Detection of katG and inhA Gene Mutation in Rifampicin-resistant Mycobacterium Tuberculosis Using Line Probe Assay (LPA) in Kebbi, Nigeria.

Author:

Manga Shuaibu Bala1,Danladi Yusuf Kanya2,Olaosebikan Victor Oluwatosin3ORCID,Adedokun Ayodele Isaac3,Udefi Augustine Chijioke4

Affiliation:

1. Usmanu Danfodiyo University Faculty of Science

2. KSUSTA: Kebbi State University of Science and Technology

3. Federal Medical Center

4. Oxford Brookes University

Abstract

Abstract Elimination of tuberculosis remains a public health menace, due to multidrug resistant strains of Mycobacterium tuberculosis, that are resistant to the first-line anti-tubercular drugs. Consequently, detection of resistant strains depends on early diagnosis. Intervention of molecular techniques is essential to reduce mortality and morbidity rates. This study aimed to detect katG and inhA gene mutations among rifampicin resistant strain of Mycobacterium tuberculosis in Kebbi State. A cross-sectional study was conducted which covered all the five major health zones in Kebbi State. Two hundred and forty (240) acid fast bacilli confirmed sputum samples were recruited and subjected to Gene Xpert testing. Positive sputum samples were later subjected to Line Probe Assay technique. 14 sputum samples were resistant to rifampicin out of the 240 confirmed acid fast bacilli sputum samples while 226 were sensitive to rifampicin. Mutations were found at the frequency of 100% for katG gene (katG/S315T) in all the 14 rifampicin resistant samples (rpoB/S531L) at the different health zones in kebbi state using the line probe assay. The research has also detected inhA gene mutation at a frequency of 100% in all rifampicin resistant samples showing that mutation is associated with multi resistance to isoniazid and rifampicin. This study confirms that resistance due to katG and inhA mutation is a better surrogate of multidrug-resistant tuberculosis among TB patients in Kebbi State compared to the single-marker analysis. Hence, early molecular detection of rifampicin resistant strains will suffice in determining the management of multidrug resistant tuberculosis in Kebbi State.

Publisher

Research Square Platform LLC

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