Clickable PEG hydrogel microspheres as building blocks for 3D bioprinting
Three-dimensional (3D) bioprinting is important in the development of complex tissue
structures for tissue engineering and regenerative medicine. However, the materials used …
structures for tissue engineering and regenerative medicine. However, the materials used …
3D bioprinting of molecularly engineered PEG-based hydrogels utilizing gelatin fragments
Abstract Three-dimensional (3D) bioprinting is an additive manufacturing process in which
the combination of biomaterials and living cells, referred to as a bioink, is deposited layer-by …
the combination of biomaterials and living cells, referred to as a bioink, is deposited layer-by …
Aqueous two‐phase emulsion bioink‐enabled 3D bioprinting of porous hydrogels
Abstract 3D bioprinting technology provides programmable and customizable platforms to
engineer cell‐laden constructs mimicking human tissues for a wide range of biomedical …
engineer cell‐laden constructs mimicking human tissues for a wide range of biomedical …
Click chemistry hydrogels for extrusion bioprinting: progress, challenges, and opportunities
The emergence of 3D bioprinting has allowed a variety of hydrogel-based “bioinks” to be
printed in the presence of cells to create precisely defined cell-loaded 3D scaffolds in a …
printed in the presence of cells to create precisely defined cell-loaded 3D scaffolds in a …
Employing PEG crosslinkers to optimize cell viability in gel phase bioinks and tailor post printing mechanical properties
The field of 3D bioprinting has rapidly grown, yet the fundamental ability to manipulate
material properties has been challenging with current bioink methods. Here, we change …
material properties has been challenging with current bioink methods. Here, we change …
Exploiting the role of nanoparticles for use in hydrogel-based bioprinting applications: Concept, design, and recent advances
Three-dimensional (3D) bioprinting is an emerging tissue engineering approach that aims to
develop cell or biomolecule-laden, complex polymeric scaffolds with high precision, using …
develop cell or biomolecule-laden, complex polymeric scaffolds with high precision, using …
3D printing of cell‐laden microgel‐based biphasic bioink with heterogeneous microenvironment for biomedical applications
A major challenge in 3D extrusion bioprinting is the limited number of bioink that fulfills the
opposing requirements for printability with requisite rheological properties and for …
opposing requirements for printability with requisite rheological properties and for …
Nanoengineered granular hydrogel bioinks with preserved interconnected microporosity for extrusion bioprinting
Z Ataie, S Kheirabadi, JW Zhang, A Kedzierski… - Small, 2022 - Wiley Online Library
Abstract 3D bioprinting of granular hydrogels comprising discrete hydrogel microparticles
(microgels) may overcome the intrinsic structural limitations of bulk (nanoporous) hydrogel …
(microgels) may overcome the intrinsic structural limitations of bulk (nanoporous) hydrogel …
Bioprintable tough hydrogels for tissue engineering applications
P Dorishetty, NK Dutta, NR Choudhury - Advances in Colloid and Interface …, 2020 - Elsevier
Bioprinting is an advanced fabrication approach to engineer complex living structures as the
conventional fabrication methods are incapable of integrating structural and biological …
conventional fabrication methods are incapable of integrating structural and biological …
Tunable microgel‐templated porogel (MTP) bioink for 3D bioprinting applications
L Ouyang, JP Wojciechowski, J Tang… - Advanced …, 2022 - Wiley Online Library
Micropores are essential for tissue engineering to ensure adequate mass transportation for
embedded cells. Despite the considerable progress made by advanced 3D bioprinting …
embedded cells. Despite the considerable progress made by advanced 3D bioprinting …