|Engineering vascularized skeletal muscle tissue|
S Levenberg, J Rouwkema, M Macdonald, ES Garfein, DS Kohane, ...
Nature biotechnology 23 (7), 879-884, 2005
|Vascularization in tissue engineering|
J Rouwkema, NC Rivron, CA van Blitterswijk
Trends in biotechnology 26 (8), 434-441, 2008
|Spheroid culture as a tool for creating 3D complex tissues|
E Fennema, N Rivron, J Rouwkema, C van Blitterswijk, J De Boer
Trends in biotechnology 31 (2), 108-115, 2013
|Vascularization and angiogenesis in tissue engineering: beyond creating static networks|
J Rouwkema, A Khademhosseini
Trends in biotechnology 34 (9), 733-745, 2016
|Endothelial cells assemble into a 3-dimensional prevascular network in a bone tissue engineering construct|
J Rouwkema, JD Boer, CAV Blitterswijk
Tissue engineering 12 (9), 2685-2693, 2006
|Engineering immunomodulatory biomaterials to tune the inflammatory response|
A Vishwakarma, NS Bhise, MB Evangelista, J Rouwkema, MR Dokmeci, ...
Trends in biotechnology 34 (6), 470-482, 2016
|Oxygen gradients in tissue‐engineered PEGT/PBT cartilaginous constructs: measurement and modeling|
J Malda, J Rouwkema, DE Martens, EP le Comte, FK Kooy, J Tramper, ...
Biotechnology and bioengineering 86 (1), 9-18, 2004
|Engineering vascularised tissues in vitro|
NC Rivron, JJ Liu, J Rouwkema, J de Boer, CA Van Blitterswijk
Eur Cell Mater 15 (2), 2008
|Tissue deformation spatially modulates VEGF signaling and angiogenesis|
NC Rivron, EJ Vrij, J Rouwkema, S Le Gac, A van den Berg, ...
Proceedings of the National Academy of Sciences 109 (18), 6886-6891, 2012
|The use of endothelial progenitor cells for prevascularized bone tissue engineering|
J Rouwkema, PE Westerweel, J De Boer, MC Verhaar, ...
Tissue Engineering Part A 15 (8), 2015-2027, 2009
|Supply of nutrients to cells in engineered tissues|
J Rouwkema, BFJM Koopman, CAV Blitterswijk, WJA Dhert, J Malda
Biotechnology and Genetic Engineering Reviews 26 (1), 163-178, 2009
|Tissue assembly and organization: developmental mechanisms in microfabricated tissues|
NC Rivron, J Rouwkema, R Truckenmüller, M Karperien, J De Boer, ...
Biomaterials 30 (28), 4851-4858, 2009
|Towards 4D printed scaffolds for tissue engineering: exploiting 3D shape memory polymers to deliver time-controlled stimulus on cultured cells|
WJ Hendrikson, J Rouwkema, F Clementi, CA Van Blitterswijk, S Farè, ...
Biofabrication 9 (3), 031001, 2017
|Analysis of the dynamics of bone formation, effect of cell seeding density, and potential of allogeneic cells in cell-based bone tissue engineering in goats|
M Kruyt, J De Bruijn, J Rouwkema, C van Blitterswijk, C Oner, A Verbout, ...
Tissue Engineering Part A 14 (6), 1081-1088, 2008
|Sonic Hedgehog-activated engineered blood vessels enhance bone tissue formation|
NC Rivron, CC Raiss, J Liu, A Nandakumar, C Sticht, N Gretz, ...
Proceedings of the National Academy of Sciences 109 (12), 4413-4418, 2012
|Endothelial cell alignment as a result of anisotropic strain and flow induced shear stress combinations|
R Sinha, S Le Gac, N Verdonschot, A van den Berg, B Koopman, ...
Scientific reports 6 (1), 1-12, 2016
|Biomechanical strain exacerbates inflammation on a progeria‐on‐a‐chip model|
J Ribas, YS Zhang, PR Pitrez, J Leijten, M Miscuglio, J Rouwkema, ...
Small 13 (15), 1603737, 2017
|Tissue Engineering: Advancing Tissue Engineering: A Tale of Nano‐, Micro‐, and Macroscale Integration (Small 16/2016)|
J Leijten, J Rouwkema, YS Zhang, A Nasajpour, MR Dokmeci, ...
Small 12 (16), 2101-2101, 2016
|In vitro platforms for tissue engineering: implications for basic research and clinical translation|
J Rouwkema, S Gibbs, MP Lutolf, I Martin, G Vunjak‐Novakovic, J Malda
Journal of tissue engineering and regenerative medicine 5 (8), e164-e167, 2011
|Engineering photocrosslinkable bicomponent hydrogel constructs for creating 3D vascularized bone|
M Kazemzadeh‐Narbat, J Rouwkema, N Annabi, H Cheng, M Ghaderi, ...
Advanced healthcare materials 6 (10), 1601122, 2017