Detection of drug resistance in Mycobacterium tuberculosis by conventional phenotypic drug susceptibility testing methods requires several weeks. Therefore, molecular diagnostic tests for rapid detection of multidrug resistance tuberculosis (MDR-TB) are urgently needed. Early diagnosis helps in initiating optimal treatment which would not only enable cure of an individual patient but also will curb the transmission of drug resistance in the community. Line probe assay (LPA) has shown great promises in the diagnosis of MDR-TB. All MDR suspect patients from ten-linked districts were asked to deposit sputum samples at peripheral designated microscopy centers. The district TB officers facilitated the transport of samples collected during February 2014-December 2014 to our laboratory. The detection of rpoB gene mutations for rifampicin (RIF) and katG and inhA genes for isoniazid (INH), respectively, was performed on 663 samples by LPA. A total of 663 sputum samples from MDR suspects were received of which 321 (50.8%) were found to be MDR. Missing of WT8 along with mutation in codon S531 L was the most common pattern for RIF-resistant isolates (80.8%) and missing WT along with mutation in codon S315T1 of katG gene was the most common pattern for INH-resistant isolates (91.3%). The MDR-TB in Eastern Uttar Pradesh, India, was found to be 50.8%. The common mutations obtained for RIF and INH in the region was mostly similar to those reported earlier.

• 出版日期2017-6
• 单位河北医科大学