Abstract
The single intradermal comparative cervical tuberculin (SICCT) test is the primary test for ante-mortem diagnosis of bovine tuberculosis (TB) in England and Wales. When an animal is first classified as an inconclusive reactor (IR) using this test, it is not subject to compulsory slaughter, but it must be isolated from the rest of the herd. To understand the risk posed by these animals, a case-control study was conducted to measure the association between IR status of animals and the odds of them becoming a reactor to the SICCT at a subsequent test. The study included all animals from herds in which only IR animals were found at the first whole herd test in 2012 and used data from subsequent tests up until the end of 2016. Separate mixed-effects logistic regression models were developed to examine the relationship between IR status and subsequent reactor status for each risk area of England and for Wales, adjusting for other explanatory variables. The odds of an animal becoming a subsequent reactor during the study period were greater for IR animals than for negative animals in the high-risk area (odds ratio (OR): 6.85 (5.98–7.86)) and edge area (OR: 8.79 (5.92–13.04)) of England and in Wales (OR: 6.87 (5.75–8.22)). In the low-risk area of England, the odds were 23 times greater, although the confidence interval around this estimate was larger due to the smaller sample size (11–48, p < 0.001). These findings support the need to explore differential controls for IR animals to reduce the spread of TB, and they highlight the importance of area-specific policies.
Highlights
Bovine tuberculosis (TB), caused by Mycobacterium bovis, poses a fundamental problem for the cattle industry in both England and Wales
Cases were defined as animals classified as reactors during the study period after the first whole-herd test (WHT) in 2012 as a result of a positive single intradermal comparative cervical tuberculin (SICCT) test, a positive IFN-γ test, or lesions suspicious of TB observed during slaughterhouse surveillance
Among inconclusive reactor (IR) animals, around 58% were classified as reactors by an IR re-test, and 50% were classified as reactors within 84 days
Summary
Bovine tuberculosis (TB), caused by Mycobacterium bovis, poses a fundamental problem for the cattle industry in both England and Wales. It represents a significant contagious disease, with some areas of England having the highest levels of TB in the European Union [1]. The overall incidence rate in England in 2018 was 11 new cases per 100 herd years at risk. This incidence rate is relatively stable since. There is some evidence of an increase in incidence in the areas surrounding parts of England considered endemic for TB each year between 2015 and 2018 [2,3], suggesting continued spread. In Wales, the incidence rate in 2017 was seven new cases per 100 herd years at risk [3]
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