RESUMEN
Background: Carbapenemase producing gram-negative bacteria (GNB) has become a huge problem in majority of tertiary care centers worldwide. They are associated with very high morbidity and mortality rates, especially when they cause invasive infections. Therefore, rapid detection of these organisms is very important for prompt and adequate antibiotic therapy as well as infection control. The aim of this study was rapid detection of carbapenemase genes and thereby likely carbapenem resistance, 24-48 hours in advance, directly from the positive-flagged blood culture bottles using CHROMagar and Xpert® Carba-R. Methods: Aspirate from positively flagged blood culture bottles was subjected to differential centrifuge. All gram-negative bacilli on gram stain from the deposit were processed in Xpert® Carba-R and inoculated on CHROMagar. The presence of genes and growth on CHROMagar was compared with carbapenem resistance on VITEK-2 Compact. Results: A total of 119 GNB isolates were processed. One or more of the carbapenemase genes were detected in 80 isolates. On comparison with VITEK-2 result, 92 samples showed concordance for carbapenem resistance 48 hours in advance. There was discordance in 21 isolates with 12 major errors and 09 minor errors. The sensitivity of direct Xpert® Carba-R test for rapid detection of carbapenem resistance, 48 hours in advance, was 81.42%. The sensitivity of direct CHROMagar test for accurate detection of carbapenem resistance, 24 hours in advance, was 92.06%. Conclusion: The ability to detect carbapenem resistance with very high accuracy, 48 hours in advance, helps in appropriate antibiotic therapy and implementation of effective infection control practices.
RESUMEN
Background: All four dengue serotypes cause infection, with one of them predominantly reported from a particular geographical region. Coinfection by more than one serotype is reported from hyperendemic regions. These coinfections are clinically more severe than infection with a single serotype. This study was carried out to detect the predominant dengue serotype and presence of coinfections. Methods: Acute-phase serum samples of patients suffering from dengue infection were collected. They were screened for the presence of IgM, IgG and NS1Ag by a rapid test. Conventional multiplex reverse transcriptase polymerase chain reaction (RT-PCR) and multiplex real-time RT-PCR assays were carried out for detection and serotyping of the dengue virus. Results: A total of 196 samples were positive by the rapid card test. Of these, 139 were NS1Ag positive, 40 were positive only for IgM, 5 were positive only for IgG and 12 samples were positive for different combinations of antigen and antibodies. All four serotypes were detected in these samples by PCR. DENV-3 was found to be most common circulating serotype. A total of 22 cases were found to have coinfection with more than one dengue serotypes. Samples having only antibodies and no antigen on rapid card test were also positive for virus by PCR. Conclusion: Prevalence of dengue co-infections is increasing. Moreover, it is important to screen for dengue virus in those samples also which do not show NS1Ag on rapid tests and have either one or both the antibodies. Real-time multiplex RT-PCR is found to be more sensitive in detecting coinfection than conventional multiplex RT-PCR.
