African Sports Medicine Journal | 10 April 2009
Bayesian Hierarchical Model for Evaluating Cost-Effectiveness of Public Health Surveillance Systems in Rwanda
M, u, h, i, r, e, K, a, y, u, m, b, a
Abstract
Public health surveillance systems play a crucial role in monitoring infectious diseases such as influenza and tuberculosis (TB). Rwanda has implemented such systems to enhance early detection and response mechanisms. A Bayesian hierarchical model was developed to estimate the costs and benefits associated with public health surveillance. This approach accounts for both fixed and random effects, allowing for more nuanced cost-effectiveness analysis. The model revealed that TB surveillance in Rwanda had a positive net benefit, indicating that the investment in these systems provided greater value than its cost. The Bayesian hierarchical model demonstrated effectiveness in quantifying the cost-effectiveness of public health surveillance systems in Rwanda. This method can be applied to other healthcare interventions. Further research should explore how different surveillance strategies might affect the cost-effectiveness outcomes, potentially leading to optimised resource allocation. Treatment effect was estimated with $\text{logit}(p<em>i)=\beta</em>0+\beta^\top X_i$, and uncertainty reported using confidence-interval based inference.