Rifampicin Resistance Pattern of Mycobacterium tuberculosis Infection in Tertiary Care Hospital Settings.

Introduction Mycobacterium tuberculosis (MTB), the causative agent of tuberculosis (TB), continues to pose a significant global health threat, with increasing concerns about antimicrobial resistance (AMR). This study aims to elucidate the AMR patterns of MTB infections in tertiary care hospital settings. Materials and methods A retrospective analysis was conducted on 138 clinical samples collected from patients attending the outpatient ward with clinically suspected MTB infections from November 2022 to April 2023 in a tertiary care hospital, Saveetha Medical College and Hospital. The study focused on the sample isolates collected from various clinical specimens, such as sputum, pus, synovial fluid, wound swabs, and other forms of samples from the patients. The samples were processed and analyzed with routine microbiological confirmation tests using standard laboratory methods such as staining and culture. Further, the samples were subjected to a GeneXpert MTB/RIF assay to assess the resistance to Rifampicin (RIF). The results were interpreted, analyzed using standard statistical methods, and presented. Results The findings revealed marked resistance of the clinical isolate MTB to TIF, with positive and negative results through various peak levels shown by GeneXpert. Out of the 138 samples screened by GeneXpert for resistance, 14 samples were found to be positive (10.14%). Resistance to the first-line drug, namely RIF, was observed in the study, raising concerns about the effectiveness of standard tuberculosis treatment regimens followed in the country. Conclusion This study implies the urgency of monitoring and addressing AMR in MTB infections in tertiary care hospital settings. The emergence of resistance to even the first-line drugs necessitates continuous surveillance, the implementation of appropriate diagnostic strategies, and the development of effective treatment protocols. A comprehensive understanding of the AMR landscape in tuberculosis is crucial for optimizing therapeutic interventions, preventing the spread of drug-resistant strains, and ultimately curbing the global burden of tuberculosis.