3D-JOINT–3D Bioprinting of JOINT Replacements–H2020
J Malda - Impact, 2017
The world has a significant medical challenge in repairing injured or diseased joints. Joint
degeneration and its related pain is a major socio-economic burden that will increase over
the next decade and is currently addressed by implanting a metal prosthesis. For the long
degeneration and its related pain is a major socio-economic burden that will increase over
the next decade and is currently addressed by implanting a metal prosthesis. For the long
3D neural tissue models: From spheroids to bioprinting
P Zhuang, AX Sun, J An, CK Chua, SY Chew - Biomaterials, 2018
Abstract Three-dimensional (3D) in vitro neural tissue models provide a better recapitulation
of in vivo cell-cell and cell-extracellular matrix interactions than conventional two-
dimensional (2D) cultures. Therefore, the former is believed to have great potential for both
of in vivo cell-cell and cell-extracellular matrix interactions than conventional two-
dimensional (2D) cultures. Therefore, the former is believed to have great potential for both
A graphene–polyurethane composite hydrogel as a potential bioink for 3D bioprinting and differentiation of neural stem cells
CT Huang, LK Shrestha, K Ariga, S Hsu - Journal of Materials Chemistry B, 2017
3D bioprinting is known as an additive manufacturing technology that builds customized
structures from cells and supporting biocompatible materials for the repair of damaged
tissues or organs. In this study, we prepared water-dispersible graphene and graphene
structures from cells and supporting biocompatible materials for the repair of damaged
tissues or organs. In this study, we prepared water-dispersible graphene and graphene
Fast Setting Silk Fibroin Bioink for Bioprinting of Patient‐Specific Memory‐Shape Implants
JB Costa, J Silva‐Correia, JM Oliveira, RL Reis - Advanced Healthcare Materials, 2017
Abstract The pursuit for the "perfect" biomimetic and personalized implant for
musculoskeletal tissue regeneration remains a big challenge. 3D printing technology that
makes use of a novel and promising biomaterials can be part of the solution. In this study, a
musculoskeletal tissue regeneration remains a big challenge. 3D printing technology that
makes use of a novel and promising biomaterials can be part of the solution. In this study, a
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