Effective control of many diseases requires the accurate detection of infected individuals. Confidently ascertaining whether an individual is infected can be challenging when diagnostic tests are imperfect and when some individuals go for long periods of time without being observed or sampled. Here, we use a multi-event capture-recapture approach to model imperfect observations of true epidemiological states. We describe a method for interpreting potentially disparate results from individuals sampled multiple times over an extended period, using empirical data from a wild badger population naturally infected with Mycobacterium bovis as an example. We examine the effect of sex, capture history and current and historical diagnostic test resul...
<div><p>Diseases of humans and wildlife are typically tracked and studied through incidence, the num...
Accurate detection of infection with Mycobacterium bovis in live badgers would enable targeted tuber...
A study by Courtenay and others (2006) demonstrated that the probability of detecting Mycobacterium...
Effective control of many diseases requires the accurate detection of infected individuals. Confiden...
1. Surveillance of wildlife diseases is logistically difficult, and imperfect detection is a recurre...
International audienceEstimating eco-epidemiological parameters in free-ranging populations can be c...
Infectious disease surveillance is key to limiting the consequences from infectious pathogens and ma...
Infectious disease surveillance is key to limiting the consequences from infectious pathogens and ma...
Estimating eco-epidemiological parameters in free-ranging populations can be challenging. As known i...
Estimating eco-epidemiological parameters in free-ranging populations can be challenging. As known i...
1. Surveillance of wildlife diseases is logistically difficult, and imperfect detection is a recurre...
The impacts of disease on host vital rates can be demonstrated using longitudinal studies, but these...
Fitting models with Bayesian likelihood-based parameter inference is becoming increasingly important...
1. Reliable assessments of infection status and population prevalence are critical for epidemiologic...
Understanding the prevalence of pathogens in invasive species is essential to guide efforts to preve...
<div><p>Diseases of humans and wildlife are typically tracked and studied through incidence, the num...
Accurate detection of infection with Mycobacterium bovis in live badgers would enable targeted tuber...
A study by Courtenay and others (2006) demonstrated that the probability of detecting Mycobacterium...
Effective control of many diseases requires the accurate detection of infected individuals. Confiden...
1. Surveillance of wildlife diseases is logistically difficult, and imperfect detection is a recurre...
International audienceEstimating eco-epidemiological parameters in free-ranging populations can be c...
Infectious disease surveillance is key to limiting the consequences from infectious pathogens and ma...
Infectious disease surveillance is key to limiting the consequences from infectious pathogens and ma...
Estimating eco-epidemiological parameters in free-ranging populations can be challenging. As known i...
Estimating eco-epidemiological parameters in free-ranging populations can be challenging. As known i...
1. Surveillance of wildlife diseases is logistically difficult, and imperfect detection is a recurre...
The impacts of disease on host vital rates can be demonstrated using longitudinal studies, but these...
Fitting models with Bayesian likelihood-based parameter inference is becoming increasingly important...
1. Reliable assessments of infection status and population prevalence are critical for epidemiologic...
Understanding the prevalence of pathogens in invasive species is essential to guide efforts to preve...
<div><p>Diseases of humans and wildlife are typically tracked and studied through incidence, the num...
Accurate detection of infection with Mycobacterium bovis in live badgers would enable targeted tuber...
A study by Courtenay and others (2006) demonstrated that the probability of detecting Mycobacterium...