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Membrane biomaterial

Miura S, Teramura Y, Iwata H (2006) Encapsulation of islets with ultra-thin poly ion complex membrane through polyethylene glycol)-phospholipids anchored to cell membrane. Biomaterials 27 5828-5835... [Pg.199]

Teramura Y, Kaneda Y, Iwata H (2007) Islet-encapsulation in ultra-thin layer-by-layer membranes of poly(vinyl alcohol) anchored to poly(ethylene glycol)-lipids in the cell membrane. Biomaterials 28 4818 -825... [Pg.199]

Teramura Y, Kaneda Y, Totani T et al (2008) Behavior of synthetic polymers immobilized on a cell membrane. Biomaterials 29 1345-1355... [Pg.200]

Obaidat, A.A. and Park, K. (1997) Characterization of protein release through glucose-sensitive hydrogel membranes. Biomaterials, 18 801-807. [Pg.395]

The dipolar coupling allows one to obtain distance information that can be used to confirm signal assignment or to elucidate phase separation. Solid state NMR is then a powerful method for investigating molecular conformation and geometry in large molecular systems. The technique is able to provide information about protein structure of membrane, biomaterials and polymers that are not accessible with X-Ray or liquid state NMR spectroscopy. [Pg.284]

The effect of electronegativity and angiotensin-converting enzyme inhibition on the kinin-forming capacity of polyacrylonitrile dialysis membranes. Biomaterials, 29, 1139-1146. [Pg.276]

Kwon OH, Kikuchi A, Yamato M et al (2003) Accelerated cell sheet recovery by co-grafting of PEG with PIPAAm onto porous cell culture membranes. Biomaterials 24 1223-1232 Lai JY, Chen KH, Hsu WM et al (2006) Bioengineered human comeal endothelium for transplantation. Arch Ophthalmol 124 1441-1448... [Pg.264]

Ferritto, M.S. and D.A. Tirrell, Photoregulation of the binding of an azobenzene-modified poly(methacrylic acid) to phosphatidylcholine bilayer membranes. Biomaterials, 1990, 11, 645-651. [Pg.350]

L. De Bartolo, S. MoreUi, M. C. Gallo, C. Campana, G. Statti, M. Rende, S. Salerno, and E. Drioh. Effect of isoliquititigenin on viability and differentiated functions of human hepatocytes maintained on PEEK-WC-polyur-ethane membranes. Biomaterials, 26(33) 6625-6634, November 2005. [Pg.236]

Arica, Y. and Hasirci, V.N., Immobilization of glucose-oxidase in poly(2-hydroxyethyl methacrylate) membranes. Biomaterials, 8,489, 1987. [Pg.977]

V. Charulatha, A. Rajaram, Influence of different crosshnking treatments on the [4iysical prc rties of collagen membranes, Biomaterials 24 (2003) 759-767. [Pg.63]

J.Y. Park, M.H. Acar, A. Akthakul, W. Kuhlman, A.M. Mayes, Polysulfone-graft-poly(ethylene glycol) graft copolymers for surface modification of polysulfone membranes. Biomaterials 27 (6) (2006) 856-865. [Pg.308]

Hoenich, N., A., and Stamp, S., 2000, Clinical investigation of the role of membrane structure on blood contact and solute transport characteristics of a cellulose membrane. Biomaterials 21 317-324... [Pg.78]

Sawhney, A.S. and Hubbell, J.A., Poly(ethylene oxide)-graft-poly(L-lysine) copolymers to enhance the biocompatibility of poly(L-lysine)-alginate microcapsule membranes. Biomaterials, 13, 863 870, 1992. [Pg.864]

Greene, G., Radhakrishna, H. and Tannenbaum, R. 2005. Protein binding properties of surface-modified porous polyethylene membranes. Biomaterials 26 5972-5982. [Pg.207]

Starecki M, Schwartz J, Grande D. Evaluation of amniotic-derived membrane biomaterial as an adjunct for repair of critical sized bone defects. Adv Orthop Surg 2014 572-86. [Pg.173]

Piattelli, A., Scarano, A., Russo, P, Matarasso, S. 1996. Evaluation of guided bone regeneration in rabbit tibia using bioresorbable and nonresorbable membranes. Biomaterials 17 791-796. [Pg.238]

Xue, J., et al., 2014. Drug loaded homogeneous electrospun PCL/gelatin hybrid nanofiber structures for anti-infective tissue regeneration membranes. Biomaterials 35 (34), 9395-9405. [Pg.106]

Pritchard CD, et al. Retinal transplantation using surface modified poly(glycerol-co-sebacic acid) membranes. Biomaterials 2010 31(31) 7978—84. [Pg.522]

Lin DT, Young TH, Fang Y. Studies on the effect of surface properties on the biocompatibility of polyurethane membranes. Biomaterials 2001 22(12) 1521-9. [Pg.64]

In vitro qftocompatibility of MG63 cells on chitosan-organosiloxane hybrid membranes. Biomaterials, 26, 485-493. [Pg.1368]

D.H. Jeong, S.K. Kim, Y.S. Lee, M.H. Cho, Target-specific near-IR induced drug release and photothermal therapy with accumulated Au/Ag hollow nanoshells on pulmonary cancer cell membranes. Biomaterials 45, 81 (2015)... [Pg.207]


See other pages where Membrane biomaterial is mentioned: [Pg.143]    [Pg.145]    [Pg.370]    [Pg.40]    [Pg.872]    [Pg.61]    [Pg.874]    [Pg.1186]   
See also in sourсe #XX -- [ Pg.192 , Pg.306 , Pg.307 , Pg.309 , Pg.311 , Pg.314 ]




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