Browsing by Author "Chihota, Violet N."

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    Clinical relevance of nontuberculous mycobacteria isolated from sputum in a gold mining workforce in South Africa : an observational, clinical study
    (Hindawi, 2015) Van Halsema, Clare L.; Chihota, Violet N.; Gey van Pittius, Nicolaas C.; Fielding, Katherine L.; Lewis, James J.; Van Helden, Paul D.; Churchyard, Gavin J.; Grant, Alison D.
    Background.The clinical relevance of nontuberculous mycobacteria (NTM), detected by liquid more than solid culture in sputum specimens from a South African mining workforce, is uncertain. We aimed to describe the current spectrum and relevance of NTMin this population. Methods. An observational study including individuals with sputum NTMisolates, recruited at workforce tuberculosis screening and routine clinics. Symptomquestionnaires were administered at the time of sputumcollection and clinical records and chest radiographs reviewed retrospectively. Results.Of 232 individuals included (228 (98%) male,median age 44 years), M. gordonae (60 individuals), M. kansasii (50), and M. aviumcomplex (MAC: 38) were the commonest species.Of 38MAC isolates, only 2 (5.3%) were from smear-positive sputum specimens and 30/38 grew in liquid but not solid culture. MAC was especially prevalent among symptomatic, HIV-positive individuals. HIV prevalence was high: 57/74 (77%) among those tested.No differences were found in probability of death or medical separation by NTM species. Conclusions. M. gordonae, M. kansasii, andMAC were the commonest NTMamong miners with suspected tuberculosis, withmostMAC fromsmear-negative specimens in liquid culture only. HIV testing and identification of key pathogenic NTM in this setting are essential to ensure optimal treatment.
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    Geospatial distribution of Mycobacterium tuberculosis genotypes in Africa
    (Public Library of Science, 2018-08-01) Chihota, Violet N.; Niehaus, Antoinette; Streicher, Elizabeth M.; Wang, Xia; Sampson, Samantha L.; Mason, Peter; Kallenius, Gunilla; Mfinanga, Sayoki G.; Pillay, Marnomorney; Klopper, Marisa; Kasongo, Webster; Behr, Marcel A.; Van Pittius, Nicolaas C. Gey; Van Helden, Paul D.; Couvin, David; Rastogi, Nalin; Warren, Robin M.
    Objective: To investigate the distribution of Mycobacterium tuberculosis genotypes across Africa. Methods: The SITVIT2 global repository and PUBMED were searched for spoligotype and published genotype data respectively, of M. tuberculosis from Africa. M. tuberculosis lineages in Africa were described and compared across regions and with those from 7 European and 6 South-Asian countries. Further analysis of the major lineages and sub-lineages using Principal Component analysis (PCA) and hierarchical cluster analysis were done to describe clustering by geographical regions. Evolutionary relationships were assessed using phylogenetic tree analysis. Results: The SITVIT2 global repository and PUBMED were searched for spoligotype and published genotype data respectively, of M. tuberculosis from Africa. M. tuberculosis lineages in Africa were described and compared across regions and with those from 7 European and 6 South-Asian countries. Further analysis of the major lineages and sub-lineages using Principal Component analysis (PCA) and hierarchical cluster analysis were done to describe clustering by geographical regions. Evolutionary relationships were assessed using phylogenetic tree analysis. Results: A total of 14727 isolates from 35 African countries were included in the analysis and of these 13607 were assigned to one of 10 major lineages, whilst 1120 were unknown. There were differences in geographical distribution of major lineages and their sub-lineages with regional clustering. Southern African countries were grouped based on high prevalence of LAM11-ZWE strains; strains which have an origin in Portugal. The grouping of North African countries was due to the high percentage of LAM9 strains, which have an origin in the Eastern Mediterranean region. East African countries were grouped based on Central Asian (CAS) and East-African Indian (EAI) strain lineage possibly reflecting historic sea trade with Asia, while West African Countries were grouped based on Cameroon lineage of unknown origin. A high percentage of the Haarlem lineage isolates were observed in the Central African Republic, Guinea, Gambia and Tunisia, however, a mixed distribution prevented close clustering. Conclusions: This study highlighted that the TB epidemic in Africa is driven by regional epidemics characterized by genetically distinct lineages of M. tuberculosis. M. tuberculosis in these regions may have been introduced from either Europe or Asia and has spread through pastoralism, mining and war. The vast array of genotypes and their associated phenotypes should be considered when designing future vaccines, diagnostics and anti-TB drugs.
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    Programmatically selected multidrug-resistant strains drive the emergence of extensively drug-resistant tuberculosis in South Africa
    (Public Library of Science, 2013-08-23) Muller, Borna; Chihota, Violet N.; Pillay, Manormoney; Klopper, Marisa; Streicher, Elizabeth M.; Coetzee, Gerrit; Trollip, Andre; Hayes, Cindy; Bosman, Marlein E.; Gey van Pittius, Nicolaas C.; Victor, Thomas C.; Gagneux, Sebastien; Van Helden, Paul D.; Warren, Robin M.
    Background: South Africa shows one of the highest global burdens of multidrug-resistant (MDR) and extensively drug-resistant (XDR) tuberculosis (TB). Since 2002, MDR-TB in South Africa has been treated by a standardized combination therapy, which until 2010 included ofloxacin, kanamycin, ethionamide, ethambutol and pyrazinamide. Since 2010, ethambutol has been replaced by cycloserine or terizidone. The effect of standardized treatment on the acquisition of XDR-TB is not currently known. Methods: We genetically characterized a random sample of 4,667 patient isolates of drug-sensitive, MDR and XDR-TB cases collected from three South African provinces, namely, the Western Cape, Eastern Cape and KwaZulu-Natal. Drug resistance patterns of a subset of isolates were analyzed for the presence of commonly observed resistance mutations. Results: Our analyses revealed a strong association between distinct strain genotypes and the emergence of XDR-TB in three neighbouring provinces of South Africa. Strains predominant in XDR-TB increased in proportion by more than 20-fold from drug-sensitive to XDR-TB and accounted for up to 95% of the XDR-TB cases. A high degree of clustering for drug resistance mutation patterns was detected. For example, the largest cluster of XDR-TB associated strains in the Eastern Cape, affecting more than 40% of all MDR patients in this province, harboured identical mutations concurrently conferring resistance to isoniazid, rifampicin, pyrazinamide, ethambutol, streptomycin, ethionamide, kanamycin, amikacin and capreomycin. Conclusions: XDR-TB associated genotypes in South Africa probably were programmatically selected as a result of the standard treatment regimen being ineffective in preventing their transmission. Our findings call for an immediate adaptation of standard treatment regimens for M/XDR-TB in South Africa.