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Cell microencapsulation

R. Mahou, F. Borcard, R. Meier, C. Gonnelle-Gispert, L. Biihler, R. Pliiss, M. Whelehan, and C. Wandrey. Engineered hydrogels for cell microencapsulation and subsequent transplantation. XXI International Conference on Bioencapsulation, 74-75, 2013. [Pg.198]

Xie and C.-H. Wang. Electrospray in the dripping mode for cell microencapsulation. Journal of Colloid and Interface Science, 312(2) 247-255, 2007. [Pg.199]

Wong, H., Chang, T.M.S. Bioartificial liver Implanted artificial cells microencapsulated living hepato-cytes increases survival of liver failure rats. Int. J. Artif. Organs 1986, 9 (5), 335-336. [Pg.914]

Wong, H., Chang, T.M.S. The viability and regeneration of artificial cell microencapsulated rat hepato-cyte xenograft transplants in mice. Biomater. Artif. Cells Artif. Organs 1988,16 (4), 731-739. [Pg.914]

Characteristics and Applications Used as a matrix for drug delivery systems, cell microencapsulation... [Pg.1242]

Orive G, Hernandez RM, Rodriguez Gascon A, Calafiore R, Chang TM, de Vos P, et al. History, challenges and perspectives of cell microencapsulation. Trends... [Pg.374]

Flow-Cell, Microencapsulated blowing agent, Hughes Industrial Corp. [Pg.908]

Mendelsohn A, Desai T (2010) Inorganic nanoporous membranes for immunoisolated cell-based dmg delivery. In Jose Luis Pedraz and Gorka Drive (eds) Therapeutic applications of cell microencapsulation. Springer, New York, Chapter 10, 104-125 Muthusubramaniam L, Lowe R, Fissell W, Li L, Marchant R, Desai T, Roy S (2011) Hemocompatibility of silicon-based substrates for biomedical implant applications. Ann Biomed Eng 39(4) 1296-1305... [Pg.694]

Drive, G. et al. Cell microencapsulation technology for biomedical purposes novel insights and challenges. Trends Pharmacol. Sci., 24,207,2003. [Pg.680]

Picot, A. and Lacroix, C. (2003). Production of multiphase water insoluble microcapsules for cell microencapsulation using an emulsiflcation/spray-drying technology. Journal of Food Science, 68,2693-2700. [Pg.507]

This study suggests that the combination of cell microencapsulation and microcarrier technology results in an optimal process for the scalable production of high-quality pluripotent hPSCs because microencapsulation ensures a shear stress-free microenvironment and avoids the excessive clustering of microcarriers and aggregates in hPSC culture. [Pg.203]

J.L. Wilson, and T.C. McDevitt, Stem cell microencapsulation for phenotypic control, bioprocessing, and transplantation, Biotechnol. Bioeng., 110 (3) 667-682, Mar. 2013. [Pg.214]


See other pages where Cell microencapsulation is mentioned: [Pg.610]    [Pg.294]    [Pg.689]    [Pg.242]    [Pg.366]    [Pg.307]    [Pg.217]    [Pg.619]    [Pg.855]    [Pg.331]    [Pg.1096]   
See also in sourсe #XX -- [ Pg.366 ]




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