Research

Prevalence of isoniazid resistance-conferring mutations associated with multidrug-resistant tuberculosis in Free State Province, South Africa

L Pitso, S Potgieter, A van der Spoel van Dijk

Abstract


Background. Multidrug- and extensively drug-resistant tuberculosis (MDR-TB and XDR- TB) threaten local and global control of the disease. The molecular line-probe assay (LPA) provides rapid diagnosis and early management of MDR-TB. The LPA detects mutations of katG and inhA genes associated with isoniazid (INH) resistance in Mycobacterium tuberculosis isolates. The katG and inhA genes are associated with high- and low-level INH resistance, respectively, as well as cross-resistance to ethionamide in the case of inhA gene mutations. Patients with MDR-TB due to an inhA mutation could benefit from the use of high-dose INH – instead of ethionamide – in their MDR-TB regimen.

Objectives. To determine the frequencies of katG and inhA mutations that conferred INH resistance among MDR-TB isolates during 2014 - 2016 in Free State (FS) Province of South Africa.

Methods. We retrospectively reviewed MDR-TB isolates assayed with GenoType MTBDRplus (Hain Lifescience, Germany) (LPA) at the central TB laboratory of Universitas Academic Hospital, Bloemfontein, FS, and calculated the frequencies of katG and inhA mutations.

Results. Among 918 MDR-TB isolates, the prevalence of katG, inhA and katG plus inhA mutations was 63.9%, 13.4% and 22.7%, respectively. Approximately 60% (n=536; 58.4%) of the isolates were obtained from male patients. The patients’ ages ranged from 1 to 89 (median 37) years. The Xhariep district had the highest incidence of INH resistance-conferring mutations in the province.

Conclusions. katG-associated mutations are the predominant INH resistance-conferring mechanism among MDR-TB isolates in the FS. Patients infected with isolates that harbour the katG mutation are unlikely to benefit from high-dose INH therapy in the bedaquiline (BDQ)-containing modified short MDR-TB regimen. They may, however, benefit from the inclusion of ethionamide in the regimen. Dual katG and inhA gene mutations make these patients unlikely to respond to either high-dose INH or ethionamide and should now be considered for either the BDQ-containing long MDR-TB regimen or an individualised treatment regimen, depending on fluoroquinolone susceptibility. Clinicians should familiarise themselves with interpreting various INH resistance-conferring mutation results and their implications for management of MDR-TB treatment.


Authors' affiliations

L Pitso, Department of Internal Medicine, Faculty of Health Sciences, University of the Free State, Bloemfontein, South Africa

S Potgieter, Division of Infectious Diseases, Department of Internal Medicine, Faculty of Health Sciences, University of the Free State, Bloemfontein, South Africa

A van der Spoel van Dijk, Department of Medical Microbiology, Faculty of Health Sciences, University of the Free State and National Health Laboratory Service, Bloemfontein, South Africa

Full Text

PDF (299KB)

Keywords

Isoniazid resistance; INH; Multidrug-resistant tuberculosis; MDR-TB; katG; inhA; Ethionamide resistance

Cite this article

South African Medical Journal 2019;109(9):659-664. DOI:10.7196/SAMJ.2019.v109i9.13730

Article History

Date submitted: 2019-08-28
Date published: 2019-08-28

Article Views

Abstract views: 1343
Full text views: 935

Comments on this article

*Read our policy for posting comments here