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Items: 1 to 20 of 94

1.

Geometric control of vascular networks to enhance engineered tissue integration and function.

Baranski JD, Chaturvedi RR, Stevens KR, Eyckmans J, Carvalho B, Solorzano RD, Yang MT, Miller JS, Bhatia SN, Chen CS.

Proc Natl Acad Sci U S A. 2013 May 7;110(19):7586-91. doi: 10.1073/pnas.1217796110. Epub 2013 Apr 22.

2.

Patterning vascular networks in vivo for tissue engineering applications.

Chaturvedi RR, Stevens KR, Solorzano RD, Schwartz RE, Eyckmans J, Baranski JD, Stapleton SC, Bhatia SN, Chen CS.

Tissue Eng Part C Methods. 2015 May;21(5):509-17. doi: 10.1089/ten.TEC.2014.0258. Epub 2015 Feb 18.

3.

Multiple release of polyplexes of plasmids VEGF and bFGF from electrospun fibrous scaffolds towards regeneration of mature blood vessels.

He S, Xia T, Wang H, Wei L, Luo X, Li X.

Acta Biomater. 2012 Jul;8(7):2659-69. doi: 10.1016/j.actbio.2012.03.044. Epub 2012 Apr 3.

PMID:
22484697
4.

Vascularization of hollow channel-modified porous silk scaffolds with endothelial cells for tissue regeneration.

Zhang W, Wray LS, Rnjak-Kovacina J, Xu L, Zou D, Wang S, Zhang M, Dong J, Li G, Kaplan DL, Jiang X.

Biomaterials. 2015 Jul;56:68-77. doi: 10.1016/j.biomaterials.2015.03.053. Epub 2015 Apr 15.

PMID:
25934280
5.

Rapid casting of patterned vascular networks for perfusable engineered three-dimensional tissues.

Miller JS, Stevens KR, Yang MT, Baker BM, Nguyen DH, Cohen DM, Toro E, Chen AA, Galie PA, Yu X, Chaturvedi R, Bhatia SN, Chen CS.

Nat Mater. 2012 Sep;11(9):768-74. doi: 10.1038/nmat3357. Epub 2012 Jul 1.

6.

Patterned prevascularised tissue constructs by assembly of polyelectrolyte hydrogel fibres.

Leong MF, Toh JK, Du C, Narayanan K, Lu HF, Lim TC, Wan AC, Ying JY.

Nat Commun. 2013;4:2353. doi: 10.1038/ncomms3353.

PMID:
23955534
7.

Fabrication of biomimetic vascular scaffolds for 3D tissue constructs using vascular corrosion casts.

Huling J, Ko IK, Atala A, Yoo JJ.

Acta Biomater. 2016 Mar 1;32:190-7. doi: 10.1016/j.actbio.2016.01.005. Epub 2016 Jan 6.

PMID:
26772527
8.

Cell tri-culture for cardiac vascularization.

Lesman A, Gepstein L, Levenberg S.

Methods Mol Biol. 2014;1181:131-7. doi: 10.1007/978-1-4939-1047-2_12.

PMID:
25070333
9.

Accelerating the early angiogenesis of tissue engineering constructs in vivo by the use of stem cells cultured in matrigel.

Schumann P, Lindhorst D, von See C, Menzel N, Kampmann A, Tavassol F, Kokemüller H, Rana M, Gellrich NC, Rücker M.

J Biomed Mater Res A. 2014 Jun;102(6):1652-62. doi: 10.1002/jbm.a.34826. Epub 2013 Jun 21.

PMID:
23776037
10.

Vascularization of prevascularized and non-prevascularized fibrin-based human adipose tissue constructs after implantation in nude mice.

Verseijden F, Posthumus-van Sluijs SJ, van Neck JW, Hofer SO, Hovius SE, van Osch GJ.

J Tissue Eng Regen Med. 2012 Mar;6(3):169-78. doi: 10.1002/term.410. Epub 2011 Feb 24.

PMID:
21360688
11.

Engineering of human hepatic tissue with functional vascular networks.

Takebe T, Koike N, Sekine K, Fujiwara R, Amiya T, Zheng YW, Taniguchi H.

Organogenesis. 2014 Apr-Jun;10(2):260-7. doi: 10.4161/org.27590. Epub 2014 Jan 22.

12.

Short-term cultivation of in situ prevascularized tissue constructs accelerates inosculation of their preformed microvascular networks after implantation into the host tissue.

Laschke MW, Mussawy H, Schuler S, Kazakov A, Rücker M, Eglin D, Alini M, Menger MD.

Tissue Eng Part A. 2011 Mar;17(5-6):841-53. doi: 10.1089/ten.TEA.2010.0329. Epub 2010 Dec 7.

PMID:
20973748
13.

The delayed addition of human mesenchymal stem cells to pre-formed endothelial cell networks results in functional vascularization of a collagen-glycosaminoglycan scaffold in vivo.

McFadden TM, Duffy GP, Allen AB, Stevens HY, Schwarzmaier SM, Plesnila N, Murphy JM, Barry FP, Guldberg RE, O'Brien FJ.

Acta Biomater. 2013 Dec;9(12):9303-16. doi: 10.1016/j.actbio.2013.08.014. Epub 2013 Aug 17.

PMID:
23958783
14.

The pre-vascularisation of a collagen-chondroitin sulphate scaffold using human amniotic fluid-derived stem cells to enhance and stabilise endothelial cell-mediated vessel formation.

Lloyd-Griffith C, McFadden TM, Duffy GP, Unger RE, Kirkpatrick CJ, O'Brien FJ.

Acta Biomater. 2015 Oct;26:263-73. doi: 10.1016/j.actbio.2015.08.030. Epub 2015 Aug 20.

PMID:
26300337
15.

Scaffold-free Prevascularized Microtissue Spheroids for Pulp Regeneration.

Dissanayaka WL, Zhu L, Hargreaves KM, Jin L, Zhang C.

J Dent Res. 2014 Dec;93(12):1296-303. doi: 10.1177/0022034514550040. Epub 2014 Sep 8.

16.

Versatile fabrication of vascularizable scaffolds for large tissue engineering in bioreactor.

Tocchio A, Tamplenizza M, Martello F, Gerges I, Rossi E, Argentiere S, Rodighiero S, Zhao W, Milani P, Lenardi C.

Biomaterials. 2015 Mar;45:124-31. doi: 10.1016/j.biomaterials.2014.12.031. Epub 2015 Jan 29.

PMID:
25662502
17.

Microfabrication of channel arrays promotes vessel-like network formation in cardiac cell construct and vascularization in vivo.

Zieber L, Or S, Ruvinov E, Cohen S.

Biofabrication. 2014 Jun;6(2):024102. doi: 10.1088/1758-5082/6/2/024102. Epub 2014 Jan 24.

PMID:
24464741
18.

Bladder tissue engineering: tissue regeneration and neovascularization of HA-VEGF-incorporated bladder acellular constructs in mouse and porcine animal models.

Loai Y, Yeger H, Coz C, Antoon R, Islam SS, Moore K, Farhat WA.

J Biomed Mater Res A. 2010 Sep 15;94(4):1205-15. doi: 10.1002/jbm.a.32777.

PMID:
20694987
19.

Accelerated angiogenic host tissue response to poly(L-lactide-co-glycolide) scaffolds by vitalization with osteoblast-like cells.

Tavassol F, Schumann P, Lindhorst D, Sinikovic B, Voss A, von See C, Kampmann A, Bormann KH, Carvalho C, Mülhaupt R, Harder Y, Laschke MW, Menger MD, Gellrich NC, Rücker M.

Tissue Eng Part A. 2010 Jul;16(7):2265-79. doi: 10.1089/ten.TEA.2008.0457.

PMID:
20184434
20.

Novel method to improve vascularization of tissue engineered constructs with biodegradable fibers.

Wong HK, Ivan Lam CR, Wen F, Mark Chong SK, Tan NS, Jerry C, Pal M, Tan LP.

Biofabrication. 2016 Jan 7;8(1):015004. doi: 10.1088/1758-5090/8/1/015004.

PMID:
26741237

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