PL
 |
EN

PL EN

Preferencje help
Polish version English version Język
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Wybrane substancje chłodzące stosowane w kosmetykach

Autorzy
Adaszyńska M. , Swarcewicz M.
Treść / Zawartość
Pełne teksty:
Adaszynska.pdf
Identyfikatory
Warianty tytułu
EN
Selected cooling compounds used in cosmetics
Języki publikacji
PL
Abstrakty
EN
Menthol and new cooling compounds are widely used to improve modern toothpastes, gums, breath fresheners, cosmetic lotions, deodorants, shaving gels, and shaving aid composites. This paper reviews the use of menthol and new classes of cooling agents, that have been discovered since the 1970s, in cosmetic preparations. We have presented here 57 chemical structures. In addition, we briefly touch upon cold receptors and mechanism of action. Finally, we add up, recent findings on the production of cooling ingredients in the world. The underlying process in thermoreception depends on ion transport across cellular membranes. Thermoreceptors belong to a class of transient receptor potential (TRP) channels. Among them are temperature-sensitive thermoreceptors TRPM8 or TRPA 1. Certain types of chemical agonists activate the same thermoTRP channels, as for example menthol or icilin. Only the (–)-menthol enantiomer possesses clean, desirable minty odor and intense cooling properties (Fig. 1). Natural menthol is normally about 99.0% to 99.6% pure, with the remaining impurities being other constituents found in the cornmit oil. Synthetic (–)-menthol is normally about 99.8% pure and has less of the minty top note than the natural menthol. The other natural and synthetic compounds being menthol-related coolants are showed in Figure 3, as for example, menthone 1,2-glycerol ketal (17). From among 3-carboxamide-p-menthane derivatives as commercial cooling agents (Fig. 4), there are for example N-ethyl-pmenthane- 3-carboxamide (25) as WS-3 and [ethyl 3-(p-menthane-3-carboxamido) acetate] as WS-5, which is currently the coldest of all commercial cooling agents (27). Other examples of recently discovered carboxamide coolants belong to a series of analogs of WS-23 (28). Of particular interest are various aryl p-menthane-3- carboxamides, such as N-benzo[1,3]dioxol-5-yl-3-p-menthanecarboxamide (36), which was reported to have 100 times more cooling intensity than menthol (Fig. 6). In 2010, Furrer disclosed a series of new p-menthane carboxamide and WS-23 analogs as cooling agents [56]. Three particularly potential cooling agents 50, 51 and 52 are shown in Figure 9.
Słowa kluczowe
PL
EN
Wydawca
Polskie Towarzystwo Chemiczne
Czasopismo
Wiadomości Chemiczne
Rocznik
2012
Tom
[Z] 66, 5-6
Strony
543--562
Opis fizyczny
Bibliogr. 70 poz., rys., tab.
Twórcy
autor
Adaszyńska M.
autor
Swarcewicz M.
  • Zakład Syntezy Organicznej i Technologii Leków, Wydział Technologii i Inżynierii Chemicznej, Zachodniopomorski Uniwersytet Technologiczny w Szczecinie, Al. Piastów 42, 71-065 Szczecin, michalina.adaszynska@gmail.com
Bibliografia
  • [1] M . Kolski, Chemia Piękna, PWN, Warszawa, 2009.
  • [2] M .M. Claude, Kosmetologia i farmakologia skóry, PZWL,Warszawa, 2008.
  • [3] R . Eccles, J. Pharm. Pharmacol., 1994, 46, 618.
  • [4] W.Z. Traczyk, A. Trzebski, Fizjologia człowieka z elementami fizjologii stosowanej i klinicznej, PZWL, Warszawa, 1990.
  • [5] D . Zoe, Kosmeceutyki. Dermatologia kosmetyczna, Elsevier Inc., 2005.
  • [6] C . Zucker, Nature, 2002, 416, 27.
  • [7] A .M. Peier, A. Moqrich, A.C. Hergarden A.J.Reeve, D.A. Andersson, G.M. Story, Cell, 2002, 108, 705.
  • [8] H .J. Behrendt, T. Germann, C. Gillen, H. Hatt, R. Jostock, Br. J. Pharm., 2004, 141, 737.
  • [9] D .A. Andersson, H. Chase, S. Bevan, J. Neuroscience, 2004, 24, 5364.
  • [10] D .D. McKemy, Molecular Pain, 2005, 1, 16.
  • [11] J.C. Leffingwell, [w:] Handbook of cosmetic science and technology, A. Barel, M. Paye, H. Maibach (Eds.), Informa Healthcare, New York, 2009, 661.
  • [12] R . Hopp, B.M. Lawrence, [w:] Mint: The Genus Mentha, B.M. Lawrence (Ed.), Boca Raton, Fl, CRC Press, 2006, 371.
  • [13] J. Fleischer, K. Bauer, R. Hopp, patent USA 3 943 181, 9.03.19676.
  • [14] S . Akutagawa, Top Catal, 1997, 4, 271.
  • [15] T . Tani, T. Yamagata, S. Akutagawa, T. Kumobayashi, H. Taketomi, H. Takaya, A. Miyashita, R. Noyori, S. Otsuka, J. Am. Chem. Soc., 1984, 106, 5208.
  • [16] R . Noyori, Asymmetric catalysis: science and opportunities. Dostęp w Internecie: http://nobelprize. org/nobelprizes/chemistry/laureates/2001/noyori-lecture.pdf.
  • [17] C h. Starkenmann, I. Cayeux, R. Brauchli, F. Maynezet, J. Agric. Food Chem., 2011, 59, 677.
  • [18] H . Oertling, A. Reckziegel, H. Surburg, H. Bertram, Chem. Rev., 2007, 107, 2136.
  • [19] T . Yamamoto, patent USA 5 773 410, 30.06.1998.
  • [20] M .I. Velazco, L. Wuensche, P. Deladoey, patent USA 6 214 788, 1.03.1999.
  • [21] C . Fuganti, D. Joulain, F. Maggloni, L. Malpezzi, S. Serra, A. Vecchione, Tetrahedron: Asymmetry, 2008, 19, 2425.
  • [22] S . Serra, C. Fuganti, F.G. Gatti,. Eur. J. Org. Chem., 2008, 6, 1031.
  • [23] K .F. Gassenmeier, Flavour Fragrance J., 2006, 2, 725.
  • [24] K . Shiroyama, K. Sawano, H. Ohta, patent USA 6 328 982, 30.12. 2001.
  • [25] H . Kenmochi, T. Akiyama, Y. Yuasa, patent USA 5 959 161, 28.08.1999.
  • [26] D .T. Beldock, J.A. Beldock, G. Mudge, patent USA 5 621 013, kwiecień 15.04.1997.
  • [27] C .H. Jarboe, patent USA 3 111 127, 19.11.1963.
  • [28] J.M. Mane, patent USA 5 725 865, 19.03.1998.
  • [29] R . Hiserodt, J. Adedeji, T. John, M.L. Dewis, J. Agric. Food Chem., 2004, 52, 3536.
  • [30] H . Grub, R. Pelzer, R. Hopp, patent USA 5 266 592, 30,11.1993.
  • [31] W. K. Giersch, C.L.A. Vanrietvelde, zgłoszony patent USA 2006/0249167, 9.11. 2006.
  • [32] T . Yamamoto, A. Amano, T. Kobayashi, patent japoński 6 119 4049, 1986.
  • [33] S . Pringle, D. Brassington, Perfumer & Flavorist, 2007, 32, 38.
  • [34] M . Erman, Perfumer & Flavorist, 2007, 32, 20.
  • [35] M .L. Dewis [w:] Chemistry and Technology of Flavors and Fragrances, D.J. Dowe (Ed,) Oxford, Blackwell Pub. Ltd., 2004, 199.
  • [36] A . Amano, M. Moroe, T. Yoshida, patent USA 4 459 425, 10.06. 1984.
  • [37] A . Amano, K.Tokoro, patent USA 5 608 119, 4.03.1997.
  • [38] K . Shiroyama, K. Sawano, H. Ohta, patent USA 6 328 982, 11.12.2011.
  • [39] H .R. Watson, R.Hems, D.Roswell, D.J. Spring, J. Soc. Cosmet. Chem., 1978, 29, 185.
  • [40] U. Bornscheuer, I. Gatfield, E. Hilmer, patent UE, EP 1 223223 A1, 2002.
  • [41] J. Crosby [w:] Chirality in Industry - an Overview, A.N. Collins, G.N Sheldrake, J. Crosby (Eds.), Wiley, Chichester, New York, 1992, 1-66.
  • [42] S .M. Furrer, G.L. Yep, E. Flamme, zgłoszenie patentowe USA 2008/0311232, 18.12. 2008.
  • [43] S .M. Furrer, G.L. Yep, E. Flamme, patent USA 7 959 958, 14.06. 2011.
  • [44] H . Watson, D. Rowsell, D. Spring, patent USA 4 178 459, 11.12.1979.
  • [45] W.J. Waddell, S.M. Cohen, V.J. Feron, L.J. Marnett, P.S. Portoghese, Food Technol., 2007, 61 (8), 22.
  • [46] M .B. Erman, P. Whelan, patent USA 7 189 760, marzec 13, 2007.
  • [47] S .M. Furrer, J.P. Slack, T. Scott, S.T. McCluskey, I.M. Ungureanu, A.T. Daniher, G. Blancher, K. Bel, Chem. Percept., 2008, 1, 119.
  • [48] H . Watson, D. Rowsell, D. Spring, patent USA 4 150 052, 17.04.1979.
  • [49] K . Bardsley, zgłoszenie patentowe USA 2010/00272655, 29.10.2010.
  • [50] H . Sun, patent USA 7 030 273, 18.04. 2007.
  • [51] L . Cole, S. Furrer, C. Galopin, patent PCT WO 2006/099762, 28.08.2006.
  • [52] L . Cole, S. Furrer, C. Galopin, patent PCT WO 2006/092074, 8.09. 2006.
  • [53] O .Takazawa, H.Wanatabe, M. Iso, patent japoński 2004/4059474, 26.02. 2004.
  • [54] E .T. Wei, patent PCT WO 2006/103401, 5.10. 2006.
  • [55] E .T. Wei, zgłoszenie patentowe USA 2007/0155755, 5.07. 2007.
  • [56] S .M. Furrer, zgłoszenie patentowe WIPO WO/2010/128026.
  • [57] H . Surburg, J. Looft, H. Oertling, T. Vessing, zgłoszenie patentowe USA 2009/0054520, 26.02. 2009.
  • [58] A . Schoening, B. Wiedwald, zgłoszenie patentowe USA 2008/0175800, 24.07.2008.
  • [59] A .J. Foster, C.P.E. Van Der Logt, E.W. Tareilus, zgłoszenie patentowe USA 2004/0067970, 8.04.2004.
  • [60] S .M. Furrer, J.P. Slack, S.T. McCluskey, Chem. Percept, 2006, 2, 128.
  • [61] H . Ottinger, T. Soldo, T. Hoffmann, J. Agric. Food Chem., 2001, 49, 5383.
  • [62] T . Hofmann, H. Ottinger, O. Frank, patent USA 6 592 884, 15.07.2003.
  • [63] M . Erman, Meeting of the Society of Flavor Chemists. Millennium Specialty Chemicals, the December 4, 2003.
  • [64] E . Guenther, [w:] The essential oils, N.Y. Huntington (Ed.), R.E. Krieger Pub. Co., 1974, 640.
  • [65] H .R. Watson, R. Hems, D. Roswell, D.J. Spring, J. Soc. Cosmet. Chem., 1978, 29, 185.
  • [66] J.C. Leffingwel, R.E. Shackelford, Cosmetics and Perfumery, 1974, 89, l69.
  • [67] J. Kiefer, J.E. Harvey, zgłoszenie patentowe USA 2007/70077331, 5.04.2007.
  • [68] S .S. Johnson, B.Z. Stawski, G.T. Sheldon, zgłoszenie patentowe USA 2007/70248717, 25.10.2007.
  • [69] M . Erman, Perfumer & Flavorist, 2004, 29, 34.
  • [70] J.C. Leffingwel, Cool without menthol and cooler than menthol and cooling compounds as insect repellents. 2011. Dostęp w Internecie: www.lefingwell com/cooler_than_menthol.htm
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0026-0041
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.