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Research Article

Controlled release of transforming growth factor-β from lipid-based microcylinders

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Pages 247-254 | Received 04 Oct 1993, Accepted 21 Feb 1994, Published online: 27 Sep 2008

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Manju RAWAT, Deependra SINGH, S. SARAF & Swarnlata SARAF. (2008) Lipid Carriers: A Versatile Delivery Vehicle for Proteins and Peptides. YAKUGAKU ZASSHI 128:2, pages 269-280.
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Lin Guo, Pramit Chowdhury, Jiyu Fang & Feng Gai. (2007) Heterogeneous and Anomalous Diffusion inside Lipid Tubules. The Journal of Physical Chemistry B 111:51, pages 14244-14249.
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Xiaojun YuRavi V. Bellamkonda. (2003) Tissue-Engineered Scaffolds Are Effective Alternatives to Autografts for Bridging Peripheral Nerve Gaps. Tissue Engineering 9:3, pages 421-430.
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Nancy J Meilander, Murali K Pasumarthy, Tomasz H Kowalczyk, Mark J Cooper & Ravi V Bellamkonda. (2003) Sustained release of plasmid DNA using lipid microtubules and agarose hydrogel. Journal of Controlled Release 88:2, pages 321-331.
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Alex S Goldstein, John K Amory, Stephanie M Martin, Chris Vernon, Alvin Matsumoto & Paul Yager. (2001) Testosterone delivery using glutamide-based complex high axial ratio microstructures. Bioorganic & Medicinal Chemistry 9:11, pages 2819-2825.
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Nancy J. Meilander, Xiaojun Yu, Nicholas P. Ziats & Ravi V. Bellamkonda. (2001) Lipid-based microtubular drug delivery vehicles. Journal of Controlled Release 71:1, pages 141-152.
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Susan J. Peter, Lichun Lu, Daniel J. Kim, Georgios N. Stamatas, Michael J. Miller, Michael J. Yaszemski & Antonios G. Mikos. (2000) Effects of transforming growth factor ?1 released from biodegradable polymer microparticles on marrow stromal osteoblasts cultured on poly(propylene fumarate) substrates. Journal of Biomedical Materials Research 50:3, pages 452-462.
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Xiaojun YuGeorge P. DillonRavi V. Bellamkonda. (1999) A Laminin and Nerve Growth Factor-Laden Three-Dimensional Scaffold for Enhanced Neurite Extension. Tissue Engineering 5:4, pages 291-304.
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Huaiyu Hu. (1999) Chemorepulsion of Neuronal Migration by Slit2 in the Developing Mammalian Forebrain. Neuron 23:4, pages 703-711.
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Ursula Gietz, Tudor Arvinte, Evelyn Mader, Peter Oroszlan & Hans P Merkle. (1998) Sustained release of injectable zinc-recombinant hirudin suspensions: development and validation of in vitro release model. European Journal of Pharmaceutics and Biopharmaceutics 45:3, pages 259-264.
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Kyujin C Lee, Anatoly N Lukyanov, Michael H Gelb & Paul Yager. (1998) Formation of high axial ratio microstructures from peptides modified with glutamic acid dialkyl amides. Biochimica et Biophysica Acta (BBA) - Biomembranes 1371:2, pages 168-184.
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Iveta D. Dinbergs, Larry Brown & Elazer R. Edelman. (1996) Cellular Response to Transforming Growth Factor-β1 and Basic Fibroblast Growth Factor Depends on Release Kinetics and Extracellular Matrix Interactions. Journal of Biological Chemistry 271:47, pages 29822-29829.
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