Pattern of Mutations in Rifampicin Resistance (rpoB) Gene and Analysis of Rifampicin Indeterminate Result in Tuberculosis Detected by Xpert MTB/RIF Assay in Kalaburagi, India

Tuberculosis (TB) is a serious disease that has been observed since ancient times. In the mid-to late20th century, the main clinical approach to this disease involved focusing on its diagnosis, prevention, and treatment. However, in the 21 st century, the focus has shifted toward the diagnosis and treatment of drug-resistant TB. With the use of the Xpert MTB/RIF assay at the frontlines in India, interpreting indeterminate results to treatment with rifampicin, an antitubercular drug, can be challenging. This is further exacerbated by a lack of knowledge regarding mutation frequency in antitubercular drugresistant genes in this region. Among antitubercular drugs, rifampicin is the most potent and effective drug for the treatment of tuberculosis; hence, understanding the pattern of rifampicin resistance (rpoB) gene mutations will provide insights into the genetic basis of this resistance, which may help in the prevention and treatment of TB. This retrospective observational study presents sociodemographic details, sample types, Mycobacterium tuberculosis load, types of probe mutations detected, and rifampicin indeterminate results from the Xpert MTB/RIF assay. Of the 314 samples analyzed, 258 showed rifampicin resistance as detected by MTB, with 56 samples of MTB-detected rifampicin indeterminate results. Type E probe mutation (58.9%) was the most common type, while the least frequent mutation was Type C probe (1.5%). No missing probe was observed in approximately 8.9% of samples. Among the 56 rifampicin indeterminate results, the maximum Cycle threshold value did not cross 34.5 in six samples.