Exhaled Mycobacterium tuberculosis Predicts Incident Infection in Household Contacts

Background Halting transmission of Mycobacterium tuberculosis (Mtb) by identifying infectious individuals early is key to eradicating tuberculosis (TB). Here we evaluate face mask sampling as a tool for stratifying the infection risk of individuals with pulmonary TB (PTB) to their household contacts. Methods Forty-six sputum-positive PTB patients in The Gambia (August 2016-November 2017) consented to mask sampling prior to commencing treatment. Incident Mtb infection was defined in 181 of their 217 household contacts as QuantiFERON conversion or an increase in interferon-gamma of >= 1 IU/mL, 6 months after index diagnosis. Multilevel mixed-effects logistical regression analysis with cluster adjustment by household was used to identify predictors of incident infection. Results Mtb was detected in 91% of PTB mask samples with high variation in IS6110 copies (5.3 x 10(2) to 1.2 x 10(7)). A high mask Mtb level (>= 20 000 IS6110 copies) was observed in 45% of cases and was independently associated with increased likelihood of incident Mtb infection in contacts (adjusted odds ratio, 3.20 [95% confidence interval, 1.26-8.12]; P = .01), compared with cases having low-positive/negative mask Mtb levels. Mask Mtb level was a better predictor of incident Mtb infection than sputum bacillary load, chest radiographic characteristics, or sleeping proximity. Conclusions Mask sampling offers a sensitive and noninvasive tool to support the stratification of individuals who are most infectious in high-TB-burden settings. Our approach can provide better insight into community transmission in complex environments. Face mask sampling offers a novel clinical tool that informs infectiousness of pulmonary tuberculosis (TB) more reliably than sputum bacillary load and has the potential to transform public health interventions in high-TB-burden settings.

Automated summary

Mask sampling is a sensitive and noninvasive tool for evaluating the infectiousness of individuals in high tuberculosis (TB) burden settings. It provides better insight into community transmission and can inform public health interventions more reliably than sputum bacillary load.