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Research Article

Influence of Cyclodextrin Complexation on the In Vivo Photoprotective Effects of Oxybenzone

, Ph.D., &
Pages 95-102 | Published online: 02 Feb 2004

References

  • American Cancer Society, Cancer Facts and Figures 2003. American Cancer Society, Atlanta, GA 2003
  • Armstrong B. K., Kricker A. The epidemiology of UV induced skin cancer. J. Photochem. Photobiol., B 2001; 63: 8–18
  • Patel N., Highton P., Moy R. L. Properties of topical sunscreen formulations. J. Dermatol. Surg. Oncol. 1992; 18: 316–320
  • Maier H., Schauberger G., Brunnhofer K., Honigsmann H. Change of ultraviolet absorbance of sunscreens by exposure to solar‐simulated radiation. J. Invest. Dermatol. 2001; 117(2)256–262
  • Felton L. A., Wiley C. J., Godwin D. A. Influence of hydroxypropyl‐B‐cyclodextrin on the transdermal permeation and skin accumulation of oxybenzone. Drug Dev. Ind. Pharm. 2002; 28(9)1117–1124
  • Loftsson T., Guomundsdottir H., Sigurjonsdottir J. F., Sigurosson H. H., Sigfusson S. D., Masson M., Stefansson E. Cyclodextrin solubilization of benzodiazepines: formulation of midazolam nasal spray. Int. J. Pharm. 2001; 212: 29–40
  • Nagase Y., Hirata M., Wada K., Arima H., Hirayama F., Irie T., Kikuchi M., Uekama K. Improvement of some pharmaceutical properties of DY‐9760e by sulfobutyl ether B‐cyclodextrin. Int. J. Pharm. 2001; 229: 163–172
  • Loftsson T., Brewster M. E. Pharmaceutical applications of cyclodextrins. 1 Drug solubilization and stabilization. J. Pharm. Sci. 1996; 85(10)1017–1025
  • Pande G. S., Shangraw R. F. Characterization of beta‐cyclodextrin for direct compression tableting. Int. J. Pharm. 1994; 101: 71–80
  • Kedzierewicz F., Willieras F., Zinutti C., Hoffman M., Maincent P. Three‐year stability study of tolbutamide solid dispersions and beta‐cyclodextrin complex. Int. J. Pharm. 1995; 117: 247–251
  • Chattaraj S. C., Das S. K., Kanfer I. In vitro release of acyclovir from semisolid dosage forms: effect of cyclodextrin and polyethylene glycol. Pharm. Dev. Technol. 1998; 3(4)565–570
  • Loftsson T., Masson M. Cyclodextrins in topical drug formulations: theory and practice. Int. J. Pharm. 2001; 225: 15–30
  • Kligman L. H. The hairless mouse and photoaging. Photochem. Photobiol. 1991; 54: 1109–1118
  • Winkelmann R. K., Blades E. J., Zollman P. E. Squamous cell tumors induced in hairless mice with ultraviolet light. J. Invest. Dermatol. 1960; 34: 131–138
  • Brown D. B., Peritz A. E., Uitto J., Gasparro F. P. Ultraviolet‐filtering properties of commonly used tissue cell culture plasticware. Photodermatol. Photoimmunol. Photomed. 2001; 17: 126–129
  • Nakono H., Gasparro F. P., Uitto J. UVA‐340 as energy source, mimicking natural sunlight, activates the transcription factor AP‐1 in cultured fibroblasts: evidence for involvement of protein kinase‐C. Photochem. Photobiol. 2001; 74: 274–282
  • Wilgus T. A., Ross M. S., Parrett M. L., Oberyszyn T. M. Topical application of a selective cyclooxygenase inhibitor suppresses UVB mediated cutaneous inflammation. Prostaglandins Other Lipid Mediat. 2000; 62: 367–384
  • Knutson K., Potts R., Guzek D., Golden G., McKie J. Macro and molecular physical‐chemical considerations in understanding drug transport in the stratum corneum. J. Control. Release 1985; 2: 67–87
  • Treffel P., Gabard B. Skin penetration and sun protection factor of ultraviolet filters from two vehicles. Pharm. Res. 1996; 13: 770–774
  • Hagedorn‐Leweke U., Lippold B. C. Absorption of sunscreens and other compounds through human skin in vivo: derivation of a method to predict maximum fluxes. Pharm. Res. 1995; 12: 1354–1360
  • Scalia S., Villani S., Scatturin A., Vandelli M. A., Forni F. Complexation of the sunscreen agent, butyl‐methoxydibenzoylmethane, with hydroxypropyl‐B‐cyclodextrin. Int. J. Pharm. 1998; 175: 205–213
  • Ley R. D., Applegate L. A. Ultraviolet radiation‐induced histopathologic changes in the skin of the marsupial monodelphis domestica. II. Quantitative studies of the photoreactivation of induced hyperplasia and sunburn cell formation. J. Invest. Dermatol. 1985; 85(4)365–367
  • Murphy G., Young A. R., Wulf H. C., Kulms D., Schwarz T. The molecular determinants of sunburn cell formation. Exp. Dermatol. 2001; 10: 155–160
  • Bernerd F., Asselineau D. Successive alteration and recovery of epidermal differentiation and morphogenesis after specific UVB‐damages in skin reconstructed in vitro. Dev. Biochem. 1997; 183: 123–138
  • Dore J.‐F., Pedeux R., Boniol M., Chignol M. C., Autier P. Intermediate‐effect biomarkers in prevention of skin cancer, In Biomarkers in Cancer Prevention, A. B. Miller, et al. ARC Scientific Publications, Lyon 2001; 81–91
  • Clydesdale G. J., Dandie G. W., Muller H. K. Ultraviolet light induced injury: immunological and inflammatory effects. Immunol. Cell Biol. 2001; 79: 547–568
  • Heenen M., Giaconmoni P. U., Golstein P. Individual variations in the correlation between erythemal threshold, UV‐induced DNA damage and sunburn cell formation. J. Photochem. Photobiol., B 2001; 63: 84–87
  • Farkas B., Magyarlaki M., Csete B., Nemeth J., Rabloczky G., Bernath S., Nagy P. L., Sumegi B. Reduction of acute photodamage in skin by topical application of a novel PARP inhibitor. Biochem. Pharmacol. 2002; 63: 921–932
  • Yasui H., Sakurai H. Chemiluminescent detection and imaging of reactive oxygen species in live mouse skin exposured to UVA. Biochem. Biophys. Res. Commun. 2000; 269: 131–136
  • Lasch J., Schonfelder U., Walke M., Zellmer S., Beckert D. Oxidative damage of human skin lipids. Dependence of lipid peroxidation on sterol concentration. Biochim. Biophys. Acta 1997; 1349: 171–181
  • Black H. S. Potential involvement of free radical reactions in ultraviolet light‐mediated cutaneous damage. Photochem. Photobiol. 1987; 46: 213–221
  • Cornwell P. A., Barry B. W., Bouwstra J. A., Gooris G. S. Modes of action of terpene penetration enhancers in human skin; differential scanning calorimetry, small angle x‐ray diffraction and enhancer uptake studies. Int. J. Pharm. 1996; 127: 9–26
  • Welin‐Berger K., Neelissen J. A., Engblom J. Physicochemical interaction of local anesthetics with lipid model systems‐correlation with in vitro permeation and in vivo efficacy. J. Control. Release 2002; 81: 33–43

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