TY  - JOUR
AU  - Mayoral, Isabel
AU  - Bevilacqua, Elisa
AU  - Gómez, Gorka
AU  - Hmadcha, Abdelkrim
AU  - González-Loscertales, Ignacio
AU  - Reina, Esther
AU  - Sotelo, Julio
AU  - Domínguez, Antonia
AU  - Pérez-Alcántara, Pedro
AU  - Smani, Younes
AU  - González-Puertas, Patricia
AU  - Mendez, Ana
AU  - Uribe, Sergio
AU  - Smani, Tarik
AU  - Ordoñez, Antonio
AU  - Valverde, Israel
PY  - 2022
DO  - 10.1016/j.mtbio.2022.100252
UR  - http://hdl.handle.net/10668/22400
T2  - Materials today. Bio
AB  - Three-dimensional (3D) engineered cardiovascular tissues have shown great promise to replace damaged structures. Specifically, tissue engineering vascular grafts (TEVG) have the potential to replace biological and synthetic grafts. We aimed to design...
LA  - en
KW  - 3D printing
KW  - Electrospinning
KW  - Endothelin Receptor A, ETA
KW  - Endothelin Receptor B, ETB
KW  - Mesenchymal stem cells
KW  - Reverse Transcription, Rt
KW  - Three-dimensional, 3D
KW  - Tissue engineering
KW  - Vascular graft
KW  - anti-alpha-smooth muscle actin, α-SMA
KW  - anti-cluster of differentiation 31, CD31
KW  - anti-fibroblast specific protein 1, FSP1
KW  - anti-smooth muscle protein 22, SM-22
KW  - bone morphogenetic protein, BMP4
KW  - computation fluid dynamic, CFD
KW  - computed tomography, CT
KW  - derived VSMC, dVSMC
KW  - endothelin-1, ET-1
KW  - extracellular matrix, ECM
KW  - fused deposition modelling, FDM
KW  - mesenchymal stem cells, MSC
KW  - platelet-derived growth factor composed by two beta chains, PDGF-BB
KW  - room temperature, RT
KW  - tissue engineering vascular grafts, TEVG
KW  - transforming growth factor beta 1, TGFβ-1
KW  - vascular smooth muscle cells, VSMC
KW  - wall shear stress, WSS
KW  - western blotting, WB
TI  - Tissue engineered in-vitro vascular patch fabrication using hybrid 3D printing and electrospinning.
TY  - research article
VL  - 14
ER  -