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This is an egg-based medium for the isolation and presumptive identification of Mycobacterium spp., particularly Mycobacterium tuberculosis. Designed for use with NaOH treated samples which have sterile distilled water added at the end of the designated treatment time to "dilute" the effect of NaOH. NB: this media will NOT isolate M.bovis which requires the addition of pyruvate as a growth supplement. This is normally overcome by the inclusion of a pyruvate slope. Based on the original formulation of Lowenstein that was subsequently modified by Jensen, the medium contains glycerol and egg which provide the required protein and fatty acids. The coagulation of the egg albumin during preparation also provides a solid surface for inoculation purposes. Malachite green is incorporated into the medium to inhibit contaminating organisms other than the mycobacteria that may still be present in the specimen after decontamination. Lowenstein-Jensen slopes should be inoculated with pre-treated specimens and incubated at 35-37°C for 8 weeks in 5-10% CO2. Container caps should be left loose for the first week of incubation to allow for circulation of the carbon dioxide as this will help to stimulate growth. Caps should then be tightened to prevent any dehydration of the medium. -
This is an egg-based medium for the isolation and presumptive identification of Mycobacterium spp. Designed for use with NaOH treated samples which have sterile distilled water added at the end of the designated treatment time to "dilute" the effect of NaOH. This media will isolate most common mycobacteria including M.bovis. Based on the original formulation of Lowenstein that was subsequently modified by Jensen, the medium contains pyruvate and egg which provide the required protein and fatty acids. It differs from Lowenstein-Jensen Medium in that Sodium Pyruvate has replaced the Glycerol, which has been demonstrated to be inhibitory to some species, particularly M.bovis. The coagulation of the egg albumin during preparation also provides a solid surface for inoculation purposes. Malachite green is incorporated into the medium to inhibit contaminating organisms other than the mycobacteria that may still be present in the specimen after decontamination. Lowenstein-Jensen slopes should be inoculated with pre-treated specimens and incubated at 35-37°C for 8 weeks in 5-10% CO2. Container caps should be left loose for the first week of incubation to allow for circulation of the carbon dioxide as this will help to stimulate growth. Caps should then be tightened to prevent any dehydration of the medium. -
This is a medium supporting a wide range of organisms. It conforms to the requirements of the United States Pharmacopeia (USP) for antibiotic sensitivity testing of pharmaceutical products. As previously stated Antibiotic Medium No. 1 is used in the performance of antibiotic assays. This medium is prepared according to the specifications detailed in the USP. The use of this medium assures well-defined inhibition zones of the test organisms. Nutrients and growth factors are supplied by peptic digest of animal tissue, casein hydrolysate, yeast extract, and beef extract. Glucose is a carbon source. -
This is a medium supporting a wide range of organisms. It conforms to the requirements of the United States Pharmacopeia for antibiotic sensitivity testing of pharmaceutical products. Antibiotic Assay Medium No.32 is a modification of Antibiotic assay medium No.1. (E & O BM4710). This medium is used to develop inoculum of Bacillus subtilis for antibiotic assay used in the test for assaying by the plate assay method. Nutrients and growth factors are supplied by peptic digest of animal tissue, casein hydrolysate, yeast extract, and beef extract. Glucose is a carbon source. -
This is a medium supporting a wide range of organisms. It conforms to the requirements of the United States Pharmacopeia for antibiotic sensitivity testing of pharmaceutical products. Antibiotic Assay Medium No. 8 is recommended for preparing inoculum of Bacillus subtilis to be used as a test for assaying Vancomycin by plate assay method. -
Bile Aesculin Medium is generally used for the differentiation and presumptive identification of Group D streptococci (enterococci). Enterococci hydrolyse aesculin forming, amongst other products, aesculetin which in turn combines with Ferric ammonium citrate producing a dark brown or black complex. The presence of Bile salts in the medium inhibits gram positive organisms other than enterococci. The medium can also be used for the presumptive identification of certain organisms within the Enterobacteriaceae group such as Klebsiella spp., Enterobacter spp., etc. -
de Man, Rogosa & Sharpe (MRS) Agar M.R.S. Agar is intended for the cultivation and enumeration of Lactobacillus spp from a variety of sources and can be used as an alternative to Orange Serum Agar for that purpose. Magnesium Sulphate, Manganese Sulphate, Sodium Acetate and Tween are included as growth supplements. The medium can be made more specific for lactobacilli generally by lowering the pH to between 5.0 and 5.5. This has the effect of inhibiting most streptococci that may otherwise grow on the medium and can be readily confused with lactobacilli. -
This is an egg-based medium for the isolation and presumptive identification of Mycobacterium spp., particularly Mycobacterium tuberculosis. Designed for use with NaOH treated samples which are neutralised using known buffering solutions to achieve a pH of 6.8 to 7.0 and which are inoculated directly onto LJ media after concentration by centrifugation. NB: this media will NOT isolate M.bovis which requires the addition of pyruvate as a growth supplement.This is normally overcome by the inclusion of a pyruvate slope. Based on the original formulation of Lowenstein that was subsequently modified by Jensen, the medium contains glycerol and egg which provide the required protein and fatty acids. The coagulation of the egg albumin during preparation also provides a solid surface for inoculation purposes. Malachite green is incorporated into the medium to inhibit contaminating organisms other than the mycobacteria that may still be present in the specimen after decontamination. Lowenstein-Jensen slopes should be inoculated with pre-treated specimens and incubated at 35-37°C for 8 weeks in 5-10% CO2. Container caps should be left loose for the first week of incubation to allow for circulation of the carbon dioxide as this will help to stimulate growth. Caps should then be tightened to prevent any dehydration of the medium.
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This is an egg-based medium for the isolation and presumptive identification of Mycobacterium spp. Designed for use with NaOH treated samples which are neutralised using known buffering solutions to achieve a pH of 6.8 to 7.0 and which are inoculated directly onto LJ media after concentration by centrifugation. This medium will isolate most common mycobacteria including M.bovis. Based on the original formulation of Lowenstein that was subsequently modified by Jensen, the medium contains pyruvate and egg which provide the required protein and fatty acids. It differs from Lowenstein-Jensen Medium in that Sodium Pyruvate has replaced the Glycerol, which has been demonstrated to be inhibitory to some species, particularly M.bovis. The coagulation of the egg albumin during preparation also provides a solid surface for inoculation purposes. Malachite green is incorporated into the medium to inhibit contaminating organisms other than the mycobacteria that may still be present in the specimen after decontamination. Lowenstein-Jensen slopes should be inoculated with pre-treated specimens and incubated at 35-37°C for 8 weeks in 5-10% CO2. Container caps should be left loose for the first week of incubation to allow for circulation of the carbon dioxide as this will help to stimulate growth. Caps should then be tightened to prevent any dehydration of the medium.
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This is a base medium to which can be added selective supplements of choice for the presumptive identification and enumeration of Clostridium perfringens in food products using poured plate techniques. Sodium metabisulphite and Ferric ammonium citrate are included in the base and together provide an indicator of sulphite reaction by Clostridium perfringens, which produces black colonies on the medium. It is recommended that this medium be used with an overlay otherwise cultures may not grow as black colonies. NB: This is a base medium only and contains no selective supplements. -
Originally intended for use in surface counting and pour plating techniques this medium can be used as a general purpose medium for the cultivation of most organisms particularly those that are less fastidious in their nutritional requirements. Can also be used as a maintenance medium for stock cultures. -
Traditionally, standard methods for enumeration of heterotrophic bacteria in water have used nutritionally rich media with incubation at 35°C. This may represent only a small percentage of bacteria present in the sample. R2A agar is a nutritionally reduced medium which, when combined with incubation at lower temperatures for longer time periods, results in enhanced recovery of stressed and chlorine damaged organisms from treated waters resulting in higher more realistic bacterial counts. -
A long established selective medium for the isolation of yeasts and fungi suitable for use in all areas of Mycology. The low pH (5.6) of the medium inhibits most bacteria and spore structures and pigmentation of fungi are generally well developed on this medium. -
This is an egg-based medium for the isolation and presumptive identification of Mycobacterium spp particularly Mycobacterium bovis. This medium is used primarily in the veterinarian sector. The medium is based on the original formulation of Lowenstein that was subsequently modified by Jensen, the medium contains pyruvate and egg which provide the required protein and fatty acids. It differs from Lowenstein-Jensen Medium in that Sodium Pyruvate has replaced the Glycerol, which has been demonstrated to be inhibitory to some species, particularly M.bovis. The coagulation of the egg albumin during preparation also provides a solid surface for inoculation purposes. Malachite green is incorporated into the medium to inhibit contaminating organisms other than the mycobacteria that may still be present in the specimen after decontamination. Lowenstein-Jensen slopes should be inoculated with pre-treated specimens and incubated at 35-37°C for 8 weeks in 5-10% CO2. Container caps should be left loose for the first week of incubation to allow for circulation of the carbon dioxide as this will help to stimulate growth. Caps should then be tightened to prevent any dehydration of the medium.
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This is a general-purpose medium supporting a wide range of organisms. It conforms to the requirements of the United States Pharmacopeia for sterility testing of pharmaceutical products as well as being suitable in all areas of bacteriological investigation. -
This is a general-purpose complex medium for the cultivation and isolation of aerobic and anaerobic microorganisms. The base medium, Tryptone Soya Agar (Soybean-Casein Digest agar), conforms to the Harmonized United States Pharmacopoeia (USP), European Pharmacopoeia (EP), and Japanese Pharmacopoeia (JP). The medium can be incubated under aerobic or anaerobic conditions after use for sterility testing, air sampling and other areas of bacteriological investigation. -
A medium for the enumeration of coliform organisms in food and dairy products. Lactose fermenters produce red/purple colonies often surrounded by a halo of the same colour. Non-lactose fermenters produce pale colonies. Selective agents are Bile salts and crystal violet used to inhibit Gram positive and non-enteric organisms. -
A modification of Violet Red Bile agar designed to give a ‘coliform’ count. In this medium lactose is substituted with glucose. Glucose is fermented by all members of the Enterobacteriaceae thus V.R.B.G.A gives a presumptive Enterobacteriaceae count. Bile salts and crystal violet are used to inhibit Gram positive and non-enteric organisms. The growth of non-fermentative Gram negative bacteria can be suppressed by using the agar overlay method.
