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Release from biodegradable

Mathiowitz, E., Leong, K., and Langer, R., Macromolecular drug release from biodegradable polyanhydride microspheres, 12th Int. Symp. Control. Rel. Bioact. Mater., 183-184, 1985. [Pg.69]

Batycky, R.P, Hanes, J., Langer, R., and Edwards, D. A. (1997). A theoretical model of erosion and macromolecular drug release from biodegrading microspheres. J. Pharmaceut. Set, 86, 1464-1477. [Pg.278]

Bodomeier, R., Oh, K., and Chen, H. The effect of the addition of low molecular weight poly(DL-lactide) on drug release from biodegradable poly(DL-lactide) drug delivery systems. Int. J. Pharm. 51 1—8, 1989. [Pg.302]

Drug release from biodegradable polymer microparticles is determined by the polymer degradation kinetics, structural features of the microparticles, and distribution of the drugs within the particle matrix. The ultimate goal of microparticle systems in the controlled drug delivery is to achieve readily tunable release profiles, which has been pursued in various perspectives. [Pg.2322]

Jiang HL et al (2006) Modulation of protein release from biodegradable core-shell structured fibers prepared by coaxial electrospinning. J Biomed Mater Res B Appl Biomater 79B(1) 50-57... [Pg.129]

Berkland C, Kipper MJ, Narasimhan B, et al. Microsphere size, precipitation kinetics and drag distribution control drag release from biodegradable polyanhydride microspheres. J Control Release 2004 94(1) 129-141. [Pg.414]

Takada, S., T. Kurokawa, K. Miyazaki, S. Iwasa, and Y. Ogawa. 1997. Utilization of an amorphous form of a water-soluble GPIIb/IIIa antagonist for controlled release from biodegradable microspheres. Pharm. Res. 14 (9) 1146—1150. [Pg.354]

D. Sendil, 1. Guresel, D. L. Wise, V. Hasirci Antibiotic release from biodegradable PHBV microparticles. J. Control. Release, 59, 207 (1999). [Pg.84]

Jeong B, Bae YH, Kim SW. Drug release from biodegradable injectable thermosensitive hydrogel of PEG-PLGA-PEG triblock copolymers. J Contr Rel 2000 63 155-163. [Pg.317]

Gupta, R.K. Griffin, P.J. Rivera, R. Siber, G.R. Development of an animal model to assess the immu-nogenicity of single-dose tetanus and diphtheria vaccines based on controlled release from biodegradable polymer microspheres. Dev. Biol. Stand. 1998, 92, 277-287. [Pg.612]

Aubert-Pouessel A, Venier-Julienne MC, Clavreul A, Sergent M, JoUivet C, Montero-Menei CN et al. in vitro study of GDNF release from biodegradable PLGA microspheres. Journal of Controlled Release. March 24, 2004 95(3) 463-475. PubMed PMID 15023458. [Pg.1021]

Q. Guo, P.T. Knight, P.T. Mather, Tailored drug release from biodegradable stent coatings based on hybrid polyurethanes, J. Control. Release 137 (2009) 224-233. [Pg.144]

XC Zhang. UP Wyss. D Pichora. MFA Goosen. A mechanistic study of antibiotic release from biodegradable poly(D.L-lactide) cylinders. J. Controlled Release 31 129-144. 1994. [Pg.463]

Li B, Yoshii T, Hafeman AE, Nyman JS, Wenke JC, Guelcher SA. The effects of rhBMP-2 released from biodegradable polyurethane/microsphere composite scaffolds on new bone formation in rat femora. Biomaterials 2009 30(35) 6768-6779. [Pg.373]

Peter, S. J., Lu, L., Kim, D. J., Stamatas, G. N., Miller, M. J., Yaszemski, M, J., and Mikos, A. G. (2000), Effects of transforming growth factor betal released from biodegradable polymer microparticles on marrow stromal osteoblasts cultured on poly(propylene fumarate) substrates, J. Biomed. Mater. Res. 50(3) 452-462. [Pg.388]

Controlled Drug Release from Biodegradable Shape-Memory Polymers... [Pg.177]

See other pages where Release from biodegradable is mentioned: [Pg.143]    [Pg.66]    [Pg.170]    [Pg.280]    [Pg.75]    [Pg.315]    [Pg.62]    [Pg.2257]    [Pg.48]    [Pg.175]    [Pg.128]    [Pg.270]    [Pg.290]    [Pg.299]    [Pg.66]    [Pg.170]    [Pg.1005]    [Pg.215]    [Pg.27]   


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Release from biodegradable polymers

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