A medium for the isolation, enumeration and rapid presumptive identification of injured Clostridium perfringens and Bacillus cereus

A blood-free egg yolk medium (BCP) containing pyruvate, inositol, mannitol and a bromocresol purple indicator in a nutrient agar base has been developed to initiate the growth of Clostridium perfringens. It is comparable to blood agar for the growth of normal, chilled stored vegetative cells and heat-injured spores of Cl. perfringens and Bacillus cereus. It has the advantage over blood agar in exhibiting presumptive evidence of Cl. perfringens (production of lecithinase and inositol fermentation) after an overnight incubation at 43 degrees - 45 degrees C. Pyruvate, catalase and other hydrogen peroxide degraders were found to remove toxins rapidly formed in media exposed to air and light. Free radical scavengers of superoxide, hydroxyl ions and singlet oxygen were ineffective. Without scavengers the formation of 10-20 micrograms/ml hydrogen peroxide in the exposed medium was indicated and found lethal to injured Cl. perfringens. The BCP medium has been used successfully for the rapid identification and enumeration of Cl. perfringens in foods and faeces from food poisoning outbreaks and cases of suspected infectious diarrhoea. Greater recovery of severely injured vegetative Cl. perfrigens could be obtained by pre-incubation at 37 degrees C of inoculated media for 2-4 h followed by overnight incubation at 43 degrees - 45 degrees C. Tryptose-sulphite-cycloserine and Shahidi-Ferguson-perfringens agar base were found to inhibit the growth of several strains of injured vegetative Cl. perfringens. This was not completely overcome by the addition of pyruvate. The inclusion of mannitol also allows the medium to be used for the presumptive identification of B. cereus. Growth and lecithinase activity are profuse on BCP. Heat-injured spores are recovered equally well on BCP and blood agar. A scheme for the identification of some other clostridia on BCP is presented.     

Evaluation of two media for the membrane filtration enumeration of Clostridium perfringens from water

Two media (mCP medium and Tryptose Sulphite Cycloserine (TSC) agar) were evaluated for recovery of Clostridium perfringens in environmental and part-treated drinking water. For laboratory strains of Clostridium , mCP was more selective and specific for Cl. perfringens than TSC, but was markedly less efficient for the enumeration of both vegetative cells and spores. For samples of river water and part-treated drinking water, TSC recovered significantly greater numbers of Cl. perfringens than mCP. In contrast to previous reports, there was a significant number of false presumptive positive and negative isolates on mCP. TSC is a more suitable medium for the routine monitoring of water supplies for the presence of Cl. perfringens .     

The Influence of High Concentrations of Carbon Dioxide on the Germination of Bacterial Spores

The influence of carbon dioxide at 1–55 atm on the germination of Clostridium sporogenes, Clostridium perfringens and Bacillus cereus spores in a complex medium was studied. The germination studies at atmospheric pressure were done in the pH range 5.2–6.7. Controls at the same pH were done in 100% nitrogen. Carbon dioxide at atmospheric pressure (1 atm) inhibited the spore germination of B. cereus spores but strongly enhanced the germination rate of those of the clostridia. Spore germination of Cl. sporogenes and Cl. perfringens was inhibited completely at 10 atm and at 25 atm, respectively. The germination rate in carbon dioxide or nitrogen was generally higher at pH 6.7 than at 5.2–6.0.     

Enumeration of Bacillus cereus in Foods

For the enumeration of vegetative cells and spores of Bacillus cereus in foods, a mannitol-egg yolk-phenol red-agar has been developed which exploits the failure of B. cereus to dissimilate mannitol, and the ability of most strains to produce phospholipase C. When a high degree of selectivity was required, polymyxin B sulfate in a concentration of 10 ppm appeared to be the most effective selective additive. Useful characteristics for the identification of presumptive isolates of B. cereus were found to be: morphology, dissimilation of glucose mostly to acetyl methyl carbinol under anaerobic conditions, hydrolysis of starch and gelatin, reduction of nitrate, and growth on 0.25% chloral hydrate agar.     

New Quantitative, Qualitative, and Confirmatory Media for Rapid Analysis of Food for Clostridium perfringens

A selective and differential medium, Shahidi-Ferguson Perfringens agar (SFP agar), and a confirmatory medium, lactose-motility agar (LM agar), were developed for the enumeration and identification of Clostridium perfringens in foods. These media provide a rapid, specific, and direct diagnosis of C. perfringens. SFP agar contains sodium metabisulfite and ferric ammonium citrate to demonstrate H(2)S production and egg yolk to demonstrate lecithinase production by C. perfringens. On SFP agar, C. perfringens produces black colonies, 2 to 3 mm in diameter, surrounded by zones of opaque precipitate. The typical colonies are confirmed on LM agar. Enumeration and identification are completed within 48 hr. All of the ingredients of SFP agar are stable to heat and storage conditions. SFP agar also contains two antibiotics, kanamycin and polymyxin B, which are inhibitory to many bacteria commonly occurring in foods. A comparative study of SFP agar and noninhibitory media showed that SFP agar did not inhibit any of the 16 strains of C. perfringens tested. Recovery of C. perfringens added to foods averaged 90.6% for SFP agar as compared with 69.8% for sulfite polymyxin-sulfadiazine (SPS) agar (BBL) and 60.2% for SPS agar (Difco). The colonies on the SFP agar, were much larger and were consistently black. Of 464 food samples tested, C. perfringens was found in 27 samples with SFP agar and in 5 samples with SPS agar (Difco), with a recovery ratio considerably higher on SFP agar. SFP agar is a more specific presumptive medium for the enumeration of C. perfringens and in conjunction with LM agar should save considerable time, effort, and materials toward the final identification of the species.     

Comparison of coats and surface-dependent properties of Bacillus cereus T prepared in two sporulation environments

The surface or coat-associated properties of Bacillus cereus T spores produced from modified G medium (MGM) and fortified nutrient agar (FNA) were compared. The two populations appeared structurally similar by transmission electron microscopy. Spores prepared on FNA were more susceptible to ozone inactivation than MGM-prepared spores. When activated by heating for 15 min at 70–85°C, FNA-prepared spores were optimally activated at 85°C and did not become hydrophilic on heat activation while MGM spores were optimally activated at 70°C and became hydrophilic on activation. Susceptibility to removal of coat and outer membrane by chemical and enzymatic extraction treatments was measured by monitoring reduced ability to germinate in nutrients and acquired ability to germinate in the presence of lysozyme. Bacillus cereus T MGM-prepared spores germinated in lysozyme upon<1 h exposure to sodium dodecyl sulphate-dithiothreitol. FNA-prepared spores were lysozyme sensitive after > 2 h treatment. Thus, B. cereus T FNA spore coats and outer membranes were more resistant to these denaturing agents. Transmission electron micrographs revealed no change in appearance of extracted spores. Sporulation environment must be considered when laboratory-prepared spores are used to assess or predict the effect of control procedures on spores present in nature.     

Immunity to Aerosol Challenge in Guinea Pigs Immunized with Gamma-Irradiated Venezuelan Equine Encephalitis Vaccines

An improved selective medium, Tryptose-sulfite-cycloserine (TSC) agar, for the enumeration of Clostridium perfringens is described. It consists of the same basal medium as Shahidi-Ferguson-perfringens (SFP) agar, but with 400 mug of D-cycloserine per ml substituted for the kanamycin and polymyxin. Tolerance of C. perfringens for D-cycloserine, its production of lecithinase, and its ability to reduce sulfite were used as the basis for development of this medium. Comparisons were made between TSC and SFP agars for the recovery of vegetative cells of C. perfringens by using statistical methods. The results showed that TSC allowed virtually complete recovery of most of the C. perfringens strains while inhibiting practically all facultative anaerobes tested. SFP agar allowed a slightly higher rate of recovery of C. perfringens but was found to be much less selective.     

Diagnostic properties of three conventional selective plating media for selection of <Emphasis Type="Italic">Bacillus cereus</Emphasis>, <Emphasis Type="Italic">B. thuringiensis</Emphasis> and <Emphasis Type="Italic">B. weihenstephanensis</Emphasis>

The aim of this study was to assess the diagnostic properties of the two selective plating media and a chromogenic medium for identification of Bacillus cereus. The 324 isolates were B. cereus (37%), Bacillus weihenstephanensis (45%) or Bacillus thuringiensis (18%), as identified by a new combination of techniques. All isolates were growing on mannitol–egg yolk–polymyxin agar (MYP), and they did not form acid from mannitol. However, a significant lower number of B. thuringiensis isolates did not show lecithinase activity. All isolates were also growing on polymyxin–egg yolk–mannitol–bromothymol blue agar (PEMBA); however, 11% isolates indicated that they did produce acid from mannitol, and 15% isolates did not show any lecithinase activity. Five of the isolates did not grow at all on the chromogenic agar, and 14 of the growing isolates were β-glucosidase negative. It is concluded that the two recommended selective plating media MYP and PEMBA for detection of B. cereus group bacteria both have their limitations for identification of some B. cereus, B. weihenstephanensis or B. thuringiensis. However, MYP is preferable compared to PEMBA. The chromogenic medium has its own advantages and limitations, and some of the limitations seem to be solved by incubation at 30°C instead of the recommended 37°C.     

The effects of Korean propolis against foodborne pathogens and transmission electron microscopic examination

This study was performed to evaluate the effects of Korean propolis against foodborne pathogens and spores of Bacillus cereus and to investigate the antimicrobial activity against B. cereus structure by transmission electron microscopy (TEM). The antimicrobial effects of the Korean propolis were tested against foodborne pathogens including Gram-positive (B. cereus, Listeria monocytogenes and Staphylococcus aureus) and Gram-negative (Salmonella typhimurium, Escherichia coli and Pseudomonas fluorescence) bacteria by agar diffusion assay. Gram-positive bacteria were more sensitive than were Gram-negative bacteria. The vegetative cells of B. cereus were the most sensitive among the pathogens tested with minimum inhibitory concentration (MIC) of 0.036 mg/μl of propolis on agar medium. Based on MIC, sensitivity of vegetative cells of B. cereus and its spores was tested in a nutrient broth with different concentrations of propolis at 37°C. In liquid broth, treatment with 1.8 mg/ml propolis showed bactericidal effect against B. cereus. B. cereus vegetative cells exposed to 7.2mg/ml of propolis lost their viability within 20 min. Against spores of B. cereus, propolis inhibited germination of spores up to 30 hours, compared to control at higher concentration than vegetative cells yet acted sporostatically. The bactericidal and sporostatic action of propolis were dependent on the concentration of propolis used and treatment time. Electron microscopic investigation of propolis-treated B. cereus revealed substantial structural damage at the cellular level and irreversible cell membrane rupture at a number of locations with the apparent leakage of intracellular contents. The antimicrobial effect of propolis in this study suggests potential use of propolis in foods.     

Enumeration and Identification of Bacillus cereus in Foods: I. 24-Hour Presumptive Test Medium

An egg yolk-polymyxin medium (KG) for rapid enumeration of Bacillus cereus is described. The test is presumptive in that differentiation of B. cereus (and closely related organisms) from other species is based on the formation of turbidity in the agar surrounding the colonies of the cereus group organisms. The medium is formulated to encourage sporulation and release of free spores for serological confirmatory tests within the 24-hr incubation period. The production of turbidity in egg yolk and free-spore production by 25 strains of B. cereus on KG agar were measured. The recovery of food poisoning strains of B. cereus inoculated into nonsterile food slurries was assessed. A comparison of KG agar and mannitol-egg yolk-polymyxin-agar indicated that the two media were comparable in their abilities to recover low levels of B. cereus from naturally contaminated foods. Since KG agar enhances spore formation by B. cereus, thus permitting early serological testing, its use in screening food products is advocated.     

Salt extends the upper temperature limit for growth of food-poisoning bacteria

Inclusion of NaCl into the growth medium raised the upper temperature limit of growth of the following organisms: Staphylococcus aureus (two strains), Salmonella senftenberg, S. typhimurium, Escherichia coli, Streptococcus faecalis, Bacillus cereus, Clostridium sporogenes, C. perfringens (two strains). The magnitude of the response varied with the culture, the largest being 3.5 degrees with B. cereus cells. The spores of B. cereus were not protected by salt but clostridial spores behaved as the vegetative cells (response of 2.5 degrees). The optimal salt concentration for the protective effect varied with the organism ranging from 0.2 M for the Gram-negative organisms to 1.0 M for S. aureus.     

The effect of recovery conditions on the apparent heat resistance of Bacillus cereus spores

The effect of recovery media and incubation temperature on the apparent heat resistance of three ATCC strains (4342, 7004 and 9818) of Bacillus cereus spores were studied. Nutrient Agar (NA), Tryptic Soy Agar (TSA), Plate Count Agar (PCA) and Milk Agar (MA) as the media and temperatures in the range of 15–40°C were used to recover heated spores. Higher counts of heat injured spores were obtained on PCA and NA. The optimum subculture temperature was about 5°C below the optimum temperature for unheated spores. No significant differences in heat resistance were observed with the different recovery conditions except for strains 4342 and 9818 when MA was used as plating medium.
Large differences in D -values were found among the strains ( D ₁₀₀=0·28 min for 7004; D ₁₀₀=0·99 min for 4342; D ₁₀₀= 4·57 min for 9818). The 7004 strain showed a sub-population with a greater heat resistance. The z values obtained for the three strains studied under the different recovery conditions were similar (7·64°C 0·25).     

Enumeration of Clostridium perfringens spores in groundwater samples: comparison of six culture media

In order to investigate the ability of Fluorocult-supplemented TSC agar (TSCF (Fluorocult supplemented TSC-agar): prepared from Tryptose Sulfite Cycloserine Agar Base (Merck), D-cycloserine (Fluka Chemika, USA), and fluorocult TSC-Agar supplement (Merck)) for detecting spores of Clostridium perfringens in water, we analyzed groundwater samples, pretreated by heating to 80 degrees C/5 min, using this fluorogenic medium together with five other media: mCP agar (Panreac; Cultimed), TSC agar (Merck, Germany), TSN agar (Merck), and SPS agar (BBL, USA) by the membrane filtration technique, and Wilson-Blair agar (WB) following the still-in-force Spanish official method. Variance analysis of the data obtained shows statistically significant differences in the counts obtained between media employed in this work. The C. perfringens spore counts on mCP agar were significantly lower (P<0.05) than the corresponding values of TSC, TSCF, SPS, and WB media. No statistically significant differences were found between C. perfringens spore counts on TSCF compared with those of other methods used. On the other hand, the identification of typical and atypical colonies isolated from all media demonstrated that fluorogenic TSC agar was the most specific medium for C. perfringens spore recovery in groundwater samples. Additionally, the results obtained indicate that mCP agar, which is the reference method in the European Union, is not suitable medium for recovering C. perfringens spores from groundwater samples.     

Psychrotrophic Clostridia

Of 287 strains of clostridia of 23 different species 96 grew well at 6°, 77 of which were Clostridium carnofoetidum var. amylolyticum and 16 were Cl. perfringens.
The water of polluted wells seems to be the normal habitat of Cl. carnofoetidum var. amylolyticum . This species is both proteolytic and saccharolytic and is not pathogenic for mice or guinea pigs. Spores survive at 80° for 40 min. Mg is essential to obtain sporulation of the strains in artificial environments.
Growth temperatures vary between 6 and 37° with an optimum at 30°. At 6° strains untrained to grow at this temperature grow in about 5 days in Rosenow medium. Trained stains have a lag phase of 24 h. Growth curves show a longer logarithmic phase at 6° than at 30°. At the end of this phase the bacterial count is the same at both temperatures. Cl. carnofoetidum var. amylolyticum is, therefore, a true psychrotrophic species.
Glucose and pyruvate breakdown studied by Warburg's method confirms the slowing down of metabolism at 6°. A study of amino acid degradation indicates that serine is the substance most rapidly attacked at 37°, but at 6° the activity against serine disappears completely.
In Rosenow medium at the first inoculation 8 strains of Cl. perfringens out of 24 failed to grow at 6° after 30 days. They were all enterotoxic types. Among the other 16 strains none survived beyond the tenth transfer at 6° and it was not possible to train any strain to grow at this temperature. An examination of the growth curves shows that they are not truly psychrotrophic.     

Identification of Bacillus anthracis by polyclonal antibodies against extracted vegetative cell antigens

The extractable protein antigens EA1 and EA2 of Bacillus anthracis were prepared from electrophoresis transblots of SDS extracts of vegetative bacteria of the Sterne strain. Hyperimmune guinea-pig antiserum against EA2 failed to react with B. anthracis cells in immunofluorescence (IF) tests. Guinea-pig antiserum against EA1 (anti-EA1) reacted strongly in IF tests with non-encapsulated vegetative cell of 10 of 12 strains of B. anthracis and with cells of strains of B. cereus and B. thuringiensis. The unreactive B. anthracis strains were delta-Vollum-1B-1 and Texas. Encapsulated cells of B. anthracis stained poorly except for small bright regions. Absorption of anti-EA1 with cells of B. cereus NCTC 8035 and NCTC 9946 removed activity towards all B. cereus strains tested, but only partly reduced cross-reaction with B. thuringiensis strains. Absorption of anti-EA1 with B. thuringiensis 4041 removed activity towards this strain and B. cereus strains. Evidence is produced that B. thuringiensis cells grown on nutrient agar possess more cross-reacting antigens than cells grown in nutrient broth. The reaction of anti-EA1 with Bacillus spores immobilized in clumps on microscope slides was attributed to contaminating vegetative debris because well-separated individual spores failed to react. A rapid IF test was developed allowing identification of B. anthracis sampled from overnight cultures on blood plates. When sodium dodecyl sulphate extracts of B. anthracis vegetative cells were analysed on immunoblots (Western blots) by reaction with anti-EA1, a number of bands were visualized in addition to the expected 91 kiloDalton EA1 band. Prior absorption of anti-EA1 with B. cereus or B. thuringiensis cells resulted in the disappearance of most or all of the brands in blots of these species, but had less effect on blots of the B. anthracis strains. All six B. anthracis strains that were blotted including delta-Vollum-1B-1 and Texas, could thus be distinguished from B. cereus and B. thuringiensis by their differential reaction with unabsorbed and absorbed anti-EA1.     

Effects of sporulation pH on the heat resistance and the sporulation of Bacillus cereus

Spores of Bacillus cereus ATCC 7004, 4342 and 9818 were obtained in nutrient agar at several pH from 5·9 to 8·3. The optimum pH for sporulation was around 7, but good production of spores was obtained in the range 6·5–8·3. With all three strains, D -values clearly dropped with sporulation pH, decreasing by about 65% per pH unit. z -Values were not significantly modified ( P > 0·05) by this factor. Mean z -values of 7·13 °C ± 0·16 for strain 7004, 7·67 °C ± 0·04 for 4342 and 8·80 °C ± 0·64 for 9818 were obtained.     

Comparison of Media for the Enumeration of Clostridium perfringens

For the enumeration of viable vegetative cells and spores of Clostridium perfringens, noncommercial (laboratory prepared) sulfite-polymyxin-sulfadiazine (SPS) agar, tryptone-sulfite-neomycin (TSN) agar, and Shahidi-Ferguson-perfringens (SFP) agar were statistically compared to SPS agar without antibiotics. The selectivities of these four media were also evaluated on the basis of their ability to inhibit the growth of pure cultures of a variety of other organisms. The average recovery of vegetative cells of 10 strains of C. perfringens with SFP agar was not significantly higher than with SPS agar with 10(4) organisms per g, but with 10(6) organisms per g it yielded significantly higher recoveries than SPS agar. TSN agar yielded significantly lower recoveries at both inoculum levels. SFP agar gave significantly higher recoveries of spores than SPS and TSN agars. Average plate counts of spores in SFP agar were 75% as high as in SPS agar without antibiotics, but only 45% of the spores grew in SPS agar and 25% in TSN agar. TSN agar was the most selective of the three media, but the selectivity of SPS agar approached that of TSN agar under the test conditions. SFP agar, which was the least selective of the media, allowed growth to some extent of nearly all of the facultative anaerobes tested.     

The Effect of Incubation Temperature on the Recovery of Spores of Bacillus subtilis 8057

S ummary . The recovery of Bacillus subtilis spores was studied after different heat treatments at 95° and incubation at different temperatures in roll tubes in a gradient temperature incubator. Plate count agar and brain–heart infusion agar were used in the roll tubes. Unheated spores showed similar recoveries at 16–48° whereas heated spores had an optimum recovery temperature of c. 30.9. The rate of germination of untreated spores was greatest at c. 41° and ceased at 50°. Heated spores germinated at 52°5°, suggesting that recovery of heat-treated spores is not limited by their ability to germinate. Outgrowth of spores at different incubation temperatures was similar for germinated and ungerminated spores. Accordingly it is outgrowth rather than germination which is sensitive to temperature.     

A note on the effect of sporulation conditions on the resistance of Bacillus spores to heat and chemicals

Spores of Bacillus subtilis SA22 harvested after 22 d incubation on nutrient agar at 30°C were more resistant to 0–04% peracetic acid at 20°C than spores harvested following 2 d incubation. Similarly, spores of B. subtilis globigii B17, harvested after 7 d incubation on a sporulation agar were up to 10 times less resistant to 0.04% peracetic acid at 20°C than spores harvested after 35 d incubation. An increase in resistance to heating at 100°C and to exposure to 17.7% hydrogen peroxide at 20°C occurred as the age of B. subtilis SA22 spores prior to harvesting increased, whereas differences in resistance were not observed with spores of B. subtilis globigii B17.     

Clostridium perfringens type A: certain characters of epidemiologic significance.

Survival of spores of Cl. perfringens type A was significantly greater than that of vegetative cells in acid pH (pH 1.2). Survival of spores in soil varied from strain to strain. Time required for 5 million spores to be reduced to 500 per gram of soil varied from 2 to 8 months with an average of 4.5+/-2.3 months. Quantitative and qualitative heat resistance studies revealed that a majority of the Indian and all the American strains tested were heat-sensitive. These characters of Cl. perfringens have an important bearing on the epidemiology of food poisoning due to this agent.