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Research Article

Textiles with gallic acid microspheres: in vitro release characteristics

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Pages 535-541 | Received 03 Jul 2013, Accepted 14 Jan 2014, Published online: 03 Apr 2014

References

  • Alonso C, Martí M, Martínez V, Rubio L, Parra JL, Coderch L. Antioxidant cosmeto-textiles: Skin Assessment. Eur J Pharm Biopharm, 2013;84:192--9
  • Araujo PZ, Morando PJ, Blesa MA. Interaction of catechol and gallic acid with titanium dioxide in aqueous suspensions. 1. Equilibrium studies. Langmuir, 2005;21:3470–4
  • Carreras N, Acuña V, Martí M, Lis MJ. Drug release system of ibuprofen in PCL-microspheres. Colloid Polym Sci, 2013;291:157–65
  • Fernandez-Bolanos JG, Lopez O, Fernandez-Bolanos J, Rodriguez-Gutierrez G. Hydroxytyrosol and derivatives: Isolation, synthesis, and biological properties. Curr Org Chem, 2008;12:442–63
  • Guarducci M. 2006. Product having particular functional properties for the skin and process for the preparation thereof. Patent No. WO/2006/106546
  • Guidelines for the Testing of Chemicals. 2004. Skin absorption by an in vitro method. Paris, France: OCDE
  • Hipler UC, Elsner P, eds. 2006. Biofunctional textiles and the skin, vol. 33. Basel: Karger
  • Hutmacher DW. Scaffold in tissue engineering bone and cartilage. Biomaterials, 2000;21:2529–43
  • Jayaprakasha GK, Selvi T, Sakariah KK. Antibacterial and antioxidant activities of grape (Vitis vinifera) seed extracts. Food Res Int, 2003;36:117–22
  • Kim S-H, Jun CD, Suk K, Choi B-J, Lim H, Park S, Lee SH, Shin H-Y, Kim D-K, Shin T-Y. Gallic acid inhibits histamine release and pro-inflammatory cytokine production in mast cells. Toxicol Sci, 2006;91:123–31
  • Leonardis A, Aretini A, Alfano G, Macciola V, Ranalli G. Isolation of a hydroxytyrosol-rich extract from olive leaves (Olea Europaea L.) and evaluation of its antioxidant properties and bioactivity. Eur Food Res Technol, 2008;226:653–9
  • Mansur HS, Sadahira CM, Souza AN, Mansur AAP. FTIR spectroscopy characterization of poly (vinyl alcohol) hydrogel with different hydrolysis degree and chemically crosslinked with glutaraldehyde. Mater Sci Eng C, 2008;28:539–48
  • Marti M, Alonso C, Martínez V, Lis M, De La Maza A, Parra JL, Coderch L. Cosmetotextiles with gallic acid: Skin reservoir effect. J Drug Deliv, 2013;2013: 456248. http://dx.doi.org/10.1155/2013/456248
  • Martí M, Martínez V, Rubio L, Coderch L, Parra JL. Biofunctional textiles prepared with liposomes: In vivo and in vitro assessment. J Microencapsul, 2011;28:799–806
  • McIntyre JE, ed. 2005. Synthetic fibres: Nylon, polyester, acrylic, polyolefin. Cambridge: CRC Press
  • Middleton JC, Tipton AJ. Synthetic biodegradable polymers as orthopedic devices. Biomaterials, 2000;21:2335–46
  • Milwich M, Speck T, Speck O, Stegmaier T, Planck H. Biomimetics and technical textiles: Solving engineering problems with the help of nature's wisdom. Am J Bot, 2006;93:1455–65
  • Mohammed-Ziegler I, Billes F. Vibrational spectroscopic calculations on pyrogallol and gallic acid. J Mol Struct Theochem, 2002;618:259–65
  • Monllor P, Bonet MA, Cases F. Characterization of the behaviour of flavour microcapsules in cotton fabrics. Eur Polym J, 2007;43:2481–90
  • Monllor P, Capablanca L, Gisbert J, Díaz P, Montava I, Bonet A. Improvement of microcapsule adhesion to fabrics. Text Res J, 2010;80:631–5
  • Mota M, Gârgavu S, Popa S, Schiopu S, Panduru NM, Mota E. Soya – the medicine food product. Rom J Intern Med, 2007;45:113–21
  • Natarajan V, Krithica N, Madhan B, Sehgal PK. Formulation and evaluation of quercetin polycaprolactone microspheres for the treatment of rheumatoid arthritis. J Pharm Sci, 2011;100:195–205
  • Pinho E, Henriques M, Oliveira R, Dias A, Soares G. Development of biofunctional textiles by the application of resveratrol to cotton, bamboo, and silk. Fibers Polym, 2010;11:271–6
  • Ramón E, Alonso C, Coderch L, Maza ADL, López O, Parra JL, Notario J. Liposomes as alternative vehicles for sun filter formulations. Drug Deliv, 2005;12:83–8
  • Ricci G, Patrizi A, Bellini GF, Medri M. 2006. Use of textiles in atopic dermatitis. In: Hipler UC, Elsner P, eds. Biofunctional textiles and the skin, vol. 33. Basel: Karger, pp. 127–43
  • Rodrigues SN, Martins IM, Fernandes IP, Gomes PB, Mata VG, Barreiro MF, Rodrigues AE. Scentfashion®: Microencapsulated perfumes for textile application. Chem Eng J, 2009;149:463–72
  • Rolando TE. Solvent-free adhesives. RAPRA Technol, 1998;9:14–15
  • Schaefer H, Redelmeier TE. 1996. Skin barrier: Principles of percutaneous absorption. Basel: Karger
  • Sinha VR, Bansal K, Kaushik R, Kumria R, Trehan A. Poly-ε-caprolactone microspheres and nanospheres: An overview. Int J Pharm, 2004;278:1–23
  • Soleas GJ, Grass L, Josephy PD, Goldberg DM, Diamandis EP. A comparison of the anticarcinogenic properties of four red wine polyphenols. Clin Biochem, 2002;35:119–24
  • Soppimath KS, Aminabhavi TM, Kulkarni AR, Rudzinski WE. Biodegradable polymeric nanoparticles as drug delivery devices. J Control Release, 2001;70:1–20
  • Thiele JJ, Dreher F, Packer L. 2000. Antioxidant defense systems in skin. In: Elsner P, Maibach HI, eds. Cosmeceuticals, drugs vs. cosmetics. New York: Marcel Dekker, pp. 145–87
  • Ting WW, Vest CD, Sontheimer R. Practical and experimental consideration of sun protection in dermatology. Int J Dermatol, 2003;42:505–13
  • Valsecchi AE, Franchi S, Panerai AE, Sacerdote P, Trovato AE, Colleoni M. Genistein, a natural phytoestrogen from soy, relieves neuropathic pain following chronic constriction sciatic nerve injury in mice: Anti-inflammatory and antioxidant activity. J Neurochem, 2008;107:230–40
  • Wachter R, Weuthen M, Panzer C, Paff E. 2005. Liposomes are used as textile finishes which not only improve elasticity and hand but can also be transferred to skin contact. US EP1510619-A2, DE10339358-A1, US2005058700-A
  • Yilmaz Y, Toledo RT. Major flavonoids in grape seeds and skins: Antioxidant capacity of catechin, epicatechin, and gallic acid. J Agric Food Chem, 2003;52:255–60
  • Zhou S, Deng X, Yang H. Biodegradable poly (ε-caprolactone)–poly (ethyleneglycol) block copolymers: Characterization and their use as drug carriers for a controlled delivery system. Biomaterials, 2003;24:3563–70

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