Bioprinting vasculature: materials, cells and emergent techniques
Despite the great advances that the tissue engineering field has experienced over the last
two decades, the amount of in vitro engineered tissues that have reached a stage of clinical …
two decades, the amount of in vitro engineered tissues that have reached a stage of clinical …
Biomaterials for bioprinting microvasculature
Microvasculature functions at the tissue and cell level, regulating local mass exchange of
oxygen and nutrient-rich blood. While there has been considerable success in the …
oxygen and nutrient-rich blood. While there has been considerable success in the …
Review on porous scaffolds generation process: A tissue engineering approach
MS Flores-Jiménez, A Garcia-Gonzalez… - ACS Applied Bio …, 2023 - ACS Publications
Porous scaffolds have been widely explored for tissue regeneration and engineering in vitro
three-dimensional models. In this review, a comprehensive literature analysis is conducted …
three-dimensional models. In this review, a comprehensive literature analysis is conducted …
Biofabrication of sodium alginate hydrogel scaffolds for heart valve tissue engineering
Y Rioux, J Fradette, Y Maciel, A Bégin-Drolet… - International Journal of …, 2022 - mdpi.com
Every year, thousands of aortic valve replacements must take place due to valve diseases.
Tissue-engineered heart valves represent promising valve substitutes with remodeling …
Tissue-engineered heart valves represent promising valve substitutes with remodeling …
Constructing 3D in vitro models of heterocellular solid tumors and stromal tissues using extrusion-based bioprinting
S Flores-Torres, T Jiang, J Kort-Mascort… - ACS Biomaterials …, 2023 - ACS Publications
Malignant tumor tissues exhibit inter-and intratumoral heterogeneities, aberrant
development, dynamic stromal composition, diverse tissue phenotypes, and cell populations …
development, dynamic stromal composition, diverse tissue phenotypes, and cell populations …
Engineering three-dimensional vascularized cardiac tissues
Heart disease is one of the largest burdens to human health worldwide and has very limited
therapeutic options. Engineered three-dimensional (3D) vascularized cardiac tissues have …
therapeutic options. Engineered three-dimensional (3D) vascularized cardiac tissues have …
Melt electrowriting of isomalt for high‐resolution templating of embedded microchannels
A Nadernezhad, M Ryma, H Genç… - Advanced Materials …, 2021 - Wiley Online Library
Fabrication of microchannels using 3D printing of sugars as fugitive material is explored in
different fields, including microfluidics. However, establishing reproducible methods for the …
different fields, including microfluidics. However, establishing reproducible methods for the …
Freeform three-dimensionally printed microchannels via surface-initiated photopolymerization combined with sacrificial molding
Precise freeform microchannels within an aqueous environment have several biomedical
applications but remain a challenge to fabricate. Carbohydrate glass materials have shown …
applications but remain a challenge to fabricate. Carbohydrate glass materials have shown …
A thermogelling organic-inorganic hybrid hydrogel with excellent printability, shape fidelity and cytocompatibility for 3D bioprinting
Alginates are the most commonly used bioink in biofabrication, but their rheological profiles
make it very challenging to perform real 3D printing. In this study, an advanced hybrid …
make it very challenging to perform real 3D printing. In this study, an advanced hybrid …
Improving the 3D printability of sugar glass to engineer sacrificial vascular templates
BN Moeun, SA Fernandez, S Collin… - 3D Printing and …, 2023 - liebertpub.com
A prominent obstacle in scaling up tissue engineering technologies for human applications
is engineering an adequate supply of oxygen and nutrients throughout artificial tissues …
is engineering an adequate supply of oxygen and nutrients throughout artificial tissues …