Background
Global control of tuberculosis is hampered by slow, insensitive diagnostic methods, particularly for the detection of drug-resistant forms and in patients with human immunodeficiency virus infection. Early detection is essential to reduce the death rate and interrupt transmission, but the complexity and infrastructure needs of sensitive methods limit their accessibility and effect.
Methods
We assessed the performance of Xpert MTB/RIF, an automated molecular test for Mycobacterium tuberculosis (MTB) and resistance to rifampin (RIF), with fully integrated sample processing in 1730 patients with suspected drug-sensitive or multidrug-resistant pulmonary tuberculosis. Eligible patients in Peru, Azerbaijan, South Africa, and India provided three sputum specimens each. Two specimens were processed with N-acetyl-l-cysteine and sodium hydroxide before microscopy, solid and liquid culture, and the MTB/RIF test, and one specimen was used for direct testing with microscopy and the MTB/RIF test.
Results
Among culture-positive patients, a single, direct MTB/RIF test identified 551 of 561 patients with smear-positive tuberculosis (98.2%) and 124 of 171 with smear-negative tuberculosis (72.5%). The test was specific in 604 of 609 patients without tuberculosis (99.2%). Among patients with smear-negative, culture-positive tuberculosis, the addition of a second MTB/RIF test increased sensitivity by 12.6 percentage points and a third by 5.1 percentage points, to a total of 90.2%. As compared with phenotypic drug-susceptibility testing, MTB/RIF testing correctly identified 200 of 205 patients (97.6%) with rifampin-resistant bacteria and 504 of 514 (98.1%) with rifampin-sensitive bacteria. Sequencing resolved all but two cases in favor of the MTB/RIF assay.
Conclusions
The MTB/RIF test provided sensitive detection of tuberculosis and rifampin resistance directly from untreated sputum in less than 2 hours with minimal hands-on time. (Funded by the Foundation for Innovative New Diagnostics.)
19The COVID-19 outbreak has had a major impact on clinical microbiology laboratories in the past 20 several months. This commentary covers current issues and challenges for the laboratory 21 diagnosis of infections caused by SARS-CoV-2. In the pre-analytical stage, collecting the proper 22 respiratory tract specimen at the right time from the right anatomic site is essential for a 23 prompt and accurate molecular diagnosis of COVID-19. Appropriate measures are required to 24 keep laboratory staff safe while producing reliable test results. In the analytic stage, real-time 25 RT-PCR assays remain the molecular test of choice for the etiologic diagnosis of SARS-CoV-2 26 infection while antibody-based techniques are being introduced as supplemental tools. In the 27 postanalytical stage, testing results should be carefully interpreted using both molecular and 28 serological findings. Finally, random access, integrated devices available at the point of care 29 with scalable capacities will facilitate the rapid and accurate diagnosis and monitoring of SARS-30 CoV-2 infections and greatly assist in the control of this outbreak. 31 32
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