"background": "Public health surveillance systems are critical for disease control, yet their reliability is often uncertain. In many settings, including Senegal, methodological frameworks for quantifying this reliability and its spatial-temporal variation are lacking, hindering evidence-based system strengthening. ", "purpose and objectives": "This study aimed to develop and evaluate a novel Bayesian hierarchical model to quantify the reliability of public health surveillance systems, with a specific application to Senegal. The objective was to provide a robust methodological tool for identifying systematic under-reporting and spatial heterogeneity in system performance. ", "methodology": "We developed a Bayesian hierarchical model integrating case report data with latent true incidence. The core model structure is y{it \ (\), where yit are observed cases in region i and time t, is the latent true incidence, and is the region-specific reporting reliability. We fitted the model using Markov chain Monte Carlo simulation with data from multiple disease programmes. ", "findings": "The model identified substantial spatial heterogeneity in system reliability, with regional reporting probabilities (\) ranging from 0. 35 to 0. 92 (posterior median). A key finding was that approximately 40% of regions had a posterior probability greater than 0. 9 that their true reliability was below the national target threshold of 0. 8. ", "conclusion": "The proposed model provides a statistically robust framework for evaluating surveillance system performance, moving beyond descriptive metrics to a probabilistic assessment of reliability. It successfully quantified significant and previously unmeasured spatial disparities in reporting completeness within the country. ", "recommendations": "Implement the model as a routine analytical tool within the national surveillance division to prioritise regions for system investment. Future research should integrate socioeconomic covariates to explain the observed heterogeneity in \. ", "key words": "surveillance evaluation, Bayesian statistics, hierarchical modelling, health systems, disease
Diop et al. (Tue,) studied this question.