Survival of Vibrio cholerae 01 in common foodstuffs during storage at different temperatures

Survival of Vibrio cholerae El Tor serotype Inaba was examined in pasteurized milk, freshwater fish, raw beef and raw chicken at a variety of temperatures. Both food type and incubation temperature affected survival. At the lowest temperatures, V. cholerae remained viable in meats for up to 90 d at—5°C and 300 d at —25°C. In milk, however, it was not detectable after 34 d at —5°C and 150 d at —25°C. At 7°C it survived 32 d, on average, in milk and only 18–20 d in the other foods. At room temperatures survival periods were shorter, never exceeding 10 d, and it was not detected after 2 d incubation at 35°C in chicken and fish.     

Production of Enterotoxin A in Milk

Enterotoxin A production in milk was studied by use of variables of milk quality, initial numbers of enterotoxigenic staphylococci, incubation temperature, and time. In both raw and pasteurized milks having a low total viable count, enterotoxin was detected in minimal incubation times of 6 to 9 hr at 35 C, 9 to 12 hr at 30 C, 18 hr at 25 C, and 36 hr at 20 C, after inoculation with 10(6)Staphylococcus aureus cells per ml. When similar milks were inoculated with 10(4)S. aureus cells per ml, enterotoxin was detected in 12 hr at 35 C, 18 hr at 30 C, 24 to 36 hr at 25 C, and 48 to 96 hr at 20 C. In high-count raw milk, enterotoxin was detected only in samples inoculated with 10(6)S. aureus cells per ml and incubated at 35 C. Generally, a concentration of 5 x 10(7)S. aureus cells per ml of milk was reached before enterotoxin A was detected.     

Prediction of the keeping quality of pasteurized milk by the detection of cytochrome c oxidase

The keeping quality (KQ) of pasteurized milk samples stored at 5°C and 10°C was satisfactorily predicted after 18 h pre-incubation with 0.05% benzalkonium chloride at 20°C, by estimating the numbers of Gram-negative psychrotrophic bacteria using the simple, cheap and rapid (5 min) assay of cytochrome c oxidase. Correlation coefficients for the relationship between cytochrome c oxidase activity at 20°C and KQ at 5°C or 10°C of -0.89 and -0.84 respectively were obtained. The method correctly predicted the KQ of more than 89% of the samples of pasteurized milk. The assay was not satisfactory for use on samples after pre-incubation at 30°C.     

Heat inactivation of Mycobacterium avium subsp. paratuberculosis in milk

The effectiveness of pasteurization and the concentration of Mycobacterium avium subsp. paratuberculosis in raw milk have been identified in quantitative risk analysis as the most critical factors influencing the potential presence of viable Mycobacterium paratuberculosis in dairy products. A quantitative assessment of the lethality of pasteurization was undertaken using an industrial pasteurizer designed for research purposes with a validated Reynolds number of 62,112 and flow rates of 3,000 liters/h. M. paratuberculosis was artificially added to raw whole milk, which was then homogenized, pasteurized, and cultured, using a sensitive technique capable of detecting one organism per 10 ml of milk. Twenty batches of milk containing 10(3) to 10(4) organisms/ml were processed with combinations of three temperatures of 72, 75, and 78 degrees C and three time intervals of 15, 20, and 25 s. Thirty 50-ml milk samples from each processed batch were cultured, and the logarithmic reduction in M. paratuberculosis organisms was determined. In 17 of the 20 runs, no viable M. paratuberculosis organisms were detected, which represented > 6-log10 reductions during pasteurization. These experiments were conducted with very heavily artificially contaminated milk to facilitate the measurement of the logarithmic reduction. In three of the 20 runs of milk, pasteurized at 72 degrees C for 15 s, 75 degrees C for 25 s, and 78 degrees C for 15 s, a few viable organisms (0.002 to 0.004 CFU/ml) were detected. Pasteurization at all temperatures and holding times was found to be very effective in killing M. paratuberculosis, resulting in a reduction of > 6 log10 in 85% of runs and > 4 log10 in 14% of runs.     

The incidence of Yersinia enterocolitica and Yersinia enterocolitica-like organisms in raw and pasteurized milk in Northern Ireland

Yersinia enterocolitica and Y. enterocolitica -like bacteria were frequently isolated from samples of both raw bulked milk (34/150) and farm bottled (raw) milk (5/20). These bacteria were also found to contaminate creamery pasteurized milk (6/100 samples) and farm pasteurized milk (4/50 samples). Although Y. enterocolitica was the most commonly isolated species, Y. intermedia and Y. frederiksenii were also frequently obtained (52, 31 and 15% of isolates, respectively). Also, one atypical strain was identified as Y. aldovae . The Y. enterocolitica strains were largely biotype 1 (20/27) including five strains which could ferment lactose. One third of the Y. enterocolitica strains were not typable, but of those which were, the serotypes were 0:34 (18.5%), 0:5,27 (18.5%), 0:6,30 (15%), 0:4 (11%) and 0:7 (4%). Pre-enrichment in trypticase-soy broth (TSB) (at 22°C for 24 h) followed by selective enrichment in bile-oxalate-sorbose broth (at 22°C for 6 d) allowed the recovery of 92.3% of all isolates, as compared with 15.4% using cold enrichment in TSB at 4°C for 21 d.     

Prediction of the shelf-life of pasteurized milk at different storage temperatures

Initial psychrotroph counts determined by a Most Probable Number technique were correlated with shelf-lives of pasteurized milk determined at a number of storage temperatures. The initial psychrotroph count was also correlated with a bacterial count carried out on milk agar containing crystal violet penicillin and nisin after previous incubation of the milk at 15°C for 25 h.
Pre-incubation counts carried out at a variety of temperatures and on a variety of media were examined for their relation to shelf-life. Shelf-lives at four pre-set temperatures (2, 6, 10 and 14°C) could best be predicted by pre-incubation of pasteurized milk at 15°C before inoculation on milk agar.
An equation which allows prediction of shelf-life of pasteurized milk at any storage temperature is described.     

THE RATES OF GROWTH OF SOME THERMODURIC BACTERIA IN PURE CULTURE AND THEIR EFFECTS ON TESTS FOR THE KEEPING QUALITY OF MILK

SUMMARY: The growth rates of eleven representative thermoduric bacteria, comprising 3 aerobic spore formers, 3 streptococci, 1 Corynebacterium lacticum and 4 micrococci, have been determined in glucose broth and sterile pasteurized milk at 37·5°, 26° and 15°. The spore formers and streptococci were generally not affected by the presence of inhibitory factors in pasteurized milk. When multiplication of micrococci and C. lacticum occurred in milk this was only after a lag period. One micrococcus showed an unusual series of growth phases in glucose broth at 37·5°, possibly due to the appearance of mutants or to adaptation of the organism to growth at that temperature. This was not observed in pasteurized milk. C. lacticum died off when incubated in glucose broth at 37·5°.
None of the keeping quality tests was more effective than any other in detecting these organisms in milk. The micrococci and C. lacticum had little effect on the keeping quality of pasteurized milk within the period of 'commercial life'. Some of the spore formers and streptococci showed marked differences in the end-points with the clot-on-boiling and the alcohol precipitation tests.     

Incidence of Mycobacterium paratuberculosis in bulk raw and commercially pasteurized cows' milk from approved dairy processing establishments in the United Kingdom

Over a 17-month period (March 1999 to July 2000), a total of 814 cows' milk samples, 244 bulk raw and 567 commercially pasteurized (228 whole, 179 semi-skim, and 160 skim), from 241 approved dairy processing establishments throughout the United Kingdom were tested for the presence of Mycobacterium paratuberculosis by immunomagnetic PCR (to detect all cells living and dead) and culture (to detect viable cells). Overall, M. paratuberculosis DNA was detected by immunomagnetic PCR in 19 (7.8%; 95% confidence interval, 4.3 to 10.8%) and 67 (11.8%; 95% confidence interval, 9.0 to 14.2%) of the raw and pasteurized milk samples, respectively. Confirmed M. paratuberculosis isolates were cultured from 4 (1.6%; 95% confidence interval, 0.04 to 3.1%) and 10 (1.8%; 95% confidence interval, 0.7 to 2.8%) of the raw and pasteurized milk samples, respectively, following chemical decontamination with 0.75% (wt/vol) cetylpyridinium chloride for 5 h. The 10 culture-positive pasteurized milk samples were from just 8 (3.3%) of the 241 dairy processing establishments that participated in the survey. Seven of the culture-positive pasteurized milk samples had been heat treated at 72 to 74 degrees C for 15 s; the remainder had been treated at 72 to 75 degrees C for the extended holding time of 25 s. When typed by restriction fragment length polymorphism and pulsed-field gel electrophoresis methods, some of the milk isolates were shown to be types distinct from those of laboratory strains in regular use within the testing laboratory. From information gathered at the time of milk sample collection, all indications were that pasteurization had been carried out effectively at all of the culture-positive dairies. That is, pasteurization time and temperature conditions complied with the legal minimum high-temperature, short-time process; all pasteurized milk samples tested phosphatase negative; and post-process contamination was considered unlikely to have occurred. It was concluded that viable M. paratuberculosis is occasionally present at low levels in commercially pasteurized cows' milk in the United Kingdom.     

Heat Inactivation of Mycobacterium avium subsp. paratuberculosis in Milk

The effectiveness of pasteurization and the concentration of Mycobacterium avium subsp. paratuberculosis in raw milk have been identified in quantitative risk analysis as the most critical factors influencing the potential presence of viable Mycobacterium paratuberculosis in dairy products. A quantitative assessment of the lethality of pasteurization was undertaken using an industrial pasteurizer designed for research purposes with a validated Reynolds number of 62,112 and flow rates of 3,000 liters/h. M. paratuberculosis was artificially added to raw whole milk, which was then homogenized, pasteurized, and cultured, using a sensitive technique capable of detecting one organism per 10 ml of milk. Twenty batches of milk containing 10³ to 10⁴ organisms/ml were processed with combinations of three temperatures of 72, 75, and 78°C and three time intervals of 15, 20, and 25 s. Thirty 50-ml milk samples from each processed batch were cultured, and the logarithmic reduction in M. paratuberculosis organisms was determined. In 17 of the 20 runs, no viable M. paratuberculosis organisms were detected, which represented >6-log₁₀ reductions during pasteurization. These experiments were conducted with very heavily artificially contaminated milk to facilitate the measurement of the logarithmic reduction. In three of the 20 runs of milk, pasteurized at 72°C for 15 s, 75°C for 25 s, and 78°C for 15 s, a few viable organisms (0.002 to 0.004 CFU/ml) were detected. Pasteurization at all temperatures and holding times was found to be very effective in killing M. paratuberculosis, resulting in a reduction of >6 log₁₀ in 85% of runs and >4 log₁₀ in 14% of runs.     

An attempt to improve the flavour of 'nono' by the use of starter cultres

Three close-fitting lid fermenters were incubated at 27 ± 2°C for 120 h. 'A' served as a control and contained 100 ml raw goats' milk; 'B' contained 50 ml 48-h-old nono as starter culture plus 50 ml pasteurized milk; and 'C' contained 100 ml pasteurized milk only. The pH and lactic acid contents were determined at intervals. Fermenter 'B' gave the best results in that the milk reached the lowest pH values and the highest lactic acid contents, and this resulted in a more appetizing and bitter product.     

Incidence of Mycobacterium paratuberculosis in Bulk Raw and Commercially Pasteurized Cows' Milk from Approved Dairy Processing Establishments in the United Kingdom

Over a 17-month period (March 1999 to July 2000), a total of 814 cows' milk samples, 244 bulk raw and 567 commercially pasteurized (228 whole, 179 semiskim, and 160 skim), from 241 approved dairy processing establishments throughout the United Kingdom were tested for the presence of Mycobacterium paratuberculosis by immunomagnetic PCR (to detect all cells living and dead) and culture (to detect viable cells). Overall, M. paratuberculosis DNA was detected by immunomagnetic PCR in 19 (7.8%; 95% confidence interval, 4.3 to 10.8%) and 67 (11.8%; 95% confidence interval, 9.0 to 14.2%) of the raw and pasteurized milk samples, respectively. Confirmed M. paratuberculosis isolates were cultured from 4 (1.6%; 95% confidence interval, 0.04 to 3.1%) and 10 (1.8%; 95% confidence interval, 0.7 to 2.8%) of the raw and pasteurized milk samples, respectively, following chemical decontamination with 0.75% (wt/vol) cetylpyridinium chloride for 5 h. The 10 culture-positive pasteurized milk samples were from just 8 (3.3%) of the 241 dairy processing establishments that participated in the survey. Seven of the culture-positive pasteurized milk samples had been heat treated at 72 to 74°C for 15 s; the remainder had been treated at 72 to 75°C for the extended holding time of 25 s. When typed by restriction fragment length polymorphism and pulsed-field gel electrophoresis methods, some of the milk isolates were shown to be types distinct from those of laboratory strains in regular use within the testing laboratory. From information gathered at the time of milk sample collection, all indications were that pasteurization had been carried out effectively at all of the culture-positive dairies. That is, pasteurization time and temperature conditions complied with the legal minimum high-temperature, short-time process; all pasteurized milk samples tested phosphatase negative; and postprocess contamination was considered unlikely to have occurred. It was concluded that viable M. paratuberculosis is occasionally present at low levels in commercially pasteurized cows' milk in the United Kingdom.     

Use of the Direct Epifluorescent Filter Technique for predicting the keeping quality of pasteurized milk within 24 hours

The keeping quality (KQ) of pasteurized milk stored at 5°C and 11°C was predicted within 24 h by pre-incubating samples and counting bacteria by the Direct Epifluorescent Filter Technique (DEFT). For samples from 5°C storage, 0.03% (w/v) benzalkonium chloride and 0.002% (w/v) crystal violet (final concentration) were added to inhibit the growth of Gram positive bacteria during pre-incubation. The samples from milk stored at 11°C were pre-incubated without the addition of inhibitors. After pre-incubation there was a satisfactory relationship between the DEFT count and the KQ of milks at both 5°C and 11°C. The DEFT count following pre-incubation correctly classified > 80% of pasteurized milks on the basis of KQ.     

Effect of commercial-scale high-temperature, short-time pasteurization on the viability of Mycobacterium paratuberculosis in naturally infected cows' milk

Raw cows' milk naturally infected with Mycobacterium paratuberculosis was pasteurized with an APV HXP commercial-scale pasteurizer (capacity 2,000 liters/h) on 12 separate occasions. On each processing occasion, milk was subjected to four different pasteurization treatments, viz., 73 degrees C for 15 s or 25 s with and without prior homogenization (2,500 lb/in(2) in two stages), in an APV Manton Gaulin KF6 homogenizer. Raw and pasteurized milk samples were tested for M. paratuberculosis by immunomagnetic separation (IMS)-PCR (to detect the presence of bacteria) and culture after decontamination with 0.75% (wt/vol) cetylpyridinium chloride for 5 h (to confirm bacterial viability). On 10 of the 12 processing occasions, M. paratuberculosis was detectable by IMS-PCR, culture, or both in either raw or pasteurized milk. Overall, viable M. paratuberculosis was cultured from 4 (6.7%) of 60 raw and 10 (6.9%) of 144 pasteurized milk samples. On one processing day, in particular, M. paratuberculosis appeared to have been present in greater abundance in the source raw milk (evidenced by more culture positives and stronger PCR signals), and on this occasion, surviving M. paratuberculosis bacteria were isolated from milk processed by all four heat treatments, i.e., 73 degrees C for 15 and 25 s with and without prior homogenization. On one other occasion, surviving M. paratuberculosis bacteria were isolated from an unhomogenized milk sample that had been heat treated at 73 degrees C for 25 s. Results suggested that homogenization increases the lethality of subsequent heat treatment to some extent with respect to M. paratuberculosis, but the extended 25-s holding time at 73 degrees C was found to be no more effective at killing M. paratuberculosis than the standard 15-s holding time. This study provides clear evidence that M. paratuberculosis bacteria in naturally infected milk are capable of surviving commercial high-temperature, short-time pasteurization if they are present in raw milk in sufficient numbers.     

Observations on the effect of raw milk quality on the keeping quality of pasteurized milk

Raw milk was stored for up to 14 d at 4°C and pasteurized on days 1, 3, 4, 7, 9 and 14. Precautions were taken to eliminate post-pasteurization contamination. The pasteurized milks were stored at 4°C and analysed at weekly intervals for standard plate counts (SPC), psychrotrophic counts (PC) and aerobic spore counts (ASC). The initial raw milk quality was very good and the keeping quality of all the pasteurized milks tested was greater than 22 d. In some cases the milk still had acceptable SPC after 42 d storage, which shows the keeping quality that can be achieved when the process is well controlled. However, the best keeping quality resulted from milk pasteurized on the third and fourth days. Even milk pasteurized on the seventh and ninth had superior keeping quality to that pasteurized on the first day. The lactoperoxidase anti-microbial system in raw milk may be most active around days 3 and 4.     

Effect of chemical decontamination and refrigerated storage on the isolation of Mycobacterium avium subsp. paratuberculosis from heat-treated milk

AIMS: To assess the impact of chemical decontamination and refrigerated storage before culture on the recovery of Mycobacterium avium subsp. paratuberculosis from heat-treated milk. METHODS AND RESULTS: Five-millilitre samples of ultra heat-treated (UHT) milk spiked with Myco. paratuberculosis NCTC 8578, B4 or 806R (ca 10(6) CFU ml(-1)) were heated at 63 degrees C for 20 or 30 min by submersion in a water bath. Heat-treated milk (0.5 ml) was cultured immediately into BACTEC 12B medium or refrigerated at 4 degrees C for 48 h before culture. Milk samples that received a 20-min heat treatment were also subjected to decontamination with 0.75% cetylpyridinium chloride (CPC) for 5 h at room temperature before inoculation into BACTEC 12B medium when tested immediately and after 48 h at 4 degrees C. BACTEC vials were monitored for evidence of growth over an 18-week incubation period at 37 degrees C. CPC decontamination resulted in a significant reduction in the number of culture-positive milk samples recovered immediately after heating (P < 0.05) and after refrigerated storage for 48 h (P < 0.01). Refrigerated storage for 48 h before testing did not have any significant effect, beneficial or detrimental, on Myco. paratuberculosis recovery rates. CONCLUSIONS: CPC decontamination applied to milk immediately or 48 h after heating will adversely affect the recovery of viable Myco. paratuberculosis, possibly leading to nonrecovery of the organism although viable cells are present in the original milk sample. SIGNIFICANCE AND IMPACT OF THE STUDY: Published pasteurization studies in which milk samples were decontaminated before culture will have underestimated the survival capability of Myco. paratuberculosis after high-temperature, short-time pasteurization. CPC decontamination should not be applied to pasteurized milk in future studies.     

Fate of pathogenic and non-pathogenic Escherichia coli strains in two fermented milk products

The growth and survival of pathogenic and non-pathogenic strains of Escherichia coli was determined in traditionally fermented pasteurized and unpasteurized milk and in Lacto, an industrially fermented milk. Each milk treatment was incubated at 20 degrees C for 24 h and then stored at either 20 degrees C or 5 degrees C for 96 h. Lacto inhibited all the three E. coli strains. Two strains could not be recovered and the third survived only in very low numbers after 24 h storage of Lacto at both 20 degrees C and 5 degrees C. All three E. coli strains survived and multiplied to maximum cell numbers in the range 10(7)-10(9)/ml during traditional fermentation of unpasteurized milk. Cell numbers decreased to 10(3)-10(6) and 10(2)-10(5) during storage of the fermented product at 20 degrees C and 5 degrees C respectively. Higher maximum numbers, 10(9)-10(10), of the three strains of E. coli were attained during traditional fermentation of pasteurized milk. The numbers decreased to 10(5)-10(8) and 10(4)-10(7) during storage of the fermented product at 20 degrees C and 5 degrees C respectively. Generally, fewer E. coli survived when the fermented milk products were stored at refrigeration temperature.     

Effects of Temperature and Leaf Weness on the Latent Period of Rbynchosporium Secalis (Leaf Blotch) on Leaves of Winter Barley

Effects of temperature and leaf wetness on the latent period of Rhynchosporium secaits (leaf blotch) on winter barley were examined in controlled environment experiments. At 100% relative humidity (continuous leaf wetness) the mean length of the latent period was c.24 days at 5°C, c. 19 days at 10°C, c. 16 days at l5°C and c. 13 days at 20°C. The mean number of days between the appearance of the first and the last lesions was c. 13 days at 5°C, c. 6 days at 10°C, c. 5 days at 15°C and c. 3 days at 20°C. A negative curvilinear regression of latent period on temperature accounted for 99% of the variance. The mean area of lesions per leaf was 38 mm² at 5°C, 46 mm² at 10°C, 24 mm² at 15°C and 24 mm² at 20°C. At 10°C, after a 48 h wet infection period, the interruption of leaf wetness for 5 or more days at any time during the next 15 days of the latent period did not decrease subsequent lesion area. However, absence of leaf wetness after these 15 days, at the onset of sporuiation, did decrease the area of lesions which developed.     

Effect of heat treatment on the proteolytic activity of mesophilic bacteria isolated from goats' milk cheese

Strains of mesophilic lactococci and lactobacilli isolated from goats' milk cheese were grown to maximum density in milk at 30°C, pH 6·5. They were subsequently cooled to 12°C and then heated at 50°, 52° and 54°C (holding time, 15 s). The micro-organisms tested were Lactococcus lactis subsp. lactis IFPL 60, IFPL 22 and IFPL 359, Lactobacillus casei subsp. casei IFPL 731 and Lactobacillus plantarum IFPL 3, isolated from raw goats' milk cheese. The heated cells presented lower viability and acidification capacity than unheated cells. After heat treatment at 50°C, all the test strains effected practically no reduction in pH of milk (6 h), except for Lactococcus lactis subsp. lactis IFPL 60, which reduced pH to 5·9 as compared to 4·9 attained by the unheated controls. After treatment, proteolytic, aminopeptidase and dipeptidase activities of cell-free extracts decreased to a lesser extent than the number of viable cells with acidifying ability. The results suggest that these strains, if treated at 50°C, may be suitable as extra sources of important ripening enzymes in cheese making.     

Effect of Commercial-Scale High-Temperature, Short-Time Pasteurization on the Viability of Mycobacterium paratuberculosis in Naturally Infected Cows' Milk

Raw cows' milk naturally infected with Mycobacterium paratuberculosis was pasteurized with an APV HXP commercial-scale pasteurizer (capacity 2,000 liters/h) on 12 separate occasions. On each processing occasion, milk was subjected to four different pasteurization treatments, viz., 73°C for 15 s or 25 s with and without prior homogenization (2,500 lb/in² in two stages), in an APV Manton Gaulin KF6 homogenizer. Raw and pasteurized milk samples were tested for M. paratuberculosis by immunomagnetic separation (IMS)-PCR (to detect the presence of bacteria) and culture after decontamination with 0.75% (wt/vol) cetylpyridinium chloride for 5 h (to confirm bacterial viability). On 10 of the 12 processing occasions, M. paratuberculosis was detectable by IMS-PCR, culture, or both in either raw or pasteurized milk. Overall, viable M. paratuberculosis was cultured from 4 (6.7%) of 60 raw and 10 (6.9%) of 144 pasteurized milk samples. On one processing day, in particular, M. paratuberculosis appeared to have been present in greater abundance in the source raw milk (evidenced by more culture positives and stronger PCR signals), and on this occasion, surviving M. paratuberculosis bacteria were isolated from milk processed by all four heat treatments, i.e., 73°C for 15 and 25 s with and without prior homogenization. On one other occasion, surviving M. paratuberculosis bacteria were isolated from an unhomogenized milk sample that had been heat treated at 73°C for 25 s. Results suggested that homogenization increases the lethality of subsequent heat treatment to some extent with respect to M. paratuberculosis, but the extended 25-s holding time at 73°C was found to be no more effective at killing M. paratuberculosis than the standard 15-s holding time. This study provides clear evidence that M. paratuberculosis bacteria in naturally infected milk are capable of surviving commercial high-temperature, short-time pasteurization if they are present in raw milk in sufficient numbers.     

Fate of pathogenic and non-pathogenic Escherichia coli strains in two fermented milk products

F eresu , S. & N yati , H. 1990. Fate of pathogenic and non-pathogenic Escherichia coli strains in two fermented milk products. Journal of Applied Bacteriology 69 , 814–821.
The growth and survival of pathogenic and non-pathogenic strains of Escherichia coli was determined in traditionally fermented pasteurized and unpasteurized milk and in Lacto, an industrially fermented milk. Each milk treatment was incubated at 20C for 24 h and then stored at either 20C or 5C for 96 h.
Lacto inhibited all the three E. coli strains. Two strains could not be recovered and the third survived only in very low numbers after 24 h storage of Lacto at both 20C and 5C. All three E. coli strains survived and multiplied to maximum cell numbers in the range 10⁷-10⁹/ml during traditional fermentation of unpasteurized milk. Cell numbers decreased to 10³-10⁶ and 10²-10⁵ during storage of the fermented product at 20C and 5C respectively. Higher maximum numbers, 10⁹-10¹⁰, of the three strains of E. coli were attained during traditional fermentation of pasteurized milk. The numbers decreased to 10⁵-10⁸ and 10⁴-10⁷ during storage of the fermented product at 20C and 5C respectively. Generally, fewer E. coli survived when the fermented milk products were stored at refrigeration temperature.