonates failed to identify a gold standard of diagnosis of failure of passive transfer, so more than one diagnostic test should be utilized.
Substances chimiques
gamma-Glutamyltransferase
EC 2.3.2.2
Glutaral
T3C89M417N
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Pagination
31-40Références
Britti D, Massimini G, Peli A, Luciani A, Boari A. Evaluation of serum enzyme activities as predictors of passive transfer status in lambs. J Am Vet Med Assoc. 2005;226(6):951–955.
Carey VJ, Lumley T, Ripley BD. gee: Generalized Estimation Equation Solver. 2012; http://CRAN.Rproject.org/package=gee.
Carstairs-Grant SJ, Crawshaw GJ, Mehren KG. A comparison of the glutaraldehyde coagulation test and total serum protein estimation as indicators of gamma globulin levels in neonatal ruminants. J Zoo Wildl Med. 1988;19(1/2):14–17.
Chigerwe M, Barrington GM. Failure of colostrum passive immunity. In: Smith BP (ed.). Large animal medicine, Volume 5. St. Louis (MO): Mosby; 2014. p. 1573–1575.
Coons DM, Thompson KA, Lamberski N, Chigerwe M. Quantitative indirect ELISA-based method for the measurement of serum IgG in springbok calves. Intern J Zoo Appl Res Vet Med. 2012;10(2):142–146.
Dolensek EP. Use of gluteraldehyde coagulation tests to evaluate the immune status of exotic hoof stock. J Zoo Anim Med. 1985;16(3):107–109.
Elsohaby I, McClure JT, Riley CB, Shaw RA, Keefe GP. Quantification of bovine immunoglobulin G using transmission and attenuated total reflectance infrared spectroscopy. J Vet Diagn Invest. 2016;28(1): 30–37.
Godden S. Colostrum management for dairy calves. Vet Clin Food Anim. 2008;24(1):19–39.
Gonzalez FH, Tecles F, Martinez-Subiela S, Tvarijonaviciute A, Soler L, Ceron JJ. Acute phase protein response in goats. J Vet Diagn Invest. 2008;20: 580–584.
Hammond EE, Fiorello CV. Evaluation of passive transfer in captive greater kudu (
Hopkins FM, Dean DF, Greene W. Failure of passive transfer in calves: comparison of field diagnosis methods. Mod Vet Pract. 1984;65(8):625–628.
Howard LL, Turner LM, Stalis IH, Morris PJ. Serum gamma-glutamyltransferase as a prognostic indicator of neonatal viability in nondomestic ruminants. J Zoo Wildl Med. 2005;36(2):239–244.
Larson BL, Heary HL JR, Devery JE. Immunoglobulin production and transport by the mammary gland. J Dairy Sci. 1980;63(4):665–671.
Massimini G, Mastellone V, Britti D, Lombardi P, Avallone L. Effect of passive transfer status on preweaning growth performance in dairy goat kids. J Am Vet Med Assoc. 2007;231(12):1873–1877.
Miller M, Coville B, Abou-Madi N, Olsen J. Comparison of in vitro tests for evaluation of passive transfer of immunoglobulins in giraffe (
Nowak R, Poindron P. From birth to colostrum: early steps leading to lamb survival. Reprod Nutr Dev. 2006;46(4):431–446.
O'Brien JP, Sherman DM. Field methods for estimating serum immunoglobulin concentrations in newborn kids. Small Rumin Res. 1993;11(1):79–84.
O'Rourke KI, Satterfield WC. Glutaraldehyde coagulation test for detection of hypogammaglobulinemia in neonatal nondomestic ruminants. J Am Vet Med Assoc. 1981;179(11):1144–1146.
R Core Team. R: a language and environment for statistical computing. Vienna (Austria): R Foundation for Statistical Computing; 2019. https://www.Rproject.org/
Satterfield WC, O'Rourke K. Rapid serum tests for adequate transfer of colostral antibody in neonate non-domestic bovids: banteng (
Swan H, Godden S, Bey R, Wells S, Fetrow J, Chester-Jones H. Passive transfer of immunoglobulin G and preweaning health in Holstein calves fed a commercial colostrum replacer. J Dairy Sci. 2007;90: 3857–3866.
Thompson KA, Lamberski N, Kass PH, Coons D, Chigerwe M. Evaluation of commercial bovine colostrum replacer for achieving passive transfer of immunity in springbok calves (
Tyler JW, Besser TE, Wilson L, Hancock DD, Sanders S, Rea DE. Evaluation of a whole blood glutaraldehyde coagulation test for the detection of failure of passive transfer in calves. J Vet Intern Med. 1996;10(2):82–84.
Weaver DM, Tyler JW, VanMetre DC, Hostetler DE, Barrington GM. Passive transfer of colostral immunoglobulins in calves. J Vet Intern Med. 2000; 14(6):569–577.
Wickham H. Ggplot2: Elegant graphics for data analysis. New York (NY): Springer-Verlag; 2016.