[HTML][HTML] Embedded 3D bioprinting–An emerging strategy to fabricate biomimetic & large vascularized tissue constructs
H Budharaju, D Sundaramurthi, S Sethuraman - Bioactive Materials, 2024 - Elsevier
Three–dimensional bioprinting is an advanced tissue fabrication technique that allows
printing complex structures with precise positioning of multiple cell types layer–by–layer …
printing complex structures with precise positioning of multiple cell types layer–by–layer …
3D bioprinted chitosan-based hydrogel scaffolds in tissue engineering and localised drug delivery
Bioprinting is an emerging technology with various applications in developing functional
tissue constructs for the replacement of harmed or damaged tissues and simultaneously …
tissue constructs for the replacement of harmed or damaged tissues and simultaneously …
[HTML][HTML] A comprehensive review on hydrogel-based bio-ink development for tissue engineering scaffolds using 3D printing
Abstract Three-dimensional (3D) bioprinting technology allows the production of porous
structures with complex and varied geometries, which facilitates the development of equally …
structures with complex and varied geometries, which facilitates the development of equally …
Self-healing, injectable chitosan-based hydrogels: structure, properties and biological applications
Conventional biomaterials suffer from mechanical stresses and biochemical degradation,
compromising performance and structural integrity. Hydrogels are three-dimensional …
compromising performance and structural integrity. Hydrogels are three-dimensional …
Chitosan crosslinkers and their functionality in 3D bioprinting to produce chitosan-based bioinks
Chitosan is a nontoxic natural material at a reasonable price. These two essential properties
of chitosan make it attractive in research and industries related to tissue engineering and 3D …
of chitosan make it attractive in research and industries related to tissue engineering and 3D …
Sacrificial biomaterials in 3D fabrication of scaffolds for tissue engineering applications
Abstract Three‐dimensional (3D) printing technology has progressed exceedingly in the
area of tissue engineering. Despite the tremendous potential of 3D printing, building …
area of tissue engineering. Despite the tremendous potential of 3D printing, building …
Self-assembled chitosan/gelatin nanofibrous aggregates incorporated thermosensitive nanocomposite bioink for bone tissue engineering
T Bharadwaj, S Chrungoo, D Verma - Carbohydrate Polymers, 2024 - Elsevier
Chitosan-based thermosensitive bioink can be a potential option as bioinks for bone tissue
engineering because of their excellent biocompatibility and crosslinker-free gelation at …
engineering because of their excellent biocompatibility and crosslinker-free gelation at …
Thixotropic chitosan hydrogels for biomedical applications: Unravelling the effect of chitosan concentration on the mechanical behaviour
K Enoch, AA Somasundaram - Surfaces and Interfaces, 2024 - Elsevier
Chitosan hydrogels are highly sought after in biomedical applications due to their
biocompatibility, non-toxicity, and tunable mechanical properties. Nevertheless, achieving …
biocompatibility, non-toxicity, and tunable mechanical properties. Nevertheless, achieving …
Dissecting the Interplay Mechanism among Process Parameters toward the Biofabrication of High‐Quality Shapes in Embedded Bioprinting
Embedded bioprinting overcomes the barriers associated with the conventional extrusion‐
based bioprinting process as it enables the direct deposition of bioinks in 3D inside a …
based bioprinting process as it enables the direct deposition of bioinks in 3D inside a …
FRESH-based 3D bioprinting of complex biological geometries using chitosan bioink
Abstract Traditional three-dimensional (3D) bioprinting has always been associated with the
challenge of print fidelity of complex geometries due to the gel-like nature of the bioinks …
challenge of print fidelity of complex geometries due to the gel-like nature of the bioinks …