TY - JOUR
T1 - Rapid detection of in vitro antituberculous drug resistance among smear-positive respiratory samples using microcolony detection-based direct drug susceptibility testing method
AU - Iftikhar, Irim
AU - Irfan, Seema
AU - Farooqi, Joveria
AU - Azizullah, Zahida
AU - Hasan, Rumina
N1 - Publisher Copyright:
© 2017 The International Journal of Mycobacteriology.
PY - 2017/4/1
Y1 - 2017/4/1
N2 - Background: With the rise in multidrug-resistant tuberculosis, there is a search for newer techniques that will rapidly detect drug-resistant Mycobacterium tuberculosis. Although molecular techniques can detect resistance, culture is still considered gold standard, especially in resource-limited settings where quick, cheap, and easy techniques are needed. The aim of the study was to evaluate microcolony method thin layer agar (TLA) for quick detection of resistance against the first-And second-line antituberculous drugs in clinical isolates. This was a cross-sectional study performed at Aga Khan University Hospital. Material and Methods: A total of 87 Z-N stain smear-positive pulmonary samples were received and indirect drug susceptibility test (ID-DST) was performed using Lowenstein-Jensen and mycobacteria growth indicator tube. Direct DST was performed using TLA on 7H10 agar. TLA was observed twice weekly under microscope for 4 weeks. Sensitivity, specificity, and accuracy were calculated for TLA using indirect susceptibility method as the gold standard. Level of agreement was calculated using Kappa score. Results: TLA showed sensitivity of 89% and 95.2% for isoniazid and rifampicin, while for ethionamide, ofloxacin, and injectable aminoglycosides, it was 96.6%, 92.1%, and 100%, respectively. Specificity for the first-line drugs was >95% while second-line drugs ranged from 70% to 100%. Mean time to positivity was 10.2 days by TLA as compared to 43.1 days by ID-DST. Conclusions: TLA is a quick and reliable method in identifying resistance, especially in resource-limited settings. However, additional liquid culture can be set up as backup, especially in patients on therapy to avoid false negative results.
AB - Background: With the rise in multidrug-resistant tuberculosis, there is a search for newer techniques that will rapidly detect drug-resistant Mycobacterium tuberculosis. Although molecular techniques can detect resistance, culture is still considered gold standard, especially in resource-limited settings where quick, cheap, and easy techniques are needed. The aim of the study was to evaluate microcolony method thin layer agar (TLA) for quick detection of resistance against the first-And second-line antituberculous drugs in clinical isolates. This was a cross-sectional study performed at Aga Khan University Hospital. Material and Methods: A total of 87 Z-N stain smear-positive pulmonary samples were received and indirect drug susceptibility test (ID-DST) was performed using Lowenstein-Jensen and mycobacteria growth indicator tube. Direct DST was performed using TLA on 7H10 agar. TLA was observed twice weekly under microscope for 4 weeks. Sensitivity, specificity, and accuracy were calculated for TLA using indirect susceptibility method as the gold standard. Level of agreement was calculated using Kappa score. Results: TLA showed sensitivity of 89% and 95.2% for isoniazid and rifampicin, while for ethionamide, ofloxacin, and injectable aminoglycosides, it was 96.6%, 92.1%, and 100%, respectively. Specificity for the first-line drugs was >95% while second-line drugs ranged from 70% to 100%. Mean time to positivity was 10.2 days by TLA as compared to 43.1 days by ID-DST. Conclusions: TLA is a quick and reliable method in identifying resistance, especially in resource-limited settings. However, additional liquid culture can be set up as backup, especially in patients on therapy to avoid false negative results.
KW - First and second antituberculous agents
KW - microcolony method
KW - multidrug-resistant tuberculosis
UR - http://www.scopus.com/inward/record.url?scp=85047288977&partnerID=8YFLogxK
U2 - 10.4103/ijmy.ijmy_41_17
DO - 10.4103/ijmy.ijmy_41_17
M3 - Article
C2 - 28559510
AN - SCOPUS:85047288977
SN - 2212-5531
VL - 6
SP - 117
EP - 121
JO - International Journal of Mycobacteriology
JF - International Journal of Mycobacteriology
IS - 2
ER -