BackgroundBacteria of the Mycobacterium abscessus group are the second most common pathogens responsible for lung disease caused by nontuberculous mycobacteria in Korea. There is still a lack of studies investigating the genetic mechanisms involved in M. abscessus resistance to antibiotics other than clarithromycin. This study investigated the characteristics of drug resistance exhibited by M. abscessus clinical isolates from Korea.MethodsWe performed drug susceptibility testing for a total of 404 M. abscessus clinical strains. Subspecies were differentiated by molecular biological methods and examined for mutations in drug resistance-related genes.ResultsOf the 404 strains examined, 202 (50.00%), 199 (49.26%), and 3 (0.74%) strains were identified as M. abscessus, M. massiliense, and M. bolletii, respectively. Of the 152 clarithromycin-resistant strains, 6 possessed rrl mutations, while 4 of the 30 amikacin-resistant strains contained rrs mutations, and 5 of the 114 quinolone-resistant strains had gyr mutations. All mutant strains had high minimal inhibitory concentration values for the antibiotics.ConclusionsOur results showed the distribution of the strains with mutations in drug resistance-related genes was low in the M. abscessus group. Furthermore, we performed drug susceptibility testing and sequence analyses to determine the characteristics of these genes in the M. abscessus group.
Background: Mycobacterium abscessus group belongs to a group of rapidly growing mycobacteria (RGM) and, following Mycobacterium avium complex, is the second most common pathogen responsible for lung disease caused by nontuberculous mycobacteria (NTM). Clarithromycin is known to be the key drug in the treatment of M. abscessus group disease, but a high failure rate of treatment response is reported due to clarithromycin inducible resistance. Methods: Using the results from a clarithromycin susceptibility test we examined the proportion of clarithromycin inducible resistant M. abscessus (sensu stricto; hereafter referred to as M. abscessus) clinical strains. Also, we attempted to detect the clarithromycin resistant strains, using the amplification refractory mutation system-PCR (ARMS-PCR) and real-time PCR methods for rapid de-
Nontuberculous mycobacteria (NTM) are ubiquitous organisms that are now seen as emerging human pathogens. NTM infections are very difficult to diagnose and treat, therefore a high index of clinical suspicion is needed for diagnosis. Cutaneous NTM infections have been primarily reported associated with previous invasive procedures. We report the case of a healthy 59-year-old woman who developed recurring abdominal skin lesions caused by Mycobacterium massiliense after she underwent noninvasive cupping therapy. We identified the pathogen using a PCR assay targeting the erm(41) gene of the bacterium. The patient was treated successfully by en bloc excision and long-term antibiotic treatment. This case shows that cutaneous infection with M. massiliense may occur in an immunocompetent person without an antecedent invasive procedure.
BackgroundVariable-number tandem repeat (VNTR) typing is a promising method to discriminate the Mycobacterium tuberculosis isolates in molecular epidemiology. The purpose of this study is to determine the optimal VNTR combinations for discriminating isolated M. tuberculosis strains in Korea.MethodsA total of 317 clinical isolates collected throughout Korea were genotyped by using the IS6110 restriction fragment length polymorphism (RFLP), and then analysed for the number of VNTR copies from 32 VNTR loci.ResultsThe results of discriminatory power according to diverse combinations were as follows: 25 clusters in 83 strains were yielded from the internationally standardized 15 VNTR loci (Hunter-Gaston discriminatory index [HGDI], 0.9958), 25 clusters in 65 strains by using IS6110 RFLP (HGDI, 0.9977), 14 clusters in 32 strains in 12 hyper-variable VNTR loci (HGDI, 0.9995), 6 clusters in 13 strains in 32 VNTR loci (HDGI, 0.9998), and 7 clusters in 14 strains of both the 12 hyper-variable VNTR and IS6110 RFLP (HDGI, 0.9999).ConclusionThe combination of 12 hyper-variable VNTR typing can be an effective tool for genotyping Korean M. tuberculosis isolates where the Beijing strains are predominant.
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