References
- Griffith J, Blucher A, Fleri J, Fielding L. 1994. An evaluation of luminometry and comparison of six commercially available luminometers. Food Sci Technol Today 8: 209-216.
- Griffith J, Davidson CA, Peters AC, Fielding LM. 1997. Towards a strategic cleaning assessment programme: hygiene monitering and ATP luminometry, an optional appraisal. Food Sci Technol Today 11: 15-23.
- Griffiths MW. 1993. Applications of bioluminoscence in the dairy industry. J Dairy Sci 76: 3118-3125. https://doi.org/10.3168/jds.S0022-0302(93)77651-1
- Kang SI. 2007. Hygiene/cleanliness inspection and sterilization inspection system used ATP. Safe Food 2: 63-64.
- Hawronskyj JM, Holah J. 1997. ATP: A universal hygiene monitor. Trends Food Sci Technol 8: 79-84. https://doi.org/10.1016/S0924-2244(97)01009-1
- Korea Food and DA. 2009. 2009 Public announcement. Project plan of diagnosis service for Foodborne disease prevention (2009.4.07). Avaliable from: http://kfda.go.kr/index.kfda?mid=51&seq=557&cmd=v Accessed December 16, 2009
- KFDA Department of Foodborne Disease Prevention & Management. 2010. Manual of HACCP assessment (for the staff) . p 65.
- Park YS. 2000. Evaluation of hygienic status of university foodservice operation using ATP bioluminescence assay. Korean J Soc Food Sci 16: 195-201.
- Oh SW, Jo JH, Lee NH. 1999. Application of ATP bioluminescence assay for a rapid estimation of microbial levels in mackerel (Scomber japonicus). Korean J Food Sci Technol 31: 1345-1348.
- Kang HM, Eom YS, An HS, Choi KH, Chung CI. 2000. Application of ATP bioluminescence method for measurement of microbial contamination in raw meat, meat and dairy processing line. J Fd Hyg Safety 15: 252-255.
- Marena C, Lodola L, Zecca M, Bulgheroni A, Carretto E, Maserati R, Zambianchi L. 2002. Assessment of handwashing practices with chemical and microbiologic methods: Preliminary results from a prospective crossover study. Am J Infect Control 30: 334-340. https://doi.org/10.1067/mic.2002.125809
- Aycicek H, Oguz U, Karci K. 2006. Comparison of results of ATP bioluminesence and traditional hygiene swabbing methods for the determination of surface cleanliness at a hospital kitchen. Int J Hyg Eviron Health 209: 203-206. https://doi.org/10.1016/j.ijheh.2005.09.007
- Kim BY, Song HY, Park IS, Kim YS, Lee YS, Ha SD. 2009. A correlation study of surveillance data and ATP bioluminescence assay for verification of hygienic status in major hotel in Seoul. J Fd Hyg Safety 24: 277-284.
- Harrigan WF, McCance ME. 1976. The examination of food processing plant. In Laboratory methods in food and dairy microbiology. Academic Press, London, England. p 23-236.
- Lappalainen J, Loikkanen S, Havana M, Karp M, Sioberg A, Wirtanen G. 2000. Microbial testing methods for detection of residual cleaning agents and disinfectants-Provention of ATP bioluminescence measurement errors in the food industry. J Food Prot 63: 210-215. https://doi.org/10.4315/0362-028X-63.2.210
- Jeong BH. 2008. Reduction effect of bacterial populations by education of employee's in restaurant for hygiene and washing method. MS Thesis. Gyeongsang National University, Gyeongnam, Korea. p 16-17.
- Yeon HH, Kim IJ, Park KH, Park BK, Park HK, Park DW, Kim YS. 2006. Treatment and effect of sanitizers and disinfectants in animal food manufacturing plant. Korean J Food Sci Technol 38: 599-603.
- Kim YS, Jeon YS, Han JS. 2002. Inhibition effect of sanitizers against E. coli and a hygienic condition on the surface of utensils and equipments used to food service. J Korean Soc Food Sci Nutr 31: 965-970. https://doi.org/10.3746/jkfn.2002.31.6.965
- Park HC. 2005. Modern Statistics used SPSS 12.0K. Changwon National University Press, Changwon, Korea. p 216-226.
- Chen FC, Godwin SL. 2006. Comparison of a rapid ATP bioluminescence assay and standard plate count methods for assessing microbial contamination of consumers' refrigerators. J Food Prot 69: 2534-2538. https://doi.org/10.4315/0362-028X-69.10.2534
- Leon MB, Albrecht JA. 2007. Comparison of adenosine triphosphate (ATP) bioluminescence and aerobic plate counts (APC) on plastic boards. J Foodservice 18: 145-152. https://doi.org/10.1111/j.1745-4506.2007.00060.x
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