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Vet. Res.
Volume 31, Number 6, November-December 2000
Page(s) 583 - 602
How to cite this article Vet. Res. (2000) 583-602


Adkinson R.W., Ingawa K.H., Blouin D.C., Nickerson S.C., Distribution of Clinical Mastitis Among Quarters of the Bovine Udder, J. Dairy Sci. 76 (1993) 3453-3459.
Allore H.G., Erb H.N., Approaches to modeling intramammary infections in dairy cattle, Prev. Vet. Med. 39 (1999) 279-293.
Allore H.G., Jones L.R., Merrill W.G., Oltenacu P.A., A Decision Support System for Evaluating Mastitis Information, J. Dairy Sci. 78 (1995) 1382-1398.
Allore H.G., Erb H.N., Schruben L.W., Oltenacu P.A., A Simulation of Strategies to Lower Bulk Tank Somatic Cell Count Below 500,000 per Milliliter, J. Dairy Sci. 81 (1998) 694-702.
Allore H.G., Schruben L.W., Erb H.N., Oltenacu P.A., Design and Validation of a Dynamic Discrete Event Stochastic Simulation Model of Mastitis Control in Dairy Herds, J. Dairy Sci. 81 (1998) 703-717.
Andersen P.K., Borgan O., Gill R.D., Keiding N., Statistical models based on counting processes, Spinger-Verlag, New York, 1993.
Barnouin J., Geromegnace N., Chassagne M., Dorr N., Sabatier P., Facteurs structurels de variation des niveaux de comptage cellulaire du lait et de fréquence des mammites cliniques dans 560 élevages bovins répartis dans 21 départements français, INRA Prod. Anim. 12 (1999) 39-48.
Bigras-Poulin M., Meek A.H., Martin S.W., McMillan I., Health problems in selected Ontario Holstein cows: frequency of occurrences, time to first diagnosis and associations, Prev. Vet. Med. 10 (1990) 79-89.
Bramley A.J., Dodd F.H., Reviews of the progress of Dairy Science: Mastitis control - progress and prospects, J. Dairy Res. 51 (1984) 481-512.
Clayton D., Cuzick J., Multivariate generalizations of the proportional hazards model, J. R. Stat. Soc. A 148 (1985) Part 2 , 82-117.
Collett D., Modelling Binary Data, Chapman & Hall, Londres, 1991.
Curtis C.R., Erb H.N., Sniffen C.J., Smith R.D., Powers P.A., Smith M.C., White M.E., Hillman R.B., Pearson E.J., Association of parturient hypocalcemia with eight periparturient disorders in Holstein cows, J. Am. Vet. Med. Assoc. 183 (1983) 559-561.
Diggle P.J., Liang K., Zeger S.L., Analysis of longitudinal Data, Clarendon Press, Oxford, 1994.
Donald A., Prevalence estimation using diagnostic tests when there are multiple, correlated disease states in the same animal or farm, Prev. Vet. Med. 15 (1993) 125-145.
Donald A.W., Estimating the prevalence of mastitis and other organ-specific diseases in the presence of within-animal disease correlation and diagnostic test correlation, Prev. Vet. Med. 20 (1994) 113-133.
Donald A.W., Gardner I.A., Wiggins A.D., Cut-off points for aggregate herd testing in the presence of disease clustering and correlation of test errors, Prev. Vet. Med. 19 (1994) 167-187.
Döpfer D., Barkema H.W., Lam T.J.G.M., Schukken Y.H., Gaastra W., Recurrent Clinical Mastitis Caused by Escherichia coli in Dairy Cows, J. Dairy Sci. 82 (1999) 80-85.
Fleming T.R., Harrington D.P., Counting Processes and Survival Analysis, John Wiley & Sons, New York, 1991.
Gasqui P., Coulon J.B., Modélisation de l'occurrence des mammites cliniques au sein d'un troupeau: analyse de la surdispersion, Epidémiol. Santé Anim. 32 (1997) 13.21.1-3.
Gasqui P., Pons O., Modèle de prediction de l'occurrence des mammites cliniques chez la vache laitière au cours de ses lactations successives, Epidémiol. Santé Anim. 34 (1998) 145-150.
Goff J.P., Horst R.L., Physiological Changes at Parturition and their Relationship to Metabolic Disorders, J. Dairy Sci. 80 (1997) 1260-1268.
Hortet P., Seegers H., Loss in milk yield and related composition changes resulting from clinical mastitis in dairy cows, Prev. Vet. Med. 37 (1998) 1-20.
Houben E.H.P., Huirne R.B.M., Dijkhuizen A.A., Kristensen A.R., Optimal Replacement of Mastitic Cows Determined by a Hierarchic Markov Process, J. Dairy Sci. 77 (1994) 2975-2993.
International Dairy Federation, Recommendations for representation of mastitis-related data, Bulletin of the IDF, IDF, Bruxelles, 321 (1997) 16-21.
Johnson N.L., Kotz S., Exponential Distribution, Chapter 18, in: Continuous univariate distribution-1, John Wiley, New York, 1970, pp. 207-232.
Johnson N.L., Kotz S., Kemp A.W., Poisson Distribution, Chapter 4, in: Univariate Discrete Distributions, 2nd ed., John Wiley, New York, 1992, pp. 151-198.
Kehrli M.E. Jr, Goff J.P., Periparturient hypocalcemia in cows: effects on peripheral blood neutrophil and lymphocyte function, J. Dairy Sci. 72 (1989) 1188-1196.
Kelton D.F., Lissemore K.D., Martin R.E., Recommendations for recording and calculating the incidence of selected clinical diseases of dairy cattle, J. Dairy Sci. 81 (1998) 2502-2509.
Kossaibati M.A., Hovi M., Esslemont R.J., Incidence of clinical mastitis in dairy herds in England, Vet. Rec. 143 (1998) 649-653.
Lancar R., Méthodes robustes d'analyse de temps de survie multivariés, Rev. Epidémiol. Santé Publique 47 (1999) 287-296.
Lemdani M., Pons O., Estimation and tests in finite mixture models for censored survival data, Statistics 29 (1997) 363-388.
Lescourret F., Coulon J.B., Faye B., Predictive Model of Mastitis Occurrence In the Dairy Cow, J. Dairy Sci. 78 (1995) 2167-2177.
McCullagh P., Nelder J.A., Generalized Linear Models, 2nd ed., Chapman & Hall, London, 1989.
McDermott J.J., Progress in analytic methods - more sophistication or back to basics?, Prev. Vet. Med. 25 (1995) 121-133.
McDermott J.J., Schukken Y.H., A review of methods used to adjust for cluster effects in explanatory epidemiological studies of animal populations, Prev. Vet. Med. 18 (1994) 155-173.
McDermott J.J., Schukken Y.H., Shoukri M.M., Study design and analytic methods for data collected from clusters of animals, Prev. Vet. Med. 18 (1994) 175-191.
McMillan K.L., Duirs G.F., Duganzich D.M., Associations Between Dry Cow Therapy, Clinical Mastitis, and Somatic Cell Count Score with Milk and Fat Production in Ten New Zealand Dairy Herds, J. Dairy Sci. 66 (1983) 259-265.
Morse D., DeLorenzo M.A., Wilcox C.J., Natzke R.P., Bray D.R., Occurrence and Reoccurrence of Clinical Mastitis, J. Dairy Sci. 70 (1987) 2168-2175.
Noordhuizen J.P.T.M., Frankena K., van der Hoofd C.M., Graat E.A.M., Analysis of time at risk (survival) data, Chapter VII, in: Application of quantitative methods in veterinary epidemiology, Wageningen Pers, Wageningen, 1997, pp. 181-200.
Oltenacu P.A., Natzke R.P., Mathematical of the Mastitis Infection Process, J. Dairy Sci. 59 (1975) 515-521.
Rodriguez-Zas S.L., Gianola D., Shook G.E., Bayesian Analysis via Gibbs Sampling of Susceptibility to intramammary Infection in Holstein Cattle, J. Dairy Sci. 81 (1998) 2710-2722.
Schukken Y.H., Casella G., van den Broek J., Overdispersion in clinical mastitis data from dairy herds: a negative binomial approach, Prev. Vet. Med. 10 (1991) 239-245.
Stott A.W., Kennedy J.O., The economics of culling dairy cows with clinical mastitis, Vet. Rec. 133 (1993) 494-499.
Tempelman R.J., Gianola D., Genetic Analysis of Fertility in Dairy Cattle Using Negative Binomial Mixed Models, J. Dairy Sci. 82 (1999) 1834-1847.
Todhunter D.A., Smith K.L., Hogan J.S., Environmental Streptococcal Intramammary Infections of the Bovine Mammary Gland, J. Dairy Sci. 78 (1995) 2366-2374.
Wilson D.J., Gonzalez R.N., Case K.L., Garrison L.L., Gröhn Y.T., Comparison of seven Antibiotic Treatments with No Treatment for Bacteriological Efficacy Against Bovine Mastitis Pathogens, J. Dairy Sci. 82 (1999) 1664-1670.


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