References
- 1. Achremowicz K., Szary-Sworst K.: Polyunsaturated fatty acids as human health improvers. Żywn Nauk Technol J 2005, 3, 23–35.
- 2. Alfaia C.M.M., Alves S.P., Lopes A.F., Fernandes M.J.E., Costa A.S.H., Fontes C.M.G.A., Castro M.L.F., Bessa R.J.B., Prates J.A.M.: Effect of cooking methods on fatty acids, conjugated isomers of linoleic acid, and nutritional quality of beef intramuscular fat. Meat Sci 2010, 84, 769–777.
- 3. AOAC Official Method 969.33 Fatty acids in oils and fats. Preparation of methyl esters. Boron trifluoride method, 1969.
- 4. AOAC Official Method 996.06 Fat (total, saturated, and unsaturated) in food. Hydrolytic extraction gas chromatographic method, 2001.
- 5. Çağıltay F., Erkan N., Tosun D., Selçuk A.: Amino acid, fatty acid, vitamin and mineral contents of the edible garden snail (Helix aspersa). J Fisheries Sci 2011, 5, 354–363.
- 6. De Pedro E., Murillo M., Salas J., Peña F.: Effect of storage time on fatty acid composition of subcutaneous fat. In: Tradition and innovation in Mediterranean pig production. Options Méditerranéennes. Ser A Séminaires Méditerranéennes 2000, 41, 251–255.
- 7. Ekin İ.: Distribution of fatty acids and total lipids in five tissues of edible snail Helix lucorum (L. 1758) from the southeast of Turkey. Ital J Food Sci 2014, 26, 56–61.
- 8. Ekin İ., Başhan M., Şeşen R.: Possible seasonal variation of the fatty acid composition from Melanopsis praemorsa (L.1758) (Gastropoda: Prosobranchia), from southeast Anatolia, Turkey. Turk J Biol 2011, 35, 203–213.
- 9. Gomot A.: Biochemical composition of Helix snails: influence of genetic and physiological factors. J Moll Stud 1998, 64, 173–181.
- 10. Jelińska M.: Fatty acids – carcinogenesis modifying factors. Biul Wydz Farm AMW 2005, 1, 1–9.
- 11. Kolanowski W., Świderski F.: Polyunsaturated fatty acids of n-3 (n-3 PUFA). Beneficial heath activity, intake recommendations, food enrichment. Żywienie Człow Metabol 1997, 24, 49–63.
- 12. Koubaa A., Mihoubi N.B., Abdelmoulch A., Bouain A.: Comparison of the effects of four cooking methods on fatty acid profiles and nutritional composition of red mullet (Mullus barbatus). Food Sci Biotechnol 2012, 21, 1243–1250.
- 13. Marinova E.M., Seizova K.A., Totseva I.R., Panayotova S.S., Marekov I.N., Momchilova S.M.: Oxidative changes in some vegetable oils during heating at frying temperature. Bulg Chem Commun 2012, 44, 57–63.
- 14. Miletic I., Miric M., Lalic Z., Sobajic S.: Composition of lipids and proteins of several species of mollusks, marine, and terrestrial, from the Adriatic Sea and Serbia. Food Chem 1991, 41, 303–308.
- 15. Milinsk M.C., Graças Padre R., Hayashi C., Oliveira C.C., Visentainer J.V., Souza N.E., Matsushita M.: Effect of feed protein and lipid contents on fatty acid profile of snail (Helix aspersa maxima) meat. J Food Compos Anal 2006, 19, 212–216.
- 16. Milinsk M.C., Graças Padre R., Hayashi C., Souza N.E., Matsushita M.: Influence of diets enriched with different vegetable oils on the fatty acid profiles of snail Helix aspersa maxima. Food Chem 2003, 82, 553–558.
- 17. Oduro F.A., Choi N.-D., Ryu H.-S.: Effects of cooking conditions on the protein quality of chub mackerel Scomber japonicus. Fish Aquat Sci 2011, 14, 257–265.
- 18. Özogul Y., Özogul F., Olgunoglu A.I.: Fatty acid profile and mineral content of the wild snail (Helix pomatia) from the region of the south of the Turkey. Eur Food Res Technol 2005, 221, 547–549.
- 19. Paszkiewicz W., Ziomek M., Szkucik K., Maćkowiak-Dryka M.: Production and quality of snail meat. Med Weter 2014, 70, 673–679.
- 20. PN-EN ISO 5508:1996 Animal and vegetable fats and oils – Analysis by gas chromatography of methyl esters of fatty acids.
- 21. PN-EN ISO 12966-2:2011 Animal and vegetable fats and oils. Gas chromatography of fatty acids methyl esters – Part 2. Preparation of methyl esters of fatty acids.
- 22. Radwan M.A., El-Gendy K.S., Gad A.F.: Biomarker of oxidative stress in the land snail, Theba pisana for assessing ecotoxicological effects of urban metal pollution. Chemosphere 2010, 79, 40–46.
- 23. Ramos-Vasconcelos G.R., Hermes-Lima M.: Hypometabolism, antioxidant defenses and free radical metabolism in the pulmonate land snail Helix aspersa. J Exp Biol 2002, 206, 675–685.
- 24. Regulation of the Minister of the Environment of 16 December 2016 on the protection of animal species, ISAP (2016), Off J, item 2183 (in polish), available at: http://isap.sejm.gov.pl/DetailsServlet?id=WDU20160002183.
- 25. Su X.Q., Antonas K.N., Li D.: Comparison of n-3 polyunsaturated fatty acid contents of wild and cultured Australian abalone. Proc Nutr Soc Australia 2002, 26, 253.
- 26. Weber J., Bochi V.C., Ribeiro C.P., Victorio A. de M., Emanuelli T.: Effect of different cooking methods on the oxidation, proximate and fatty acid composition of silver catfish (Rhamdia quelen) fillets. Food Chem 2008, 106, 140–146.
- 27. Wood J.D., Enser M., Fisher A.V., Nute G.R., Sheard P.R., Richardson R.I., Hughes S.I., Whittington F.M.: Fat deposition, fatty acid composition and meat quality: a review. Meat Sci 2008, 78, 343–358.
- 28. Zhu N., Dai X., Lin D.S., Connor W.E.: The lipids of slugs and snails: evolution, diet and biosynthesis. Lipids 1994, 29, 869–875.
- 29. Ziomek M., Szkucik K., Maćkowiak-Dryka M., Paszkiewicz W., Drozd Ł., Pyz-Łukasik R.: Veterinary regulations for obtaining and processing edible snails. Med Weter 2017, 73, 303–306.
- 30. Zymon M., Strzetelski J., Pustkowiak H., Sosin E.: Effect of freezing and frozen storage on fatty acid profile of calves’ meat. Pol J Food Nutr Sci 2007, 57, 647–650.