Advances in gelatin bioinks to optimize bioprinted cell functions
Gelatin is a widely utilized bioprinting biomaterial due to its cell‐adhesive and enzymatically
cleavable properties, which improve cell adhesion and growth. Gelatin is often covalently …
cleavable properties, which improve cell adhesion and growth. Gelatin is often covalently …
Review on multicomponent hydrogel bioinks based on natural biomaterials for bioprinting 3D liver tissues
Three-dimensional (3D)-printed in vitro tissue models have been used in various biomedical
fields owing to numerous advantages such as enhancements in cell response and …
fields owing to numerous advantages such as enhancements in cell response and …
In situ 3D bioprinting: A promising technique in advanced biofabrication strategies
Abstract 3D bioprinting is a potential technique for developing functional 3D tissues for
tissue engineering and regenerative medicine applications. Recently, the direct formation of …
tissue engineering and regenerative medicine applications. Recently, the direct formation of …
Current advancements in bio-ink technology for cartilage and bone tissue engineering
In tissue engineering, the fate of a particular organ/tissue regeneration and repair mainly
depends on three pillars-3D architecture, cells used, and stimulus provided. 3D cell …
depends on three pillars-3D architecture, cells used, and stimulus provided. 3D cell …
Chitosan as an underrated polymer in modern tissue engineering
Chitosan is one of the most well-known and characterized materials applied in tissue
engineering. Due to its unique chemical, biological and physical properties chitosan is …
engineering. Due to its unique chemical, biological and physical properties chitosan is …
pH-induced 3D printable chitosan hydrogels for soft actuation
S Maiz-Fernández, L Pérez-Álvarez, U Silván… - Polymers, 2022 - mdpi.com
Three-dimensional (3D) printing represents a suitable technology for the development of
biomimetic scaffolds for biomedical and tissue engineering applications. However, hydrogel …
biomimetic scaffolds for biomedical and tissue engineering applications. However, hydrogel …
Natural/synthetic polymer materials for bioink development
SH Moon, HN Choi, YJ Yang - Biotechnology and Bioprocess Engineering, 2022 - Springer
Abstract Three-dimensional (3D) printing (or additive manufacturing) is a manufacturing
technology that produces 3D objects layer-by-layer automatically. Since the 1980s, 3D …
technology that produces 3D objects layer-by-layer automatically. Since the 1980s, 3D …
Preparation and characterization of PVA/Chitosan cross-linked 3D scaffolds for liver tissue engineering
In this study, chitosan, and PVA are used to fabricate scaffolds using the 3D bioprinting
technique for liver tissue engineering. PVA and chitosan hydrogels are cross-linked by the …
technique for liver tissue engineering. PVA and chitosan hydrogels are cross-linked by the …
Bioprinting au natural: the biologics of bioinks
K Willson, A Atala, JJ Yoo - Biomolecules, 2021 - mdpi.com
The development of appropriate bioinks is a complex task, dependent on the mechanical
and biochemical requirements of the final construct and the type of printer used for …
and biochemical requirements of the final construct and the type of printer used for …
Techniques and applications in 3D bioprinting with chitosan bio-inks for drug delivery: A review
Z Yao, X Feng, Z Wang, Y Zhan, X Wu, W Xie… - International Journal of …, 2024 - Elsevier
Three-dimensional bioprinting leverages computer-aided design to construct tissues and
organs with specialized bioinks. A notable biomaterial for this purpose is chitosan, a natural …
organs with specialized bioinks. A notable biomaterial for this purpose is chitosan, a natural …