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Molecular Epidemiology and Geospatial Analysis of TB Transmission in Uganda

$127,440K23FY2015AINIH

University Of California, San Francisco, San Francisco CA

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Incomplete understanding as to how HIV influences TB transmission dynamics in Africa represents a major gap in knowledge and a significant obstacle to disrupting TB transmission. Characterizing recent TB transmission networks, identifying sites of ongoing TB transmission, and understanding how HIV influences TB transmission are all critical steps in developing novel, strategic intensified TB case-finding approaches in Africa. Our central hypotheses are that the majority of recent TB transmission in this high HIV prevalence setting takes place in community gathering and health care sites, as opposed to households, and HIV-infected persons are at significantly increased risk of recent TB transmission compared to HIV-uninfected persons. The objectives of the current proposal are the following: Aim 1: Identify and characterize recent TB transmission networks in an East African rural setting. We will perform molecular epidemiologic analysis of all diagnosed, culture-positive TB cases initiating TB therapy in Tororo Municipality over 3 years (~360) in order to identify recent TB transmission networks defined by genotypic clustering of TB isolates. Aim 2: Locate sites of frequent TB transmission through analysis of the geographic distribution and social networks of genotype-clustered incident TB cases. We will combine molecular epidemiologic, geospatial and social network data to identify TB transmission hot spots, characterized by high levels of TB transmission. These hot spots may occur in commercial, social (e.g. markets, bars, churches), or health care settings. We will investigate how HIV influences where TB is transmitted at a community level Aim 3: Pilot test a place-based intensified TB case-finding strategy at two identified locations of high TB transmission risk. Through a focused program of mentored training and coursework, the candidate will develop advanced skills in molecular epidemiology, Geographic Information System (GIS) analysis and the spatial analysis of epidemiologic data, social network analysis, and the conduct of prospective clinical studies in resource-limited settings. These scientific and career aims will serve as the basis for the long term research goal of conducting large, community-wide trials of targeted intensified TB case-finding in sub-Saharan Africa in order to reduce TB mortality and transmission among HIV-infected and uninfected persons.

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