TY  - GEN
AU  - Chocarro-Wrona, Carlos
AU  - de Vicente, Juan
AU  - Antich, Cristina
AU  - Jiménez, Gema
AU  - Martínez-Moreno, Daniel
AU  - Carrillo, Esmeralda
AU  - Montañez, Elvira
AU  - Gálvez-Martín, Patricia
AU  - Perán, Macarena
AU  - López-Ruiz, Elena
AU  - Marchal, Juan Antonio
PY  - 2020
DO  - 10.1002/btm2.10192
UR  - http://hdl.handle.net/20.500.12105/18136
AB  - Tissue engineering (TE) seeks to fabricate implants that mimic the mechanical strength, structure, and composition of native tissues. Cartilage TE requires the development of functional personalized implants with cartilage-like mechanical properties...
LA  - eng
PB  - Wiley
KW  - 1,4-butanediol thermoplastic polyurethane
KW  - 3D bioprinting
KW  - MSCs
KW  - Elastomer
KW  - Tissue engineering
KW  - Chondrogenesis
KW  - Poliuretanos
KW  - Bioimpresión
KW  - Elastómeros
KW  - Ingeniería de tejidos
KW  - Condrogénesis
KW  - Células madre mesenquimatosas
KW  - Humans
KW  - Tissue Engineering
KW  - Chondrogenesis
KW  - Bioprinting
KW  - Polyurethanes
KW  - Cartilage, Articular
KW  - Cell Survival
KW  - Friction
KW  - Weight-Bearing
KW  - Biocompatible Materials
KW  - Polyesters
KW  - Extracellular Matrix Proteins
KW  - Microscopy, Confocal
KW  - Butylene Glycols
KW  - Elasticity
TI  - Validation of the 1,4-butanediol thermoplastic polyurethane as a novel material for 3D bioprinting applications
TY  - research article
ER  -