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Xavier Barceló
Xavier Barceló
Leitat
Verified email at leitat.org
Title
Cited by
Cited by
Year
Force modulation and adaptability of 3D‐bioprinted biological actuators based on skeletal muscle tissue
R Mestre, T Patiño, X Barceló, S Anand, A Pérez‐Jiménez, S Sánchez
Advanced Materials Technologies 4 (2), 1800631, 2019
512019
Integrating melt electrowriting and inkjet bioprinting for engineering structurally organized articular cartilage
A Dufour, XB Gallostra, C O'keeffe, K Eichholz, S Von Euw, O Garcia, ...
Biomaterials 283, 121405, 2022
382022
How to design, develop and build a fully-integrated melt electrowriting 3D printer
KF Eichholz, I Gonçalves, X Barceló, AS Federici, DA Hoey, DJ Kelly
Additive Manufacturing 58, 102998, 2022
282022
Tuning the degradation rate of alginate-based bioinks for bioprinting functional cartilage tissue
X Barceló, KF Eichholz, O Garcia, DJ Kelly
Biomedicines 10 (7), 1621, 2022
232022
Bioprinting of structurally organized meniscal tissue within anisotropic melt electrowritten scaffolds
X Barceló, KF Eichholz, IF Gonçalves, O Garcia, DJ Kelly
Acta biomaterialia 158, 216-227, 2023
142023
Design, optimization and characterization of bio-hybrid actuators based on 3D-bioprinted skeletal muscle tissue
R Mestre, T Patiño, M Guix, X Barceló, S Sanchez
Biomimetic and Biohybrid Systems: 8th International Conference, Living …, 2019
112019
3D bioprinting for meniscus tissue engineering: a review of key components, recent developments and future opportunities
X Barceló, S Scheurer, R Lakshmanan, CJ Moran, F Freeman, DJ Kelly
Journal of 3D printing in medicine 5 (4), 213-233, 2021
92021
3D printing of mechanically functional meniscal tissue equivalents using high concentration extracellular matrix inks
B Wang, X Barceló, S Von Euw, DJ Kelly
Materials Today Bio 20, 100624, 2023
42023
3D bioprinted muscle-based bio-actuators: force adaptability due to training
R Mestre, T Patiño, X Barceló, S Sanchez
Biomimetic and Biohybrid Systems: 7th International Conference, Living …, 2018
42018
Temporal Enzymatic Treatment to Enhance the Remodeling of Multiple Cartilage Microtissues into a Structurally Organized Tissue
R Burdis, XB Gallostra, DJ Kelly
Advanced Healthcare Materials 13 (3), 2300174, 2024
32024
Chondroitinase ABC treatment improves the organization and mechanics of 3D bioprinted meniscal tissue
X Barceló, O Garcia, DJ Kelly
ACS Biomaterials Science & Engineering 9 (6), 3488-3495, 2023
12023
Integrating Melt Electrowriting and Fused Deposition Modeling to Fabricate Hybrid Scaffolds Supportive of Accelerated Bone Regeneration (Adv. Healthcare Mater. 3/2024)
KF Eichholz, P Pitacco, R Burdis, F Chariyev‐Prinz, X Barceló, ...
Advanced Healthcare Materials 13 (3), 2470014, 2024
2024
Integrating Melt Electrowriting and Fused Deposition Modeling to Fabricate Hybrid Scaffolds Supportive of Accelerated Bone Regeneration
KF Eichholz, P Pitacco, R Burdis, F Chariyev‐Prinz, X Barceló, ...
Advanced Healthcare Materials 13 (3), 2302057, 2024
2024
Bioprinting of scaled-up meniscal grafts by spatially patterning phenotypically distinct meniscus progenitor cells within melt electrowritten scaffolds
X Barceló, K Eichholz, I Gonçalves, GS Kronemberger, A Dufour, O Garcia, ...
Biofabrication 16 (1), 015013, 2023
2023
Biofabrication of biomimetic meniscal grafts via the controlled deposition of meniscus progenitor cells within wedged-shaped melt electrowritten scaffolds
XB Gallostra, GS Kronemberger, I Goncalves, DJ Kelly
TISSUE ENGINEERING PART A 29 (13-14), 2023
2023
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