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Correction: Microspheres for 3D bioprinting: a review of fabrication methods and applications. [PDF]
Front Bioeng BiotechnolKaraman D +7 more
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Radiofrequency and microwave 3D bioprinting of emulsion gel for dysphagia diets. [PDF]
Sci RepTsubaki S +5 more
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Stereolithography 3D Bioprinting
2020Stereolithography (SLA) 3D bioprinting has emerged as a prominent bioprinting method addressing the requirements of complex tissue fabrication. This chapter addresses the advancement in SLA 3D bioprinting in concurrent with the development of novel photocrosslinkable biomaterials with enhanced physical and chemical properties.
Hitendra, Kumar, Keekyoung, Kim
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3D Bioprinted Multicellular Vascular Models
Advanced Healthcare Materials, 2021Abstract3D bioprinting is an emerging additive manufacturing technique to fabricate constructs for human disease modeling. However, current cell‐laden bioinks lack sufficient biocompatibility, printability, and structural stability needed to translate this technology to preclinical and clinical trials. Here, a new class of nanoengineered hydrogel‐based
Karli A. Gold +8 more
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3D Bioprinting of Neural Tissues
Advanced Healthcare Materials, 2020AbstractThe human nervous system is a remarkably complex physiological network that is inherently challenging to study because of obstacles to acquiring primary samples. Animal models offer powerful alternatives to study nervous system development, diseases, and regenerative processes, however, they are unable to address some species‐specific features ...
Melissa Cadena +6 more
openaire +2 more sources
2019
Tissue engineering aims to restore complete functionality to damaged or diseased organs by implanting cell-free or cell-laden scaffolds or in vitro engineered tissues. Accurately recapitulating the complexity of native tissues and organs remains a challenge using traditional tissue engineering strategies, and hence clinical translation of such ...
Ross Burdis, Daniel J. Kelly
openaire +1 more source
Tissue engineering aims to restore complete functionality to damaged or diseased organs by implanting cell-free or cell-laden scaffolds or in vitro engineered tissues. Accurately recapitulating the complexity of native tissues and organs remains a challenge using traditional tissue engineering strategies, and hence clinical translation of such ...
Ross Burdis, Daniel J. Kelly
openaire +1 more source
2019
Enabling the precise deposition of various cells and biomaterials at pre defined position, 3D bioprinting techniques have emerged as a promising tool to recapitulate the actual microenvironment of native tissues/organs at in vitro system. Based on their working principle, the main techniques are mainly classified into extrusion-based, inkjet-based, and
Dong-Woo Cho +5 more
openaire +1 more source
Enabling the precise deposition of various cells and biomaterials at pre defined position, 3D bioprinting techniques have emerged as a promising tool to recapitulate the actual microenvironment of native tissues/organs at in vitro system. Based on their working principle, the main techniques are mainly classified into extrusion-based, inkjet-based, and
Dong-Woo Cho +5 more
openaire +1 more source