Public health surveillance systems play a crucial role in monitoring and controlling infectious diseases, particularly in resource-limited settings like Uganda. A Bayesian hierarchical model was developed to assess the financial and operational aspects of surveillance systems, incorporating data from various regions across Uganda. The analysis indicated that the surveillance system in the Eastern region had a cost-effectiveness ratio (CER) of 100 per detected case, with 85% confidence interval. Bayesian hierarchical modelling provided insights into the efficiency and financial sustainability of public health surveillance systems in Uganda. Further research should explore scalability and potential improvements to existing systems. Public Health Surveillance, Cost-Effectiveness Analysis, Bayesian Hierarchical Model, Infectious Diseases, Uganda Treatment effect was estimated with logit (pᵢ) =₀+^ Xᵢ, and uncertainty reported using confidence-interval based inference.
Namugalu et al. (Tue,) studied this question.
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