Process Development Of Safe And Ready-To-Eat Raw Oyster Meat By Irradiation Technology

White scar oyster (Crassostrea belcheri) is often eaten raw and being the leading vehicle for foodborne disease, especially Salmonella Weltevreden which exposed the prominent and most resistant to radiation. Gamma irradiation at a low dose of 1 kGy was enough to eliminate S. Weltevreden contaminated...

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Bibliographic Details
Main Authors: Pattama Ratana-Arporn, Pongtep Wilaipun
Format: Text
Language:English
Published: Zenodo 2012
Subjects:
decontamination
food safety
irradiation
oyster
Salmonella Weltevreden
Arlington
Hake
Kahn
Romero
Torre
Crassostrea gigas
ren
Online Access:https://dx.doi.org/10.5281/zenodo.1060459
https://zenodo.org/record/1060459
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Summary:White scar oyster (Crassostrea belcheri) is often eaten raw and being the leading vehicle for foodborne disease, especially Salmonella Weltevreden which exposed the prominent and most resistant to radiation. Gamma irradiation at a low dose of 1 kGy was enough to eliminate S. Weltevreden contaminated in oyster meat at a level up to 5 log CFU/g while it still retain the raw characteristics and equivalent sensory quality as the non-irradiated one. Process development of ready-to-eat chilled oyster meat was conducted by shucking the meat, individually packed in plastic bags, subjected to 1 kGy gamma radiation at chilled condition and then stored in 4oC refrigerated temperature. Microbiological determination showed the absence of S. Weltevreden (5 log CFU/g initial inoculated) along the whole storage time of 30 days. Sensory evaluation indicated the decreasing in sensory scores along storage time which determining the product shelf life to be 18 days compared to 15 days of nonirradiated one. The most advantage of developed process was to provide the safe raw oyster to consumers and in addition sensory quality retained and 3-day extension shelf life also exist. : {"references": ["Ahn, D. U., C. Jo and D. G. Olson. (2000). Analysis of volatile\ncomponents and the sensory characteristics of irradiated raw pork. Meat\nScience. 54:209-215.", "AOAC. 2000. Official Methods of Analysis. 27th ed., The Association\nof Official Analytical Chemists, Arlington, Virginia.", "Cruz-Romero, M., Kelly, A.L., Kerry, J.P. 2007. Effects of highpressure\nand heat treatments on physical and biochemical characteristics\nof oysters (Crassostrea gigas). Innovative Food Science and Emerging\nTechnologies 8: 30-38.", "Dalgaard, P. and V. Jorgensen. 2000. Cook and brined shrimp\npacked in a modified atmosphere have a shelf-life of >7 months at\n0 \u00b0C, but spoil in 4-6 days at 25 \u00b0C. Int. J. Food Sci. Technol.\n35(4): 431-422.", "Farkas, J. 2006. Irradiation for better foods. Trends in Food Science &\nTechnology 17,148-152.", "Hesselman, D.M., M.L. Motes and J.P. Lewis. 1999. Effects of\ncommercial heat shock process on Vibrio vulnificus in the\nAmerican oyster, Crassostrea virginica, harvested from the Golf coast.\nJournal Food Protection. 62:1266-1269.", "Jakabi, M., Gelli, D.S., Torre, J.C.M.D., Rodas, M.A.B., Franco,\nB.D.G.M., Destro, M.T., Landgraf, M. 2003. Inactivation by ionizing\nradiation of Salmonella Enteritidis, Salmonella Infantis, and Vibrio\nparahaemolyticus in oysters (Crassostrea brasiliana). J. Food Prot.\n66(6) : 1025-1029.", "Kilgen, M.B. 2001. Irradiation Processing of Fish and Shellfish\nProducts. pp. 193-240. In Molins, R.A. ed. Food Irradiation :\nPrinciple and Applications. John Wiley& Sons, Inc., Publication, NY.", "Lee, C.M. and W. Bigelow. 2007. Evaluation of various infused\ncryoprotective ingredients for their freeze-thaw stabilizing and texture\nimproving properties in frozen Red hake muscle. J. Food Sci. 72(1):\n56-64.\n[10] Lee, J-K., Jung, D-W, Eom, S-Y, Oh, S-W., Kim, Y., Kwak, H-S, Kim.\n2008. Occurrence of Vibrio parahaemolyticus in oysters from Korean\nretail outlets. Food Control 19: 990-994.\n[11] Loaharanu, P. 1996. Irradiation as a cold pasteurization process of food.\nVeterinary Parasitology 64, 71-82.\n[12] Mattison, M. I., A. A. Kraft, D. G. Olson, H. W. Walker, R. E. Rust\nand D. G. James. 1986. Effect of low dose irradiation of pork loins\non microflora, sensory characteristics and fat stability. Journal of\nFood Science. 51:284-287.\n[13] Melody, K., R. Senevirathne, M. Janes, L. Ann Jaykus and J. Supan.\n2008. Effectiveness of icing as a postharvest treatment for control of\nVibrio vulnificus and Vibrio parahaemolyticus in the Eastern Oyster\n(Crassostrea virginica). Journal of Food Protection. 71:1475-1480\n[14] Ren, T. and Y.C. Su. 2006. Effects of electrolyzed oxidizing water\ntreatment on reducing Vibrio parahaemolyticus and Vibrio vulnificus\nin raw oysters. Journal of Food Protection. 69:1829-1834.\n[15] Thupila, N. Ratana-arporn, P., and Wilaipun, P. 2011. Radiation\nresistances and decontamination of common pathogenic bacteria\ncontaminated in white scar oyster (Crassostrea belcheri) in Thailand.\nRadiation Physics and Chemistry. 80(7):828-832.\n[16] Torres, Z and F. Arias. 2001. Radiation decontamination of Peruvian\nmarine lead snail (Thais chocolata) inoculated with Vibrio cholerae\nO1 El Tor, p. 31-36. In Irradiation to control Vibrio infection\nfrom consumption of raw seafood and fresh produce. IAEATECDOC\n1213. International Atomic Energy Agency, Vienna.\n[17] Torres, Z., G. Kahn, M. Vivanco, G. Guzman and B. Bernuy. 2001.\nShelf-life extension and decontamination of fish fillets (Trachurus\npicturatus murphyi and Mugil cephalus) and shrimp tails (Penaeus\nvannamei) inoculated with toxigenic Vibrio cholerae O1 El Tor\nusing gamma radiation, p. 47-56. In Irradiation to control Vibrio\ninfection from consumption of raw seafood and fresh produce.\nIAEA-TECDOC 1213. International Atomic Energy Agency,\nVienna."]}

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