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 …
Sacrificial microgel-laden bioink-enabled 3D bioprinting of mesoscale pore networks
L Shao, Q Gao, C Xie, J Fu, M Xiang, Z Liu… - Bio-design and …, 2020 - Springer
Abstract Three-dimensional (3D) bioprinting is a powerful approach that enables the
fabrication of 3D tissue constructs that retain complex biological functions. However, the …
fabrication of 3D tissue constructs that retain complex biological functions. However, the …
3D printing microporous scaffolds from modular bioinks containing sacrificial, cell-encapsulating microgels
Microgel-based biomaterials have inherent porosity and are often extrudable, making them
well-suited for 3D bioprinting applications. Cells are commonly introduced into these …
well-suited for 3D bioprinting applications. Cells are commonly introduced into these …
3D bioprinting of macroporous materials based on entangled hydrogel microstrands
Hydrogels are excellent mimetics of mammalian extracellular matrices and have found
widespread use in tissue engineering. Nanoporosity of monolithic bulk hydrogels, however …
widespread use in tissue engineering. Nanoporosity of monolithic bulk hydrogels, however …
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 …
Micropore‐forming gelatin methacryloyl (GelMA) bioink toolbox 2.0: Designable tunability and adaptability for 3D bioprinting applications
It is well‐known that tissue engineering scaffolds that feature highly interconnected and size‐
adjustable micropores are oftentimes desired to promote cellular viability, motility, and …
adjustable micropores are oftentimes desired to promote cellular viability, motility, and …
A multifunctional micropore-forming bioink with enhanced anti-bacterial and anti-inflammatory properties
Abstract Three-dimensional (3D) bioprinting has emerged as an enabling tool for various
biomedical applications, such as tissue regeneration and tissue model engineering. To this …
biomedical applications, such as tissue regeneration and tissue model engineering. To this …
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 …
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 …
Triggered micropore-forming bioprinting of porous viscoelastic hydrogels
Cell-laden scaffolds of architecture and mechanics that mimic those of the host tissues are
important for a wide range of biomedical applications but remain challenging to bioprint. To …
important for a wide range of biomedical applications but remain challenging to bioprint. To …