Abstract
BackgroundSpecific isoniazid (INH) resistance conferring mutations have been shown to impact the likelihood of tuberculosis (TB) transmission. However, their role in the clinical presentation and outcomes of TB has not been evaluated.MethodsWe included all cases of culture-confirmed, INH monoresistant tuberculosis reported to the San Francisco Department of Public Health Tuberculosis Control Section from October 1992 through October 2005. For cases with stored culture isolates, we used polymerase chain reaction (PCR) testing and gene sequencing to identify INH resistance-conferring mutations, and compared genotypic and phenotypic characteristics.ResultsAmong 101 consecutive cases of INH monoresistant TB in San Francisco 19 (19%) had isolates with a katG mutation other than S315T; 38 (38%) had isolates with the katG S315T mutation, 29 (29%) had isolates with a inhA-15;c-t promoter mutation, and 15 (15%) had isolates with other mutations. The katG S315T mutation was independently associated with high-level INH resistance (risk ratio [RR] 1.56, 95% confidence interval [CI] 1.07–2.27), and the inhA-15;c-t promoter mutation was inversely associated with high-level INH resistance (RR 0.43, 95% CI 0.21–0.89). However, specific INH resistance-conferring mutations were not associated with the clinical severity or outcomes of INH monoresistant TB cases.ConclusionThese data suggest that INH resistance-conferring mutations do not impact the clinical presentation of TB.
Highlights
Resistance to first-line anti-tuberculosis (TB) medications is a continuing global health problem [1]
Prior studies have shown that clinical outcomes are similar in patients with fully drug susceptible and INH monoresistant TB [7], and suggest that specific INH resistance-conferring mutations impact the transmissibility and pathogenicity of M. tuberculosis [8] [9]
We evaluated the genotypic and phenotypic characteristics of a well-characterized cohort of INH monoresistant TB cases in San Francisco
Summary
Resistance to first-line anti-tuberculosis (TB) medications is a continuing global health problem [1]. Resistance to INH in Mycobacterium tuberculosis is mediated by at least two genes, katG [3] and inhA [4]. Prior studies have shown that clinical outcomes are similar in patients with fully drug susceptible and INH monoresistant TB [7], and suggest that specific INH resistance-conferring mutations impact the transmissibility and pathogenicity of M. tuberculosis [8] [9]. Specific isoniazid (INH) resistance conferring mutations have been shown to impact the likelihood of tuberculosis (TB) transmission. Their role in the clinical presentation and outcomes of TB has not been evaluated
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