Ειδοποίηση Μελετητή:[ intitle:Bioprinting ]
[HTML] Special Issue: Organs-on-Chips & 3D–Bioprinting Technologies for Personalized Medicine
YM Elçin - Stem Cell Reviews and Reports, 2017
Micro-physiological systems (MPSs) aim to model various diseases, different stages of
disease development, immunogenicity, toxicity, while also allowing researchers to develop
accurate ADME profiles for the development of safe and effective drug candidates prior to
disease development, immunogenicity, toxicity, while also allowing researchers to develop
accurate ADME profiles for the development of safe and effective drug candidates prior to
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3D Bioprinting Human Induced Pluripotent Stem Cell Constructs for In Situ Cell Proliferation and Successive Multilineage Differentiation
Q Gu, E Tomaskovic‐Crook, GG Wallace, JM Crook - Advanced Healthcare Materials, 2017
Abstract The ability to create 3D tissues from induced pluripotent stem cells (iPSCs) is
poised to revolutionize stem cell research and regenerative medicine, including
individualized, patient-specific stem cell-based treatments. There are, however, few
poised to revolutionize stem cell research and regenerative medicine, including
individualized, patient-specific stem cell-based treatments. There are, however, few
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3D bioprinting of highly thixotropic alginate/methylcellulose hydrogel with strong interface bonding
H Li, YJ Tan, KF Leong, L Li - ACS Applied Materials & Interfaces, 2017
A robust alginate/methylcellulose (Alg/MC) blend hydrogel, with a strategy to improve
adhesion between printed layers, has been fabricated for the first time for 3D bioprinting.
The optimized Alg/MC blend hydrogel exhibits highly thixotropic property, great extrudability
adhesion between printed layers, has been fabricated for the first time for 3D bioprinting.
The optimized Alg/MC blend hydrogel exhibits highly thixotropic property, great extrudability
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Engineering muscle cell alignment through 3D bioprinting
P Mozetic, S Maria Giannitelli, M Gori, M Trombetta… - Journal of Biomedical Materials …
ABSTRACT Processing of hydrogels represents a main challenge for the prospective
application of additive manufacturing (AM) to soft tissue engineering. Furthermore, direct
manufacturing of tissue precursors with a cell density similar to native tissues has the
application of additive manufacturing (AM) to soft tissue engineering. Furthermore, direct
manufacturing of tissue precursors with a cell density similar to native tissues has the
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