Abstract
BackgroundAgainst the backdrop of renewed efforts to control tuberculosis (TB) worldwide, there is a need for improved methods to estimate the public health impact of TB programmes. Such methods should not only address the improved outcomes amongst those receiving care but should also account for the impact of TB services on reducing transmission.MethodsVital registration data in India are not sufficiently reliable for estimates of TB mortality. As an alternative approach, we developed a mathematical model of TB transmission dynamics and mortality, capturing the scale-up of DOTS in India, through the rollout of the Revised National TB Control Programme (RNTCP). We used available data from the literature to calculate TB mortality hazards amongst untreated TB; amongst cases treated under RNTCP; and amongst cases treated under non-RNTCP conditions. Using a Bayesian evidence synthesis framework, we combined these data with current estimates for the TB burden in India to calibrate the transmission model. We simulated the national TB epidemic in the presence and absence of the DOTS programme, measuring lives saved as the difference in TB deaths between these scenarios.ResultsFrom 1997 to 2016, India’s RNTCP has saved 7.75 million lives (95% Bayesian credible interval 6.29–8.82 million). We estimate that 42% of this impact was due to the ‘indirect’ effects of the RNTCP in averting transmission as well as improving treatment outcomes.ConclusionsWhen expanding high-quality TB services, a substantial proportion of overall impact derives from preventive, as well as curative, benefits. Mathematical models, together with sufficient data, can be a helpful tool in estimating the true population impact of major disease control programmes.
Highlights
Against the backdrop of renewed efforts to control tuberculosis (TB) worldwide, there is a need for improved methods to estimate the public health impact of TB programmes
Following a review of the erstwhile National TB Programme (NTP) in 1992, the Government of India decided to implement the Revised National TB Control Programme (RNTCP), adopting the internationally recommended Directly Observed Treatment, Short Course (DOTS) strategy [2] based on five principles: political and administrative commitment; good-quality diagnosis; uninterrupted supply of quality drugs; directly observed treatment (DOT); and systematic
The modelling framework We developed a deterministic, compartmental mathematical model to capture the essential dynamics of diagnosis, treatment and transmission of TB in India, including the scale-up of RNTCP services
Summary
Against the backdrop of renewed efforts to control tuberculosis (TB) worldwide, there is a need for improved methods to estimate the public health impact of TB programmes. Such methods should address the improved outcomes amongst those receiving care but should account for the impact of TB services on reducing transmission. India is the highest tuberculosis (TB)-burdened country in the world, accounting for about a quarter of all incident cases and TB deaths [1]. Lives are saved by averting transmission as well as by improving treatment outcomes [10, 11]
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