Engineering multi‐cellular spheroids for tissue engineering and regenerative medicine
Multi‐cellular spheroids are formed as a 3D structure with dense cell–cell/cell–extracellular
matrix interactions, and thus, have been widely utilized as implantable therapeutics and …
matrix interactions, and thus, have been widely utilized as implantable therapeutics and …
Emerging biofabrication strategies for engineering complex tissue constructs
The demand for organ transplantation and repair, coupled with a shortage of available
donors, poses an urgent clinical need for the development of innovative treatment strategies …
donors, poses an urgent clinical need for the development of innovative treatment strategies …
Bioprinting and its applications in tissue engineering and regenerative medicine
Bioprinting of three-dimensional constructs mimicking natural-like extracellular matrix has
revolutionized biomedical technology. Bioprinting technology circumvents various …
revolutionized biomedical technology. Bioprinting technology circumvents various …
[HTML][HTML] A review of 3D polymeric scaffolds for bone tissue engineering: principles, fabrication techniques, immunomodulatory roles, and challenges
Over the last few years, biopolymers have attracted great interest in tissue engineering and
regenerative medicine due to the great diversity of their chemical, mechanical, and physical …
regenerative medicine due to the great diversity of their chemical, mechanical, and physical …
[HTML][HTML] Advanced strategies for 3D bioprinting of tissue and organ analogs using alginate hydrogel bioinks
Alginate is a natural polysaccharide that typically originates from various species of algae.
Due to its low cost, good biocompatibility, and rapid ionic gelation, the alginate hydrogel has …
Due to its low cost, good biocompatibility, and rapid ionic gelation, the alginate hydrogel has …
Bioactive inorganic particles‐based biomaterials for skin tissue engineering
J Ma, C Wu - Exploration, 2022 - Wiley Online Library
The challenge for treatment of severe cutaneous wound poses an urgent clinical need for
the development of biomaterials to promote skin regeneration. In the past few decades …
the development of biomaterials to promote skin regeneration. In the past few decades …
Chemical insights into bioinks for 3D printing
3D printing has triggered the acceleration of numerous research areas in health sciences,
which traditionally used cells as starting materials, in particular tissue engineering …
which traditionally used cells as starting materials, in particular tissue engineering …
3D printing of microgel scaffolds with tunable void fraction to promote cell infiltration
AJ Seymour, S Shin… - Advanced healthcare …, 2021 - Wiley Online Library
Granular, microgel‐based materials have garnered interest as promising tissue engineering
scaffolds due to their inherent porosity, which can promote cell infiltration. Adapting these …
scaffolds due to their inherent porosity, which can promote cell infiltration. Adapting these …
On low-concentration inks formulated by nanocellulose assisted with gelatin methacrylate (GelMA) for 3D printing toward wound healing application
Cellulose nanofibrils (CNFs) in the form of hydrogels stand out as a platform biomaterial in
bioink formulation for 3D printing because of their low cytotoxicity and structural similarity to …
bioink formulation for 3D printing because of their low cytotoxicity and structural similarity to …
Designing decellularized extracellular matrix‐based bioinks for 3D bioprinting
A Abaci, M Guvendiren - Advanced healthcare materials, 2020 - Wiley Online Library
Abstract 3D bioprinting is an emerging technology to fabricate tissues and organs by
precisely positioning cells into 3D structures using printable cell‐laden formulations known …
precisely positioning cells into 3D structures using printable cell‐laden formulations known …