Listasimme joitain kotimaisia ja kansainvälisiä tutkimuksia sinulle, joita syvempi tieto ihonhoitomme sisältämistä aineista kiinnostaa. Tehoaineesta tehty yksittäinen tutkimus ei vahvista, että kyseistä ainetta sisältävä ihonhoito toimisi samoin. Se ei myöskään sulje sitä pois.

Kunkin tuotevalmistajan tulee testata omat tuotteensa ja niiden teho. AIVA-ihonhoito on kliinisesti sekä dermatologisesti testattua. Se sopii tutkitusti kaikille ihotyypeille sekä myös herkkäihoisille. The Creamin kosteuttava vaikutus on 100%, The Oilin ravitseva 100%. Tutkitusti.

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Arif, S.; Ahmed, S.D.; Shah, A.H.; Hassan, L.; Awan, S.I.; Hamid, A.; Batool, F.L. Determination of optimum harvesting time for Vitamin C, oil and mineral elements in berries sea buckthorn (Hippophae rhamnoides). Pak. J. Bot. 2010

 

Arumughan, C.; Venugopalan, V.V.; Ranjith, A.; Sarinkumar, K.; Mangalagowri, P.; Sawhney, R.C.; Attrey, D.P.; Banerjee, P.K.; Chaurasia, O.P. A novel Green Approach to the Integrated Processing of Sea Buckthorn Berries for Therapeutic and Nutraceutical Values. Indian Patent 648/DEL, 2 June 2006.

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Batt, M.D., Davis, W.B., Fairhurst, E. et al. Changes in the physical properties of the stratum corneum
following treatment with glycerol. J. Soc. Cosmet. Chem. 1988,

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Bartish, I.V.; Jeppsson, N.; Nybom, H.; Swenson, U. Phylogeny of hippophae (elaeagnaceae) inferred from parsimony analysis of chloroplast DNA and morphology. Syst. Bot. 2002

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Cenkowski, S.; Yakimishen, R.; Przybylski, R.; Muir, W.E. Quality of extracted sea buckthorn seed and pulp oil. Can. Biosyst. Eng. 2006

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Chen, L.; Xin, X.; Yuan, Q.; Su, D.; Liu, W. Phytochemical properties and antioxidant capacities of various colored berries. J. Agric. Food Chem. 2014.

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Gloor, M., Schermer, S., and Gehring, W. Ist eine Kombination von Harnstoff und Glycerin in
Externagrundlagen sinnvoll? Z. Hautkr. 1997, 72:

 

Hara, M. and Verkman, A.S. Glycerol replacement corrects defective skin hydration, elasticity, and barrier function in aquaporin-3-deficient mice. Proc. Natl. Acad. Sci. USA 2003.

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Harding, C.R., Watkinson, A., Rawlings, A. et al. Dry skin, moisturization and corneodesmolysis. Int.J. Cosm. Sci. 2000,

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Isayev, J.I.; Karimov, Y.B.; Kazimov, H.A. New technology of sea-buckthorn oil extraction. Azerbaijan Med. J. 2005

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Jungermann, E. and Sonntag, N.O.V. Glycerine — A Key Cosmetic Ingredient. New York, Basel, Hong Kong: Marcel Dekker, Inc., 1991.

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Kallio, H.P.; Yang, B. Health effects of sea buckthorn berries; research and strategies at the university of Turku, Finland. Acta Hortic. 2014

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Kallio, H.; Yang, B.; Peippo, P.; Tahvonen, R.; Pan, R. Triacylglycerols, glycerophospholipids, tocopherols, tocotrienols in berries and seeds of two sspecies (ssp.sinensis and mongolica) of sea buckthorn (Hippophaë rhamnoides). J. Agric. Food Chem. 2002,

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Korekar, G.; Dolkar, P.; Singh, H.; Srivastava, R.B.; Stobdan, T. Genotypic and morphometric effect on fruit oil content in seventeen natural population of Seabuckthorn (Hippophae rhamnoides L.) from trans-Himalaya. Natl. Acad. Sci. Lett. 2013.

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Li, T.S.C. Product development of sea buckthorn. In Trends in New Crops and New Uses; Janick, J., Whipkey, A., Eds.; ASHS Press: Alexandria, VA, USA, 2002.
 

Mattai, J., Froebe, C.L., Rhein, L.D. et al. Prevention of model stratum corneum lipid phase transition in vitro by cosmetic additives-differential scanning calorimetry, optical microscopy, and water evaporation studies. J. Soc. Cosmet. Chem. 1993,

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Rawlings, A.V. and Harding, C.R. Moisturization and skin barrier function. Dermatol. Ther. 2004.

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Sagiv, A.E. and Marcus, Y. The connection between in vitrowater uptake and in vivo skin moisturization.
Skin Res. Technol. 2003,

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Scott, I.R. and Harding, C. A filaggrin analoque to increase natural moisturising factor synthesis in skin.
Dermatology 1993, 2000:
 

Summers, R.S., Summers, B., Chandar, P. et al. The effect of lipids, with and without humectant, on skin xerosis. J. Soc. Cosmet. Chem. 1996.

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Rawlings, A., Watkinson, A., Rogers, J. et al. Abnormalities in stratum corneum structure, lipid composition and desmosomal degradation in soap-induced winter xerosis. J. Soc. Cosmet. Chem. 1994.

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Rawlings, A.V., Scott, I.R., Harding, C.R. et al. Startum corneum moisturization at the molecular level.
In: Dermatology Foundation — Progress in Dermatology (Noshell, A.N., ed). Evanstone: IL, 1994,

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United States Department of Agriculture. PLANTS Profile for Hippophae rhamnoides L. (seaberry); United States Department of Agriculture: Washington, DC, USA, 2007

 

Wang, R.; Zong, S.X.; Yu, L.F.; Lu, P.F.; Luo, Y.Q. Rhythms of volatile release from female and male sea buckthorn plants and electrophysiological response of sea buckthorn carpenter moths. J. Plant Interact. 2014,

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Yakimishen, R.; Cenkowski, S.; Muir, W.E. Oil recoveries from sea buckthorn seeds and pulp. Appl. Eng. Agric. 2005, 21,

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Yang, B.; Karlsson, R.M.; Oksman, P.H.; Kallio, H.P. Phytosterols in sea buckthorn (Hippophaë rhamnoides L.) berries: Identification and effects of different origins and harvesting times. J. Agric. Food Chem. 2001.

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iZelińska, A.; Nowak, I. Fatty acids in vegetable oils and their importance in cosmetic industry. Chem. Aust. 2014.

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Zielińska, A.; Nowak, I. Abundance of active ingredients in sea-buckthorn oil. Lipids Health Dis. 2017

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