Nanotechnology, and scaffold implantation for the effective repair of injured organs: An overview on hard tissue engineering
P Abdollahiyan, F Oroojalian, M Hejazi… - Journal of controlled …, 2021 - Elsevier
The tissue engineering of hard organs and tissues containing cartilage, teeth, and bones is
a widely used and rapidly progressing field. One of the main features of hard organs and …
a widely used and rapidly progressing field. One of the main features of hard organs and …
Tissue engineering applications of three-dimensional bioprinting
X Zhang, Y Zhang - Cell biochemistry and biophysics, 2015 - Springer
Recent advances in tissue engineering have adapted the additive manufacturing
technology, also known as three-dimensional printing, which is used in several industrial …
technology, also known as three-dimensional printing, which is used in several industrial …
[HTML][HTML] 3D printing in regenerative medicine: Technologies and resources utilized
A Kantaros - International Journal of Molecular Sciences, 2022 - mdpi.com
Over the past ten years, the use of additive manufacturing techniques, also known as “3D
printing”, has steadily increased in a variety of scientific fields. There are a number of …
printing”, has steadily increased in a variety of scientific fields. There are a number of …
4D biofabrication: materials, methods, and applications
L Ionov - Advanced healthcare materials, 2018 - Wiley Online Library
The mission of regenerative medicine is the development of methods to regrow, repair, or
replace damaged or diseased cells, organs, or tissues. 3D bioprinting techniques are one of …
replace damaged or diseased cells, organs, or tissues. 3D bioprinting techniques are one of …
[HTML][HTML] 3D bioprinting of cell-laden constructs for regenerative medicine
C Li, W Cui - Engineered Regeneration, 2021 - Elsevier
Human tissue consists of various tissue-specific cells, extracellular matrix components and
microstructures, and growth factors. With promising multi-cell and multi-material integration …
microstructures, and growth factors. With promising multi-cell and multi-material integration …
Organ bioprinting: are we there yet?
G Gao, Y Huang, AF Schilling… - Advanced healthcare …, 2018 - Wiley Online Library
About 15 years ago, bioprinting was coined as one of the ultimate solutions to engineer
vascularized tissues, which was impossible to accomplish using the conventional tissue …
vascularized tissues, which was impossible to accomplish using the conventional tissue …
3D bioprinting and its in vivo applications
N Hong, GH Yang, JH Lee… - Journal of Biomedical …, 2018 - Wiley Online Library
The purpose of 3D bioprinting technology is to design and create functional 3D tissues or
organs in situ for in vivo applications. 3D cell‐printing, or additive biomanufacturing, allows …
organs in situ for in vivo applications. 3D cell‐printing, or additive biomanufacturing, allows …
[HTML][HTML] Progress of 3D bioprinting in organ manufacturing
D Song, Y Xu, S Liu, L Wen, X Wang - Polymers, 2021 - mdpi.com
Three-dimensional (3D) bioprinting is a family of rapid prototyping technologies, which
assemble biomaterials, including cells and bioactive agents, under the control of a computer …
assemble biomaterials, including cells and bioactive agents, under the control of a computer …
Designing biomaterials for 3D printing
Three-dimensional (3D) printing is becoming an increasingly common technique to fabricate
scaffolds and devices for tissue engineering applications. This is due to the potential of 3D …
scaffolds and devices for tissue engineering applications. This is due to the potential of 3D …
[HTML][HTML] Current developments in 3D bioprinting for tissue and organ regeneration–a review
The field of Tissue engineering and regenerative medicine that work toward creating
functional tissue-constructs mimicking native tissue for repair and/or replacement of …
functional tissue-constructs mimicking native tissue for repair and/or replacement of …