Drug-resistant Mycobacterium tuberculosis strains are a real threat to tuberculosis (TB) control worldwide, as strains resistant to major anti-TB drugs have emerged. Multidrug-resistant TB (MDR-TB; resistant at least to rifampin and isoniazid) requires prolonged and expensive chemotherapy, with low cure and high fatality rates (8). In several Eastern European countries economic crisis and health system weaknesses have led to an increase in the numbers of TB cases, together with the establishment of hot spots for MDR-TB. Laboratory surveillance of drug resistance and early identification of resistant strains are critical steps for the beginning of appropriate treatment. Any delay in resistant strain identification jeopardizes the efforts to control the transmission of the disease.Rifampin (RIF) resistance is due to mutation in a relatively small fragment (81 bp) of the rpoB gene encoding for the -subunit of the RNA polymerase (12, 29, 35); isoniazid (INH) resistance is caused by mutations in one of several regions of the katG gene, the inhA regulatory and coding region, and the ahpC-oxyR, ndh, and kasA genes (3,4,18,19,26,29,32,33,36,39). Analysis of strains collected in different countries shows different prevalences of the mutations (24).Easy-to-perform, rapid, and cost-effective assays based on molecular techniques that are suitable for application in clinical mycobacteriology laboratories are necessary to evaluate the presence of genomic mutations conferring resistance. Detection of resistance by conventional methods is inadequate due to the slow growth rate of M. tuberculosis; in addition, direct detection of known mutations could be more reliable in predicting the response to therapy.The Genotype MTBDR (Hain Lifescience, Nehren, Germany) is a new commercial and easy-to-perform assay developed for the detection of RIF and/or INH resistance in TB strains. The test is based on reverse hybridization between amplicons derived from a multiplex PCR and nitrocellulosebound wild-type and mutated probes for the mutations of interest.The aim of the present study was to evaluate Genotype MTBDR as a rapid diagnostic tool to detect rpoB and katG gene mutations that are associated with RIF and INH resistance, respectively, in TB isolates.We tested 206 M. tuberculosis strains isolated in Italy during the past 3 years, including 139 MDR strains and 30 fully susceptible ones. A total of 69 strains were collected from Italian patients, and 137 were obtained from foreign-born people. In order to show that the test is suitable for the direct detection on clinical specimens, we also performed the test on respiratory samples collected from active TB patients. (Table 1). A total of 85% of the MDR strains were isolated from retreatment cases.
MATERIALS AND METHODS
Strains
