Methodological approach for substantiating disease freedom in a heterogeneous small population. Application to ovine scrapie, a disease with a strong genetic susceptibility

Demonstrating disease freedom is becoming important in different fields including animal disease control. Most methods consider sampling only from a homogeneous population in which each animal has the same probability of becoming infected. In this paper, we propose a new methodology to calculate the...

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Bibliographic Details
Published in:Preventive veterinary medicine 2010-06, Vol.95 (1-2), p.108-114
Main Authors: Martinez, Marie-José, Durand, Benoit, Calavas, Didier, Ducrot, Christian
Format: Article
Language:English
Subjects:
Animal biology
Animals
disease control
disease detection
Disease freedom
disease incidence
disease-free animals
Female
Genetic Predisposition to Disease
genetic variation
Hypergeometric distribution
Life Sciences
Male
Methodology
new methods
pathogen eradication
Population heterogeneity
Prevalence
Probability
PrPSc proteins
Risk Assessment
risk factors
sampling
Santé publique et épidémiologie
Scrapie
Scrapie - diagnosis
Scrapie - epidemiology
Scrapie - genetics
Scrapie - prevention & control
Sentinel Surveillance
Sentinel Surveillance - veterinary
Sheep
simulation models
statistical analysis
Statistics
Veterinary medicine and animal Health
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Summary:Demonstrating disease freedom is becoming important in different fields including animal disease control. Most methods consider sampling only from a homogeneous population in which each animal has the same probability of becoming infected. In this paper, we propose a new methodology to calculate the probability of detecting the disease if it is present in a heterogeneous population of small size with potentially different risk groups, differences in risk being defined using relative risks. To calculate this probability, for each possible arrangement of the infected animals in the different groups, the probability that all the animals tested are test-negative given this arrangement is multiplied by the probability that this arrangement occurs. The probability formula is developed using the assumption of a perfect test and hypergeometric sampling for finite small size populations. The methodology is applied to scrapie, a disease affecting small ruminants and characterized in sheep by a strong genetic susceptibility defining different risk groups. It illustrates that the genotypes of the tested animals influence heavily the confidence level of detecting scrapie. The results present the statistical power for substantiating disease freedom in a small heterogeneous population as a function of the design prevalence, the structure of the sample tested, the structure of the herd and the associated relative risks.
ISSN:0167-5877
1873-1716
DOI:10.1016/j.prevetmed.2010.02.017