1.
Mwamakamba, L, Mensah, P, Takyiwa, K, Darkwah-Odame, J, Jallow, A, Maiga, F. Developing and maintaining national food safety control systems: experiences from the WHO African region. Afr J Food Agric Nutr Dev. 2012;12:6291-6304.
Google Scholar2.
Yousuf, AHM, Ahmed, MK, Yeasmin, S, Ahsan, N, Rahman, MM, Islam, MM. Prevalence of microbial load in shrimp, Penaeus monodon and prawn, Macrobrachium rosenbergii from Bangladesh. World J Agric Sci. 2008;4:852-855.
Google Scholar3.
Gill, CO . Microbiological contamination of meat duringslaughter and butchering of cattle, sheep and pigs. In: Davies, AR, Board, RG, eds. The Microbiology of Meatand Poultry. Blackie Academic, 1998;118–157.
Google Scholar4.
Borch, E, Arinder, P. Bacteriological safety issues in red meat and ready-to-eat meat products, as well as control measures. Meat Sci. 2002;62:381-390.
Google Scholar |
Crossref |
Medline5.
Jones, RJ, Hussein, HM, Zagorec, M, Brightwell, G, Tagg, JR. Isolation of lactic acid bacteria with inhibitory activity against pathogens and spoilage organisms associated with fresh meat. Food Microbiol. 2008;25:228-234.
Google Scholar |
Crossref |
Medline |
ISI6.
Molla, B, Alemayehu, D, Salah, W. Sources and distribution of Salmonella serotypes isolated from food animals, slaughterhouse personnel and retail meat products in Ethiopia: 1997-2002. Ethiop J Health Dev. 2003;17(1):63-70.
Google Scholar7.
Gordon-Davis, L . The Hospitality Industry Handbook on Hygiene and Safety for South African Students and Practitioners. Juta and Company Ltd; 2010.
Google Scholar8.
Forsythe, SJ . The Microbiology of Safe Food. John Wiley & Sons; 2020.
Google Scholar9.
Lawrie, R . Lawries Meat Science. 6th English ed. Woodhead Publishing Ltd; 1998.
Google Scholar10.
Van Zyl, A . Red Meat Manual for Veterinary Public Health. Government Printer; 1998.
Google Scholar11.
Jay, JM, Loessner, MJ, Golden, DA. Indicators of Food Microbial Quality and Safety. In Modern Food Microbiology; 7th edition (Food Science Texts Series) Springer, 2005; pp. 473–495.
Google Scholar12.
Martı́nez-Tomé, M, Vera, AM, Murcia, MA. Improving the control of food production in catering establishments with particular reference to the safety of salads. Food Control. 2000;11:437-445.
Google Scholar |
Crossref13.
Johns, N . Managing Food Hygiene. Macmillan International Higher Education; 1995.
Google Scholar |
Crossref14.
Azage Tegegne, Million Tadesse, Mengistu Alemayehu and Dereje Woltedji . Scoping Study on Urban and Peri-Urban Livestock Production in Addis Ababa, Ethiopia. Accessed July 30, 2021.
https://assets.publishing.service.gov.uk/media/57a08d26e5274a31e0001696/ZC0201c Google Scholar15.
Feng, P, Weagant, SD, Grant, M, Burkhardt, W. Bacteriological Analytical Manual. Food & Drug Administration (FDA); 2002:21-34.
Google Scholar16.
Wehr, HM, Frank, JF. Standard Methods for the Examination of Dairy Products. American Public Health Association (APHA); 2004.
Google Scholar |
Crossref17.
Desmarchelier, PM, Higgs, GM, Mills, L, Sullivan, AM, Vanderlinde, PB. Incidence of coagulase positive Staphylococcus on beef carcasses in three Australian abattoirs. Int J Food Microbiol. 1999;47:221-229.
Google Scholar |
Crossref |
Medline18.
Haileselassie, M, Taddele, H, Adhana, K, Kalayou, S. Food safety knowledge and practices of abattoir and butchery shops and the microbial profile of meat in Mekelle City, Ethiopia. Asian Pac J Trop Biomed. 2013;3:407-412.
Google Scholar |
Crossref |
Medline19.
Nel, S, Lues, J, Buys, E, Venter, P. The personal and general hygiene practices in the deboning room of a high throughput red meat abattoir. Food Control. 2004;15:571-578.
Google Scholar |
Crossref20.
Adams, MR, Moss, MO. Food Microbiology. Royal Society of Chemistry; 2008.
Google Scholar21.
Trickett, J . Food Hygiene for Food Handlers. Macmillan International Higher Education; 2017.
Google Scholar22.
Ziady, LE, Small, N, Louis, AMJ. Rapid Reference: Infection Control. Kagiso Tertiary; 1997.
Google Scholar23.
Tegegne, M, Ashenafi, M. Microbial load and incidence of Salmonella spp. in ‘kitfo’, a traditional Ethiopian spiced, minced meat dish. Ethiop J Health Dev. 1998;12(2):135-140.
Google Scholar24.
Mukhopadhyay, H, Pillai, R, Pal, U, Kumar, VA. Microbial quality of fresh chevon and beef in retail outlets of Pondicherry. Tamilnadu J Vet Anim Sci. 2009;5:33-36.
Google Scholar25.
Arain, MA, Rajput, I, Khaskheli, M, Faraz, S, Devrajani, K, Fazlani, S. Evaluation of microbial quality of goat meat at local market of Tando Jam. Pak J Nutr. 2010;9:287-290.
Google Scholar |
Crossref26.
Obeng, A, Johnson, F, Appenteng, S. Microbial quality of fresh meat from retail outlets in Tolon and Kumbungu districts of the northern region of Ghana. Int J Sci Technol. 2013;2:423-428.
Google Scholar27.
Haque, M, Siddique, M, Habib, M, Sarkar, V, Choudhury, K. Evaluation of sanitary quality of goat meat obtained from slaughter yards and meat stalls at late market hours. Bangladesh J Vet Med. 2008;6:87-92.
Google Scholar |
Crossref28.
Delmore, R, Sofos, J, Schmidt, G, Belk, K, Lloyd, W, Smith, G. Interventions to reduce microbiological contamination of beef variety meats. J Food Prot. 2000;63:44-50.
Google Scholar |
Crossref |
Medline29.
Bell, R . Distribution and sources of microbial contamination on beef carcasses. J Appl Microbiol. 1997;82:292-300.
Google Scholar |
Crossref |
Medline |
ISI30.
Wudie, A, Zewude, G, Ali, T, Jibat, T. Study on effect of acetic acid spray on Escherichia coli load and meat Ph at an export abattoir, Modjo, Ethiopia. Int J Appl Res Vet Med. 2013;11:130-136.
Google Scholar31.
Beyaz, D, Tayar, M. The effect of lactic acid spray application on the microbiological quality of sheep carcasses. Int J Anim Vet Adv. 2010;9:1858-1863.
Google Scholar |
Crossref
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