Retinal tissue engineering using mouse retinal progenitor cells and a novel biodegradable, thin-film poly(e-caprolactone) nanowire scaffold-Reference-Cited by-同舟云学术

Retinal tissue engineering using mouse retinal progenitor cells and a novel biodegradable, thin-film poly(e-caprolactone) nanowire scaffold

Published:2008-03 Issue:1 Volume:1 Page:19-29
ISSN:1936-8445
Container-title:Journal of Ocular Biology, Diseases, and Informatics
language:en
Short-container-title:j ocul biol dis inform

Author:

Redenti Stephen,Tao Sarah,Yang Jing,Gu Ping,Klassen Henry,Saigal Sunita,Desai Tejal,Young Michael J.

Publisher

Springer Science and Business Media LLC

Subject

Genetics,Ophthalmology

Link

http://www.springerlink.com/index/pdf/10.1007/s12177-008-9005-3

Reference22 articles.

1. Klassen HJ, Ng TF, Kurimoto Y, Kirov I, Shatos M, Coffey P, et al. Multipotent retinal progenitors express developmental markers, differentiate into retinal neurons, and preserve light-mediated behavior. Invest Ophthalmol Vis Sci. 2004;45 11:4167–73 (Nov).

2. MacLaren RE, Pearson RA, MacNeil A, Douglas RH, Salt TE, Akimoto M, et al. Retinal repair by transplantation of photoreceptor precursors. Nature. 2006;444 7116:203–7 (Nov 9).

3. Wojciechowski AB, Englund U, Lundberg C, Warfvinge K. Survival and long distance migration of brain-derived precursor cells transplanted to adult rat retina. Stem Cells. 2004;22 1:27–8.

4. Tomita M, Lavik E, Klassen H, Zahir T, Langer R, Young MJ. Biodegradable polymer composite grafts promote the survival and differentiation of retinal progenitor cells. Stem Cells. 2005;23 10:1579–88 (Nov–Dec).

5. Tao SL, Desai TA. Aligned arrays of biodegradable poly(epsilon-caprolactone) nanowires and nanofibers by template synthesis. Nano Lett. 2007;7 6:695–701 (Jun).

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