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http://dx.doi.org/10.11002/kjfp.2017.24.8.1094

Influence of usage environment from camping cooking utensils on migration of hazardous metals  

Lee, Jin-hee (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Kim, Ji-Yeon (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Park, Ye-Seul (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Park, Sang-Gyu (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Lee, Jae-Ho (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Yoon, Jong-Ho (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Kim, Gyung-Tae (Department of Pharmaceutical Chemicals, Daegu Metropolitan City Institute of Health and Environment)
Han, Gi-Dong (Department of Food Science and Technology College of Life Applied Science, Yeungnam University)
Publication Information
Food Science and Preservation / v.24, no.8, 2017 , pp. 1094-1102 More about this Journal
Abstract
Hazardous metals leaching experiment was carried out in accordance with various usage environments for camping cooking utensils distributed in the market. There was a significant difference in the degree of migration for lead, arsenic, cadmium and nickel defending on the solvent and how to use, although they were all appropriate for criteria. In general, the migrated amount of aluminum was increased in acidic condition, and the migrated amount of arsenic was increased in salty condition. Physical scratches increased the overall release of hazardous metals from the portable pots and pans for camping in all solvents. Especially, in 0.5% citric acid solution, cadmium was migrated by physical scratch in stainless steel and hard aluminum pots and pans. The longer the leaching time, the higher the migration of aluminum in acid condition and arsenic in basic condition. From these results, it is desirable to use the cooking utensil for camping without being exposed to strong acidic or basic solution and scratches in order to reduce the migration of hazardous metals from them.
Keywords
hazardous metal; cooking utensil; ICP-OES;
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1 World Health Organization. http://www.who.int /mediacentre/factsheets/en/ (accessed July 2017)
2 Croghan CW, Park NC, Egeghy PP (2003) Methods of dealing with values below the limit of detection using SAS. EPA Science Inventory
3 Kwon JW (2009) Definition and application of detection and quantification limits. Korean J Environ Agric, April 85-102
4 Choi JC, Park SJ, Goh HA, Lee JY, Eom MO, Kim MH (2014) A study on migration of heavy metals from kitchen utensils including glassware, ceramics, enamel, earthen and plastics. J Food Hyg Saf, 29, 334-339   DOI
5 Lee KH, Kwon KS, Jeon DH, Choi BH, Lee SH, Lee CW (1999) Migration mechanism of hazard elements from brass kitchenwares. J Korea Soc Packag Sci Technol, 5, 24-30
6 Lim JG (2005) The monitoring of harmful elements on food packaging (I)-Metallic kitchenware, Biodegradability disposable package. Report of Korea Environment & Merchandise Testing Institute, 1470002069, 15-76
7 Kim MS, Cho TH, Kim CK, Kim HS, Shin GY, Kim JH, Jung K (2014) Measurement of hazardous metals migrated from cooking utensils for camping. Report of Seoul Institute Health Environment, 29-36
8 Kamerud KL, Hobbie KA, Anderson KA (2013) Stainless steel leaches nickel and chromium into food during cooking. J Agric Foods Chem, 61, 9495-9501   DOI
9 Lee SH, Jung KJ, Lee YK, Sung JH, Eom MO, Lee YJ, Lim JG (2007) Monitoring of lead and antimony in metallic kitchenware. J Food Hyg Saf, 22, 52-56
10 Wernick S, Pinner R, Sheasby PG (1987) The Surface Treatment and Finishing of Aluminium and its Alloys. Vol. I, 5th Ed, Finishing Publications Ltd, UK, p 1-50
11 Maynard RL (2001) The Merck Index, Merck & CO INC, White House Station, NJ, USA, p 60, 136, 272, 967, 1165
12 Scncar J, Stibilj V, Milacic R (2004) Determination of aluminium in Slovenian foodstuffs and its leachability from aluminium-cookware. Food Chem, 85, 151-157   DOI
13 Gunnar FN, Bruce AF, Monica N, Lars TF (2007) Aluminium Handbook on the Toxicology of Metals. 3rd Ed, Academic Press, Burlington, VT, USA, p 339-352
14 Gramiccioni L, Ingrao G, Milana MR, Santaroni P, Tomassi G (1996) Aluminium levels in Italian diets and in selected foods from aluminium utensils. Food Addit Contam, 13, 767-774   DOI