Nenad Bursac
Cited by
Cited by
Cardiac tissue engineering: cell seeding, cultivation parameters, and tissue construct characterization
RL Carrier, M Papadaki, M Rupnick, FJ Schoen, N Bursac, R Langer, ...
Biotechnology and bioengineering 64 (5), 580-589, 1999
Tissue-engineered cardiac patch for advanced functional maturation of human ESC-derived cardiomyocytes
D Zhang, IY Shadrin, J Lam, HQ Xian, HR Snodgrass, N Bursac
Biomaterials 34 (23), 5813-5820, 2013
Cardiac muscle tissue engineering: toward an in vitro model for electrophysiological studies
N Bursac, M Papadaki, RJ Cohen, FJ Schoen, SR Eisenberg, R Carrier, ...
American Journal of Physiology-Heart and Circulatory Physiology 277 (2 …, 1999
The extracellular matrix protein agrin promotes heart regeneration in mice
E Bassat, YE Mutlak, A Genzelinakh, IY Shadrin, K Baruch Umansky, ...
Nature 547 (7662), 179-184, 2017
Tissue engineering of functional cardiac muscle: molecular, structural, and electrophysiological studies
M Papadaki, N Bursac, R Langer, J Merok, G Vunjak-Novakovic, LE Freed
American Journal of Physiology-Heart and Circulatory Physiology 280 (1 …, 2001
Cardiomyocyte cultures with controlled macroscopic anisotropy: a model for functional electrophysiological studies of cardiac muscle
N Bursac, KK Parker, S Iravanian, L Tung
Circulation research 91 (12), e45-e54, 2002
Cardiopatch platform enables maturation and scale-up of human pluripotent stem cell-derived engineered heart tissues
IY Shadrin, BW Allen, Y Qian, CP Jackman, AL Carlson, ME Juhas, ...
Nature communications 8 (1), 1-15, 2017
Engineered skeletal muscle tissue networks with controllable architecture
W Bian, N Bursac
Biomaterials 30 (7), 1401-1412, 2009
The role of extracellular matrix composition in structure and function of bioengineered skeletal muscle
S Hinds, W Bian, RG Dennis, N Bursac
Biomaterials 32 (14), 3575-3583, 2011
Bioengineered human myobundles mimic clinical responses of skeletal muscle to drugs
L Madden, M Juhas, WE Kraus, GA Truskey, N Bursac
Elife 4, e04885, 2015
Mesoscopic hydrogel molding to control the 3D geometry of bioartificial muscle tissues
W Bian, B Liau, N Badie, N Bursac
Nature protocols 4 (10), 1522-1534, 2009
Pluripotent stem cell-derived cardiac tissue patch with advanced structure and function
B Liau, N Christoforou, KW Leong, N Bursac
Biomaterials 32 (35), 9180-9187, 2011
Biomimetic engineered muscle with capacity for vascular integration and functional maturation in vivo
M Juhas, GC Engelmayr Jr, AN Fontanella, GM Palmer, N Bursac
Proceedings of the National Academy of Sciences 111 (15), 5508-5513, 2014
Engineering human pluripotent stem cells into a functional skeletal muscle tissue
L Rao, Y Qian, A Khodabukus, T Ribar, N Bursac
Nature communications 9 (1), 1-12, 2018
Stoichiometry of Gata4, Mef2c, and Tbx5 influences the efficiency and quality of induced cardiac myocyte reprogramming
L Wang, Z Liu, C Yin, H Asfour, O Chen, Y Li, N Bursac, J Liu, L Qian
Circulation research 116 (2), 237-244, 2015
Effect of electromechanical stimulation on the maturation of myotubes on aligned electrospun fibers
IC Liao, JB Liu, N Bursac, KW Leong
Cellular and molecular bioengineering 1 (2), 133-145, 2008
Dynamic culture yields engineered myocardium with near-adult functional output
CP Jackman, AL Carlson, N Bursac
Biomaterials 111, 66-79, 2016
Cardiac fibroblast paracrine factors alter impulse conduction and ion channel expression of neonatal rat cardiomyocytes
DM Pedrotty, RY Klinger, RD Kirkton, N Bursac
Cardiovascular research 83 (4), 688-697, 2009
Transcription factors MYOCD, SRF, Mesp1 and SMARCD3 enhance the cardio-inducing effect of GATA4, TBX5, and MEF2C during direct cellular reprogramming
N Christoforou, M Chellappan, AF Adler, RD Kirkton, T Wu, RC Addis, ...
PloS one 8 (5), e63577, 2013
Novel anisotropic engineered cardiac tissues: studies of electrical propagation
N Bursac, Y Loo, K Leong, L Tung
Biochemical and biophysical research communications 361 (4), 847-853, 2007
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