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Items: 1 to 20 of 168

1.

Proteolytically degradable hydrogels with a fluorogenic substrate for studies of cellular proteolytic activity and migration.

Lee SH, Miller JS, Moon JJ, West JL.

Biotechnol Prog. 2005 Nov-Dec;21(6):1736-41.

PMID:
16321059
2.
3.
4.

Effects of epidermal growth factor on fibroblast migration through biomimetic hydrogels.

Gobin AS, West JL.

Biotechnol Prog. 2003 Nov-Dec;19(6):1781-5.

PMID:
14656156
5.

Fabrication of poly(ethylene glycol) hydrogel micropatterns with osteoinductive growth factors and evaluation of the effects on osteoblast activity and function.

Subramani K, Birch MA.

Biomed Mater. 2006 Sep;1(3):144-54. doi: 10.1088/1748-6041/1/3/009. Epub 2006 Jul 25.

PMID:
18458396
6.

Molecularly engineered PEG hydrogels: a novel model system for proteolytically mediated cell migration.

Raeber GP, Lutolf MP, Hubbell JA.

Biophys J. 2005 Aug;89(2):1374-88. Epub 2005 May 27.

7.

Anti-inflammatory drug delivery from hyaluronic acid hydrogels.

Hahn SK, Jelacic S, Maier RV, Stayton PS, Hoffman AS.

J Biomater Sci Polym Ed. 2004;15(9):1111-9.

PMID:
15503629
8.

Recombinant protein-co-PEG networks as cell-adhesive and proteolytically degradable hydrogel matrixes. Part II: biofunctional characteristics.

Rizzi SC, Ehrbar M, Halstenberg S, Raeber GP, Schmoekel HG, Hagenmüller H, Müller R, Weber FE, Hubbell JA.

Biomacromolecules. 2006 Nov;7(11):3019-29.

PMID:
17096527
9.

Three-dimensional growth and function of neural tissue in degradable polyethylene glycol hydrogels.

Mahoney MJ, Anseth KS.

Biomaterials. 2006 Apr;27(10):2265-74. Epub 2005 Nov 28.

PMID:
16318872
10.

Synthesis and characterization of biocompatible, degradable, light-curable, polyurethane-based elastic hydrogels.

Zhang C, Zhang N, Wen X.

J Biomed Mater Res A. 2007 Sep 1;82(3):637-50.

PMID:
17323316
11.

Hepatocyte viability and protein expression within hydrogel microstructures.

Itle LJ, Koh WG, Pishko MV.

Biotechnol Prog. 2005 May-Jun;21(3):926-32.

PMID:
15932275
12.

Poly(ethylene glycol) hydrogel microstructures encapsulating living cells.

Koh WG, Revzin A, Pishko MV.

Langmuir. 2002 Apr 2;18(7):2459-62.

PMID:
12088033
13.

A hydrogel prepared by in situ cross-linking of a thiol-containing poly(ethylene glycol)-based copolymer: a new biomaterial for protein drug delivery.

Qiu B, Stefanos S, Ma J, Lalloo A, Perry BA, Leibowitz MJ, Sinko PJ, Stein S.

Biomaterials. 2003 Jan;24(1):11-8.

PMID:
12417173
14.

Rapidly in situ forming biodegradable robust hydrogels by combining stereocomplexation and photopolymerization.

Hiemstra C, Zhou W, Zhong Z, Wouters M, Feijen J.

J Am Chem Soc. 2007 Aug 15;129(32):9918-26. Epub 2007 Jul 24.

PMID:
17645336
15.

Angiogenic competency of biodegradable hydrogels fabricated from polyethylene glycol-crosslinked tyrosine-derived polycarbonates.

Sung HJ, Sakala Labazzo KM, Bolikal D, Weiner MJ, Zimnisky R, Kohn J.

Eur Cell Mater. 2008 Apr 25;15:77-87.

16.

Covalently immobilized gradients of bFGF on hydrogel scaffolds for directed cell migration.

DeLong SA, Moon JJ, West JL.

Biomaterials. 2005 Jun;26(16):3227-34.

PMID:
15603817
17.

Preparation of poly(ethylene glycol) hydrogels with different network structures for the application of enzyme immobilization.

Choi D, Lee W, Park J, Koh W.

Biomed Mater Eng. 2008;18(6):345-56. doi: 10.3233/BME-2008-0551.

PMID:
19197111
18.

Development of porous PEG hydrogels that enable efficient, uniform cell-seeding and permit early neural process extension.

Namba RM, Cole AA, Bjugstad KB, Mahoney MJ.

Acta Biomater. 2009 Jul;5(6):1884-97. doi: 10.1016/j.actbio.2009.01.036. Epub 2009 Feb 1.

PMID:
19250891
19.

Covalently-immobilized vascular endothelial growth factor promotes endothelial cell tubulogenesis in poly(ethylene glycol) diacrylate hydrogels.

Leslie-Barbick JE, Moon JJ, West JL.

J Biomater Sci Polym Ed. 2009;20(12):1763-79. doi: 10.1163/156856208X386381.

PMID:
19723440

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