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1.
Prev Vet Med ; 98(2-3): 133-41, 2011 Feb 01.
Article in English | MEDLINE | ID: mdl-21071104

ABSTRACT

The recurrence and persistence of foot and mouth disease (FMD) could be the consequence of cyclic and massive transportation of calves. For this reason, in South America, vaccination strategies related to livestock dynamic are being promoted. In order to aid the evaluation of such strategies, a method for predicting the risk of transportation of nonvaccinated weaned calves was developed; this method combines expert opinion and empirical evidence using Bayesian estimators. It was applied through Monte Carlo simulation to data of Argentina under four hypothetical vaccination schemes: E1, extended vaccination season of 1/6 of the population of calves each month from July to December without second round vaccination (SRV); E2, extended irregular vaccination from July to December with SRV applied to 70% of the calves resembling the scheme applied in Argentina in 2001; E3, vaccination in November and December without SRV; and E4, vaccination concentrated in November. E1 resulted in probability of transporting non vaccinated calves (tnvc) reaching its maximum in the following year in May with mean=0.0250 and percentile 95% (P95)=0.0404; for the same month tnvc estimates for the other schemes were E2: mean=0.0071; P95=0.0162; E3: mean=0.0017; P95=0.0042 and E4: mean=0.0001; P95=0.0004. Bonferroni multiple comparison for simultaneous assertions for May showed that E4 resulted the best scheme, E1 the worst, and E2 and E3 are intermediate with nonsignificant difference observed between overall (p<0.05). Results were consistent with historical records and quantification for future needs for re-vaccination was made possible. While the ratio "total vaccinated"/"total estimated existences" will give a biased vision of vaccination coverage under the situation of extended vaccination campaigns, a model as the one developed here could allow a more accurate assessment and the design of mitigation plans.


Subject(s)
Cattle Diseases/epidemiology , Foot-and-Mouth Disease/epidemiology , Transportation , Vaccination/veterinary , Viral Vaccines/administration & dosage , Animals , Animals, Newborn , Argentina/epidemiology , Cattle , Cattle Diseases/prevention & control , Cattle Diseases/transmission , Female , Foot-and-Mouth Disease/prevention & control , Foot-and-Mouth Disease/transmission , Foot-and-Mouth Disease Virus/immunology , Foot-and-Mouth Disease Virus/pathogenicity , Male , Monte Carlo Method , Risk Factors , Seasons , Viral Vaccines/immunology , Weaning
2.
J Dairy Sci ; 92(12): 6160-6, 2009 Dec.
Article in English | MEDLINE | ID: mdl-19923619

ABSTRACT

The objectives of this study were to evaluate the effect of somatic cell count (SCC) on functional longevity and to estimate the heritability of functional longevity using survival analysis in Valle del Belice dairy sheep. A total of 4,880 lactations of 2,190 ewes from 11 flocks were used. In this study, SCC was considered as an indication of subclinical mastitis. In case of clinical cases, identified by the technicians at milking time, test-day weights and milk samples of those ewes were not considered. Somatic cells were analyzed as counts, without any transformation, and were grouped in 3 classes based on the observed SCC maximum (mxSCC). The mxSCC classes, expressed as 10(3) cells/mL, were classified as 1 if mxSCC or= 1,000. An increase in SCC was associated with an increased hazard of being culled. Ewes in the highest class of SCC on a test-day had a 20% higher hazard of being culled than those in the lowest class. Therefore, SCC played a role in culling decisions of Valle del Belice dairy sheep farmers. The heritability estimate for functional longevity was 7% on the logarithmic scale and 11% on the real scale, indicating that selection for this trait is possible in sheep. The flock-year-season effect explained 19% of the variation on the logarithmic scale and 27% of the variation on the real scale.


Subject(s)
Longevity/genetics , Mastitis/veterinary , Milk/cytology , Sheep/physiology , Animals , Cell Count , Dairying , Female , Mastitis/physiopathology , Models, Biological , Quantitative Trait, Heritable , Sheep/genetics , Survival Analysis
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