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  • CHROMagar™ Candida Plus is the first chromogenic isolation medium for the detection and differentiation of C. auris in addition to other major clinical Candida spp. such as C. albicans, C. tropicalis, C. glabrata. Candida spp. are yeasts involved in various infections called Candidiasis. These infections can be severe with significant morbidity in nosocomial infections or in immunocompromised patients. Although C. albicans is still the main species involved, the use of antifungal agents has given rise to other species such as C. tropicalis, C. krusei and C. glabrata. In 2016, WHO added C. auris to this list with over 90 % of strains resistant to fluconazole. CHROMagar™ Candida Plus allows for the recognition of minor candida species in a mixed population containing the predominant species, thereby allowing patient specific treatment plans to be formulated at the earliest possible opportunity. Most bacterial species will be inhibited due to the inclusion of the selective mix: C. albicans Green colonies C. tropicalis Metallic blue colonies C. glabrata Mauve to pink colonies C. auris Light blue colonies with blue halo E. coli Inhibited Limitations The final identification must be confirmed by biochemical tests or by mass spectrophotometry (eg MALDI-TOF). These can be done directly from the suspicious colonies observed on the medium.
  • Side One: Colorex™ MRSA Colorex™ MRSA is a chromogenic medium for the selective isolation of Methicillin-Resistant Staphylococcus aureus (MRSA). The medium can be used for the routine screening of clinical specimens for MRSA from a variety of sampling sites such as the nose, throat and groin. The medium incorporates a nutritious peptone base medium and a number of selective agents to inhibit most Gram-negative and Gram-positive bacteria as well as yeasts and moulds. The chromogenic detection of specific enzyme activity leads to the formation of pink/mauve colonies indicating MRSA (including low level resistant and hetero-resistant strains) following incubation at 37°C for 18-24 hours. Other organisms, if present are indicated by blue or colourless colonies. Any presumptive isolates must be confirmed using serological and/or biochemical techniques available to the laboratory. The use of this chromogenic medium does not diminish the requirement for conventional antimicrobial susceptibility tests for the confirmation of methicillin resistance. Limitations S.aureus strains that possess a low MIC to the selective agent present in the medium but are mec A negative may form colonies on the medium. Some MRSA strains may form typical colonies surrounded by a matte halo. The formation of the halo serves no diagnostic function. 1. Certain methicillin-resistant coagulase-negative staphylococci (CNS) may produce characteristic colonies. In some cases differentiation may be achieved by examination of the colour of these colonies, as they may be considerably darker in colour (bluish purple to a very dark pink/magenta) Certain bacterial species other than staphylococci may produce colonies with a characteristic colour Side Two: Colorex™ VRE Vancomycin-resistant Enterococcus/ (VRE) infections are especially aggressive and have been associated with mortality rates approaching 60% to 70%. They are now the second-leading cause of nosocomial infections in the U.S., and their prevalence is increasing worldwide. Resistance to vancomycin has the potential to be transferred from bacteria to bacteria. Cross-resistance is mediated by plasmids and transposons, which may transfer the genes associated with resistance to other much more aggressive pathogens, such as staphylococci and streptococci. Three principal types of vancomycin resistance are found in Enterococcus spp.; VanA, VanB and VanC genotypes. VanA and VanB types account for most significant infections in clinical settings, involving E.faecium and E.faecalis. VanC resistance is a low-level intrinsic resistance found in other Enterococcus spp. The Colorex™ VRE media is another chromogenic media in the Colorex™ range, enabling presumptive identification of vancomycin resistant Enterococci by the formation of mauve/pink coloured colonies (for VanA and VanB genotypes) and blue coloured colonies (for VanC genotypes) after 18-24 hours incubation.
  • This is a chromogenic medium based on CLED that has been developed to allow differentiation and presumptive identification of organisms typically found in urinary tract infections. Reduced electrolyte concentration prevents swarming of Proteus spp. A sophisticated binary chromogenic system and supplementation with tryptophan allows differentiation of Enterococcus spp. (turquoise colonies), Proteus spp. (clear colonies with a brown halo), Enterobacter spp. (metallic blue colonies), Staphylococcus spp. (white colonies), and E. coli (purple colonies).
  • Recent developments in culture media have given rise to the use of chromogenic substrates as a means of differentiating bacteria particularly among the coliform group of organisms. This is one such medium and has been developed with the aim of simplifying the differentiation and presumptive identification of the main organisms usually found in Urinary Tract Infections. Based on the traditional CLED Medium, to prevent the swarming of Proteus spp, two chromogens are present in the medium. One allows the detection of enterococci giving rise to blue colonies whilst the second results in purple colonies of E. coli. Phenylalanine and Tryptophan are also included as indicators of Tryptophan deaminase activity producing brown colonies of Proteus spp. This media is an opaque version to aid differentiation and presumptive identification of the bacteria isolated.
  • This is a selective medium for the isolation and enumeration of yeasts and moulds in dairy products. The medium has a low pH to inhibit bacterial growth and is made more selective by the inclusion of chloramphenicol. It complies with the requirements of ISO 6611 for the enumeration of yeasts and moulds .