Diagnostic Value of all Diagnostic Tests for Detecting Armazide Resistance in Mycobacterium Tuberculosis: A Systematic Review_Chinese Journal of Evidence-Based Medicine

Authors：

ZHANG Junyu ¹ , TIAN Jinhui ² , JIANG Lei ² , ZHANG Yin ³⁴ , YANG Sunhu ² , YU Hongjuan ³ ,  YANG Kehu ²

1.Gansu Center for Disease Control and Prevention, Lanzhou 730000, China;2.Evidence-based Medicine Center of Lanzhou University, Lanzhou 730000, China;3.Tuberculosis Research Center of Lanzhou University, Lanzhou 73000, China4.The Health Public School of Hopkins University, Washington 074100, U.S.A;

Corresponding author：

YANG Kehu, Email: yangkh2006@163.com

Keywords：

Mycobacterium tuberculosis; Armazide; Diagnostic test; Systematic review

DOI：

10.7507/1672-2531.20080192

Video：

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Abstract Full text Figures/Tables Video References Cited by

Objective 　To evaluate the diagnostic value of all diagnostic tests for detecting armazide resistance in mycobacterium tuberculosis.
Methods 　We searched PUBMED, EMBASE, CBM, CSJD and CJFD. QUADAS items were used to evaluate the quality of included studies. Meta-disc software was used to handle data from included studies.
Results 　Twelve studies were included. Meta-analyses showed that the summary sensitivity and summary specificity of nitrate reductase assay were 92% and 99%, and those of BACTEC MGIT 960 system were 93% and 96%, respectively. The SROC of nitrate reductase assay and BACTEC MGIT 960 system were 0.9836 and 0.9862, respectively.
Conclusion 　 We recommend that proportion method can be replaced by nitrate reductase assay as a screening test for detecting armazide resistance in mycobacterium tuberculosis, and BACTEC 460 can be replaced by BACTEC MGIT 960 system as a final diagnostic test for detecting armazide resistance in mycobacterium tuberculosis.

Citation： ZHANG Junyu,TIAN Jinhui,JIANG Lei,ZHANG Yin,YANG Sunhu,YU Hongjuan,YANG Kehu. Diagnostic Value of all Diagnostic Tests for Detecting Armazide Resistance in Mycobacterium Tuberculosis: A Systematic Review. Chinese Journal of Evidence-Based Medicine, 2008, 08(10): 869-874. doi: 10.7507/1672-2531.20080192 Copy

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2.	The WHO/IUATLD Global Project on Anti-Tuberculosis Drug Resistance Surveillance: Anti-Tuberculosis drug resistance in the world, report number 2 Volume. Geneva; 2004.
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5.	Whiting P, Rutjes AW, Reitsma JB, et al. The development of QUADAS: a tool for the quality assessment of studies of diagnostic accuracy included in systematic reviews. BMC Med Res Methodol, 2003, 3: 25.
6.	Musa HR, Ambroggi M, Souto A, et al. Drug susceptibility testing of mycobacterium tuberculosis by a nitrate reductase assay applied directly on microscopy-positive sputum samples. Journal of Clinical Microbiology, 2005, 43(7): 3159-3161.
7.	Martin A,Montoro E, Lemus D, et al. Multicenter evaluation of the nitrate reductase assay for drug resistance detection of Mycobacterium tuberculosis. Journal of Microbiological Methods, 2005, 63: 145-150.
8.	Lemus D, Montoro E, Echemendı´a M, et al. Nitrate reductase assay for detection of drug resistance in Mycobacterium tuberculosis: simple and inexpensive method for low-resource laboratories. Journal of Microbiological Methods, 2006, 55: 861-863.
9.	Shiferaw G, Woldeamanuel Y, Mekdes G, et al. Evaluation of microscopic observation drug susceptibility assay for detection of multidrug-resistant mycobacterium tuberculosis. Journal of Clinical Microbiology, 2007, 45(4): 1093-1097.
10.	Mohammadzadeh A, Farnia P, Ghazvini K, et al. Rapid and lowcost colorimetric method using 2,3,5-triphenyltetrazolium chloride for detection of multidrug-resistant mycobacterium tuberculosis. Journal of clinical microbiology, 2006, 55: 1657-1659.
11.	Chauca JA, Palomino JC, Guerra H. Evaluation of rifampicin and isoniazid susceptibility testing of mycobacterium tuberculosis by a mycobacteriophage D29-based assay. Eur J Clin Microbiol Infect Dis, 2007, 56: 360-364.
12.	Cambau E, Truffot-Pernot C, Boulahbal F, et al. Mycobacterial growth indicator tube versus the proportion method on löwensteinjensen medium for antibiotic susceptibility testing of mycobacterium tuberculosis. Eur J Clin Microbiol Infect Dis, 2000, 19: 938-942.
13.	Telles MAS, Bori A, Amorim ABR, et al. Rapid detection of multidrug-resistant mycobacterium tuberculosis using the mycobacteria growth indicator tube (MGIT) system. Brazilian Journal of Medical and Biological Reaserch, 2002, 35: 1127-1131.
14.	Adjers-Koskela K, Katila ML. Susceptibility testing with the manual mycobacteria growth indicator tube (MGIT) and the MGIT 960 system provides rapid and reliable verification of multidrugresistant tuberculosis. Journal of Clinical Microbiology, 2003, 41(3): 1235-1239.
15.	Garrigó M, Marcela Aragón L, Alcaide F, et al. Multicenter laboratory evaluation of the MB/BacT mycobacterium detection system and the BACTEC MGIT 960 system in comparison with the BACTEC 460TB system for susceptibility testing of mycobacterium tuberculosis. Journal of Clinical Microbiology, 2007, 45(6): 1766-1770.
16.	Bemer P, Palicova F, Ru¨sch-Gerdes S, et al. Multicenter Evaluation of Fully Automated BACTEC Mycobacteria Growth Indicator Tube 960 System for Susceptibility Testing of Mycobacterium tuberculosis. Journal of Clinical Microbiology, 2002, 40(1): 150-154.
17.	卿克勤, 秦进, 周小平. BACTECMGIT960系统结核分枝杆菌药物敏感测定功能评价. 华西医学, 2004, 19(2): 203-204.
18.	Ängeby KAK, Klintz L, Hoffner SE, et al. Rapid and inexpensive drug susceptibility teasting of mycobacterium tuberculosis with Nitrate Reductase Assay. J Clin Microbio1. 2002, 40(2): 553-555.
19.	刘宇红, 王苏民, 那希宽. 比例法测试结核分枝杆菌药物敏感性的探讨. 中国防痨杂志, 2002, (2): 89-92.

1. 世界卫生组织, 关于结核病的10个事实[EB/OL]. (2007-03-22) [2007-8-10]. http://www.who.int/features/factfiles/tuberculosis/zh/index.html.
2. The WHO/IUATLD Global Project on Anti-Tuberculosis Drug Resistance Surveillance: Anti-Tuberculosis drug resistance in the world, report number 2 Volume. Geneva; 2004.
3. 全国结核病流行病学抽样调查技术指导组, 全国结核病流行病学抽样调查办公室. 2000年全国结核病流行病学抽样调查报告, 中国防痨杂志, 2002, 24: 65-108.
4. 世界卫生组织, 结核病诊断: 全球需求与市场潜力, [ EB/OL](2006-10-25) [2007-8-10],http://bioop.comdedecms3/html/shengwuqianyan/2006/1028/13557.html.
5. Whiting P, Rutjes AW, Reitsma JB, et al. The development of QUADAS: a tool for the quality assessment of studies of diagnostic accuracy included in systematic reviews. BMC Med Res Methodol, 2003, 3: 25.
6. Musa HR, Ambroggi M, Souto A, et al. Drug susceptibility testing of mycobacterium tuberculosis by a nitrate reductase assay applied directly on microscopy-positive sputum samples. Journal of Clinical Microbiology, 2005, 43(7): 3159-3161.
7. Martin A,Montoro E, Lemus D, et al. Multicenter evaluation of the nitrate reductase assay for drug resistance detection of Mycobacterium tuberculosis. Journal of Microbiological Methods, 2005, 63: 145-150.
8. Lemus D, Montoro E, Echemendı´a M, et al. Nitrate reductase assay for detection of drug resistance in Mycobacterium tuberculosis: simple and inexpensive method for low-resource laboratories. Journal of Microbiological Methods, 2006, 55: 861-863.
9. Shiferaw G, Woldeamanuel Y, Mekdes G, et al. Evaluation of microscopic observation drug susceptibility assay for detection of multidrug-resistant mycobacterium tuberculosis. Journal of Clinical Microbiology, 2007, 45(4): 1093-1097.
10. Mohammadzadeh A, Farnia P, Ghazvini K, et al. Rapid and lowcost colorimetric method using 2,3,5-triphenyltetrazolium chloride for detection of multidrug-resistant mycobacterium tuberculosis. Journal of clinical microbiology, 2006, 55: 1657-1659.
11. Chauca JA, Palomino JC, Guerra H. Evaluation of rifampicin and isoniazid susceptibility testing of mycobacterium tuberculosis by a mycobacteriophage D29-based assay. Eur J Clin Microbiol Infect Dis, 2007, 56: 360-364.
12. Cambau E, Truffot-Pernot C, Boulahbal F, et al. Mycobacterial growth indicator tube versus the proportion method on löwensteinjensen medium for antibiotic susceptibility testing of mycobacterium tuberculosis. Eur J Clin Microbiol Infect Dis, 2000, 19: 938-942.
13. Telles MAS, Bori A, Amorim ABR, et al. Rapid detection of multidrug-resistant mycobacterium tuberculosis using the mycobacteria growth indicator tube (MGIT) system. Brazilian Journal of Medical and Biological Reaserch, 2002, 35: 1127-1131.
14. Adjers-Koskela K, Katila ML. Susceptibility testing with the manual mycobacteria growth indicator tube (MGIT) and the MGIT 960 system provides rapid and reliable verification of multidrugresistant tuberculosis. Journal of Clinical Microbiology, 2003, 41(3): 1235-1239.
15. Garrigó M, Marcela Aragón L, Alcaide F, et al. Multicenter laboratory evaluation of the MB/BacT mycobacterium detection system and the BACTEC MGIT 960 system in comparison with the BACTEC 460TB system for susceptibility testing of mycobacterium tuberculosis. Journal of Clinical Microbiology, 2007, 45(6): 1766-1770.
16. Bemer P, Palicova F, Ru¨sch-Gerdes S, et al. Multicenter Evaluation of Fully Automated BACTEC Mycobacteria Growth Indicator Tube 960 System for Susceptibility Testing of Mycobacterium tuberculosis. Journal of Clinical Microbiology, 2002, 40(1): 150-154.
17. 卿克勤, 秦进, 周小平. BACTECMGIT960系统结核分枝杆菌药物敏感测定功能评价. 华西医学, 2004, 19(2): 203-204.
18. Ängeby KAK, Klintz L, Hoffner SE, et al. Rapid and inexpensive drug susceptibility teasting of mycobacterium tuberculosis with Nitrate Reductase Assay. J Clin Microbio1. 2002, 40(2): 553-555.
19. 刘宇红, 王苏民, 那希宽. 比例法测试结核分枝杆菌药物敏感性的探讨. 中国防痨杂志, 2002, (2): 89-92.

Chinese Journal of Evidence-Based Medicine

Diagnostic Value of all Diagnostic Tests for Detecting Armazide Resistance in Mycobacterium Tuberculosis: A Systematic Review

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