A novel Bayesian Latent Class Model (BLCM) evaluates multiple continuous and binary tests: A case study for Brucella abortus in dairy cattle.

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Date
2024-03-01
Open Access Location
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Publisher
Elsevier B.V.
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(c) 2024 The Author/s
CC BY 4.0
Abstract
Bovine brucellosis, primarily caused by Brucella abortus, severely affects both animal health and human well-being. Accurate diagnosis is crucial for designing informed control and prevention measures. Lacking a gold standard test makes it challenging to determine optimal cut-off values and evaluate the diagnostic performance of tests. In this study, we developed a novel Bayesian Latent Class Model that integrates both binary and continuous testing outcomes, incorporating additional fixed (parity) and random (farm) effects, to calibrate optimal cut-off values by maximizing Youden Index. We tested 651 serum samples collected from six dairy farms in two regions of Henan Province, China with four serological tests: Rose Bengal Test, Serum Agglutination Test, Fluorescence Polarization Assay, and Competitive Enzyme-Linked Immunosorbent Assay. Our analysis revealed that the optimal cut-off values for FPA and C-ELISA were 94.2 mP and 0.403 PI, respectively. Sensitivity estimates for the four tests ranged from 69.7% to 89.9%, while specificity estimates varied between 97.1% and 99.6%. The true prevalences in the two study regions in Henan province were 4.7% and 30.3%. Parity-specific odds ratios for positive serological status ranged from 1.2 to 2.2 for different parity groups compared to primiparous cows. This approach provides a robust framework for validating diagnostic tests for both continuous and discrete tests in the absence of a gold standard test. Our findings can enhance our ability to design targeted disease detection strategies and implement effective control measures for brucellosis in Chinese dairy farms.
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Keywords
Bayesian Latent Class Model (BLCM), Bovine brucellosis, Cut-off calibration, Diagnostic performance, Receiver Operating Characteristic (ROC), Serological tests, Female, Humans, Cattle, Animals, Brucella abortus, Bayes Theorem, Latent Class Analysis, Sensitivity and Specificity, Agglutination Tests, Brucellosis, Enzyme-Linked Immunosorbent Assay, Brucellosis, Bovine, Antibodies, Bacterial, Serologic Tests, Cattle Diseases
Citation
Wang Y, Vallée E, Compton C, Heuer C, Guo A, Wang Y, Zhang Z, Vignes M. (2024). A novel Bayesian Latent Class Model (BLCM) evaluates multiple continuous and binary tests: A case study for Brucella abortus in dairy cattle.. Prev Vet Med. 224. (pp. 106115-).
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