FECAL CONTAMINATION OF ICE CREAM MIX POWDER SOLD IN ASSIUT CITY

Document Type : Research article

Authors

1 Dept. of Food Hygiene, Fac. of Vet. Med. Assiut Univ.

2 Animal Health Institute, Assiut, Egypt

Abstract

One hundred and fifty random samples of ice cream mix powder with chocolate, mango, strawberry, vanilla, orange, banana and Nescafe flavors (200 grams weigh each) were collected from different groceries and supermarkets in Assiut City over a period of one year and examined for fecal contamination. Our current results showed that, Enterobacteriaceae were isolated from 38.7% of samples with a minimum of 102, a maximum of 8.7X102 and an average of 3.2X10/g. The highest frequency distribution 46 (79.32%) had numbers of less than
102 cfu/g and 12 (20.68%) had counts ranged from 102-<103 cfu/g. Enterococci could be isolated from 10.7% of the examined samples with a minimum, a maximum and an average count of <100, 6X103 and 4.08X103/g, respectively. The frequency distribution of positive samples was descending from 9 (56.25%), 4 (25.0%) and
3 (18.75%) containing Enterococci in counts ranged from 102-<103,  <102 and 103-<104/g, respectively. Otherwise, 5 (3.33%) samples were contaminated by both coliforms and fecal coliforms with frequency distribution of 3 (60%) that had counts of less than 10/g and 2 (40%) had counts ranged from 10-<102/g. E. coli could not be detected. Recommendations were suggested to control the presence of such microorganisms in ice cream mix powder samples to avoid their undesirable changes that resulted in economic losses as well as public health hazard.

Keywords


Dept. of Food Hygiene,

Fac. of Vet. Med. Assiut Univ.

 

Fecal contamination of ice cream mix powder sold in Assiut City

(With 4 Tables)

 

By

Enas El-Prince Mohamed;

Amal Ali Abdel-Haleem*; A.A. ABdEL-HAMEID

 and Manal Mohamed Amin Abdel-Rahim*

* Animal Health Institute, Assiut, Egypt

(Received at 16/12/2006)

 

التلوث القولونى البرازى لبودرة مخلوط الآيس کريم المباع فى مدينة أسيوط

 

إيناس البرنس محمد , آمال على عبد الحليم , أحمد عبد الحميد أحمد, منال محمد أمين عبد الرحيم

 

بالرغم من أن الآيس کريم يعتبر من منتجات الألبان الواسعة الانتشار، السهلة الهضم، ذات القيمة الغذائية العالية، والذى ينتشر تداوله بين فئات کثيرة وأعمار مختلفة من المستهلکين, إلا أنه قد يتعرض, تحت ظروف الإنتاج المختلفة وکذلک التصنيع والتوزيع، للتلوث الميکروبي بمختلف الأنواع الممرضة والتى تشکل خطورة لا يستهان بها على صحة المستهلک، ومنها الميکروبات القولونية البرازية, لذلک کانت هذه الدراسة على بودرة مخلوط الآيس کريم المباع فى مدينة أسيوط. وقد تم جمع عدد 150 عينة عشوائية منها مختلفة الطعم مثل الشيکولاتة والمانجو والفراولة والفانيليا والبرتقال والموز وکذلک النيسکافيه (کل عبوة 200 جم) وذلک من محلات مختلفة بمدينة أسيوط بتاريخ صلاحية عامان من تاريخ الإنتاج وقد تم فحص هذه العينات للوقوف على مدى تلوثها بالميکروبات القولونية البرازية. وقد أسفرت النتائج على أن الميکروبات المعوية قد تم عزلها بنسبة 38.7% من عينات بودرة الآيس کريم وکانت تحتوى على أعداد تراوحت بين 210و 8.7×210 بمتوسط عددى قدره 3.2×10 لکل جرام وکانت معظم العينات (79.32%) تحتوى على أعداد أقل من 210 وأخرى بنسبة 20.68% تحتوى على أعداد تقع ما بين 210 وأقل من 310 لکل جرام وبواسطة طريقة MPN وجد أن 3.33% من العينات کانت ملوثة بکل من بکتريا القولون وکذلک بکتريا القولون البرازية، وقد کانت معظم العينات (60%) تحتوى على عدد أقل من 10 والنسبة الباقية (40%) تحتوى على أعداد من کل من هذه البکتريا تراوحت بين 10 وأقل من 210 لکل جرام. بينما لم يستدل على تواجد ميکروب الايشيريشيا کولاى فى العينات التى تم فحصها. وتم عزل الميکروبات السبحية المعوية بنسبة 10.7%، وکانت تحتوى على أعداد تقع بين أقل من 100 و6×310 بمتوسط عددى 4.08×310 لکل جرام، وقد کانت
56.25، 25 و18.75% من العينات المفحوصة تحتوى على أعداد من البکتريا تترواح بين210 إلى أقل من 310 ، أقل من 210 و 310 إلى أقل من 410 لکل جرام على التوالى. وقد أثبتت هذه النتائج أن عينات مخلوط بودرة الآيس کريم المختبرة لم تتعدى حدود المواصفات القياسية سواء العالمية أو المصرية. هذا وقد تم مناقشة الشروط الصحية الواجب اتخاذها لإنتاج مخلوط بودرة آيس کريم ذو جودة عالية وخالى من الميکروبات الممرضة التى قد تشکل خطورة على صحة المستهلک.

 

SUMMARY

 

One hundred and fifty random samples of ice cream mix powder with chocolate, mango, strawberry, vanilla, orange, banana and Nescafe flavors (200 grams weigh each) were collected from different groceries and supermarkets in Assiut City over a period of one year and examined for fecal contamination. Our current results showed that, Enterobacteriaceae were isolated from 38.7% of samples with a minimum of 102, a maximum of 8.7X102 and an average of 3.2X10/g. The highest frequency distribution 46 (79.32%) had numbers of less than
102 cfu/g and 12 (20.68%) had counts ranged from 102-<103 cfu/g. Enterococci could be isolated from 10.7% of the examined samples with a minimum, a maximum and an average count of <100, 6X103 and 4.08X103/g, respectively. The frequency distribution of positive samples was descending from 9 (56.25%), 4 (25.0%) and
3 (18.75%) containing Enterococci in counts ranged from 102-<103,  <102 and 103-<104/g, respectively. Otherwise, 5 (3.33%) samples were contaminated by both coliforms and fecal coliforms with frequency distribution of 3 (60%) that had counts of less than 10/g and 2 (40%) had counts ranged from 10-<102/g. E. coli could not be detected. Recommendations were suggested to control the presence of such microorganisms in ice cream mix powder samples to avoid their undesirable changes that resulted in economic losses as well as public health hazard.

 

Key words: Enterobacteriaceac, coliforms, fecal coliforms,Enterococci, contamination, ice cream mix powder.

 

Introduction

 

Ice cream is the most palatable, nutritious, healthful and relatively inexpensive dairy food. It is highly appreciable by all ages because it is considered a safe, enjoyable, energy giving and refreshing food because levels of water soluble vitamins and minerals are two to three times higher than those of full cream milk. Also, it is a valuable source of vitamin B, and contains twice vitamin A content as that of milk (Varnam and Sutherland, 1994). Nowadays, ice cream mix powder produced and sold in increasing quantities for manufacturing of ice cream on a large scale, in markets, and it is also purchased for preparation of ice cream at home. Ice cream mix is often stored (aging) for few hours or even overnight; so there is opportunity for bacterial growth and multiplication, rendering the product to be of public health hazard. Because ice cream is consumed without any treatment that might reduce its microbial load, it is necessary to maintain a high level of microbial quality. For this purpose, many countries have adopted mandatory manufacturing practices and standards to ensure an adequate and wholesome supply of such product.

In spite of the high temperature attained in preparation of ice cream mix powder and its low moisture content, its packaging process, addition of additives and flavoring agents, methods of preservation and transportation it may, at times, be responsible for transmitting some pathogenic and food poisoning bacteria to consumers. Their presence in dried milk products provides a useful index in determining the hygienic quality of the products. The presence of coliform bacteria in milk powder has been reported by Leitao et al. (1973); Aleksieva (1974); Jhodekeer and Nambudripad (1975); Jarchovská and Hartmanova (1975); Arun et al. (1980); and Lück et al. (1980). Enterococci organisms have a distinctive role as an indicator of poor factory sanitation; so that, they were enumerated and isolated from milk powder by many workers (Stark, 1970; Leitao et al., 1973; Aleksieva, 1974 and Lück et al., 1980).

As the microbial quality of ice cream mix powder with various

flavoring agents, reflects the care with which milk was produced and the sanitary conditions prevailing during its manufactures, therefore, this work was planned to detect the fecal pollution by determination of Enterobacteriaceae, total coliforms, fecal coliforms, E.coli and Enterococci counts.

 

Materials and Methods

 

A-    Collection of the samples:

150 random samples of ice cream mix powder with chocolate, mango, strawberry, vanilla, orange, banana and Nescafe flavors (200 grams weigh each) in retail packages ready for sale were collected from different groceries and supermarkets in Assiut City over a period of one year. The expired date was after 2 years, from the production time. To avoid contamination, the samples were dispatched directly to the laboratory where they were examined microbiologically to evaluate their quality.

B-    Preparation and serial dilution of samples:

Packages of ice cream mix powder were cleaned and being aseptically opened. 11 grams of the ice cream mix powder samples were mixed with 99 ml of sterile 0.1% peptone water and thoroughly mixed to have a dilution of 1/10 from which ten fold serial dilutions were prepared as recommended by A.P.H.A. (1992).

C-    Experimental techniques:

Included:

1-      Enumeration and isolation of Enterobacteriaceae using Violet Red Bile Glucose Agar (VRBGA). (Mercuri and Cox, 1979).

2-      Total coliforms, fecal coliforms and E.coli counts using (MPN). (A.O.A.C., 1975).

3-      Enumeration and isolation of Enterococci using KF streptococcal agar. (Deibel and Hartman, 1976).

D-    Biochemical reactions for Enterobacteriaceae organisms:

Included:

1-      Indol production, Methyl red, Voges-Proskauer, Citrate utilization, H2S production tests: (Finegold and Martin, 1982)

2-      Urease test: (Edwards and Ewing, 1972)

3-      Glucose and sugar fermentation tests:(Speck, 1976)

 

Results

 

The obtained results are recorded in Tables 1-4.

 

Table 1: Statistical analytical results of Enterobacteriaceae and Enterococci in the examined ice cream mix powder samples.

 

Types of M.os

Positive samples

Count/g

No./150

%

Min.

Max.

Average

Enterobacteriaceae

58

38.7

*<100

8.7X102

3.2X10

Enterococci

16

10.7

*<100

6X103

4.08X103

 

*Colonies could not be detected on the plates.

 

 

Table 2: Frequency distribution of the positive ice cream mix powder samples based on their Enterobacteriaceae and Enterococci count/g.

 

Count/g

Distribution

Enterobacteriaceae

Enterococci

No.

%

No.

%

-<102

46

79.32

4

25.00

102-<103

12

20.68

9

56.25

103-<104

-

-

3

18.75

Total

58

100.00

16

100.00

 

Table 3: Incidence of coliforms and fecal coliforms in the examined ice cream mix powder samples.

 

Types of M.os

Positive samples

No. /150

%

coliforms

5

3.33%

fecalcoliforms

5

3.33%

 

Table 4: Frequency distribution of positive ice cream mix powder samples based on their coliforms and fecal coliforms count (MPN/g).

 

Count/g

Distribution

coliforms

fecal coliforms

No.

%

No.

%

3-<10

3

60.00

3

60.00

10-<102

2

40.00

2

40.00

Total

5

100.00

5

100.00

 

Discussion

 

The results recorded in Table 1 revealed that, 58 (38.7%) of the examined ice cream mix powder samples were contaminated by Enterobacteriaceae in counts ranged from <100 to 8.7X102 with an average count of 3.2X10 cfu/g.Table 2 showed that, most of positive samples 46 (79.32%) contained numbers less than 102 cfu/g, while, 12 (20.68%) had counts ranged from 102 to <103 cfu/g. These counts are in fair agreement with those recorded by Abdel-Haleem (1998) in ice cream mix powder. But in milk powder, Sprang (1969) recorded lower incidence. While, higher counts were conducted by Dardir (2005).

Contamination of large numbers of ice cream mix powder samples with Enterobacteriaceaecould be taken as an index of fecal contamination and also could be attributed to the unsanitary practices, poor hygienic quality of ingredients used and/or may be due to the contamination during packaging.

Regarding the Enterococci counts, it is evident that 16 (10.7%) samples contaminated with Enterococci. The level of contamination varied from <100 to 6X103 with an average of 4.08X103 /g. The frequency distribution arranged descending from 9 (56.25%), 4 (25.0%) and 3 (18.75%) samples ranged from 102-<103, <102 and 103-<104/g, respectively (Table 1 and 2). Higher counts and incidences were estimated by El-Bassiony and Aboul-Khier (1983) and Abdel-Haleem (1998) in ice cream mix powder samples. While, Aleksieva (1974) recorded higher counts in milk powder samples.

The occurrence of Enterococci in ice cream mix powder samples seems to be illogic, because no acceptable level of these microorganisms could be present, and may be attributed to post manufacture contamination, the heat resistant character of the organisms, and contamination during packaging and/or improper methods of distribution. The public health significance can not be denied, especially, when the organisms found in tremendous number in the product as they have been implicated in several food poisoning outbreaks (International Committee on Microbiological Specification for Foods (ICMSF), 1978).

It is clearly evident from the results illustrated in Table 3,that both coliforms and fecal coliforms could be isolated from 5 out of 150 samples (3.33%). Most of positive samples 3 (60%) contained coliforms and fecal coliforms less than 10 cfu/g. While, 2 (40%) had counts varied from 10-<102 cfu/g (Table 4). Higher incidence of total coliformswas established by El-Bassiony and Aboul-Khier (1983). World Health Organization Standards (1981) reported that coliforms should fail to be detected in the examined ice cream mix powder samples. By comparing these counts with Egyptian Standard (1988), Varnam and Sutherland (1994) and U.S. Dairy Export Council (1996-2002)standards, coliforms counts did not exceed these standards.

In case of fecal coliforms, nearly similar results were recorded by Aleksieva (1974) in infant dried milk samples. In the contrary, El-Prince and Korashy (2003) could not isolate these organisms from the examined milk powder samples.

Fortunately, E. coli could not be detected in all of examined ice cream mix powder samples. Coliforms contamination could be attributed to poor quality ingredients, careless hygiene during packaging. Moreover, coliforms and fecal coliforms still continue to be considered as indicator organisms of choice in examining milk and milk products (Marier et al., 1973).

As good sanitation and strict hygienic measures during processing, packaging, preservation and transportation of these desserts is fundamental, therefore, suggestive measures for control of microorganisms are to be considered to ensure safety and high quality ice cream mix.

 

References

 

A.O.A.C. (1975): Association of Official Analytical Chemists Official Methods for Analysis, 21st Ed., Washington, D.C.

A.P.H.A. (1992): Standard Methods for the Examination of Dairy Products. 16th Ed., American Public Health Association, New York.

Abdel-Haleem, Amal, A. (1998): Bacterial contamination of ice cream mix powder in Assiut City. Alex. J. Vet. Sci., 14: 53-61.

Aleksieva, V. (1974): Enterococci in dried milk. Veterinarmeditsiaski Nauki, 11, 72. Dairy Sci. Abst., 37: 36 (1975).

Arun, A.P.S.; Prasad, C.R.; Basant, K.S. and Prasad, B.N. (1980): Occurrence of coliform bacteria in skim milk powder. Indian J. Dairy Sci., 33(1): 119-122.

Dardir, H.A. (2005): Health threatening of Enterobacter sakazakii associated with infant food. J. Egypt. Vet. Med. Assoc., 65(2): 7-13.

Deibel, R.H. and Hartman, P.A. (1976): The Enterococci. In: Compendium of Methods for the Microbiological Examination of Foods. M. L. Speck 2nd Ed., American Public Health Association, Inc.

Edwards, P.R. and Ewing, W.H. (1972): Identification of Enterobacteriaceae. 3rd Ed., Burgess Pub. Co., Minneapolis, Minnesota.

Egyptian Standard (1988): Dried Milk. Egyptian Organization for Standardization and Quality Control (1648-988).

El-Bassiony, T.A. and Aboul-Khier, F.A. (1983): Bacteriological evaluation of dried milk products produced in Sakha processing dairy plant. Assiut Vet. Med. J., 11(21): 159-163.

El-Prince, Enas, M. and Korashy, Eman, A. (2003): Microbiological quality of dried milk based infant foods in Assiut city. Assiut Vet. Med. J., 49(97): 190-203.

Finegold, S.M., and Martin, W.J. (1982): Bailley and Scott Diagnostic Microbiology. 6th Ed., C.V. Mosby Co., St. Louis, Toronto, London.

International Committee on Microbiological Specification for Foods (ICMSF) (1978): Microorganisms in Food. Their significance and methods of enumeration. 2nd Ed., Univ. of Toronto Press, Toronto, Buffalo London.

Jarchovská and Hartmanová (1975):Incidences of Gram-negative organisms in dried milk product. Veterinatstvi, 25: 399. Dairy Sci. Abst., 38: 693 (1976).

Jhodekeer, D.R. and Nambudripad, V.K.N. (1975): Indian J. Dairy Sci., 28: 215 (Cited after Arun et al., 1980).

Leitao, M.F.D.; Delazari, I. and Mazzoni, H. (1973): Microbiology of dehydrated foods. Coletanea do Instotute Technologia do Alimentes, 5: 223. Dairy Sci. Abst. 37: 590 (1975).

Lück, H.; Gordaan, I. and Dunkeld, M. (1980): Incidence of pathogenic and other undesirable bacteria in milk powder. South African J. Dairy Technol., 12(2): 51-56.

Marier, R.; Wells, J.G; Swanson, R.C.; Callahan, W. and Mehlman, L.J. (1973):An outbreak of enteropathogenic E.coli food borne disease traced to imported French cheeses. Lancet, 2:1376.

Mercuri, A.J. and Cox, N.A. (1979): Coliforms and Enterobacteriaceae isolates from selected foods. J. Food Prot., 42(9): 712.

Speck, M.L. (1976): Compendium of Methods for the Microbiological Examination of Foods. 2nd Ed., Printing. American Public Health Association, Inc.

Sprang, F.J. Van (1969): Bacteriological requirements for dried infant and weaning foods. (In” the microbiology of dried food. Proceedings of the sixth International Symposium on Food Microbiology”) pp.: 496-510. Dairy Sci. Abst., 32: 2563 (1970).

Stark, E. (1970): Fecal Streptococci on barley, malt kernels and instant milk powder. J. Appl. Microbiol., 20: 2000.

U.S. Dairy Export Council (1996-2002): U.S. Standards for milk powders. American Dairy Products Institute, Bulletin 916.

Varnam, A.H. and Sutherland, J.P. (1994): Milk and Milk Products, Technology, Chemistry and Microbiology. 1st Ed., Chapman and Hall Pub., London.

World Health Organization Standards (1981):Nutrition and Food Safety Spain. Int. Digest of Health Legislation, 32(4): 781-783. Dairy Sci. Abst., 45: 186 (1983).

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

A.O.A.C. (1975): Association of Official Analytical Chemists Official Methods for Analysis, 21st Ed., Washington, D.C.
A.P.H.A. (1992): Standard Methods for the Examination of Dairy Products. 16th Ed., American Public Health Association, New York.
Abdel-Haleem, Amal, A. (1998): Bacterial contamination of ice cream mix powder in Assiut City. Alex. J. Vet. Sci., 14: 53-61.
Aleksieva, V. (1974): Enterococci in dried milk. Veterinarmeditsiaski Nauki, 11, 72. Dairy Sci. Abst., 37: 36 (1975).
Arun, A.P.S.; Prasad, C.R.; Basant, K.S. and Prasad, B.N. (1980): Occurrence of coliform bacteria in skim milk powder. Indian J. Dairy Sci., 33(1): 119-122.
Dardir, H.A. (2005): Health threatening of Enterobacter sakazakii associated with infant food. J. Egypt. Vet. Med. Assoc., 65(2): 7-13.
Deibel, R.H. and Hartman, P.A. (1976): The Enterococci. In: Compendium of Methods for the Microbiological Examination of Foods. M. L. Speck 2nd Ed., American Public Health Association, Inc.
Edwards, P.R. and Ewing, W.H. (1972): Identification of Enterobacteriaceae. 3rd Ed., Burgess Pub. Co., Minneapolis, Minnesota.
Egyptian Standard (1988): Dried Milk. Egyptian Organization for Standardization and Quality Control (1648-988).
El-Bassiony, T.A. and Aboul-Khier, F.A. (1983): Bacteriological evaluation of dried milk products produced in Sakha processing dairy plant. Assiut Vet. Med. J., 11(21): 159-163.
El-Prince, Enas, M. and Korashy, Eman, A. (2003): Microbiological quality of dried milk based infant foods in Assiut city. Assiut Vet. Med. J., 49(97): 190-203.
Finegold, S.M., and Martin, W.J. (1982): Bailley and Scott Diagnostic Microbiology. 6th Ed., C.V. Mosby Co., St. Louis, Toronto, London.
International Committee on Microbiological Specification for Foods (ICMSF) (1978): Microorganisms in Food. Their significance and methods of enumeration. 2nd Ed., Univ. of Toronto Press, Toronto, Buffalo London.
Jarchovská and Hartmanová (1975):Incidences of Gram-negative organisms in dried milk product. Veterinatstvi, 25: 399. Dairy Sci. Abst., 38: 693 (1976).
Jhodekeer, D.R. and Nambudripad, V.K.N. (1975): Indian J. Dairy Sci., 28: 215 (Cited after Arun et al., 1980).
Leitao, M.F.D.; Delazari, I. and Mazzoni, H. (1973): Microbiology of dehydrated foods. Coletanea do Instotute Technologia do Alimentes, 5: 223. Dairy Sci. Abst. 37: 590 (1975).
Lück, H.; Gordaan, I. and Dunkeld, M. (1980): Incidence of pathogenic and other undesirable bacteria in milk powder. South African J. Dairy Technol., 12(2): 51-56.
Marier, R.; Wells, J.G; Swanson, R.C.; Callahan, W. and Mehlman, L.J. (1973):An outbreak of enteropathogenic E.coli food borne disease traced to imported French cheeses. Lancet, 2:1376.
Mercuri, A.J. and Cox, N.A. (1979): Coliforms and Enterobacteriaceae isolates from selected foods. J. Food Prot., 42(9): 712.
Speck, M.L. (1976): Compendium of Methods for the Microbiological Examination of Foods. 2nd Ed., Printing. American Public Health Association, Inc.
Sprang, F.J. Van (1969): Bacteriological requirements for dried infant and weaning foods. (In” the microbiology of dried food. Proceedings of the sixth International Symposium on Food Microbiology”) pp.: 496-510. Dairy Sci. Abst., 32: 2563 (1970).
Stark, E. (1970): Fecal Streptococci on barley, malt kernels and instant milk powder. J. Appl. Microbiol., 20: 2000.
U.S. Dairy Export Council (1996-2002): U.S. Standards for milk powders. American Dairy Products Institute, Bulletin 916.
Varnam, A.H. and Sutherland, J.P. (1994): Milk and Milk Products, Technology, Chemistry and Microbiology. 1st Ed., Chapman and Hall Pub., London.
World Health Organization Standards (1981):Nutrition and Food Safety Spain. Int. Digest of Health Legislation, 32(4): 781-783. Dairy Sci. Abst., 45: 186 (1983).