Cellulose and its derivatives: towards biomedical applications
Cellulose is the most abundant polysaccharide on Earth. It can be obtained from a vast
number of sources, eg cell walls of wood and plants, some species of bacteria, and algae …
number of sources, eg cell walls of wood and plants, some species of bacteria, and algae …
Hydrogel scaffolds for tissue engineering: the importance of polymer choice
CD Spicer - Polymer Chemistry, 2020 - pubs.rsc.org
Hydrogel scaffolds that can repair or regrow damaged biological tissue have great potential
for the treatment of injury and disease. These biomaterials are widely used in the tissue …
for the treatment of injury and disease. These biomaterials are widely used in the tissue …
[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 Bioprinting of osteochondral tissue substitutes – in vitro-chondrogenesis in multi-layered mineralized constructs
For the generation of multi-layered full thickness osteochondral tissue substitutes with an
individual geometry based on clinical imaging data, combined extrusion-based 3D printing …
individual geometry based on clinical imaging data, combined extrusion-based 3D printing …
Application of 3D-bioprinted nanocellulose and cellulose derivative-based bio-inks in bone and cartilage tissue engineering
L Lin, S Jiang, J Yang, J Qiu, X Jiao… - International …, 2022 - pmc.ncbi.nlm.nih.gov
212Three-dimensional (3D) printing is a modern, computer-aided, design-based technology
that allows the layer-by-layer deposition of 3D structures. Bioprinting, a 3D printing …
that allows the layer-by-layer deposition of 3D structures. Bioprinting, a 3D printing …
Thermo-responsive methylcellulose hydrogels: From design to applications as smart biomaterials
Methylcellulose (MC) is an attractive material used to produce thermo-responsive hydrogels.
They undergo sol-gel transition when a critical temperature is reached, thus modifying their …
They undergo sol-gel transition when a critical temperature is reached, thus modifying their …
Rheological analysis of bio-ink for 3D bio-printing processes
Abstract 3D bio-printing is an emerging technology to fabricate tissue scaffold in-vitro
through the controlled allocation of biomaterial and cells, which can mimic the in-vivo …
through the controlled allocation of biomaterial and cells, which can mimic the in-vivo …
A novel plasma-based bioink stimulates cell proliferation and differentiation in bioprinted, mineralized constructs
Extrusion-based bioprinting, also known as 3D bioplotting, is a powerful tool for the
fabrication of tissue equivalents with spatially defined cell distribution. Even though …
fabrication of tissue equivalents with spatially defined cell distribution. Even though …
Methylcellulose–a versatile printing material that enables biofabrication of tissue equivalents with high shape fidelity
With the aid of biofabrication, cells can be spatially arranged in three dimensions, which
offers the opportunity to guide tissue maturation in a better way compared to traditional …
offers the opportunity to guide tissue maturation in a better way compared to traditional …
Nano-biomaterials for designing functional bioinks towards complex tissue and organ regeneration in 3D bioprinting
The complexity of biological architectures (tissue or organ) attracts extensive use of additive
manufacturing techniques for tissue engineering scaffolding. A step forward, to ensure …
manufacturing techniques for tissue engineering scaffolding. A step forward, to ensure …