https://imcjms.com Ibrahim Medical College Journal of Medical Science https://imcjms.com/registration/journal_full_text/56 Tue, 02 Aug 2016 11:29:24 +0000 The aim of this study was to evaluate the efficacy of MRSA Chrome agar to detect methicillin resistant Staphylococcus aureus (MRSA) and compare it with 1µg oxacillin disc diffusion tests and detection of mecA gene by PCR. A total 116 Staphylococcus aureus (S. aureus), isolated from various clinical samples, were obtained from three tertiary care hospitals of Dhaka city. S. aureus was identified by colony characters, Gram stain and standard biochemical procedures. MRSA was detected by susceptibility to 1µg oxacillin disc, growth of denim blue color colonies of S. aureus on the Brilliance MRSA Chrome agar at 24 and 48 hours of incubation. PCR was performed for amplification of mecA gene as a gold standard method. Out of 116 isolated S. aureus, 33 (28.44%) were MRSA by oxacillin disc diffusion test where mecA gene was detected in 28 strains. On MRSA Chrome agar, 29 (25.0%) S. aureus produced denim blue colonies at 24 hours, of which 28 isolates possessed mecA gene. At 48 hours incubation, an additional 4 isolates yielded denim blue colonies from which mecA gene could not be identified. All the strains of S. aureus that produced denim blue colonies at 24 and 48 hours were resistant to oxacillin. The sensitivity, specificity and accuracy of oxacillin disc diffusion test were 100%, 94.31% and 95.68% and Chrome agar at 24 hours were 100%, 98.86% and 99.13% respectively. Thus MRSA Chrome agar could be good choice in clinical microbiology laboratory for rapid and accurate identification of MRSA. Introduction The methods currently used for screening of MRSA include standard culture and susceptibility to oxacillin, chromogenic media and molecular based testing. FDA approved PCR assays have been proven to be an excellent method for a rapid detection of MRSA. But the cost is very high as it requires expensive equipments and highly trained personnel. In recent years, the chromogenic media have been introduced for the rapid detection of S. aureus in clinical samples.4 This media detects key enzyme as diagnostic marker for MRSA by the use of “chromogenic” substrates incorporated into a solid agar based matrix and antibiotics for selective growth of MRSA.4 In contrast to conventional culture media, chromogenic media allow direct colony color-based identification of the MRSA from the primary culture. Therefore, the total turnaround time for the detection of MRSA is reduced to 1.4-1.7 days by eliminating the need for further biochemical testing.   Samples   A 0.5 McFarland standard suspension of the isolated S. aureus was prepared. Mueller Hinton agar (supplemented with 4%NaCl) was inoculated with 0.5 McFarland suspension of the isolate which was spread evenly by rotating the plate approximately 600 for three times to get a uniform distribution of inoculums. Oxacillin (1µg) disc was placed and incubated at 350C for 24 hours. The diameter of the inhibition zones was measured as per recommendations of the National Committee for Clinical Laboratory Standards (NCCLS).5 An inhibition zone diameter of £13 mm was considered as resistant. Brilliance MRSA Chrome agar (Oxoid, UK) was inoculated with 0.5 McFarland suspension of the isolate and incubated at 35°C. The plates were read after 24 and 48 h of incubation. The growth of denim blue colored colonies indicates presence of MRSA. Polymerase Chain Reaction (PCR) for identification of mecA gene Mec-Al (+) 5´AAAATCGATGGTAAAGGTTGGC-3´ and PCR were performed in a thermal cycler (Eppendorf) by using supermix (Promega, USA) following the manufacturer’s recommendations. 12.5 ml super mix and 2ml template DNA were taken to each PCR reaction tube. 8.5 ml PCR water and 1.0 ml mecA1, 1.0 ml mecA2 primer was added to each tube. So the final volume in each tube was 25 ml. The following amplification protocol was used: initial denaturation for 3 minutes at 94°C, then final denaturation continued for 40 cycles of 30s at 94°C, 45s at 60°C, annealing at 60°C for 1.5 minutes. Extension of primer was done at 72°C for 3.5 minutes with a total of 40 cycles.   The sensitivity and specificity of Chrom Agar and Oxacillin disc diffusion test were determined by the standard formula as described elsewhere.7 Results     Table-2: Sensitivity and specificity of MRSA Chrome Agar and oxacillin disc diffusion test for the detection of MRSA   Methicillin resistant S. aureus was first identified in 1961, since then MRSA has been increasingly reported in both hospital and community settings.8 Rapid and accurate identification of MRSA is important for effective patient care and prevention of its further spread. The present study evaluated the MRSA Chrome agar for rapid detection of MRSA. In this study, detection of MRSA was done by oxacillin disc diffusion test, culture on MRSA Chrome agar (Brilliance MRSA agar, Oxoid, UK) and detection of mecA gene by PCR. Detection of mecA gene by PCR was considered as a gold standard method for MRSA confirmation.9 MRSA Chrome agar is a selective chromogenic medium, which is more reliable and faster for screening of MRSA than oxacillin disc diffusion method and also less costly compared to the PCR.10 Different studies have reported the sensitivity and specificity of MRSA Chrome agar as 90% to 100%.4 It is easy to perform and the interpretation of results does not need any expertise. On MRSA Chrome agar, 29 (25.00%) strains of S. aureus produced denim blue colonies at 24 hours indicating MRSA. Additional four strains produced denim blue colonies at 48 hours. So at 48 hours, a total of 33 (28.34%) isolates were MRSA Chrome agar positive. All of these strains were resistant to oxacillin. Out of 29 positive strains at 24 hour, mecA genes were detected in 28 (96.56%) strains. No mecA gene was found in the additional 4 isolates that produced denim blue colonies at 48 hours. The sensitivity, specificity and accuracy of MRSA Chrome agar at 24 hours were 100%, 98.86% and 99.13% respectively, which was better than the sensitivity (100%) and specificity (94.31%) at 48 hours (Table-2). This finding was similar to the results of Peterson et al. (2010) who reported the sensitivity and specificity at 24 hours 96% and 99.6% and at 48 hours 96% and 95.2% respectively.13 Almost similar result was reported by Kristien et al. (2010), in which the sensitivity and specificity were 95% and 97.4% at 24 hours and 98.9% and 89.4% at 48 hours respectively.14 The remaining false positive results could be due to an inherent limitation of any subjective test. The result of MRSA Chrome agar permitted sensitive and specific detection of MRSA at 24 hours which was more specific than that achieved at 48 hours and of oxacillin disc diffusion test. Methicillin sensitive S. aureus was not grown on the chromogenic media as it contained combination of antibacterial compounds.14 MRSA can be detected within 24 hour when specimens are inoculated directly on to it, which is a one day improvement in turnaround time compared to oxacillin disc diffusion tests which usually needs 2 to 3 days to detect MRSA and the specificity is also less. Gene detection by conventional PCR requires labor, time, costs and special set up.   1.    Song MD, Wachi M, Doi M, Ishino F, and Matsuhashi M. Evolution of an inducible penicillin- target protein in methicillin resistant Staphylococcus aureus by gene fusion. FEBS Lett 1987; 221: 167-171. 3.    Jonas D, Speck M, Daschner V, and Grundmaun H. Rapid PCR-based identification of methicillin-resistant Staphylococcus aureusfrom screening swabs. J Clin Microbial 2002; 40: 1821-1823. 5.    Villanova PA. Performance standards for antimicrobial disc susceptibility tests. In: National Committee for Clinical Laboratory Standards. Approved standard.7thedn. National Committee for Clinical Laboratory Standards: 2000. P. M2-A7. 7.    Akobeng AK. Understanding diagnostic tests 1: sensitivity, specificity and predictive values. Acta Pædiatrica 2006; 96: 338–341. 9.    Skov R, Smyth R, Larsen AR, Bolmstrom A, Karlssen A et al. Phenotypic detection of methicillin resistance in Staphylococcus aureusby disc diffusion testing and e-test on Mueller-Hinton agar. J Clin Microbial 2006; 44: 4395-9. 11.  Nicole MB, Tam TV, Timothy AM, Steven AM and David MW. Comparison of cefoxitin and oxacillin disc diffusion methods for detection of mecA- mediated resistance in Staphylococcus aureus in a large - scale study. J Clin Microbial 2009; 47: 217-219. 13.  Peterson JF, Alexander A D, Katherine M. R, Gerri S H et al. Alternative Use for Spectra MRSA Chromogenic Agar in Detection of Methicillin-Resistant Staphylococcus aureus from Positive Blood Cultures. J Clin Microbiol 2010; 48: 2265-67. 14.  Kristien VV, Reinoud C, Guy C, Johan F, Anne- Marie V den A, Hans de B. Performance of new chromogenic medium, BBL CHROM agar MRSA II (BD) for detection of methicillin resistant Staphylococcus aureus in screening samples. J Clin Microbiol 2010; 48: 1450-1451. 2026 Ibrahim Medical College. All rights reserved.