A new membrane filtration medium for simultaneous detection and enumeration of Escherichia coli and total coliforms.

Recovery of total coliforms and Escherichia coli on a new membrane filtration (MF) medium was evaluated with 25 water samples from seven states. Testing of the new medium, m-ColiBlue24 broth, was conducted according to a U.S. Environmental Protection Agency protocol. For comparison, this same protocol was used to measure recovery of total coliforms and E. coli with two standard MF media, m-Endo broth and mTEC broth. E. coli recovery on the new medium was also compared to recovery on nutrient agar supplemented with 4-methylumbelliferyl-beta-D-glucuronide. Comparison of specificity, sensitivity, false positive error, undetected target error, and overall agreement indicated E. coli recovery on m-ColiBlue24 was superior to recovery on mTEC for all five parameters. Recovery of total coliforms on the new medium was comparable to recovery on m-Endo.     

Observations on the use of a medium detecting β-glucuronidase activity and lactose fermentation for the simultaneous detection of Escherichia coli and coliforms

Three hundred and forty clinical isolates of Candida species and Saccharomyces cerevisiae were tested in order to evaluate different methods for identification of Candida albicans using fluorogenic or chromogenic substrates. Detection of N -acetyl-β-D-galactosaminidase (NAGase) was performed with ready-to-use agars such as Fluoroplate Candida Agar (Merck, Germany), MUAG Candida Agar and MUAG Sabouraud Agar (Biolife, Italy) which contained 4-methylumbelliferyl- N -acetyl-β-D-galactosaminide (4-MUAG). MUAG Candi Kit and RAP-ID-ALBICANS (Biolife, Italy) and Albicans ID Agar (bioMérieux, France) were also used. The Vitek AMS System was used as a reference identification method for all isolates. NAGase activity could be detected for C albicans with Fluoroplate Candida Agar (98.8%), MUAG Sabouraud Agar (98.4%), Albicans ID (99.6%). MUAG Candi Kit (97.5%) and RAP-ID-ALBICANS (96.2%). Proline aminopeptidase examined with RAP-ID-ALBICANS was present in 98.7% of C. albicans. There was one false-positive result for C. tropicalis (9.1%) on Fluoroplate Candida Agar, one false-positive result for C. glabrata (2.2%) on Albicans ID Agar: five false-negative results for C. albicans (3.1%), but no false-positive results for the other tested species were observed with RAP-ID-ALBICANS.     

Comparison of indole production and β-glucuronidase activity for the detection of Escherichia coli in a membrane filtration method

In a membrane filter method for the enumeration of Escherichia coli in water samples, the James' indole reagent has several advantages over the commonly used diaminobenzaldehyde (DAB) reagent. Results with James' reagent were easier to read because the red colour of positive colonies was more intensive and developed within a few minutes without exposure to UV light. DAB-coloured colonies were pale pink with a diffuse pink zone surrounding the colonies after 30 min of exposure to UV-source radiation. Incorporation of 4-methylumbelliferyl- β -D-glucuronide (MUG) into the selective medium to detect E. coli by means of β -glucuronidase-activity gave discouraging results. Fluorescence was difficult to read on membrane filters incubated on this medium and 14% of E. coli strains were β -glucuronidase-negative.     

Improved membrane filtration media for enumeration of total coliforms and Escherichia coli from sewage and surface waters

Two media were developed that allowed both a total coliform count and an Escherichia coli count to be determined on the same medium after 24 h of incubation at 35 degrees C. The new media were tested along with two standard media on 10 surface water and 7 sewage samples. The experimental media yielded equivalent or higher counts relative to the standard media and recovered more specifically the desired indicator groups as determined by colony identification.     

Improved membrane filtration media for enumeration of total coliforms and Escherichia coli from sewage and surface waters.

Two media were developed that allowed both a total coliform count and an Escherichia coli count to be determined on the same medium after 24 h of incubation at 35 degrees C. The new media were tested along with two standard media on 10 surface water and 7 sewage samples. The experimental media yielded equivalent or higher counts relative to the standard media and recovered more specifically the desired indicator groups as determined by colony identification.     

New medium for the simultaneous detection of total coliforms and Escherichia coli in water.

A new membrane filter agar medium (MI agar) containing a chromogen, indoxyl-beta-D-glucuronide, and a fluorogen, 4-methylumbelliferyl-beta-D-galactopyranoside, was developed to simultaneously detect and enumerate Escherichia coli and total coliforms (TC) in water samples on the basis of their enzyme activities. TC produced beta-galactosidase, which cleaved 4-methylumbelliferyl-beta-D-galactopyranoside to form 4-methylumbelliferone, a compound that fluoresced under longwave UV light (366 nm), while E. coli produced beta-glucuronidase, which cleaved indoxyl-beta-D-glucuronide to form a blue color. The new medium TC and E. coli recoveries were compared with those of mEndo agar and two E. coli media, mTEC agar and nutrient agar supplemented with 4-methylumbelliferyl-beta-D-glucuronide, using natural water samples and spiked drinking water samples. On average, the new medium recovered 1.8 times as many TC as mEndo agar, with greatly reduced background counts (< or = 7%). These differences were statistically significant (significance level, 0.05). Although the overall analysis revealed no statistically significant difference between the E. coli recoveries on MI agar and mTEC agar, the new medium recovered more E. coli in 16 of 23 samples (69.6%). Both MI agar and mTEC agar recovered significantly more E. coli than nutrient agar supplemented with 4-methylumbelliferyl-beta-D-glucuronide. Specificities for E. coli, TC, and noncoliforms on MI agar were 95.7% (66 of 69 samples), 93.1% (161 of 173 samples), and 93.8% (61 of 65 samples), respectively. The E. coli false-positive and false-negative rates were both 4.3%. This selective and specific medium, which employs familiar membrane filter technology [corrected] to analyze several types of water samples, is less expensive than the liquid chromogen and fluorogen media and may be useful for compliance monitoring of drinking water.     

A rapid fluorogenic method for the detection of Escherichia coli by the production of β-glucuronidase

A medium containing the fluorogenic substrate 4-methylumbelliferyl-β-d-glucuronide was developed for the isolation and identification of Escherichia coli within 7·5 h and was based on the detection of β-glucuronidase. Optimum conditions for the rapid development of fluorescent colonies were determined. The optimum temperature was 41·5°C. Development of fluorescence was delayed when carbohydrates were incorporated into the medium. Water samples were used to evaluate the medium by surface plating and membrane filtration. The frequency of false-negative results was 6·1% and false-positives were 3·7% for freshwater samples. The false-positive organisms were identified as Klebsiella spp. and Shigella sonnei. The potential applications of the medium are discussed.     

Comparison of membrane filtration and Autoanalysis Colilert presence-absence techniques for analysis of total coliforms and Escherichia coli in drinking water samples

Over a 4-month period, 950 samples of treated drinking water were analyzed for total coliforms (TC) and Escherichia coli by both membrane filtration (MF) and Autoanalysis Colilert presence-absence (AC) techniques. The two tests agreed 97% of the time on the basis of presumptive TC results and 98.5% of the time on the basis of verified TC results. Samples which produced disagreement between the two tests were most often TC positive by MF and TC negative by AC. E. coli was recovered four times: twice by MF only, and twice by AC only but without the diagnostic fluorescence reaction. In two samples, E. coli could not be isolated from fluorescence-positive AC tests. On the basis of these results, the AC test was implemented as the routine analytical procedure for TC but not for E. coli.     

An evaluation of media for the membrane filtration enumeration of Aeromonas from drinking water

Two laboratory-prepared media (Ampicillin Dextrin Agar, ADA, and Xylose Ampicillin Agar, XAA) were compared with two commercially-available media (Ryan's Aeromonas Medium and Bile Salt-Irgasan-Brilliant Green Agar, BIBA) for the enumeration of Aeromonas spp. from drinking water. Ryan's medium and ADA were superior for both recovery of Aeromonas and selectivity, with 95+% of typical colonies from both media confirming as Aeromonas . Colony characteristics were more consistent on Ryan's medium.     

Comparison of membrane filtration and Autoanalysis Colilert presence-absence techniques for analysis of total coliforms and Escherichia coli in drinking water samples.

Over a 4-month period, 950 samples of treated drinking water were analyzed for total coliforms (TC) and Escherichia coli by both membrane filtration (MF) and Autoanalysis Colilert presence-absence (AC) techniques. The two tests agreed 97% of the time on the basis of presumptive TC results and 98.5% of the time on the basis of verified TC results. Samples which produced disagreement between the two tests were most often TC positive by MF and TC negative by AC. E. coli was recovered four times: twice by MF only, and twice by AC only but without the diagnostic fluorescence reaction. In two samples, E. coli could not be isolated from fluorescence-positive AC tests. On the basis of these results, the AC test was implemented as the routine analytical procedure for TC but not for E. coli.     

Evaluation of a commercial β-glucuronidase test for the rapid and economical identification of Escherichia coli

A commercial β-glucuronidase (β-GUR) test for the rapid and economical identification of Escherichia coli was evaluated. A total of 762 clinical strains and 228 environmental isolates were studied. More than 95% of the E. coli strains were found to be β-GUR positive. Thirty-one clinical isolates of Shigella sonnei , 10 of Enterobacter cloacae , eight of Enterobacter aerogenes, nine of Citrobacter freundii and one of Salmonella enteritidis also gave positive results. The enzyme β-GUR was also detected in two environmental strains of E. cloacae and one C. freundii. A comparative study between the β-GUR test and the conventional identification system was carried out in 233 consecutive isolates of lactose positive enterobacteria. Agreement was observed in 223 cases and 190 E. coli strains were correctly identified using this test. Discrepancies were found in 10 cases: nine E. coli were β-GUR negative and one C. freundii was β-GUR positive. Escherichia coli was the only species positive for both β-GUR and indole tests. This procedure permits a rapid, easy, precise and inexpensive identification of E. coli. β-GUR positive Enterobacter strains have not previously been described.     

Evaluation of C-EC-agar, a modified mFC-agar for the simultaneous enumeration of faecal coliforms and Escherichia coli in water samples

A new medium, C-EC-agar (Biolife, Milan, Italy), was evaluated for the simultaneous enumeration by membrane filtration of faecal coliforms and Escherichia coli in water. The medium is a modification of m-faecal coliform agar, from which the aniline blue and lactose have been omitted and 4-methylumbelliferyl-β-D-glucuronide, 5-bromo-4-chloro-3-indolyl-β- d -galactopyranoside and isopropyl-β- d -thiogalactoside added. At 44°C E. coli gives blue-green colonies that fluoresce under u.v.-light (366 nm) and give a reddish-violet colour when Kovac's reagent is placed on the membrane. Under similar conditions, faecal coliform colonies do not fluoresce. To increase recovery on the medium, repair of sub-lethally injured cells by a 4-h incubation at 37°C on tryptic soy agar is recommended.     

Specific detection of Escherichia coli and Shigella species using fragments of genes coding for β-glucuronidase

Abstract The occurrence of β-glucuronidase activity, a main characteristic of Escherichia coli and the presence of the uid chromosomal region of E. coli , coding for this enzyme, were tested on representative members of enteric bacteria. DNA hybridization techniques using uid probes and ampplification experiments of uidA gene by the polymerase chain reaction (PCR) confirmed the specificity of uid genes fro E. coli and Shigella spp. (i.e., S. boydii, S. dysenteriae, S. flexneri and S. sonnei ), independent of the β-glucuronidase phenotype of bacterial strains. This specificity seemed to be conserved when studies were extended to a wide range of bacteria. It was not possible to distinguish E. coli from Shigella spp. The detection sensitivity using double stranded DNA radiolabeled probes was 3 × 10⁴ bacteria and could be brought down to 8 bacteria by PCR. Thus, the uid genes appeared to be ideal candidates for DNA probes technology to detect E. coli-Shigella species.     

National field evaluation of a defined substrate method for the simultaneous enumeration of total coliforms and Escherichia coli from drinking water: comparison with the standard multiple tube fermentation method

A defined substrate method was developed to simultaneously enumerate total coliforms and Escherichia coli from drinking waters without the need for confirmatory or completed tests. It is a new method based on technology that uses a hydrolyzable substrate as a specific indicator-nutrient for the target microbes. No equipment other than a 35 degrees C incubator and long-wavelength (366-nm) light is necessary. To perform the test, one only has to add water to the powdered ingredients in a tube or flask. If total coliforms are present in the water sample, the solution will change from its normal colorless state (no target microbes present) to yellow. The specific presence of E. coli will cause the same tube to fluoresce under a longwave (366-nm) UV lamp. The test, called Autoanalysis Colilert (AC), was compared with Standard Methods for the Examination of Water and Wastewater 10-tube multiple tube fermentation (MTF) in a national evaluation. Five utilities, representing six U.S. Environmental Protection Agency regions, participated. All water samples came from distribution systems. Split samples from a wide variety of water sources were analyzed for the MPN-versus-MPN comparison. A total of 1,086 tubes were positive by MTF, and 1,279 were positive by AC. There was no statistical difference between MTF and AC. Species identifications from positive tubes confirmed the sensitivity of the AC. A national evaluation of the AC test showed that it: (i) was as sensitive as Standard Methods MTF, (ii) specifically enumerated 1 total coliform per 100 ml, in a maximum of 24 h, (iii) simultaneously enumerated 1 E. coli per 100 ml in the same analysis, (iv) was not subject to false-positive or false-negative results by heterotrophic bacteria, (v) did not require confirmatory tests, (vi) grew injured coliforms, (vii) was easy to inoculate, and (viii) was very easy to interpret.     

Evaluation of a rapid, defined substrate technology method for enumeration of total coliforms and Escherichia coli in chlorinated drinking water

A rapid, defined substrate technology method, commercially available as Colilert, simultaneously enumerates total coliforms and Escherichia coli in drinking water samples in 24 h without the need for confirmatory tests. The ability of this method to enumerate both total coliforms and E. coli in simulated chlorine-treated drinking water samples was compared with the standard UK method (minerals-modified glutamate most probable number) which requires up to 96 h to complete including confirmation. Statistical analysis by a nonparametric matched-pair test showed the Colilert method to be less efficient at detecting down to one E. coli in these samples compared to the standard UK method. No statistically significant difference between the two methods of enumeration for total coliforms was detected.     

National field evaluation of a defined substrate method for the simultaneous enumeration of total coliforms and Escherichia coli from drinking water: comparison with the standard multiple tube fermentation method.

A defined substrate method was developed to simultaneously enumerate total coliforms and Escherichia coli from drinking waters without the need for confirmatory or completed tests. It is a new method based on technology that uses a hydrolyzable substrate as a specific indicator-nutrient for the target microbes. No equipment other than a 35 degrees C incubator and long-wavelength (366-nm) light is necessary. To perform the test, one only has to add water to the powdered ingredients in a tube or flask. If total coliforms are present in the water sample, the solution will change from its normal colorless state (no target microbes present) to yellow. The specific presence of E. coli will cause the same tube to fluoresce under a longwave (366-nm) UV lamp. The test, called Autoanalysis Colilert (AC), was compared with Standard Methods for the Examination of Water and Wastewater 10-tube multiple tube fermentation (MTF) in a national evaluation. Five utilities, representing six U.S. Environmental Protection Agency regions, participated. All water samples came from distribution systems. Split samples from a wide variety of water sources were analyzed for the MPN-versus-MPN comparison. A total of 1,086 tubes were positive by MTF, and 1,279 were positive by AC. There was no statistical difference between MTF and AC. Species identifications from positive tubes confirmed the sensitivity of the AC. A national evaluation of the AC test showed that it: (i) was as sensitive as Standard Methods MTF, (ii) specifically enumerated 1 total coliform per 100 ml, in a maximum of 24 h, (iii) simultaneously enumerated 1 E. coli per 100 ml in the same analysis, (iv) was not subject to false-positive or false-negative results by heterotrophic bacteria, (v) did not require confirmatory tests, (vi) grew injured coliforms, (vii) was easy to inoculate, and (viii) was very easy to interpret.     

Evaluation of a new medium for the enumeration of total coliforms and Escherichia coli in Japanese surface waters

Aim: A new medium, EC‐Blue‐10, containing chromogenic and fluorogenic substrates, KNO₃ and sodium pyruvate has been developed for the rapid simultaneous detection and enumeration of total coliforms and Escherichia coli in water. Methods and Results:  Two evaluations of EC‐Blue‐10 were carried out. Firstly, EC‐Blue‐10 was compared with Colilert‐MPN for 96 water samples using MPN for total coliforms and E. coli. Secondly, the detection of coliforms and E. coli were compared using 2400 tubes of EC‐Blue‐10 and Colilert‐MPN. The regression coefficients between EC‐Blue‐10 and Colilert‐MPN for total coliforms and E. coli were 0·91 and 0·89, respectively. For the detection results, the Cohen’s kappa values between the two media were 0·79 for coliforms and 0·72 for E. coli. Conclusions: EC‐Blue‐10 is almost same as Colilert‐MPN for the detection of coliforms and E. coli in surface waters. Further evaluation for EC‐Blue‐10 is needed to verify in different geographical areas. Significance and Impact of the Study: EC‐Blue‐10 is useful method for the rapid and simultaneous detection of total coliforms and E. coli in water sample.     

Comparison of Colilert with Dutch standard enumeration methods for Escherichia coli and total coliforms in water

The average recovery of Escherichia coli with Colilert was 26% (range 12–42%) and that for coliforms was 35% (range 4–140%, when compared with Dutch standard methods. In samples with low numbers of target organisms, Colilert gave false-negative results and was therefore regarded as an unsuitable alternative for Dutch standard methods.     

Ampicillin-dextrin agar medium for the enumeration of Aeromonas species in water by membrane filtration

Published selective media were evaluated for the isolation of Aeromonas spp. from environmental samples by membrane filtration. Satisfactory recoveries were obtained only with mA agar (Rippey & Cabelli) and dextrin-fuchsin-sulphite agar (Schubert), but neither was sufficiently selective. The positive aspects of these two media were combined in a new medium, ampicillin-dextrin agar. Recovery from pure cultures and environmental samples was optimal at an ampicillin concentration of 10 mg/l and incubation for 24 h at 30°C under aerobic conditions, and specificity was high (i.e. confirmation rate usually <90%, no false negative colonies encountered). The medium can also be used for isolation of Aeromonas spp. from sea water provided that the vibriostatic agent 0/129 is added at 50 mg/1.