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Literature DB >> 16283213

Molecular diagnostics in tuberculosis.

Abstract

Molecular diagnostics in tuberculosis has enabled rapid detection of Mycobacterium tuberculosis complex in clinical specimens, identification of mycobacterial species, detection of drug resistance, and typing for epidemiological investigation. In the laboratory diagnosis of tuberculosis, the nucleic acid amplification (NAA) test is rapid and specific but not as sensitive as culture of mycobacteria. The primary determinant of successful NAA testing for tuberculosis depends on the shedding of mycobacterial DNA in secretions from caseating granulomas and its dissemination into sterile body fluids or tissue biopsies. In multibacillary diseases with a high mycobacterial load, a positive Ziehl-Neelsen smear with a positive NAA test is diagnostic of active tuberculosis, whereas a positive Ziehl-Neelsen smear with a negative NAA test in the absence of inhibitors would indicate nontuberculous mycobacterial disease. The role of the NAA test is more important in paucibacillary diseases with low mycobacterial loads. The presence of polymerase chain reaction (PCR) inhibitors, however, especially in extrapulmonary specimens, may produce false-negative results. Although this problem can be overcome to some extent by extra extraction steps, the additional processing invariably leads to the loss of mycobacterial DNA. To circumvent this problem, a brief culture augmentation step is carried out before the NAA test is performed, which can enhance the mycobacterial load while concomitantly diluting inhibitors, thereby maintaining the sensitivity of the test without excessively increasing turnaround time.

Entities: Disease Species

Mesh：

Year: 2005 PMID： 16283213 DOI： 10.1007/s10096-005-0039-1

Source DB: PubMed Journal: Eur J Clin Microbiol Infect Dis ISSN： 0934-9723 Impact factor: 3.267

107 in total

1. Increased sensitivity of Mycobacterium tuberculosis Cobas Amplicor PCR following brief incubation of tissue samples on Löwenstein-Jensen substrate.

Authors: Mariana Cristea Fernstrom; Lena Dahlgren; Maria Ranby; Arne Forsgren; Bjorn Petrini
Journal: APMIS Date: 2003-12 Impact factor: 3.205

2. Differentiation of mycobacterial species by PCR-restriction analysis of DNA (342 base pairs) of the RNA polymerase gene (rpoB).

Authors: B J Kim; K H Lee; B N Park; S J Kim; G H Bai; S J Kim; Y H Kook
Journal: J Clin Microbiol Date: 2001-06 Impact factor: 5.948

3. Comparison of two automated DNA amplification systems with a manual one-tube nested PCR assay for diagnosis of pulmonary tuberculosis.

Authors: K Y Yuen; W C Yam; L P Wong; W H Seto
Journal: J Clin Microbiol Date: 1997-06 Impact factor: 5.948

4. Peptide nucleic acid probe detection of mutations in Mycobacterium tuberculosis genes associated with drug resistance.

Authors: L E Bockstahler; Z Li; N Y Nguyen; K A Van Houten; M J Brennan; J J Langone; S L Morris
Journal: Biotechniques Date: 2002-03 Impact factor: 1.993

5. Evaluation of polymerase chain reaction, adenosine deaminase, and interferon-gamma in pleural fluid for the differential diagnosis of pleural tuberculosis.

Authors: M V Villegas; L A Labrada; N G Saravia
Journal: Chest Date: 2000-11 Impact factor: 9.410

6. Interferon-gamma and interleukin-10 gene polymorphisms in pulmonary tuberculosis.

Authors: Dolores López-Maderuelo; Francisco Arnalich; Rocio Serantes; Alicia González; Rosa Codoceo; Rosario Madero; Juan J Vázquez; Carmen Montiel
Journal: Am J Respir Crit Care Med Date: 2003-01-16 Impact factor: 21.405

7. Regulatory role of vitamin D receptor gene variants of Bsm I, Apa I, Taq I, and Fok I polymorphisms on macrophage phagocytosis and lymphoproliferative response to mycobacterium tuberculosis antigen in pulmonary tuberculosis.

Authors: P Selvaraj; G Chandra; M S Jawahar; M Vidya Rani; D Nisha Rajeshwari; P R Narayanan
Journal: J Clin Immunol Date: 2004-09 Impact factor: 8.317

8. Real-time PCR assay using fine-needle aspirates and tissue biopsy specimens for rapid diagnosis of mycobacterial lymphadenitis in children.

Authors: E S Bruijnesteijn Van Coppenraet; J A Lindeboom; J M Prins; M F Peeters; E C J Claas; E J Kuijper
Journal: J Clin Microbiol Date: 2004-06 Impact factor: 5.948

9. The Cobas Amplicor MTB test for detection of Mycobacterium tuberculosis complex from respiratory and non-respiratory clinical specimens.

Authors: Bodil Jönsson; Malin Ridell
Journal: Scand J Infect Dis Date: 2003

10. Comparison of polymerase chain reaction with histopathologic features for diagnosis of tuberculosis in formalin-fixed, paraffin-embedded histologic specimens.

Authors: Do Youn Park; Jee Yeon Kim; Kyung Un Choi; Jin Sook Lee; Chang Hun Lee; Mee Young Sol; Kang Suek Suh
Journal: Arch Pathol Lab Med Date: 2003-03 Impact factor: 5.534

29 in total

1. Use of the BACTEC Mycobacteria Growth Indicator Tube 960 automated system for recovery of Mycobacteria from 9,558 extrapulmonary specimens, including urine samples.

Authors: Doris Hillemann; Elvira Richter; Sabine Rüsch-Gerdes
Journal: J Clin Microbiol Date: 2006-09-27 Impact factor: 5.948

2. Association between sarcoidosis and Behçet disease in a young woman with symptoms mimicking myasthaenia gravis.

Authors: I-Fang Hsin; Chang-Youh Tsai
Journal: BMJ Case Rep Date: 2009-08-19

Review 3. Breast Tuberculosis.

Authors: Durganna Thimmappa; M N Mallikarjuna; Abhishek Vijayakumar
Journal: Indian J Surg Date: 2015-07-01 Impact factor: 0.656

4. Evaluation of in-house loop-mediated isothermal amplification (LAMP) assay for rapid diagnosis of M. tuberculosis in pulmonary specimens.

Authors: Sunil Sethi; Sunil Kumar Sethi; Sumeet Singh; Sunil Kumar Dhatwalia; Rakesh Yadav; Abhishek Mewara; Malkit Singh; Rupinder Tewari; Meera Sharma
Journal: J Clin Lab Anal Date: 2013-07 Impact factor: 2.352