Magnetic seeding

Nondestructive monitoring of tissue-engineered constructs
Frese J, Morgenroth A, E. Mertens. M, Koch S. et al.
Biomed Technology. 2013; 9:1-11
Contribution and future perspectives on the use of magnetic nanoparticles as diagnostic and therapeutic tools in the field of regenerative medicine
Santos VE, Rodrigues MT, Gomes ME
Expert Reviews Molecular Diagnosis. 2013; 13(6):553-66
Effects of weak static magnetic fields on endothelial cells
Martino CF, Perea H, Hopfner U, Ferguson VL, Wintermantel E
Bioelectromagnetics. 2010; 31(4):296-301
Nucleic acid delivery to magnetically-labeled cells in a 2D array and at the luminal surface of cell culture tube and their detection by MRI
Mykhaylyk O, Steingötter A, Perea H, Aigner J, Botnar R, Plank C
J Biomed Nanotechnol. 2009; 5(6):692-706
Vascular Engineering in Medizintechnik Life Science Engineering
Perea H, Methe H
Springer Verlag. 2009  
A visible antithrombogenic biosurface for synthetic vascular grafts
Perea H, Heverhagen J, Aigner J, Feix I, Repmann S, Stemberger A, Wintermantel E
European Cells and Materials. 2007
Vascular tissue engineering with magnetic nanoparticles: seeing deeper
Perea H, Aigner J, Heverhagen JT, Hopfner U, Wintermantel E
J Tissue Eng Regen Med. 2007; 1(4):318-21
Direct magnetic tubular cell seeding: a novel approach for vascular tissue engineering
Perea H, Aigner J, Hopfner U, Wintermantel E
Cells Tissues Organs. 2006; 183(3):156-65

Vascular Engineering

The role of scaffold microarchitecture in engineering endothelial cell immunomodulation
Indolfi L, Baker AB, Edelman ER
Biomaterials. 2012; 33(29):7019-27
Vascular tissue engineering: the next generation
Cleary MA, Geiger E, Grady C, Best C, Naito Y, Breuer C
Trends Mol Med. 2012; 18(7):394-404
Tissue engineering a small diameter vessel substitute: engineering constructs with select biomaterials and cells
McBane JE, Sharifpoor S, Labow RS, Ruel M, Suuronen EJ, Santerre JP
Curr Vasc Pharmacol. 2012; 10(3):347-60
Engineered arterial models to correlate blood flow to tissue biological response
Martorell J, Santomá P, Molins JJ, García-Granada AA, Bea JA, Edelman ER, Balcells M
Ann N Y Acad Sci. 2012; 1254:51-6
The evolution of endothelial regulatory paradigms in cancer biology and vascular repair
Franses JW, Edelman ER
Cancer Res. 2011; 71(24):7339-44.
Endothelialized biomaterials for tissue engineering applications in vivo
Khan OF, Sefton MV.
Trends Biotechnol 2011; 29(8):379-87.
Case study: first implantation of a frozen, devitalized tissue-engineered vascular graft for urgent hemodialysis access
Wystrychowski W, Cierpka L, Zagalski K, Garrido S, Dusserre N, Radochonski S, McAllister TN, L'Heureux N
J Vasc Access. 2011; 12(1):67-70
Novel approach by nanobiomaterials in vascular tissue engineering
Hung HS, Chen HC, Tsai CH, Lin SZ
Cell Transplant. 2011; 20(1):63-70.
Biomaterials for vascular tissue engineering
Ravi S, Chaikof EL.
Regen Med. 2010; 5(1):107-20
Biofunctionalization of biomaterials for accelerated in situ endothelialization: a review
de Mel A, Jell G, Stevens MM, Seifalian AM
Biomacromolecules. 2008; 9(11):2969-79
Developments towards tissue-engineered, small-diameter arterial substitutes
Bordenave L, Menu P, Baquey C
Expert Rev Med Devices. 2008; 5(3):337-47
Magnetic control of vascular network formation with magnetically labeled endothelial progenitor cells
Wilhelm C, Bal L, Smirnov P, Galy-Fauroux I, Clément O, Gazeau F, Emmerich J
Biomaterials. 2007; 28(26):3797