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CML is characterized by the presence of a BCR-ABL1 fusion transcript. Several guidelines have been published for its detection and molecular monitoring. Here, a case is described of chronic myeloid leukemia presenting in the blast phase with a rare variant transcript, with a discussion on possible red flags in its detection and genetic testing and description of the patient's clinical characteristics. This case highlights the pitfalls of using real-time quantitative reverse-transcription polymerase chain reaction (RQ-PCR) for diagnosis of CML, especially when the clinical picture and the test results are discordant.
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Abstract Introduction: Most successful cases of COVID-19 pandemic mitigation and handling have relied on extensive reverse-transcription quantitative polymerase chain reaction (RT-qPCR). However, many emerging economies have struggled with current molecular testing demands due to economic, technical and technological constraints. Objective: To define a potential diagnostic protocol to increase testing capacity in current and post-pandemic conditions. Methods: We reviewed the literature, patents and commercial applications, for alternatives. Results: We found a good potential in saliva samples, viral inactivation and quick RNA extraction by heating; the use of an isothermal technology such as loop mediated isothermal amplification (LAMP) and naked eye test-result visualization by in-tube colorimetry or turbidity. Conclusions: Saliva samples with quick RNA extraction by heating and colorimetric LAMP are promising options for countries with economic and infrastructure limitations.
Resumen Introducción: La mayoría de los casos exitosos de mitigación y manejo de la pandemia de COVID-19 se han dado mediante pruebas basadas en la reacción en cadena de la polimerasa cuantitativa (RT-qPCR por sus siglas en inglés). Sin embargo, muchas economías emergentes han tenido problemas con las demandas actuales de pruebas moleculares debido a limitaciones económicas, técnicas y tecnológicas. Objetivo: Definir un protocolo de diagnóstico potencial para aumentar la capacidad de prueba en las condiciones actuales y posteriores a la pandemia. Métodos: Revisamos la literatura, las patentes y las aplicaciones comerciales, en busca de alternativas. Resultados: Encontramos un buen potencial en muestras de saliva, inactivación viral y extracción rápida de ARN por calentamiento; el uso de una tecnología isotérmica como la amplificación isotérmica mediada por horquillas (LAMP, por sus siglas en inglés) y la visualización del resultado de la prueba a simple vista mediante colorimetría o turbidez en el tubo. Conclusiones: Las muestras de saliva con extracción rápida de ARN por calentamiento y LAMP colorimétrico son opciones prometedoras para países con limitaciones económicas y de infraestructura.
Subject(s)
Humans , Molecular Diagnostic Techniques/methods , COVID-19 Serological Testing , COVID-19ABSTRACT
Abstract Bacterial contamination of blood components remains a major challenge in transfusion medicine, particularly, platelet concentrates (PCs) due to the storage conditions that support bacterial proliferation. In this study, we develop a rapid, sensitive and specific real-time PCR protocol for bacterial screening of PCs. An internally controlled real-time PCR-based method was optimized and validated with our proprietary 16S Universal PCR Master Mix (IBMP/Fiocruz), which targets a conserved region of the bacterial 16S rRNA gene. Nonspecific background DNA was completely eliminated by treating the PCR Master Mix with ethidium monoazide (EMA). A lower limit of detection was observed for 10 genome equivalents with an observed Ct value of 34±1.07 in calibration curve generated with 10-fold serial dilutions of E. coli DNA. The turnaround time for processing, including microbial DNA purification, was approximately 4 hours. The developed method showed a high sensitivity with no non-specific amplification and a lower time-to-detection than traditional microbiological methods, demonstrating it to be an efficient means of screening pre-transfusion PCs.
Resumo A contaminação bacteriana dos componentes sanguíneos é um grande desafio na medicina transfusional, principalmente nos concentrados de plaquetas (PCs) devido às condições de armazenamento que favorecem a proliferação bacteriana. Neste estudo, desenvolvemos um protocolo de PCR em tempo real rápido, sensível e específico para a triagem bacteriana de PCs. Um método baseado em PCR em tempo real, controlado internamente, foi otimizado e validado com um Master Mix Universal PCR 16S (IBMP / Fiocruz), que detecta uma região conservada do gene 16S rRNA bacteriano. O background de DNA não específico foi completamente eliminado tratando a PCR Master Mix com monoazida de etídio (EMA). O limite de detecção inferior observado foi de 10 cópias equivalentes do genoma com um valor de Ct 34 ± 1,07, a curva de calibração foi gerada com diluições seriada de 10 vezes do DNA de E. coli. O tempo de processamento, incluindo a purificação microbiana do DNA, foi de aproximadamente 4 horas. O método desenvolvido mostrou alta sensibilidade sem amplificação inespecífica e menor tempo de detecção do que os métodos microbiológicos tradicionais, demonstrando ser um meio eficiente de triagem de PCs pré-transfusionais.
Subject(s)
Blood Platelets , Escherichia coli , Bacteria/genetics , DNA, Bacterial/genetics , RNA, Ribosomal, 16S , Real-Time Polymerase Chain ReactionABSTRACT
En diciembre de 2019 se identificó el virus SARS-CoV-2, cuya rápida propagación global puso en estado de emergencia al mundo entero, llevando al ser humano a una situación sin antecedente cercano. El objetivo de esta revisión es describir los métodos diagnósticos utilizados actualmente para identificar la infección por SARS-CoV-2. Las manifestaciones clínicas y el espectro imagenológico de la enfermedad son muy inespecíficos y no permiten realizar un diagnóstico certero. Por esta razón, es esencial una apropiada toma de muestra respiratoria en el momento y sitio anatómico adecuado para un diagnóstico preciso de COVID-19. La técnica de muestreo más utilizada es el hisopado nasofaríngeo y la prueba diagnóstica más fiable se basa en la retrotranscripción seguida por reacción en cadena de la polimerasa en tiempo real (RT-PCR). No obstante, existen otras técnicas moleculares, como también tests serológicos para detectar anticuerpos o fragmentos antigénicos del SARS-CoV-2. Más allá de la precisión diagnóstica, es importante tener en cuenta la probabilidad basal (pretest) para interpretar correctamente el resultado obtenido y aislar aquellos posibles falsos negativos. Con el objetivo de evitar la saturación del sistema de salud es imprescindible contar con información y métodos diagnósticos precisos para detectar tempranamente los focos de infección y reducir la transmisión comunitaria, utilizando eficazmente los diferentes recursos diagnósticos. (AU)
In December 2019, the SARS-CoV-2 virus was identified for the first time, whose rapid global spread put the entire world in a state of emergency, leading humans to an unprecedented situation with no immediate history. The main purpose of this review is to describe the diagnostic methods currently used to identify SARS-CoV-2 infection. The clinical manifestations and the imaging spectrum of the disease are nonspecific and do not allow an accurate diagnosis to be made. For this reason, an appropriate respiratory sampling at the right time and anatomical site is essential for an accurate diagnosis of COVID-19. The most widely used sampling technique is nasopharyngeal swab, and the most reliable diagnostic test is by reverse transcription followed by real-time polymerase chain reaction (RT-PCR). However, there are other molecular techniques, as well as serological tests to detect antibodies or antigenic fragments of SARS-CoV-2. Beyond the diagnostic precision, it is important to take into account the baseline probability (pre-test) to correctly interpret the result obtained and isolate those possible false negatives. In order to avoid saturation of the health system, it is essential to have accurate information and diagnostic methods to detect outbreaks of infection in early stages and to reduce communitary transmission, making effective use of the various diagnostic resources. Coronavirus infections/diagnosis, viral/diagnosis, pandemics, clinical laboratory techniques, real-time polymerase chain reaction, antigens, viral/analysis. (AU)
Subject(s)
Humans , Serologic Tests/methods , Coronavirus Infections/diagnosis , Real-Time Polymerase Chain Reaction/methods , Argentina , Pneumonia, Viral/diagnosis , Serologic Tests/statistics & numerical data , Polymerase Chain Reaction/methods , Polymerase Chain Reaction/statistics & numerical data , Coronavirus Infections/physiopathology , Coronavirus Infections/prevention & control , Coronavirus Infections/diagnostic imaging , False Negative Reactions , False Positive Reactions , Real-Time Polymerase Chain Reaction/statistics & numerical data , BetacoronavirusABSTRACT
@#Chronic myeloid leukaemia (CML) provides an illustrative disease model for both molecular pathogenesis of cancer and rational drug therapy. Imatinib mesylate (IM), a BCR-ABL1 targeted tyrosine kinase inhibitor (TKI) drug, is the first line gold standard drug for CML treatment. Conventional cytogenetic analysis (CCA) can identify the standard and variant Philadelphia (Ph) chromosome, and any additional complex chromosome abnormalities at diagnosis as well as during treatment course. Fluorescence in situ hybridization (FISH) is especially important for cells of CML patients with inadequate or inferior quality metaphases or those with variant Ph translocations. CCA in conjunction with FISH can serve as powerful tools in all phases of CML including the diagnosis, prognosis, risk stratification and monitoring of cytogenetic responses to treatment. Molecular techniques such as reverse transcriptase-polymerase chain reaction (RT-PCR) is used for the detection of BCR-ABL1 transcripts at diagnosis whereas quantitative reverse transcriptase-polymerase chain reaction (qRTPCR) is used at the time of diagnosis as well as during TKI therapy for the quantitation of BCR-ABL1 transcripts to evaluate the molecular response and minimal residual disease (MRD). Despite the excellent treatment results obtained after the introduction of TKI drugs, especially Imatinib mesylate (IM), resistance to TKIs develops in approximately 35% - 40% of CML patients on TKI therapy. Since point mutations in BCR-ABL1 are a common cause of IM resistance, mutation analysis is important in IM resistant patients. Mutations are reliably detected by nested PCR amplification of the translocated ABL1 kinase domain followed by direct sequencing of the entire amplified kinase domain. The objective of this review is to highlight the importance of regular and timely CCA, FISH analysis and molecular testing in the diagnosis, prognosis, assessment of therapeutic efficacy, evaluation of MRD and in the detection of BCR-ABL1 kinase mutations which cause therapeutic resistance in adult CML patients.
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Objective To understand the status of new coronavirus contamination in the biosafety laboratory environment, identify key areas prone to contamination, and provide evidence for disinfection of central objects. Methods surfaces of high-frequency contact environment and protective equipment were sampled with moistened sterile cotton swabs after experiment and before disinfection, the results of the one-step real-time reverse transcription polymerase chain reaction (RT-PCR) of open reading frame 1ab and N fragment were used to evaluate the pollution status. Results Environmental surveys found 4 of 217 samples of environmental objects to be positive for new coronavirus RNA, that positive rate was 1.84%. Among them, BSL-3, BSL-2, and BSL-1 were sampled 23, 184, and 10 respectively. The 3 positive samples were from surfaces of nucleic acid extraction room of BSL-2 and from the handles of pass-through box, laboratory door handles and the outer surface of the alcohol watering pot respectively. The 1 positive sample was from the forearm of the protective clothing in BSL-2 laboratory. Conclusion There was a certain degree of virus pollution in key areas of the new coronavirus laboratory. The BSL-2 laboratory has a higher risk of environmental pollution than the BSL-3 and BSL-1 laboratories.
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Thyroid nodules are the most common endocrine tumor. Ultrasonography and fine-needle aspiration (FNA) are currently accurate diagnostic tools for evaluating thyroid nodules. However, 10–30% of FNA specimens are cytologically indeterminate. Making an accurate diagnosis between benign and malignant nodules is important so that patients with malignant nodule receive proper treatment and patients with benign nodule can avoid unnecessary treatment. Several genetic changes such as point mutations of the BRAF or RAS and rearrangements of the RET/PTC1, RET/PTC3, PAX8/PPARY are used to adjust to indeterminate FNA. Such a mutational analysis has an excellent positive predictive value (PPV), but there is a weakness in the low negative predictive value (NPV). Gene-expression classifier (GEC) has been found helpful in identify nodules that are benign rather than malignant. GEC has an excellent NPV, but there is a weakness of low PPV. Multiplatform mutational and miRNA test (MPT) and next-generation sequencing assay (NGS) are being studied to compensate for these weaknesses. Molecular tests appear to be a good solution for improving the accuracy of indeterminate FNA cytology specimens and support the clinical management decisions in patients with indeterminate cytologic nodules, but further prospective multicenter trials are required for validation of reported findings and need evaluation of cost-effectiveness. This paper will review recently available molecular diagnostic tools of thyroid nodule.
Subject(s)
Humans , Biopsy, Fine-Needle , Diagnosis , MicroRNAs , Multicenter Studies as Topic , Pathology, Molecular , Point Mutation , Prospective Studies , Thyroid Gland , Thyroid Neoplasms , Thyroid Nodule , UltrasonographyABSTRACT
Abstract Histophilus somni is a Gram-negative bacterium that is associated with a disease complex (termed histophilosis) that can produce several clinical syndromes predominantly in cattle, but also in sheep. Histophilosis is well described in North America, Canada, and in some European countries. In Brazil, histophilosis has been described in cattle with respiratory, reproductive, and systemic disease, with only one case described in sheep. This report describes the occurrence of Histophilus somni-associated disease in sheep from Southern Brazil. Eight sheep with different clinical manifestations from five farms were investigated by a combination of pathological and molecular diagnostic methods to identify additional cases of histophilosis in sheep from Brazil. The principal pathological lesions were thrombotic meningoencephalitis, fibrinous bronchopneumonia, pulmonary abscesses, and necrotizing myocarditis. The main clinical syndromes associated with H. somni were thrombotic meningoencephalitis (n = 4), septicemia (n = 4), bronchopneumonia (n = 4), and myocarditis (n = 3). H. somni DNA was amplified from multiple tissues of all sheep with clinical syndromes of histophilosis; sequencing confirmed the PCR results. Further, PCR assays to detect Pasteurella multocida and Mannheimia haemolytica were negative. These findings confirmed the participation of H. somni in the clinical syndromes investigated during this study, and adds to the previous report of histophilosis in sheep from Brazil.
Subject(s)
Animals , Sheep Diseases/microbiology , Pasteurellaceae Infections/veterinary , Mannheimia haemolytica/isolation & purification , Brazil , Sheep , Polymerase Chain Reaction , Pasteurellaceae Infections/microbiology , Mannheimia haemolytica/geneticsABSTRACT
Targeted therapies guided by molecular diagnostics have become a standard treatment of lung cancer. Epidermal growth factor receptor (EGFR) mutations and anaplastic lymphoma kinase (ALK) rearrangements are currently used as the best predictive biomarkers for EGFR tyrosine kinase inhibitors and ALK inhibitors, respectively. Besides EGFR and ALK, the list of druggable genetic alterations has been growing, including ROS1 rearrangements, RET rearrangements, and MET alterations. In this situation, pathologists should carefully manage clinical samples for molecular testing and should do their best to quickly and accurately identify patients who will benefit from precision therapeutics. Here, we grouped molecular biomarkers of lung cancers into three categories—mutations, gene rearrangements, and amplifications—and propose expanded guidelines on molecular testing of lung cancers.
Subject(s)
Humans , Biomarkers , Gene Rearrangement , Lung Neoplasms , Lung , Lymphoma , Pathology, Molecular , Phosphotransferases , Precision Medicine , Protein-Tyrosine Kinases , ErbB ReceptorsABSTRACT
Abstract Bacterial contamination of blood components remains a major challenge in transfusion medicine, particularly, platelet concentrates (PCs) due to the storage conditions that support bacterial proliferation. In this study, we develop a rapid, sensitive and specific real-time PCR protocol for bacterial screening of PCs. An internally controlled real-time PCR-based method was optimized and validated with our proprietary 16S Universal PCR Master Mix (IBMP/Fiocruz), which targets a conserved region of the bacterial 16S rRNA gene. Nonspecific background DNA was completely eliminated by treating the PCR Master Mix with ethidium monoazide (EMA). A lower limit of detection was observed for 10 genome equivalents with an observed Ct value of 34±1.07 in calibration curve generated with 10-fold serial dilutions of E. coli DNA. The turnaround time for processing, including microbial DNA purification, was approximately 4 hours. The developed method showed a high sensitivity with no non-specific amplification and a lower time-to-detection than traditional microbiological methods, demonstrating it to be an efficient means of screening pre-transfusion PCs.
Resumo A contaminação bacteriana dos componentes sanguíneos é um grande desafio na medicina transfusional, principalmente nos concentrados de plaquetas (PCs) devido às condições de armazenamento que favorecem a proliferação bacteriana. Neste estudo, desenvolvemos um protocolo de PCR em tempo real rápido, sensível e específico para a triagem bacteriana de PCs. Um método baseado em PCR em tempo real, controlado internamente, foi otimizado e validado com um Master Mix Universal PCR 16S (IBMP / Fiocruz), que detecta uma região conservada do gene 16S rRNA bacteriano. O background de DNA não específico foi completamente eliminado tratando a PCR Master Mix com monoazida de etídio (EMA). O limite de detecção inferior observado foi de 10 cópias equivalentes do genoma com um valor de Ct 34 ± 1,07, a curva de calibração foi gerada com diluições seriada de 10 vezes do DNA de E. coli. O tempo de processamento, incluindo a purificação microbiana do DNA, foi de aproximadamente 4 horas. O método desenvolvido mostrou alta sensibilidade sem amplificação inespecífica e menor tempo de detecção do que os métodos microbiológicos tradicionais, demonstrando ser um meio eficiente de triagem de PCs pré-transfusionais.
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Este estudio prospectivo analizó en una población argentina la frecuencia de la mutación V600E del oncogén BRAF en pacientes operados por nódulos tiroideos benignos y por carcinoma papilar de tiroides. En estos últimos se compararon las características clínicas y anatomopatológicas en relación a la presencia o ausencia de la mutación. Se estudiaron prospectivamente 25 pacientes consecutivos operados en nuestra institución. Se obtuvieron muestras histológicas de tejido nodular y el adyacente no nodular en fresco. Se extrajo ADN, se amplificó según técnica amplification refractory mutation system polymerase chain reaction (ARMS PCR). Se efectuó secuenciación directa del gen en 4 muestras. El 77% de los operados por carcinoma papilar resultaron BRAF+. Todas las muestras de tejido adyacente no tumoral y de los nódulos benignos fueron negativas para la mutación. La secuenciación directa confirmó los resultados obtenidos por ARMS PCR en las muestras en que fue efectuada. Los pacientes BRAF+ presentaron mayor edad al diagnóstico vs. aquellos BRAF- (47.7 ± 12.7 vs 24.7 ± 8.1 años, p < 0.01). Nueve de diez carcinomas papilares de tiroides con mutación de BRAF correspondieron a la variante histológica clásica, la cual no se observó en los tumores BRAF- (p < 0.02). En conclusión, comunicamos una elevada frecuencia de mutación V600E del oncogén BRAF en pacientes operados por carcinoma papilar de tiroides en Argentina. Estos resultados son acordes a lo referido en la bibliografía.
This prospective study analyzed the frequency of V600E mutation of oncogene BRAF in patients operated for benign thyroid nodules and for papillary thyroid cancer in an Argentine population. In patients with papillary thyroid cancer we compared clinicopathological characteristics between those harboring BRAF mutation and those without it. Twenty five consecutive patients operated for benign nodules and for papillary carcinoma were prospectively included. Fresh tissue samples of thyroid nodules and of adjacent thyroid parenchyma were obtained. DNA was extracted and amplified by amplification refractory mutation system polymerase chain reaction (ARMS PCR). Direct sequencing was performed in four samples. Of those patients operated for papillary thyroid cancer, 77% harbored BRAF mutation. All samples from adjacent thyroid parenchyma and from patients operated for benign nodules tested negative for the mutation. Direct sequencing confirmed the results obtained by ARMS PCR. Patients with BRAF mutation were significantly older at the time of diagnosis (BRAF+ 47.7 ± 12.7 years vs. BRAF- 24.7 ± 8.1 years, p < 0.01). Nine out of ten papillary carcinomas with BRAF mutation corresponded to the classic histological subtype, which was not observed in BRAF negative tumors (p < 0.02). In conclusion, we found a high frequency of BRAF V600E mutation in this population of patients operated for papillary thyroid carcinoma in Argentina. These results are consistent with those reported in the literature.
Subject(s)
Humans , Male , Female , Adult , Middle Aged , Aged , Thyroid Neoplasms/genetics , Carcinoma/genetics , Thyroid Nodule/genetics , Proto-Oncogene Proteins B-raf/genetics , Mutation , Argentina , Thyroid Neoplasms/pathology , DNA Mutational Analysis , Carcinoma/pathology , Carcinoma, Papillary , Prospective Studies , Thyroid Nodule/pathology , Thyroid Cancer, PapillaryABSTRACT
With increasing prevalence of thyroid nodules, clinicians are increasingly impelled to identify the optimal predictor of thyroid cancer, with the goal of guiding management based on assessed risk. Fine-needle aspiration cytology is the gold standard diagnostic method for thyroid nodules. However, fine-needle aspiration cytology is not perfect and adjuncts which might complement its predictive value are being investigated from several innovative perspectives. For these vigorous efforts, remarkable advances have been achieved in understanding several major biologic areas of thyroid cancer, including the molecular alterations for loss of radioiodine avidity of thyroid cancer, the pathogenic role of the MAP kinase and PI3K/Akt pathways and their related genetic alterations in thyroid tumorigenesis and pathogenesis. These exciting advances provide unprecedented opportunities for development of molecular-based novel diagnostic and therapeutic strategies for thyroid cancer. The common somatic genetic changes in thyroid cancer of follicular cell origin (RET/PTC, NTRK, RAS, BRAF, PAX8-PPARgamma) are generally mutually exclusive, with distinct genotype-histologic subtype associations of thyroid cancer. Mutation analysis in fine needle aspiration samples has been applied to improve the diagnostic accuracy. In studies regarding gene expression profiling, aberrant gene methylation and miRNA have shown significant progress toward identification of biomarkers that could improve the accuracy of fine needle aspiration cytology in the evaluation of patients with thyroid nodule and prediction of disease aggressiveness. Future clinical trials evaluating the accuracy and cost-effectiveness of applying these biomarkers in the management of thyroid neoplasm should be considered.
Subject(s)
Humans , Biomarkers , Biopsy, Fine-Needle , Carcinogenesis , Complement System Proteins , Diagnosis , Gene Expression Profiling , Methylation , MicroRNAs , Phosphotransferases , Prevalence , Thyroid Gland , Thyroid Neoplasms , Thyroid NoduleABSTRACT
In this era of precision medicine, our understanding and knowledge of the molecular landscape associated with lung cancer pathogenesis continues to evolve. This information is being increasingly exploited to treat advanced stage lung cancer patients with tailored, targeted therapy. During the management of these patients, minimally invasive procedures to obtain samples for tissue diagnoses are desirable. Cytologic fine-needle aspirates are often utilized for this purpose and are important not only for rendering diagnoses to subtype patients' lung cancers, but also for ascertaining molecular diagnostic information for treatment purposes. Thus, cytologic fine-needle aspirates must be utilized and triaged judiciously to achieve both objectives. In this review, strategies in utilizing fine-needle aspirates will be discussed in the context of our current understanding of the clinically actionable molecular aberrations underlying non-small cell lung cancer and the molecular assays applied to these samples in order to obtain treatment-relevant molecular diagnostic information.
Subject(s)
Humans , Biopsy, Fine-Needle , Carcinoma, Non-Small-Cell Lung , Diagnosis , Lung Neoplasms , Molecular Diagnostic Techniques , Pathology, MolecularABSTRACT
Bacground: DST by conventional methods takes several weeks, while early diagnosis of the disease and the rapid identification of resistant strains are essential for efficient treatment and control of the MDR strains. Rapid molecular testing of detecting MDR-TB is needed.Objective: The aim of this study was to assess performance of molecular line probe assay, Genotype16 MTBDRp/us, for rapid detection of RIF and INH resistance for M.Tuberculosis in Mongolia. The sensitivity and specificity of Genotype® MTBDRp/us to detect RIF and INH resistance-associated mutations in culture specimens and directly in smear-positive clinical specimens was examined and compared with conventional culture and drug susceptibility testing on solid medium.Material and Methods: The subjects of this study were 218 MDR-TB suspects aged 14-75 years from 8 districts in Ulaanbaatar city. The study was conducted from July 2009 to May 2010. The Genotype M. Tuberculosis drug resistance first line (MTBDR plus) assay (Hain Life-science, Nehren, Germany) was tested on directly on 41 sputum specimens and 109 clinical isolates.Results: The high correlation of the results from Genotype® MTBDRp/us and conventional drug susceptibility testing was obtained from this study. The results clearly show high performance of Genotype® MTBDRp/us with almost 100% accuracy for all the important indicators, such as sensitivity, specificity, positive and negative predictive values of detection of RIF and INH resistance. Some minor discrepancies were obtained in comparison with DNA sequencing results.Our study found that among high proportion for detection of RIF resistance, S531L mutation (MUT3 band) occurred the most commonly, with 80.0% of all RIF-resistant strains (83.6% of MDR) having the mutation. Other mutation in the 530-533 regions was common, as detected by the lack of binding to the WT8 probe in the absence of S531L mutation.In this study we observed that mutations in the promoter region of inhA gene played a major role (67.6 % (63.9% of MDR strains and 90% of INH-mono-resistant strains) had a mutation in the inhA.Conclusion: The Genotype® MTBDRp/us assay was demonstrated as a rapid, reliable and highly accurate tool for early detection of MDR-TB through examining smear positive cases enabling early start of appropriate therapeutic and public health measures to control of the spread of drug resistant M.tuberculosis in the population.