PLANT-BASED SQUALENE IN COSMETOLOGY 65 (9) OCEANA, Oceana Campaigns for Cosmetic Industry to Stop Using Shark Liver Oil, Washington, DC, January 29, 2008, accessed December 29, 2011, http://na.oceana.org/en/news-media/press-center/press-releases/ unilever-to-end-use-of-shark-products-in-cosmetics (10) P. Jame, H. Casabianca, M. Batteau, P. Goetnick, S. Guilbert, and R. Watts, Determination of squalane ori- gin in commercial cosmetic creams using isotope ratio mass spectrometry, SOFW J., 137(1/2), 12–17 (2011). (11) H. Piesiewicz and Z. Ambroziak, Amaranth—Nutritional aspects, Przegl. Piek. i Cuk., 43(6), 32–33 (1995) (in Polish). (12) J. Rutkowska, Amaranth—Man friendly plant, Przegl. Piek. i Cuk., 54(1), 6–10 (2006) (in Polish). (13) B. Hawrylak and B. Wolska-Mitaszko, Plant invertases—Physiological function, regulation of activity and application in biotechnology, Biotechnologia, 2(77), 63–80 (2007) (in Polish). (14) F. Świderski, Amaranth oil as a dietary supplement and bioactive food ingredient, Conference on Ama- ranth for Health and Beauty, Warsaw, Poland, January 11, 2007. (15) F. Świderski, Nutritional, dietary and taste of amaranth products especially in functional food. Sample recipes, Conference on AMARANTH, Warsaw, Poland, November 25, 1999. (16). Cosmeticsinfo.org, Squalane, accessed May 12, 2012, http://www.cosmeticsinfo.org/ingredient_details. php?ingredient_id=467 (17) E. N. Ofi tserov, Amaranth: Perspective raw material for food-processing and pharmaceutical industry, Chem. Comput. Simulat., 2(5), 1–4 (2001). (18) S. Passi, O. De Pità, P. Puddu, and G. P. Littarru, Lipophilic antioxidants in human sebum and aging, Free Radic. Res., 36, 471–477 (2002). (19) G. S. Kelly, Squalene and its potential clinical uses, Altern. Med. Rev., 4, 29–36 (1999). (20) D. Saint-Leger, A. Bague, E. Cohen, and M. Chivot, A possible role for squalene in the pathogenesis of acne. In vitro study of squalene oxidation, Br. J. Dermatol., 114, 535–542 (1986). (21) A. Aioi, T. Shimizu, and K. Kuriyama, Effect of squalene on superoxide anion generation induced by a skin irritant, lauroylsarcosine, Int. J. Pharm., 113, 159–164 (1995). (22) S. Briganti and M. Picardo, Antioxidant activity, lipid peroxidation and skin diseases. What’s new, J. Eur. Acad. Dermatol. Venereol., 6, 663–669 (2003). (23) L. Blasco, L. Duracher, and J. P. Forestier, Skin constituents as cosmetic ingredients: Part I: A study of bio-mimetic monoglycerides behavior at the squalene-water interface by the “pendant drop” method in a static mode, J. Dispers. Sci. Technol., 27, 799–810 (2006). (24) R. Rissmann, M. H. Oudshoorn, E. Kocks, W. E. Hennink, M. Ponec, and J. A. Bouwstra, Lanolin- derived lipid mixtures mimic closely the lipid composition and organization of vernix caseosa lipids, Biochim. Biophys. Acta, 1778, 2350–2360 (2008). (25) S. Jurkowska, Acne Vulgaris As a Complication of Seborrhea, accessed June 10, 2011 (in Polish), http://cosmetic.pl/pro/index.php?grupa=6&art=1133770593&dzi=1130183233 (26) R. Nowicki and W. Baran ´ska-Rybak, Shark liver oil as a supporting therapy in atopic dermatitis, Pol. Mer. Lek., 22, 130, 312 (2007) (in Polish). (27) M. L. Rosenthal, “Biological Role and Practical Uses of Squalene and Squalane,” in I. Lubowe and F. V. Well (editors), Cosmetics and the Skin (Reinhold Publishing Corp., NY, 1964).
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