PLoS ONE (Jan 2014)

Face mask sampling for the detection of Mycobacterium tuberculosis in expelled aerosols.

  • Caroline M L Williams,
  • Eddy S G Cheah,
  • Joanne Malkin,
  • Hemu Patel,
  • Jacob Otu,
  • Kodjovi Mlaga,
  • Jayne S Sutherland,
  • Martin Antonio,
  • Nelun Perera,
  • Gerrit Woltmann,
  • Pranabashis Haldar,
  • Natalie J Garton,
  • Michael R Barer

DOI
https://doi.org/10.1371/journal.pone.0104921
Journal volume & issue
Vol. 9, no. 8
p. e104921

Abstract

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Although tuberculosis is transmitted by the airborne route, direct information on the natural output of bacilli into air by source cases is very limited. We sought to address this through sampling of expelled aerosols in face masks that were subsequently analyzed for mycobacterial contamination.In series 1, 17 smear microscopy positive patients wore standard surgical face masks once or twice for periods between 10 minutes and 5 hours; mycobacterial contamination was detected using a bacteriophage assay. In series 2, 19 patients with suspected tuberculosis were studied in Leicester UK and 10 patients with at least one positive smear were studied in The Gambia. These subjects wore one FFP30 mask modified to contain a gelatin filter for one hour; this was subsequently analyzed by the Xpert MTB/RIF system.In series 1, the bacteriophage assay detected live mycobacteria in 11/17 patients with wearing times between 10 and 120 minutes. Variation was seen in mask positivity and the level of contamination detected in multiple samples from the same patient. Two patients had non-tuberculous mycobacterial infections. In series 2, 13/20 patients with pulmonary tuberculosis produced positive masks and 0/9 patients with extrapulmonary or non-tuberculous diagnoses were mask positive. Overall, 65% of patients with confirmed pulmonary mycobacterial infection gave positive masks and this included 3/6 patients who received diagnostic bronchoalveolar lavages.Mask sampling provides a simple means of assessing mycobacterial output in non-sputum expectorant. The approach shows potential for application to the study of airborne transmission and to diagnosis.