Buket DEMİRHAN ER, Burak DEMİRHAN, Aysel ÖKTEM BAYHAN, Gülderen YENTÜR, Sezen BAŞ YARIMKAYA

Investigation of melamine presence in canned tuna fish by capillary zone electrophoresis method

Melamin gıda endüstrisinde yaygın olarak kullanılan bir kimyasal olup, böbrek hasarına neden olabilmektedir. Buçalışmada Ankarada satışa sunulan dört farklı markaya (A, B, C, D) ait 80 konserve ton balığı örneğinde melamin vepH değerlerinin saptanması amaçlanmıştır. Konserve ton balığı örneklerinde melaminin kantitatif olarak saptanmasıdiyod array dedektörlü kapiler zon elektroforez (CZE-DAD) ile yapılmıştır. Melaminin gözlenebilme ve tayin sınırları sırasıyla 0.21 mg kg -1 ve 0.68 mg kg-1 olarak bulunmuştur. Konserve ton balığı örneklerinde melamin saptanması içinönerilen yöntem, yağda muhafaza edilen ton balıkları için % 104.7 ve light ton balıkları için % 107.6 ortalama gerikazanımlarla başarılı bir şekilde uygulanmıştır. Çalışma süresince analiz edilen örneklerin tamamında melamin düzeyitayin sınırının (0.68 mg kg-1 ) altında bulunmuştur. A, B, C ve D markalarına ait örneklerin ortalama pH değerleri (±SH)sırasıyla 5.89 ± 0.02, 5.86 ± 0.01, 5.83 ± 0.02 ve 5.82 ± 0.02 olarak tespit edilmiştir. Sonuç olarak, çalışma süresincetemin edilen konserve ton balıklarındaki melamin varlığının tüketiciler açısından sağlık riski oluşturmadığı gözlenmiştir.

Konserve Ton balıklarında melamin varlığının kapiler zon elektroforez yöntemi ile araştırılması

Melamine is widely used as a chemical in food industry and may lead to kidney damage. The aim of this study wasto determine melamine and pH value of 80 canned tuna fsh samples of four different brands (A, B, C, D) sold inAnkara, Turkey. Quantitative determination of melamine in canned tuna fsh samples was carried out by capillary zoneelectrophoresis with diode array detector (CZE-DAD). The limits of detection and quantitation for melamine were foundto be 0.21 mg kg -1 and 0.68 mg kg-1, respectively. The proposed method was successfully applied for the analysis ofmelamine in canned tuna fsh samples by mean recovery with 104.7% in oily and 107.6% for light samples. Melaminelevels were found as

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Andersen W C, Turnipseed S B, Karbiwnyk C M, Clark S B, Madson M R, Gieseker C M, Miller R A, Rummel N G & Reimschuessel R (2008). Determination and confrmation of melamine residues in catfsh, trout, tilapia, salmon, and shrimp by liquid chromatography with tandem mass spectrometry. Journal of Agricultural and Food Chemistry 56 (12): 43404347
Bhalla V, Grimm P C, Chertow G M & Pao A C (2009). Melamine nephrotoxicity: an emerging epidemic in an era of globalization. Kidney International 75 : 774779
Cook H A, Klampf C W & Buchberger W (2005). Analysis of melamine resins by capillary zone electrophoresis with electrospray ionization-mass spectrometric detection. Electrophoresis 26 : 15761583
Daniel NW (1991). Bioistatistic: A foundation for analysis in the health sciences, 5 th ed, New York: Wiley Deabes M M & El-Habib R (2012). Determination of melamine in infant milk formula, milk powder and basaa fsh samples by HPLC/DAD. Journal of Environmental and Analytical Toxicology 2 (4): 1-4
EFSA (2010). Proposed draft maximum levels for melamine in food and feed. European union comments for the codex committee on contaminants in food (CCCF). Retrieved in August, 4, 2012 from http://ec.europa.eu/food/fs/ifsi/eupositions/cccf/docs/ cccf_4ddagenda_item5_en.pdf
EPA (2010). Fish consumption advisories, 2010. Retrieved in August, 4, 2012 from http://water.epa. gov/scitech/swguidance/fshshellfsh/fshadvisories/ general.cfm#tabs-2
FAO (2005). Fisheries and aquaculture topics. Fish contaminants. Topics Fact Sheets. Text by Lahsen Ababouch. In: FAO Fisheries and Aquaculture Department, Rome, 2005. Retrieved in August, 4, 2012 from http://www.fao.org/fshery/topic/14815/en
FAO (2010). Proposed draft maximum levels for melamine in food and feed (N13-2009). Retrieved in July, 5, 2012 from ftp://ftp.fao.org/codex/meetings/ cccf/ cccf4/cf04_05e.pdf
Fichorova R N, Richardson-Harman N, Alfano M, Belec L, Carbonneil C, Chen S, Cosentino L, Curtis K, Dezzutti C S, Donoval B, Doncel G F, Donaghay M, Grivel J C, Guzman E, Hayes M, Herold B, Hillier S, Lackman-Smith C, Landay A, Margolis L, Mayer K H, Pasicznyk J M, Pallansch-Cokonis M, Poli G, Reichelderfer P, Roberts P, Rodriguez I, Saidi H, Sassi R R, Shattock R & Cummins Jr. J E (2008). Biological and technical variables affecting immunoassay recovery of cytokines from human serum and simulated vaginal fuid: A multicenter study. Analytical Chemistry 80 (12): 47414751
Gong Y, Wu H & Fan Z (2013). Water-soluble Eu(III)- doped ZnS quantum dots for the room-temperature phosphorescence detection of melamine in milk products. Analytical Methods 5 : 6114-6119
Gossner C M, Schlundt J, Embarek PB, Hird S, Wong DL, Beltran JJO, Teoh KN & Tritscher A (2009). The melamine incident: implications for international food and feed safety. Environmental Health Perspectives 117 (12): 18031808
Guo Z, Gai P, Hao T, Wang S, Wei D & Gan N (2011). Determination of melamine in dairy products by an electrochemiluminescent method combined with solid-phase extraction. Talanta 83 (5): 17361741
Hau A K, Kwan T H & Li P K (2009). Melamine toxicity and the kidney. Journal of the American Society of Nephrology 20 : 245250
Hilts C & Pelletier L (2009). Background paper on occurrence of melamine in foods and feed. Prepared for the WHO Expert Meeting on Toxicological and Health Aspects of Melamine and Cyanuric Acid in collaboration with FAO and supported by Health Canada, 14 December 2008. Retrieved in August, 4, 2012 from http://www.who.int/ foodsafety/fs_ management/Melamine_3.pdf
Ingelfnger J R (2008). Melamine and the global implications of food contamination. The New England Journal of Medicine 359 : 27452748
Lu J, Xiao J, Yang D J, Wang Z T, Jiang D G, Fang C R & Yang J (2009). Study on migration of melamine from food packaging materials on markets. Biomedical and Environmental Sciences 22 (2): 104108
Lucas G N (2009). Melamine contamination of food products. Sri Lanka Journal of Child Health 38 : 23
Marco A, Navarro J L & Flores M (2006). The infuence of nitrite and nitrate on microbial, chemical and sensory parameters of slow dry fermented sausage. Meat Science 73 : 660673
OECD (1998). Screening information dataset for melamine. CAS No. #108-78-1. Paris, 1998. Retrieved in August, 4, 2012 from http://www.chem. Unep.ch/irptc/sids/ OECDSIDS/108781
TFC (2012). Türk Gıda Kodeksi bulaşanlar yönetmeliğinde değişiklik yapılmasına dair yönetmelik. Resmi Gazete, 19 Aralık 2012.Sayı 28502. Başbakanlık Basımevi, Ankara, Turkey
Tittlemier S A, Lau B P Y, Ménard C, Corrigan C, Sparling M, Gaertner D, Cao X L, Dabeka B & Hilts C (2010). Baseline levels of melamine in food items sold in Canada. II. Egg, soy, vegetable, fsh and shrimp products. Food Additives and Contaminants: Part B: Surveillance 3 (3): 140147
TSI (2010). Turkish Standart Institution. Canned fsh, TS 353, Ankara: TSI publications. Usydus Z, Szlinder-Richert J & Adamczyk M (2009). Protein quality and amino acid profles of fsh products available in Poland. Food Chemistry 112 (1): 139145
Wen Y, Liu H, Han P, Gao Y, Luan F & Li X (2010). Determination of melamine in milk powder, milk and fsh feed by capillary electrophoresis: a good alternative to HPLC. Journal of the Science of Food and Agriculture 90 : 21782182
Xu X, Ren Y, Zhu Y, Cai Z, Han J, Huang B & Zhu Y (2009). Direct determination of melamine in dairy products by gas chromatography/mass spectrometry with coupled column separation. Analytica Chimica Acta 650 (1): 3943
Yan N, Zhou L, Zhu Z & Chen X (2009). Determination of melamine in dairy products, fsh, feed, and fsh by capillary zone electrophoresis with diode array detection. Journal of Agricultural and Food Chemistry 57 : 807811
Zhang Y, Ma X & Fan Y (2014). A rapid and sensitive method for determination of melamine in fsh, shrimp, clam, and winkle by gas chromatographymass spectrometry with microwave-assisted derivatization. Food Analytical Methods 7 : 17631769