Artículos de revistas
Bsa And Fibrinogen Adsorption On Chitosan/κ-carrageenan Polyelectrolyte Complexes
Registro en:
Macromolecular Bioscience. , v. 13, n. 8, p. 1072 - 1083, 2013.
16165187
10.1002/mabi.201200482
2-s2.0-84882714762
Autor
Carneiro T.N.
Novaes D.S.
Rabelo R.B.
Celebi B.
Chevallier P.
Mantovani D.
Beppu M.M.
Vieira R.S.
Institución
Resumen
PECs of chitosan/κ-carrageenan are prepared in three different volumetric rations. The complex formation is characterized in order to evaluate the blending formation. Blood compatibility is evaluated by protein adsorption (BSA and fibrinogen) and PEC toxicities are determined with fibroblast cell viability and proliferation. The swelling degree of PECs decreases when the amount of chitosan increases. Due to the linked film formation, PECs decrease BSA adsorption and increase fibrinogen adsorption when compared to the pristine chitosan and κ-carrageenan films. Although pristine chitosan and κ-carrageenan films produced similar cell expansion and viability, the PEC 50:50 vol% chitosan/κ-carrageenan PEC may be acceptable as a new scaffold for cell therapies, due to their effect on cell survival. © 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim. 13 8 1072 1083 Hugerth, A., Caram-Lelham, N., Sundelof, L., (1997) Carbohydr. Polym., 34, p. 149 Berger, J., Reist, M., Mayer, J.M., Felt, O., Gurny, R., (2004) Eur. J. Pharm. Biopharm., 57, p. 35 Hoven, V.P., Tangpasuthadol, V., Angkitpaiboon, Y., Vallapa, N., Kiatkamjornwong, S., (2007) Carbohydr. Polym., 68, p. 44 Park, S.Y., Lee, B.I., Jung, S.T., Park, H.J., (2001) Mater. Res. Bull., 36, p. 511 Li, Q., Dunn, E.T., Grandmaison, E.W., Goosen, M.F.A., (1992) J. Bioact. Compat. Polym., 7, p. 370 Sagnella, S., Mai-Ngam, K., (2005) Colloids Surf., B, 4, p. 147 Amiji, M.M., (1997) Carbohydr. Polym., 32, p. 193 Justi, K.C., Favere, V.T., Laranjeira, M.C.M., Neves, A., Casellato, A., (2005) Macromol. Symp., 229, p. 203 Tsubokawa, N., Takayama, T., (2000) React. Funct. Polym., 43, p. 341 Mao, J.S., Zhao, L.G., Yin, Y.J., Yao, K.D., (2003) Biomaterials, 24, p. 1067 Rinaudo, M., (2006) Prog. Polym. Sci., 31, p. 603 Zablackis, E., Santos, G.A., (1986) Bot. Mar., 29, p. 319 Sakiyama, T., Chu, C., Fujii, T., Yano, T., (1993) J. Appl. Polym. Sci., 50, p. 202 Baskar, D., Sampath Kumar, T.S., (2009) Carbohydr. Polym., 78, p. 767 Piyakulawat, P., Praphairaksit, N., Chantarasiri, N., Muangsin, N., (2007) AAPS PharmSciTech, 8, p. 97 Rodrigues, S., Rosa Da Costa, A.M., Grenha, A., (2012) Carbohydr. Polym., 89, p. 282 Tapia, C., Escobar, Z., Costa, E., Sapag-Hagar, J., Valenzuela, F., Basualto, C., Gai, M.N., Yazdani-Pedram, M., (2004) Eur. J. Pharm. Biopharm., 57, p. 65 Tomida, H., Nakamura, C., Kiryu, S., (1994) Chem. Pharm. Bull., 42, p. 979 Pinheiro, A.C., Bourbon, A.I., Quintas, M.A.C., Coimbra, M.A., (2012) Innovative Food Sci. Emerging Technol., 16, p. 227 Beppu, M.M., Santana, C.C., (1999), Doctoral Thesis, State University of Campinas, DecemberNickerson, M.T., Paulson, A.T., Hallett, F.R., (2004) Carbohydr. Polym., 58, p. 25 Fitch, R.M., (1997) Polym. Colloids, 11, p. 314 Vachoud, L., Zydowicz, N., Domard, A., (2000) Carbohydr. Res., 326, p. 295 Daniel-Da-Silva, A.L., Moreira, J., Neto, R., Estrada, A.C., Gil, A.M., Trindade, T., (2012) Carbohydr. Polym., 87, p. 328 Gorbet, M.B., Sefton, M.V., (2004) Biomaterials, 25, p. 5681 Schoen, F.J., (2004) Biomaterials Science: An Introduction to Materials in Medicine, p. 293. , B. D. Ratner, A. S. Hoffman, F. J. Schoen, J. E. Lemons, Academic Press, New York, NY Xu, C., He, D., Zeng, L., Luo, S., (2009) Colloids Surf., B, 73, p. 360 Ekdahl, K.N., Lambris, J.D., Elwing, H., Ricking, D., Nilsson, P.H., Teramura, Y., Nicholls, I.A., Nilsson, B., (2011) Adv. Drug Delivery Rev., 63, p. 1042 Fang, N., Zhu, A., Chan-Park, M.B., Chan, V., (2005) Macromol. Biosci., 5, p. 1022 Howling, G.I., Dettmar, P.W., Goddard, P.A., Hampson, F.C., Dornish, M., Wood, E.J., (2001) Biomaterials, 22, p. 2959 Silva, S.S., Santos, M.I., Coutinho, O.P., Mano, J.F., Reis, R.L., (2005) J. Mater. Sci.: Mater. Med., 16, p. 575 Ko, Y.G., Yu, S.M., Park, S.J., Chun, H.J., Kim, C.H., (2012) Langmuir, 28, p. 7223 Silva, S.S., Luna, S.M., Gomes, M.E., Benesch, J., Pashkuleva, I., Mano, J.F., Reis, R.L., (2008) Macromol. Biosci., 8, p. 568 Wang, Y.C., Kao, S.H., Hsieh, H.J., (2003) Biomacromolecules, 4, p. 224 Juris, S.J., Mueller, A., Smith, B.T.L., Johnston, S., Walker, R., Kross, R.D., (2011) J. Biomater. Nanobiotechnol., 2, p. 216 Grenha, A., Gomes, M.E., Rodrigues, M., Santo, V.E., Mano, J.F., Neves, N.M., Reis, R.L., (2010) J. Biomed. Mater. Res. A, 92, p. 1265 Gronthos, S., Simmons, P.J., Graves, S.E., Robey, P.G., (2001) Bone, 28, p. 174