Analysis of Changes in Recent Tuberculosis Transmission Patterns after a Sharp Increase in Immigration
(2007)
Journal - Journal of Clinical Microbiology
Abstract :
We conducted a population-based molecular epidemiological study of tuberculosis (TB) in Madrid, Spain (2002 to 2004), to define transmission patterns and factors associated with clustering. We particularly focused on examining how the increase in TB cases among immigrants in recent years (2.8% in 1997 to 1999 to 36.2% during the current study) was modifying transmission patterns. Mycobacterium tuberculosis isolates obtained from patients living in nine districts of Madrid (1,459,232 inhabitants) were genotyped. The TB case rate among foreign-born people was three to four times that of Spanish-born people, and the median time from arrival to the onset of treatment was 22.4 months. During the study period, 227 (36.3%) patients were grouped in 64 clusters, and 115 (50.7%) of them were in 21 clusters with mixed Spanish-born and foreign-born patients. Three of the 21 mixed clusters accounted for 21.1% of clustered patients. Twenty-two of 38 (57.9%) immigrants in mixed clusters were infected with TB strains that had already been identified in the native population in 1997 to 1999, including the three most prevalent strains. Factors identified as independent predictors of clustering were homelessness (odds ratio [OR], 2.3; 95% confidence interval [95% CI], 1.2 to 4.5; P = 0.011) and to be born in Spain (OR, 1.8; 95% CI, 1.2 to 2.6; P = 0.002). The results indicated that (i) TB transmission was higher in Spanish-born people, associated mainly with homelessness, (ii) that foreign-born people were much less likely to be clustered, suggesting a higher percentage of infection before arriving in Spain, and (iii) that an extensive transmission between Spanish- and foreign-born populations, caused mainly by autochthonous strains, was taking place in Madrid.
Characterization of Clonal Complexity in Tuberculosis by Mycobacterial Interspersed Repetitive Unit-Variable-Number Tandem Repeat Typing
(2005)
Journal - Journal of Clinical Microbiology
Abstract :
In recent years, the application of molecular tools has shown us that clonal complexity in infection by Mycobacterium tuberculosis is not anecdotal. Exogenous reinfections, mixed infections, compartmentalization, and microevolution are different aspects of this issue. The detection and characterization of clonal variants of M. tuberculosis by standard genotyping methods is laborious and frequently requires expertise. Our aim was to evaluate a new genotyping PCR-based method for M. tuberculosis, mycobacterial interspersed repetitive unit-variable-number tandem repeat typing (MIRU-VNTR), as a potential tool to simplify and optimize the clonal analysis of tuberculosis. MIRU-VNTR was able to detect mixed clonal variants in vitro, even for clones at low ratios (1:99). This technique was prospectively applied to search for cases infected by more than one clone. Clonal variants within the same host were detected in 3 out of 115 cases (2.6%), including cases with clones which were indistinguishable by restriction fragment length polymorphism or spoligotyping. In one case, coinfecting clonal variants differed in antibiotic susceptibilities. MIRU-VNTR was applied to cases with proven polyclonal infection, and it succeeded in detecting the coinfecting strains and proved useful in confirming cases of compartmentalized infection. MIRU-VNTR is a simple, rapid, and sensitive method which could facilitate and optimize the identification and characterization of clonal complexity in M. tuberculosis infection.