A Perspective on the Physical, Mechanical and Biological Specifications of Bioinks and the Development of Functional Tissues in 3D Bioprinting
D Williams, P Thayer, H Martinez, E Gatenholm… - Bioprinting, 2018
Abstract Bioinks are the basic building blocks for the fabrication of 3D bioprinted
constructs. These bioinks play key roles in structural support, adhesion, and
differentiation of incorporated cells. Due to diversity of tissue types found in the body,
constructs. These bioinks play key roles in structural support, adhesion, and
differentiation of incorporated cells. Due to diversity of tissue types found in the body,
A bilayer photoreceptor‐retinal tissue model with gradient cell density design: a study of microvalve‐based bioprinting
P Shi, TYS Edgar, WY Yeong, LH Yeung, A Laude - Journal of Tissue Engineering …, 2018
Abstract ARPE-19 and Y79 cells were precisely and effectively delivered to form an
in vitro retinal tissue model via 3D cell bioprinting technology. The samples were
characterized by cell viability assay, hematoxylin and eosin (HE) and
in vitro retinal tissue model via 3D cell bioprinting technology. The samples were
characterized by cell viability assay, hematoxylin and eosin (HE) and
Advances in 3D Bioprinting for Neural Tissue Engineering
SJ Lee, T Esworthy, S Stake, S Miao, YY Zuo, BT Harris… - Advanced Biosystems, 2018
Abstract Current therapies for nerve regeneration within injured tissues have had
limited success due to complicated neural anatomy and inhibitory barriers in situ.
Recent advancements in 3D bioprinting technologies have enabled researchers to
limited success due to complicated neural anatomy and inhibitory barriers in situ.
Recent advancements in 3D bioprinting technologies have enabled researchers to
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