Clinical value of the MeltPro MTB assays in detection of drug-resistant tuberculosis in paraffin-embedded tissues / 中华病理学杂志

Objective: To evaluate the clinical value of the MeltPro MTB assays in the diagnosis of drug-resistant tuberculosis. Methods: A cross-sectional study design was used to retrospectively collect all 4 551 patients with confirmed tuberculosis between January 2018 and December 2019 at Beijing Chest Hospital, Capital Medical University. Phenotypic drug sensitivity test and GeneXpert MTB/RIF (hereafter referred to as "Xpert") assay were used as gold standards to analyze the accuracy of the probe melting curve method. The clinical value of this technique was also evaluated as a complementary method to conventional assays of drug resistance to increase the detective rate of drug-resistant tuberculosis. Results: By taking the phenotypic drug susceptibility test as the gold standard, the sensitivity of the MeltPro MTB assays to detect resistance to rifampicin, isoniazid, ethambutol and fluoroquinolone was 14/15, 95.7%(22/23), 2/4 and 8/9,respectively; and the specificity was 92.0%(115/125), 93.2%(109/117), 90.4%(123/136) and 93.9%(123/131),respectively; the overall concordance rate was 92.1%(95%CI:89.6%-94.1%),and the Kappa value of the consistency test was 0.63(95%CI:0.55-0.72).By taking the Xpert test results as the reference, the sensitivity of this technology to the detection of rifampicin resistance was 93.6%(44/47), the specificity was100%(310/310), the concordance rate was 99.2%(95%CI:97.6%-99.7%), and the Kappa value of the consistency test was 0.96(95%CI:0.93-0.99). The MeltPro MTB assays had been used in 4 551 confirmed patients; the proportion of patients who obtained effective drug resistance results increased from 83.3% to 87.8%(P<0.01); and detection rate of rifampicin, isoniazid, ethambutol, fluoroquinolone resistance, multidrug and pre-extensive drug resistance cases were increased by 3.2%, 14.7%, 22.2%, 13.7%, 11.2% and 12.5%, respectively. Conclusion: The MeltPro MTB assays show satisfactory accuracy in the diagnosis of drug-resistant tuberculosis. This molecular pathological test is an effective complementary method in improving test positivity of drug-resistant tuberculosis.

Resistencia cruzada entre isoniacida y etionamida y su alta correlación con la mutación C-15T en aislamientos de Mycobacterium tuberculosis de Perú / Cross-resistance between isoniazid and ethionamide and its strong association with mutation C-15T in Mycobacterium tuberculosis isolates from Peru

Resumen Diversos estudios han evidenciado una resistencia cruzada entre isoniacida y etionamida, 2 de los fármacos utilizados en el tratamiento de la tuberculosis multirresistente.El objetivo del presente estudio fue determinar la resistencia cruzada entre ambos fármacos en aislados de Mycobacterium tuberculosis obtenidos en un hospital de Lima (Perú), conalta proporción de pacientes con tuberculosis. Se calculó la frecuencia de mutaciones asociadas con la resistencia a la isoniacida (INH) evaluando el gen katG y la región promotorainhA mediante la prueba molecular Genotype MTBDRplus v2.0. El método gold standard conocido como agar proporciones en placa (APP) permitió la identificación de resistencia a INH yetionamida. De 107 aislamientos resistentes a INH, 54 fueron multirresistentes (identificadosmediante la prueba Genotype MTBDRplus) y 49 (es decir, el 45,8% del total) también fueronresistentes a etionamida por el método APP. En los aislamientos resistentes a INH, se encontraron mutaciones en el gen katG en el 50,5% (54/107); en la región promotora inhA en el23,3% (25/107), y un 14,0% (15/107) presentaron mutaciones en ambos. Un 12,1% (13/107)fueron resistentes a INH por ausencia de banda wild type y banda de mutación. La mutaciónC-15T en la región promotora inhA presentó una fuerte asociación con la resistencia a etionamida y alcanzó el 73,4% (36/49) de los aislamientos resistentes a dicho fármaco. Los resultadosdel presente estudio sugieren que la identificación de mutaciones relacionadas con resistenciaa INH, sobre todo en la región promotora inhA, podría ser de gran utilidad para identificarla resistencia cruzada a etionamida y mejorar el tratamiento de las personas afectadas portuberculosis.© 2019 Asociacion Argentina de Microbiolog´ía. Publicado por Elsevier Espana, S.L.U. Este es unart´ículo Open Access bajo la licencia CC BY-NC-ND (https://creativecommons.org/licenses/by-nc-nd/4.0/).

Abstract Several studies have shown cross-resistance between isoniazid and ethionamide, 2of the drugs used in the treatment of multidrug-resistant tuberculosis. The objective of this study was to determine the cross-resistance between both drugs in Mycobacterium tuberculosis isolates from a hospital with high incidence of tuberculosis in Lima, Peru. The frequency of mutations to isoniazid in the katG gene and the inhA promoter region was identified by the Genotype MTBDRplus v2.0 molecular test. The gold standard Agar Proportion method (APM) allowed todetect resistance to isoniazid and ethionamide. Of 107 isoniazid-resistant isolates (54 multidrug-resistant isolates identified by the Genotype MTBDRplus test, 45.8% (49/107) were also resistant to ethionamide by the APM. Mutations were found in the katG gene in 50.5% (54/107), in the promoter region inhA in 23.3% (25/107) and 14.0% (15/107) that share both mutations in the resistant isolates to INH. The absence of the wild type and mutation bands indicated that 12.1% (13/107) of the isolates were resistant to INH. The mutation C-15T in the inhA promoter region showed a strong association with resistance to ethionamide in 73.4% (36/49) of the isolates analyzed. The results of the present study suggest that the identification of mutations related to resistance to isoniazid, especially in the inhA promoter region, could be very useful to identify cross-resistance to ethionamide and improve the treatment of individuals suffering from this disease.

Rapid detection of Mycobacterium tuberculosis DNA and genetic markers for Isoniazid resistance in Ziehl-Neelsen stained slides

BACKGROUND Early diagnosis of tuberculosis (TB) and identification of strains of Mycobacterium tuberculosis resistant to anti-TB drugs are considered the main factors for disease control. OBJECTIVES To standardise a real-time polymerase chain reaction (qPCR) assay technique and apply it to identify mutations involved in M. tuberculosis resistance to Isoniazid (INH) directly in Ziehl-Neelsen (ZN) stained slides. METHODS Were analysed 55 independent DNA samples extracted from clinical isolates of M. tuberculosis by sequencing. For application in TB diagnosis resistance, 59 ZN-stained slides were used. The sensitivity, specificity and Kappa index, with a 95% confidence interval (CI95%), were determined. FINDINGS The agreement between the tests was, for the katG target, the Kappa index of 0.89 (CI95%: 0.7-1.0). The sensitivity and specificity were 97.6% (CI95%: 87.7-99.9) and 91.7% (CI95%: 61.5-99.5), respectively. For inhA, the Kappa index was 0.92 (CI95%: 0.8-1.0), the sensitivity and specificity were 94.4% (CI95%: 72.7-99.8) and 97.3% (CI95%: 85.8-99.9), respectively. The use of ZN-stained slides for drug-resistant TB detection showed significant results when compared to other standard tests for drug resistance. MAIN CONCLUSIONS qPCR genotyping proved to be an efficient method to detect genes that confer M. tuberculosis resistance to INH. Thus, qPCR genotyping may be an alternative instead of sequencing.

Synthesis, characterization, and in vitro evaluation of gamma radiationinduced PEGylated isoniazid

Background: The search for innovative anti-tubercular agents has received increasing attention in tuberculosis chemotherapy because Mycobacterium tuberculosis infection has steadily increased over the years. This underlines the necessity for new methods of preparation for polymer-drug adducts to treat this important infectious disease. The use of poly(ethylene glycol)(PEG) is an alternative producing anti-tubercular derivatives. However, it is not yet known whether PEGylated isonicotinylhydrazide conjugates obtained by direct links with PEG are useful for therapeutic applications. Results: Here, we synthesized a PEGylated isoniazid (PEG-g-INH or PEG­INH) by gamma radiation-induced polymerization, for the first time. The new prodrugs were characterized using Raman and UV/Vis spectrometry. The mechanism of PEGylated INH synthesis was proposed. The in vitro evaluation of a PEGylated isonicotinylhydrazide macromolecular prodrug was also carried out. The results indicated that PEG­INH inhibited the bacterial growth above 95% as compared with INH, which showed a lower value (80%) at a concentration of 0.25 µM. Similar trends are observed for 0.1, 1, and 5 µM. Conclusions: In summary, the research suggests that it is possible to covalently attach the PEG onto INH by the proposed method and to obtain a slow-acting isoniazid derivative with little toxicity in vitro and higher antimycobacterial potency than the neat drug.

Speeding up the diagnosis of multidrug-resistant tuberculosis in a high-burden region with the use of a commercial line probe assay / Agilizando o diagnóstico da tuberculose multirresistente em uma região endêmica com o uso de um teste comercial de sondas em linha

ABSTRACT Objective: To evaluate the rapid diagnosis of multidrug-resistant tuberculosis, by using a commercial line probe assay for rifampicin and isoniazid detection (LPA-plus), in the routine workflow of a tuberculosis reference laboratory. Methods: The LPA-plus was prospectively evaluated on 341 isolates concurrently submitted to the automated liquid drug susceptibility testing system. Results: Among 303 phenotypically valid results, none was genotypically rifampicin false-susceptible (13/13; 100% sensitivity). Two rifampicin-susceptible isolates harboured rpoB mutations (288/290; 99.3% specificity) which, however, were non-resistance-conferring mutations. LPA-plus missed three isoniazid-resistant isolates (23/26; 88.5% sensitivity) and detected all isoniazid-susceptible isolates (277/277; 100% specificity). Among the 38 (11%) invalid phenotypic results, LPA-plus identified 31 rifampicin- and isoniazid-susceptible isolates, one isoniazid-resistant and six as non-Mycobacterium tuberculosis complex. Conclusions: LPA-plus showed excellent agreement (≥91%) and accuracy (≥99%). Implementing LPA-plus in our setting can speed up the diagnosis of multidrug-resistant tuberculosis, yield a significantly higher number of valid results than phenotypic drug susceptibility testing and provide further information on the drug-resistance level.

RESUMO Objetivo: Avaliar o diagnóstico rápido de tuberculose multirresistente, utilizando um teste comercial de sondas em linha (LPA-plus), na rotina de um laboratório de referência de tuberculose. Métodos: O teste LPA-plus foi avaliado prospectivamente em 341 isolados simultaneamente submetidos ao teste de suscetibilidade aos antimicrobianos em meio líquido, pelo sistema automatizado. Resultados: Entre os 303 resultados fenotipicamente válidos, nenhum foi genotipicamente falso suscetível à rifampicina (13/13; 100% de sensibilidade). Dois isolados sensíveis à rifampicina apresentavam mutações no gene rpoB (288/290; especificidade de 99,3%), as quais, no entanto, não são associadas à resistência a rifampicina. O LPA-plus não identificou resistência à isoniazida em três isolados fenotipicamente resistentes (23/26; 88,5% de sensibilidade) e detectou todos os isolados sensíveis à isoniazida (277/277; especificidade de 100%). Entre os 38 (11%) resultados fenotípicos inválidos, o LPA-plus identificou 31 isolados sensíveis à rifampicina e à isoniazida, um resistente à isoniazida e seis como micobactérias não tuberculosas. Conclusões: O LPA-plus mostrou excelente concordância (≥91%) e acurácia (≥99%). Sua implementação pode acelerar o diagnóstico da tuberculose multirresistente, produzir número significativamente maior de resultados válidos do que o teste fenotípico de suscetibilidade aos antimicrobianos e fornecer informações adicionais sobre o nível de resistência aos fármacos.

The role of the Xpert MTB/RIF assay among adolescents suspected of pulmonary tuberculosis in Rio de Janeiro, Brazil

Abstract INTRODUCTION The teste rápido molecular para tuberculose (TRM-TB) was introduced in 2014 in Brazil for tuberculosis screening. However, its role in adolescents in Brazil has not been studied. METHODS A descriptive study of adolescents with suspected tuberculosis using National Laboratory software. RESULTS Of 852 (15.4%) suspected cases, 131 were positive by TRM-TB and 2% were resistant to rifampicin. Among TRM-TB-positive cases, 105 (91.4%) were culture-positive. Sixty-four of 96 samples were sensitive to rifampicin by TRM-TB; 11 were resistant to other drugs by drug sensitivity test (DST). CONCLUSIONS Among suspected cases, 16% were diagnosed by TRM-TB, of which 17% were drug-resistant by DST.

Evaluation of the commercial kit SIRE nitratase for detecting resistant mycobacterium tuberculosis in Brazil

Abstract INTRODUCTION: This study aimed to evaluate a new commercial kit, Kit SIRE Nitratase-PlastLabor, for testing the drug susceptibility of clinical Mycobacterium tuberculosis isolates. METHODS: The accuracy of the Kit SIRE Nitratase was evaluated by examining the susceptibility (streptomycin, isoniazid, rifampicin, and ethambutol) of 40 M. tuberculosis isolates, using the proportion method with Lowenstein-Jensen medium or the BACTEC MGIT 960 system. RESULTS: The detection accuracy for streptomycin, isoniazid, rifampicin, and ethambutol was 95%, 97.5%, 100%, and 80%, respectively. CONCLUSIONS: The exceptional accuracy demonstrated by Kit SIRE Nitratase for isoniazid and rifampicin makes the kit an attractive option for screening M. tuberculosis strain resistance.

Detection of tuberculosis drug resistance: a comparison by Mycobacterium tuberculosis MLPA assay versus Genotype®MTBDRplus

BACKGROUND To cope with the emergence of multidrug-resistant tuberculosis (MDR-TB), new molecular methods that can routinely be used to screen for a wide range of drug resistance related genetic markers in the Mycobacterium tuberculosis genome are urgently needed. OBJECTIVE To evaluate the performance of multiplex ligaton-dependent probe amplification (MLPA) against Genotype® MTBDRplus to detect resistance to isoniazid (INHr) and rifampicin (RIFr). METHOD 96 culture isolates characterised for identification, drug susceptibility testing (DST) and sequencing of rpoB, katG, and inhA genes were evaluated by the MLPA and Genotype®MTBDRplus assays. RESULTS With sequencing as a reference standard, sensitivity (SE) to detect INHr was 92.8% and 85.7%, and specificity (SP) was 100% and 97.5%, for MLPA and Genotype®MTBDRplus, respectively. In relation to RIFr, SE was 87.5% and 100%, and SP was 100% and 98.8%, respectively. Kappa value was identical between Genotype®MTBDRplus and MLPA compared with the standard DST and sequencing for detection of INHr [0.83 (0.75-0.91)] and RIFr [0.93 (0.88-0.98)]. CONCLUSION Compared to Genotype®MTBDRplus, MLPA showed similar sensitivity to detect INH and RIF resistance. The results obtained by the MLPA and Genotype®MTBDRplus assays indicate that both molecular tests can be used for the rapid detection of drug-resistant TB with high accuracy. MLPA has the added value of providing information on the circulating M. tuberculosis lineages.

Descripción de las mutaciones de Mycobacterium tuberculosis que confieren resistencia a rifampicina e isoniacida detectadas mediante GenoType(r) MTBDR plus V.2 en Colombia / Description of Mycobacterium tuberculosis mutations conferring resistance to rifampicin and isoniazid detected by GenoType(r) MTBDR plus V.2 in Colombia

Resumen Introducción: La metodología de GenoType(r) MTBDRplus V.2 es una técnica molecular aprobada por la Organización Mundial de la Salud y la Organización Panamericana de la Salud para la detección de las mutaciones en el gen rpoβ del complejo Mycobacterium tuberculosis, las cuales confieren resistencia a la rifampicina, y las de los genes katG e inhA que la confieren frente a la isoniacida. Debido a la variación genética en las cepas circulantes a nivel mundial, los programas nacionales de control de la tuberculosis deben comprobar el desempeño de los nuevos métodos de diagnóstico para su aplicación como prueba rápida. Objetivo: Describir las mutaciones detectadas mediante la técnica GenoType(r) MTBDRplus V.2 en muestras pulmonares y aislamientos de M. tuberculosis procesados en el Laboratorio Nacional de Referencia del Instituto Nacional de Salud durante el 2014. Materiales y métodos: Se hizo un estudio retrospectivo descriptivo que determinó la expresión de los genes inhA, KatG y rpoβ responsables de la resistencia a isoniacida y rifampicina, utilizando la técnica GenoType(r) MTBDRplus V.2 en 837 muestras y aislamientos de casos de tuberculosis. Resultados. Se obtuvieron 689 resultados de pruebas: 581(84,3 %) sensibles, 58 (8,4 %) resistentes y 50 (7,2 %) multirresistentes. Se detectaron diversas mutaciones en el gen rpoβ, de las cuales la más frecuente fue la Ser531Leu (36,6 %), seguida por la Asp516Val (21,6 %), en tanto que en el gen katG la más frecuente fue la Ser315Thr1 (91,9 %). Conclusiones: Se detectaron varias mutaciones en los casos resistentes reportados en el país, con frecuencias similares a las reportadas en otros países de la región de América del Sur.

Abstract Introduction: The GenoType(r)MTBDRplusV.2 assay is a molecular technique endorsed by the World Health Organization and the Pan American Health Organization that allows for the identification of the Mycobacterium tuberculosis complex and the detection of mutations in the rpoβ gene for rifampicin resistance, and katG and inhA genes for isoniazid resistance. Due to the genetic variability in the circulating strains around the world, the national tuberculosis control programs should assess the performance of these new diagnostic technologies and their use under program conditions as rapid tests. Objective: To describe the mutations identified by the GenoType(r)MTBDRplusV.2 assay in pulmonary samples and Mycobacterium tuberculosis isolates in the Laboratorio Nacional de Referencia of the Instituto Nacional de Salud in 2014. Materials and methods. We conducted a retrospective, descriptive study to detect the expression of inhA, KatG and rpoβ genes, responsible for resistence against isoniazid and rifampicin using the GenoType(r) MTBDRplus V.2 assay in 837 samples and isolates from tuberculosis cases. Results: Several mutations in the rpoβ gene were identified. Ser531Leu was the most frequent (36.6%) followed by Asp516Val (21.6%), while Ser315Thr1 was the most frequent mutation in the katG gene (91.9%). Conclusions: We were able to identify different mutations present in MDR-TB strains in the country, with frequencies similar to those reported in other countries in the South American region.

Evaluation of crystal violet decolorization assay for minimal inhibitory concentration detection of primary antituberculosis drugs against Mycobacterium tuberculosis isolates

In this study we evaluated the crystal violet decolorization assay (CVDA) for detection of minimum inhibitory concentration (MIC) of antituberculosis drugs. 53 isolates were tested in this study and 13 of them were multidrug resistant (MDR) isolates. The antibiotics concentrations were 2-0.06 mg/L for isoniazid (INH) and rifampicin (RIF) and were 16-0.25 mg/L for streptomycin (STM) and ethambutol (EMB). Crystal violet (CV-25 mg/L) was added into the microwells on the seventh day of incubation and incubation was continued until decolorization. Decolorization of CV was the predictor of bacterial growth. Overall agreements for four drugs were detected as 98.1%, and the average time was detected as 9.5 ± 0.89 day after inoculation. One isolate for INH and two isolates for STM were determined resistant in the reference method, but susceptible by the CVDA. One isolate was susceptible to EMB by the reference method, but resistant by the CVDA. All results were concordant for RIF. This study shows that CVDA is a rapid, reliable and suitable for determination of MIC values of Mycobacterium tuberculosis. And it can be used easily especially in countries with limited-sources.

Effects of the encapsulation of usnic acid into liposomes and interactions with antituberculous agents against multidrug-resistant tuberculosis clinical isolates

Mycobacterium tuberculosis (Mtb) has acquired resistance and consequently the antibiotic therapeutic options available against this microorganism are limited. In this scenario, the use of usnic acid (UA), a natural compound, encapsulated into liposomes is proposed as a new approach in multidrug-resistant tuberculosis (MDR-TB) therapy. Thus the aim of this study was to evaluate the effect of the encapsulation of UA into liposomes, as well as its combination with antituberculous agents such as rifampicin (RIF) and isoniazid (INH) against MDR-TB clinical isolates. The in vitro antimycobacterial activity of UA-loaded liposomes (UA-Lipo) against MDR-TB was assessed by the microdilution method. The in vitro interaction of UA with antituberculous agents was carried out using checkerboard method. Minimal inhibitory concentration values were 31.25 and 0.98 µg/mL for UA and UA-Lipo, respectively. The results exhibited a synergistic interaction between RIF and UA [fractional inhibitory concentration index (FICI) = 0.31] or UA-Lipo (FICI = 0.28). Regarding INH, the combination of UA or UA-Lipo revealed no marked effect (FICI = 1.30-2.50). The UA-Lipo may be used as a dosage form to improve the antimycobacterial activity of RIF, a first-line drug for the treatment of infections caused by Mtb.

Detection of multidrug-resistant Mycobacterium tuberculosis strains isolated in Brazil using a multimarker genetic assay for katG and rpoB genes

Abstract Multidrug-resistant tuberculosis (MDRTB) is a serious world health problem that limits public actions to control tuberculosis, because the most used anti-tuberculosis first-line drugs fail to stop mycobacterium spread. Consequently, a quick detection through molecular diagnosis is essential to reduce morbidity and medical costs. Despite the availability of several molecular-based commercial-kits to diagnose multidrug-resistant tuberculosis, their diagnostic value might diverge worldwide since Mycobacterium tuberculosis genetic variability differs according to geographic location. Here, we studied the predictive value of four common mycobacterial mutations in strains isolated from endemic areas of Brazil. Mutations were found at the frequency of 41.9% for katG, 25.6% for inhA, and 69.8% for rpoB genes in multidrug-resistant strains. Multimarker analysis revealed that combination of only two mutations (“katG/S315T + rpoB/S531L”) was a better surrogate of multidrug-resistant tuberculosis than single-marker analysis (86% sensitivity vs. 62.8%). Prediction of multidrug-resistant tuberculosis was not improved by adding a third or fourth mutation in the model. Therefore, rather than using diagnostic kits detecting several mutations, we propose a simple dual-marker panel to detect multidrug-resistant tuberculosis, with 86% sensitivity and 100% specificity. In conclusion, this approach (previous genetic study + analysis of only prevalent markers) would considerably decrease the processing costs while retaining diagnostic accuracy.

Isoniazid and rifampin drug susceptibility testing: application of 2,3,5-triphenyl tetrazolium chloride assay and microscopic-observation drug-susceptibility assay directly on Ziehl-Neelsen smear positive sputum specimens

Abstract The current study was aimed to evaluate the performance of direct 2,3,5-triphenyl tetrazolium chloride assay and direct microscopic observation drug susceptibility assay with indirect Löwenstein-Jensen proportion method directly on Ziehl-Neelsen smear positive sputum specimens. Methods Direct acid fast bacilli smear positive sputum specimens (n = 264) were subjected to isoniazid and rifampicin drug susceptibility testing by direct 2,3,5-triphenyl tetrazolium chloride assay, direct microscopic observation drug susceptibility assay, and the performances were compared with indirect Löwenstein-Jensen proportion method. Results The direct 2,3,5-triphenyl tetrazolium chloride assay demonstrated an overall sensitivity, specificity, positive predictive value, and negative predictive value of 99.2%, 82.4%, 99.2%, and 88.5%, respectively, for the detection of isoniazid and rifampicin resistant Mycobacterium tuberculosis isolates when compared to indirect Löwenstein-Jensen proportion method. Likewise, the overall sensitivity, specificity, positive predictive value and negative predictive value of direct microscopic observation drug susceptibility assay were 98.8%, 82.4%, 99.2%, and 78.2%, respectively. Conclusion The direct 2,3,5-triphenyl tetrazolium chloride assay was found to be an economical alternative method for the rapid and accurate detection of isoniazid and rifampicin resistance from direct acid fast bacilli smear positive sputum specimens.

A molecular platform for the diagnosis of multidrug-resistant and pre-extensively drug-resistant tuberculosis based on single nucleotide polymorphism mutations present in Colombian isolates of Mycobacterium tuberculosis

Developing a fast, inexpensive, and specific test that reflects the mutations present in Mycobacterium tuberculosis isolates according to geographic region is the main challenge for drug-resistant tuberculosis (TB) control. The objective of this study was to develop a molecular platform to make a rapid diagnosis of multidrug-resistant (MDR) and extensively drug-resistant TB based on single nucleotide polymorphism (SNP) mutations present in therpoB, katG, inhA,ahpC, and gyrA genes from Colombian M. tuberculosis isolates. The amplification and sequencing of each target gene was performed. Capture oligonucleotides, which were tested before being used with isolates to assess the performance, were designed for wild type and mutated codons, and the platform was standardised based on the reverse hybridisation principle. This method was tested on DNA samples extracted from clinical isolates from 160 Colombian patients who were previously phenotypically and genotypically characterised as having susceptible or MDR M. tuberculosis. For our method, the kappa index of the sequencing results was 0,966, 0,825, 0,766, 0,740, and 0,625 forrpoB, katG, inhA,ahpC, and gyrA, respectively. Sensitivity and specificity were ranked between 90-100% compared with those of phenotypic drug susceptibility testing. Our assay helps to pave the way for implementation locally and for specifically adapted methods that can simultaneously detect drug resistance mutations to first and second-line drugs within a few hours.

GenoType MTBDR plus 1.0 ® para la detección de resistencia cruzada entre isoniacida y etionamida en aislamientos de Mycobacterium tuberculosis multirresistentes / GenoType MTBDR plus 1.0 ® for the detection of cross-resistance between isoniazide and ethionamide in isolates of multidrug-resistant Mycobacterium tuberculosis

Introducción. Una parte de los aislamientos de Mycobacterium tuberculosis multirresistente también presenta resistencia a la etionamida. Es importante determinar si la resistencia a la isoniacida es independiente o se cruza con la resistencia a la etionamida, ya que si sucede lo segundo habría que reevaluar el tratamiento antituberculoso de segunda línea. La prueba molecular GenoType MTBDR plus ® detecta las mutaciones asociadas con la resistencia a isoniacida y podría detectar la resistencia cruzada a la etionamida. Objetivo. Evaluar la prueba GenoType MTBDR plus ® y comparar su desempeño con el de la secuenciación, en la detección de mutaciones en el gen katG y en el promotor inhA en aislamientos clínicos de M. tuberculosis multirresistente. Materiales y métodos. Se utilizaron el estuche comercial GenoType MTBDR plus 1.0 ® y la secuenciación para evaluar mutaciones en el gen katG y en el promotor inhA en 30 aislamientos de M. tuberculosis multirresistente con resistencia a la etionamida. La cepa de laboratorio H37Rv y tres aislamientos sensibles a los medicamentos de primera línea, sirvieron de control. Resultados. Al comparar los resultados de la secuenciación y de la prueba GenoType MTBDR plus ® , el índice kappa fue de 1. Todos los aislamientos resistentes a la isoniacida y la etionamida tenían las mutaciones detectadas con la prueba GenoTypeMTBDR plus ® en el gen katG, y 40 % de ellos, las detectadas en el promotor inhA. Mediante secuenciación se encontraron, además, mutaciones en katG en posiciones diferentes a las detectadas por la prueba GenoType MTBDR plus ® . Conclusión. La prueba GenoTypeMTBDR plus ® tiene la capacidad de detectar rápidamente la resistencia a isoniacida. Además, los resultados del estudio sugieren que también podría utilizarse como prueba de tamización para detectar la resistencia cruzada a etionamida.

Introduction: A variable proportion of isolates of multidrug-resistant Mycobacterium tuberculosis also presents resistance to ethionamide. It is important to determine whether resistance to isoniazid is independent or crossed with resistance to ethionamide, given that this could lead to the re-evaluation of second-line anti-tuberculosis treatment. The GenoType MTBDR plus ® molecular test is used for the detection of MDR-MTB, as it identifies mutations associated with resistance to isoniazide and could detect cross-resistance with ethionamide. Objective: To evaluate the performance of GenoType MTBDR plus ® in comparison with sequencing in the detection of mutations in gene katG and promotor inhA in clinical isolates of multidrug-resistant M. tuberculosis . Materials and methods: The GenoType MTBDR plus 1.0 ® commercial kit and sequencing were used to evaluate mutations in gene katG and promotor inhA in 30 multidrug-resistant M. tuberculosis isolates that were resistant to ethionamide. The laboratory strain H37Rv and three pan-sensitive isolates acted as controls. Results: The kappa index for the comparison between the results of sequencing and GenoType MTBDR plus ® was 1. All the isolates resistant to isoniazid and ethionamide had the mutations detected by GenoTypeMTBDR plus ® in the katG gene and 40% of them in promotor inhA. Sequencing also revealed katG mutations in positions different to those detected by GenoType MTBDR plus ® . Conclusion: GenoType MTBDR plus ® is able to detect resistance to isoniazid rapidly. Our results suggest that it could also be used to screen for cross-resistance with ethionamide.

Role of a GenoType MTBDRplus line probe assay in early detection of multidrug-resistant tuberculosis at a Brazilian reference center

Resistance to Mycobacterium tuberculosis is a reality worldwide, and its diagnosis continues to be difficult and time consuming. To face this challenge, the World Health Organization has recommended the use of rapid molecular tests. We evaluated the routine use (once a week) of a line probe assay (Genotype MTBDRplus) for early diagnosis of resistance and for assessment of the main related risk factors over 2 years. A total of 170 samples were tested: 15 (8.8%) were resistant, and multidrug resistance was detected in 10 (5.9%). The sensitivity profile took 3 weeks (2 weeks for culture and 1 week for rapid testing). Previous treatment for tuberculosis and the persistence of positive acid-fast smears after 4 months of supervised treatment were the major risk factors observed. The use of molecular tests enabled early diagnosis of drug-resistant bacilli and led to appropriate treatment of the disease. This information has the potential to interrupt the transmission chain of resistant M. tuberculosis.

Mutaciones asociadas a resistencia a rifampicina e isoniacida en aislamientos clínicos del complejo Mycobacterium tuberculosis de pacientes del Hospital Roosevelt / Mutations associated with resistance to rifampin and isoniazid in clinical isolates of the Mycobacterium tuberculosis complex from patients at Roosevelt Hospital

El aumento de tuberculosis y la multidrogo resistencia de cepas de micobacterias es un problema de los sistemas de salud, en 2009, en el Hospital Roosevelt Gordillo y cols, determinaron la TB-MDR en pacientes con tuberculosis diagnosticada microbiológicamente, la tasa de resistencia fue de 4.3%. Objetivo: Determinar los patrones de resistencia y perfiles genéticos de cepas con monoresistencia y cepas TB-MDR del Complejo M. tuberculosis. Métodos: Se utilizaron dos métodos para evaluar las cepas de M. tuberculosis, un método fenotípico, MGIT, y un método Genotípico, Genotype HAIN LifeScience para determinar el perfil genético de las cepas. Resultados: Se evaluaron 846 cepas de micobacterias de los años 2008 al 2013, encontrándose un 2.2% de TB-MDR. Las cepas evaluadas genotípicamente fueron 761, a las cuales se determinó los genes de resistencia, encontrándose monoresistencia a Isoniacida en 58 cepas, 7.6%, monoresistencia a Rifampicina en 18 cepas, 2.4% y 15 cepas MDR, 2.0%. Las mutaciones más frecuentes en monoresistencia fueron inhA MUT1 y katG MUT1 y la combinación de ambos genes 3.2%, 3.0% y 1.3%, para cepas TB-MDR la combinación rpoB Mutación silenciosa + katG MUT1 + inhA MUT1. Se encontró que en pacientes con cepas MDR el 3.1% son HIV+ y el 1.5% son HIV-...(AU)

Introduction: The increase of tuberculosis and multidrug resistance in mycobacteria strains is a problem for health systems, in 2009, in Hospital Roosevelt, Gordillo and cols, determined the TB-MDR in patients diagnosed with tuberculosis microbiologically, the resistance rate was 4.3%. Objective: To determine the resistance patterns and genetic profiles of monoresistant strains and MDR-TB strains of M. tuberculosis complex. Methods: Two methods for evaluating M. tuberculosis strains were used, a phenotypic method, MGIT, and a genotypic method, Genotype HAIN LifeScience to determine the genetic profile of the strains. Results: 846 strains of mycobacteria of the years 2008 to 2013 were evaluated, finding 2.2% of MDR-TB. The strains genotypically evaluated were 761, of wich, resistance genes were determined, finding isoniazid monoresistance in 58 strains, 7.6%, Rifampicin monoresistance in 18 strains, 2.4% and 15 MDR strains, 2.0%. The most frequent mutations for monoresistant strains were inhA MUT1 and katG MUT1 and the combination of both genes 3.2%, 3.0% and 1.3%, respectively, and the most frequent mutations for TB-MDR strains was the combination rpoB silent mutation + katG MUT1 + inhA MUT1. There was found that in patients with MDR strains 3.1% are HIV+ and 1.5% are HIV-. Conclusions: The percentage of TB-MDR strains was 2.3%, and the most common genes were rpoB silent mutation, inhA MUT1 y katG MUT1. There was found a higher percentage of monoresistance in isoniazid than rifampicin, being the HIV+ patient population the one that presented higher percentages in both monoresistance to RIF and INH and TB-MDR strains.

In house reverse membrane hybridisation assay versus GenoType MTBDRplus and their performance to detect mutations in the genes rpoB, katG and inhA

Drug-resistant tuberculosis (TB) threatens global TB control and is a major public health concern in several countries. We therefore developed a multiplex assay (LINE-TB/MDR) that is able to identify the most frequent mutations related to rifampicin (RMP) and isoniazid (INH) resistance. The assay is based on multiplex polymerase chain reaction, membrane hybridisation and colorimetric detection targeting of rpoB and katG genes, as well as the inhA promoter, which are all known to carry specific mutations associated with multidrug-resistant TB (MDR-TB). The assay was validated on a reference panel of 108 M. tuberculosis isolates that were characterised by the proportion method and by DNA sequencing of the targets. When comparing the performance of LINE-TB/MDR with DNA sequencing, the sensitivity, specificity and agreement were 100%, 100% and 100%, respectively, for RMP and 77.6%, 90.6% and 88.9%, respectively, for INH. Using drug sensibility testing as a reference standard, the performance of LINE-TB/MDR regarding sensitivity, specificity and agreement was 100%, 100% and 100% (95%), respectively, for RMP and 77%, 100% and 88.7% (82.2-95.1), respectively, for INH. LINE-TB/MDR was compared with GenoType MTBDRplus for 65 isolates, resulting in an agreement of 93.6% (86.7-97.5) for RIF and 87.4% (84.3-96.2) for INH. LINE-TB/MDR warrants further clinical validation and may be an affordable alternative for MDR-TB diagnosis.

A new rapid colourimetric method for testing Mycobacterium tuberculosis susceptibility to isoniazid and rifampicin: a crystal violet decolourisation assay

The aim of this study was to investigate the performance of a new and accurate method for the detection of isoniazid (INH) and rifampicin (RIF) resistance among Mycobacterium tuberculosis isolates using a crystal violet decolourisation assay (CVDA). Fifty-five M. tuberculosis isolates obtained from culture stocks stored at -80ºC were tested. After bacterial inoculation, the samples were incubated at 37ºC for seven days and 100 µL of CV (25 mg/L stock solution) was then added to the control and sample tubes. The tubes were incubated for an additional 24-48 h. CV (blue/purple) was decolourised in the presence of bacterial growth; thus, if CV lost its colour in a sample containing a drug, the tested isolate was reported as resistant. The sensitivity, specificity, positive predictive value, negative predictive value and agreement for INH were 92.5%, 96.4%, 96.1%, 93.1% and 94.5%, respectively, and 88.8%, 100%, 100%, 94.8% and 96.3%, respectively, for RIF. The results were obtained within eight-nine days. This study shows that CVDA is an effective method to detect M. tuberculosis resistance to INH and RIF in developing countries. This method is rapid, simple and inexpensive. Nonetheless, further studies are necessary before routine laboratory implementation.

Vigilancia de la resistencia a los medicamentos antituberculosos en Cuba, 2010-2011 / Surveillance of antituberculosis-drug resistance in Cuba, 2010-2011

Introducción. La vigilancia de la resistencia a medicamentos antituberculosos permite alertar sobre el hallazgo de aislamientos de Mycobacterium tuberculosis multirresistentes y extremadamente resistentes . Objetivo. Determinar los patrones de resistencia de los aislamientos de M. tuberculosis recuperados en Cuba entre los años 2010 y 2011 y demostrar el desempeño del Laboratorio Nacional de Referencia en la ejecución de las pruebas de sensibilidad. Materiales y métodos. Se realizó un estudio prospectivo longitudinal en el que se incluyeron 657 aislamientos de M. tuberculosis recibidos de todo el país. Se empleó el método de la nitrato reductasa para detectar resistencia a isoniacida y rifampicina, y el método de las proporciones para corroborar la resistencia a dichos medicamentos e investigar la sensibilidad a estreptomicina, etambutol, ofloxacina, kanamicina y capreomicina en aislamientos multirresistentes. Como parte del control de calidad externo de las pruebas de sensibilidad, se evaluaron dos paneles de cepas de M. tuberculosis . Resultados. En 95,69 % de los aislamientos recuperados de casos nuevos de tuberculosis y en 72,64 % de los recuperados de casos previamente tratados, se encontró sensibilidad a isoniacida y rifampicina, siendo la multirresistencia de 1,03 y 10,38 %, respectivamente. Se encontraron dos aislamientos extremadamente resistentes. Con la excepción del etambutol y la capreomicina, para todos los medicamentos la eficiencia fue de 100% en el control de calidad externo. Conclusiones. Se confirmó la baja prevalencia de aislamientos de M. tuberculosis multirresistentes en Cuba, resultado avalado por el excelente desempeño demostrado en el control de calidad externo de las pruebas de sensibilidad.

Introduction: Antituberculosis-drug resistance surveillance is very important to identify multidrug-resistant and extensively drug-resistant Mycobacterium tuberculosis isolates. Objective: To determine the prevalence of resistance in M. tuberculosis strains isolated between 2010 and 2011, and to demonstrate the laboratory performance in the external quality control of drug susceptibility testing. Materials and methods: A prospective longitudinal study was carried out to determine antituberculosis-drug resistance in 657 M. tuberculosis isolates obtained throughout the country. The nitrate reductase assay was used to detect resistance to isoniazid and rifampin. The proportion method was performed to confirm resistance to these drugs and to further investigate in multidrug-resistant isolates their susceptibility to streptomycin, ethambutol, ofloxacin, kanamycin and capreomycin. Additionally, as part of external quality control, susceptibility was evaluated in two M. tuberculosis strain panels. Results: In 95.69% of the isolates recovered from new tuberculosis cases, and in 72.64 % of isolates from previously treated patients we found susceptibility to isoniazid and rifampicin; multidrug resistance was 1,03 and 10.38%, respectively. We found two extensively resistant isolates. Except for ethambutol and capreomycin, the efficiency of all other drugs was 100% in the external quality control. Conclusion: The study confirmed the low prevalence of M. tuberculosis multidrug-resistant isolates in Cuba. This result was confirmed by the external quality control of drug susceptibility testing.