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This is a selective medium for the isolation of Actinomyces spp. from clinical specimens. It is based on Fastidious Anaerobe Agar that has been enriched with 7% defibrinated horse blood and made selective by the addition of nalidixic acid to inhibit most aerobes (particularly Gram-negative bacilli) and metronidazole to suppress other anaerobes. -
This medium is intended for use in the isolation of Salmonella spp, other than Salmonella typhi. Although it can be used as a primary isolation medium, it is not recommended for this purpouse and is generally used for subculture from selective enrichment media. It should be noted that the medium is highly selective and therefore not suited to the isolation of salmonella from samples where numbers may be low. NB: - It is not recommended that this medium is used for the isolation of Salmonella typhi and Shigella spp. -
Brucella Agar is a non-selective medium that is enriched with peptones, 5% sheep blood, haemin and vitamin K to support the growth of fastidious, slow growing, obligately anaerobic micro-organisms. -
Brucella agar is an enriched non-selective medium that supports the growth of fastidious and slow growing, obligately anaerobic micro-organisms due to its content of peptones, dextrose and yeast extract. The medium is supplemented with sheep blood, haemin and vitamin K which provide essential nutrients for certain anaerobes. -
This medium is designed for the selective isolation of Campylobacter spp., particularly C. jejuni and C. coli , which are major causes of gastrointestinal infection. Campylobacter Blood Free Agar CCDA was formulated to allow replacement of blood with a combination of charcoal, ferrous sulphate, and sodium pyruvate. Selectivity is achieved through the addition of broad spectrum cefoperazone and amphotericin B to inhibit fungi. Inoculated plates are incubated at 41.5°C to improve growth of the thermophilic species including C. jejuni and C. coli. Campylobacter Blood Free Agar CCDA is recommended for food testing in compliance with the requirements of ISO 10272- 1:2017(1) . It can also be used for isolation of Campylobacter spp. from clincal specimens such as faeces(2,3). 1. ISO 10272-1:2017. Microbiology of food and animal feeding stuffs – Horizontal method for detection and enumeration of Campylobacter spp. – Part 1: Detection method. 2. Public Health England. (2014). Investigations of Faecal Specimens for Enteric Pathogens. UK Standards for Microbiology Investigations. B 30 Issue 8.1. 3. Public Health England. (2018). Identification of Campylobacter species. UK Standards for Microbiology Investigations. ID 23 Issue 3.1. -
Cetrimide Agar is intended primarily for use in the isolation of Pseudomonas aeruginosa from pharmaceutical products and is recommended by the United States Pharmacopoeia for this purpose. The medium is made selective by the addition of cetrimide to inhibit the growth of most other organisms while allowing Pseudomonas aeruginosa/ and other Pseudomonas spp. to develop a classical colonial appearance, producing green pigmentation and fluoresce when examined under ultra violet light. -
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. -
COLOREX™ STEC is a chromogenic medium(1) for the detection of enterohaemorrhagic E. coli (including serotypes O26, O111 & O157). Over the past few years there has been an increase in the number of food poisoning outbreaks where non-O157 Shiga toxin producing E. coli (STEC) have been shown to be etiological agent. The medium contains several selective agents to reduce the level of background flora from the specimen or food sample. Positive STEC colonies exhibit a mauve colouration enabling easy interpretation amongst other Gram negative bacteria that will exhibit blue or colourless colonies, if they are able to grow on the medium. Gram positive bacteria will be inhibited. -
This is a selective medium for the cultivation of Taylorella equigenitalis or the contagious equine metritis organism (CEMO) that is the etiological agent for contagious equine metritis. Enzymatic digest of casein and soy peptone provide the required nitrogen, carbon and vitamins, and sodium chloride maintains the osmotic balance of the medium. Sodium sulphite is a reducing agent and L-cystine is an essential amino acid. In addition to this, the medium is further enriched by the inclusion of 7% chocolated horse blood. Amphotericin B is added to suppress the growth of contaminating fungi and yeasts and both clindamycin and trimethoprim are added to suppress bacterial contaminants. -
This is a selective medium for the cultivation of Taylorella equigenitalis or the contagious equine metritis organism (CEMO) that is the etiological agent for contagious equine metritis. Enzymatic digest of casein and soy peptone provide the required nitrogen, carbon and vitamins, and sodium chloride maintains the osmotic balance of the medium. Sodium sulphite is a reducing agent and L-cystine is an essential amino acid. In addition to this, the medium is further enriched by the inclusion of 7% chocolated horse blood. Amphotericin B is added to suppress the growth of contaminating fungi and yeasts. -
This is a selective medium for the cultivation of Taylorella equigenitalis or the contagious equine metritis organism (CEMO) that is the etiological agent for contagious equine metritis. Enzymatic digest of casein and soy peptone provide the required nitrogen, carbon and vitamins, and sodium chloride maintains the osmotic balance of the medium. Sodium sulphite is a reducing agent and L-cystine is an essential amino acid. In addition to this, the medium is further enriched by the inclusion of 7% chocolated horse blood. Amphotericin B and streptomycin are added to suppress the growth of fungal/yeast and bacterial contaminants, respectively. -
Fastidious Anaerobe Agar is intended as a primary isolation medium capable of supporting most clinically significant anaerobes including fastidious organisms. The formulation is complex and includes detoxification agents (starch and sodium bicarbonate), growth enhancing agents (cysteine, arginine, vitamin K, sodium succinate, glucose and pyrophosphate), as well as haemin to encourage pigment production in Porphyromonas melaninogenicus. Sodium pyruvate is also included to help neutralise hydrogen peroxide. In this instance the medium is further enriched by the addition of 5% horse blood. This product is suitable for use with the EUCAST disc diffusion method for selected rapidly growing anaerobic bacteria. -
This is a selective medium for the isolation of clinically significant anaerobes including fastidious organisms. The formulation is complex and includes detoxification agents (starch and sodium hydrogen carbonate), growth enhancing agents (cysteine, arginine, menadione, sodium succinate, glucose and pyrophosphate) and haemin to encourage pigment production in Porphyromonas melaninogenicus. Sodium pyruvate is included to help neutralise hydrogen peroxide. The medium is made selective by the inclusion of nalidixic acid and further enriched by the addition of 7% defibrinated horse blood. Tween 80 is added to encourage the growth of anaerobic streptococci. -
Fastidious Anaerobe Agar is intended as a primary isolation medium capable of supporting most clinically significant anaerobes including fastidious organisms. The formulation is complex and includes detoxification agents (starch & sodium bicarbonate) as well as growth enhancing agents (cysteine, arginine, vitamin K, sodium succinate, glucose and pyrophosphate) as well as haemin to encourage pigment production in Porphyromonas melaninogenicus . Sodium pyruvate is also included to help neutralise hydrogen peroxide. In this instance the medium is made more selective by the inclusion of neomycin and aztreonam to inhibit most enteric organisms and further enriched by the addition of 7% horse blood. -
LB media formulations have been an industry standard for the cultivation of Escherichia coli as far back as the 1950s. These media have been widely used in molecular microbiology applications for the preparation of plasmid DNA and recombinant proteins. This medium has the addition of carbenicillin at 100mg/L for use with transformed cells harbouring selection plasmids containing carbenicillin resistance genes. Peptides and essential amino acids are provided by tryptone. Vitamins and certain trace elements are provided by yeast extract and sodium chloride provides osmotic balance. -
LB media formulations have been an industry standard for the cultivation of Escherichia coli as far back as the 1950s.These media have been widely used in molecular microbiology applications for the preparation of plasmid DNA and recombinant proteins. This medium has the addition of kanamycin at 50mg/L and chloramphenicol at 34mg/L, for use with kanamycin and chloramphenicol resistant strains and cells harbouring selection plasmids containing the kanamycin and rifampicin resistance genes. Peptides, peptones and essential amino acids are provided by tryptone. Vitamins and certain trace elements are provided by yeast extract and sodium chloride provides osmotic balance. -
Mueller Hinton Agar is recommended for use in the antibiotic disk diffusion method by both the European Committee on Antibiotic Sensitivity Testing (EUCAST) and the Clinical Laboratory Standards Institute (CLSI). The medium contains low levels of divalent metal cations, such as calcium and magnesium, to minimise any interference with certain antibiotic classes e.g. aminoglycosides. Starch is also present to absorb any toxic metabolites that may be formed during growth. The medium is low in thymine & thymidine content and is therefore suitable for use in testing sulphonamides and trimethoprim without the addition of blood. -
Mueller Hinton Agar Chocolate is used for the isolation and cultivation of fastidious bacteria from clinical specimens. It may also be used for the susceptibility testing of Neisseria gonorrhoeae. Mueller Hinton Agar Chocolate is an enriched, non-selective medium on which fastidious and non-fastidious bacteria, including normal flora, will grow. Therefore, it is recommended to inoculate specimens also onto appropriate selective media. The term “fastidious bacteria” relates to bacteria that do not grow or do not grow well on normally used primary isolation media containing sheep blood. -
This medium is recommended for the detection and enumeration of yeasts and fungi in a variety of sample types. The low pH (5.6) and addition of streptomycin will ensure that the growth of most bacterial species is inhibited and the low mineral content ensures good pigment production by fungi where appropriate. -
Traditionally, membrane Lauryl Suphate Broth (mLSB) was used as the standard media for isolating coliforms (including E. coli) from drinking water. Primary membrane Lactose Glucuronide Agar (mLGA) is a chromogenic modification of mLSB formulation aimed at reducing costs by reducing the number of filters used per test sample and aiding in the recovery and identification of coliforms and <em,>E. coli . The medium has been modified from the mLSB formulation by the incorporation of X-glucuronide, sodium pyruvate and agar. X-glucuronide is incorporated to allow for the presumptive isolation of E. coli, sodium pyruvate aids recovery of chlorine stressed organisms and agar is incorporated to remove the need for absorbent pads. This medium is recommended for the enumeration of coliform bacteria and E. coli by a single membrane filtration technique in The Environment Agency’s - The Microbiology of Drinking Water 2009 (Part 4). -
A selective medium for the isolation of Pseudomonas spp. primarily in food, water and environmental samples the medium is made selective by the addition of CFC supplement (cetrimide, at a concentration of 10mg/L which is said to allow the growth of all pseudomonads, cephalothin and fucidin). The presence of blue/green or brown pigmentation or fluorescence is indicative of presumptive Pseudomonas spp. It should be noted however that further testing must be carried out to confirm the full identity of the organism. -
Sabouraud Dextrose Agar with Chloramphenicol (0.5g/L) is a selective media for the isolation of yeasts and fungi suitable for use in all areas of mycology. Sabouraud dextrose agar is a modification of a medium originally described by Sabouraud.(1) The tryptone and meat peptone provides the required nitrogen, carbon and vitamins. The high concentration of dextrose is included as an energy source. Due to the higher pH of the medium, an increased concentration of chloramphenicol is included to improve the selectivity of the media and inhibit a range of Gram-positive and Gram negative bacteria. 1. Sabouraud, R. 1892. Ann. Dermatol. Syphilol. 3:1061. -
This is a modification of Sabouraud Dextrose Agar. The low pH (5.6) of the medium is inhibitory to most bacteria and it has been made specifically selective by the addition of colistin and gentamicin. This further reduces the risk of bacterial contamination when processing material that may be heavily contaminated particularly with Gram negative organisms such as Pseudomonas aeruginosa. -
This is a differential medium for the isolation of Escherichia coli 0157:H7. It differs from other MacConkey media in that lactose has been replaced by sorbitol. As Escherichia coli 0157:H7 does not ferment sorbitol, it produces pale translucent colonies whereas most other strains of Escherichia coli do ferment sorbitol and produce pink colonies. -
This is a medium to detect Thermo-Stable-Nuclease from Staphylococcus aureus after heat inactivation of the organism. After boiling and centrifugation the supernatant is placed in a well in the plate and incubated for 4 hours. If present, the enzyme breaks down the DNA in the medium and produces a zone of clearing indicating a positive reaction. -
This is a medium for determining the mutagenicity of a chemical reagent using the Ames Test. A histidine requiring strain (His- ) of Salmonella typhimurium is inoculated into a mixture of salt agar, histidine solution and the test reagent, which is mixed and then used to overlay the media. Following incubation if the test reagent is mutagenic it will reverse the His- phenotype allowing growth to occur at a higher level than the control. -
Xylose Lysine Deoxycholate (XLD) Agar is used for the isolation and detection of Salmonella and Shigella spp. It differs from other media of this type in that it has less sodium deoxycholate as its selective agent. The indicator system is somewhat complex taking advantage of the fermentation or otherwise of three carbohydrates (lactose, sucrose and xylose) together with lysine decarboxylase and sodium thiosulphate as an indication of the presence or absence of hydrogen sulphide. The addition of novobiocin (20mg/L) improves the inhibition of Proteus spp. -
A nutrient agar corresponding to the standard formulation described in ISO 6222:1999. -
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 .
