1. Assessing tuberculosis control priorities in high-burden settings: a modelling approach.
- Author
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Vesga JF, Hallett TB, Reid MJA, Sachdeva KS, Rao R, Khaparde S, Dave P, Rade K, Kamene M, Omesa E, Masini E, Omale N, Onyango E, Owiti P, Karanja M, Kiplimo R, Alexandru S, Vilc V, Crudu V, Bivol S, Celan C, and Arinaminpathy N
- Subjects
- Bayes Theorem, Cost of Illness, Humans, India epidemiology, Kenya epidemiology, Models, Statistical, Moldova epidemiology, Population Surveillance, Prevalence, Tuberculosis, Pulmonary epidemiology, Tuberculosis, Pulmonary mortality, Health Priorities, Tuberculosis, Pulmonary prevention & control
- Abstract
Background: In the context of WHO's End TB strategy, there is a need to focus future control efforts on those interventions and innovations that would be most effective in accelerating declines in tuberculosis burden. Using a modelling approach to link the tuberculosis care cascade to transmission, we aimed to identify which improvements in the cascade would yield the greatest effect on incidence and mortality., Methods: We engaged with national tuberculosis programmes in three country settings (India, Kenya, and Moldova) as illustrative examples of settings with a large private sector (India), a high HIV burden (Kenya), and a high burden of multidrug resistance (Moldova). We collated WHO country burden estimates, routine surveillance data, and tuberculosis prevalence surveys from 2011 (for India) and 2016 (for Kenya). Linking the tuberculosis care cascade to tuberculosis transmission using a mathematical model with Bayesian melding in each setting, we examined which cascade shortfalls would have the greatest effect on incidence and mortality, and how the cascade could be used to monitor future control efforts., Findings: Modelling suggests that combined measures to strengthen the care cascade could reduce cumulative tuberculosis incidence by 38% (95% Bayesian credible intervals 27-43) in India, 31% (25-41) in Kenya, and 27% (17-41) in Moldova between 2018 and 2035. For both incidence and mortality, modelling suggests that the most important cascade losses are the proportion of patients visiting the private health-care sector in India, missed diagnosis in health-care settings in Kenya, and drug sensitivity testing in Moldova. In all settings, the most influential delay is the interval before a patient's first presentation for care. In future interventions, the proportion of individuals with tuberculosis who are on high-quality treatment could offer a more robust monitoring tool than routine notifications of tuberculosis., Interpretation: Linked to transmission, the care cascade can be valuable, not only for improving patient outcomes but also in identifying and monitoring programmatic priorities to reduce tuberculosis incidence and mortality., Funding: US Agency for International Development, Stop TB Partnership, UK Medical Research Council, and Department for International Development., (Copyright © 2019 The Authors. Published by Elsevier Ltd. This is an Open Access article under the CC BY-NC-ND 4.0 license. Published by Elsevier Ltd.. All rights reserved.)
- Published
- 2019
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