Authors
Ehsan Aryan, Manoochehr Makvandi, Ahmad Farajzadeh, Kris Huygen, Pablo Bifani, Seyed-Latif Mousavi, Abolfazl Fateh, Abbass Jelodar, Mohammad-Mehdi Gouya, Marta Romano
Publication date
2010/3/31
Journal
Microbiological research
Volume
165
Issue
3
Pages
211-220
Publisher
Urban & Fischer
Description
Developing improved tuberculosis (TB) diagnostics is one of the international research priorities, as TB remains globally a major health threat. Loop-mediated isothermal amplification (LAMP) is a new nucleic acid detection method that can be used in low-resource settings, because it does not require expensive or complex instruments. Using the repetitive insertion sequence IS6110 as a target gene, we developed an efficient LAMP assay, which specifically detects members of the Mycobacterium tuberculosis complex (MTBC). This assay proved 20 times more sensitive than IS6110-based conventional PCR. Moreover, its sensitivity was, respectively, 50 and 20 times higher than the one obtained with the two previously described LAMP assays for M. tuberculosis, based on gyrB and rrs, respectively. Identical sensitivities were obtained for LAMP and nested PCR, but the LAMP assay was more rapid and cost-effective …
Total citations
Scholar articles
E Aryan, M Makvandi, A Farajzadeh, K Huygen… - Microbiological research, 2010