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Print me an organ! Why we are not there yet
Bioprinting offers a highly-automated and advanced manufacturing platform that facilitates
the deposition of bio-inks (living cells, biomaterials and growth factors) in a scalable and …
the deposition of bio-inks (living cells, biomaterials and growth factors) in a scalable and …
Injectable hydrogels: From laboratory to industrialization
The transfer of some innovative technologies from the laboratory to industrial scale is many
times not taken into account in the design and development of some functional materials …
times not taken into account in the design and development of some functional materials …
Digital light processing (DLP) 3D-printing technology and photoreactive polymers in fabrication of modified-release tablets
In this study, we assessed the feasibility of using digital light processing (DLP) 3D printers
(3DP) in fabrication of solid oral dosage forms. The DLP technology uses a digital …
(3DP) in fabrication of solid oral dosage forms. The DLP technology uses a digital …
[HTML][HTML] Biomedical applications of hydrogels: A review of patents and commercial products
Hydrogels have become very popular due to their unique properties such as high water
content, softness, flexibility and biocompatibility. Natural and synthetic hydrophilic polymers …
content, softness, flexibility and biocompatibility. Natural and synthetic hydrophilic polymers …
25th anniversary article: Rational design and applications of hydrogels in regenerative medicine
Hydrogels are hydrophilic polymer‐based materials with high water content and physical
characteristics that resemble the native extracellular matrix. Because of their remarkable …
characteristics that resemble the native extracellular matrix. Because of their remarkable …
Chemical insights into bioinks for 3D printing
3D printing has triggered the acceleration of numerous research areas in health sciences,
which traditionally used cells as starting materials, in particular tissue engineering …
which traditionally used cells as starting materials, in particular tissue engineering …
Improved properties of bone and cartilage tissue from 3D inkjet-bioprinted human mesenchymal stem cells by simultaneous deposition and photocrosslinking in PEG …
Objectives Bioprinting of bone and cartilage suffers from low mechanical properties. Here
we have developed a unique inkjet bioprinting approach of creating mechanically strong …
we have developed a unique inkjet bioprinting approach of creating mechanically strong …
Direct human cartilage repair using three-dimensional bioprinting technology
Current cartilage tissue engineering strategies cannot as yet fabricate new tissue that is
indistinguishable from native cartilage with respect to zonal organization, extracellular matrix …
indistinguishable from native cartilage with respect to zonal organization, extracellular matrix …
Inkjet‐bioprinted acrylated peptides and PEG hydrogel with human mesenchymal stem cells promote robust bone and cartilage formation with minimal printhead …
Inkjet bioprinting is one of the most promising additive manufacturing approaches for tissue
fabrication with the advantages of high speed, high resolution, and low cost. The limitation of …
fabrication with the advantages of high speed, high resolution, and low cost. The limitation of …
Bioactive nanoparticles stimulate bone tissue formation in bioprinted three‐dimensional scaffold and human mesenchymal stem cells
Bioprinting based on thermal inkjet printing is a promising but unexplored approach in bone
tissue engineering. Appropriate cell types and suitable biomaterial scaffolds are two critical …
tissue engineering. Appropriate cell types and suitable biomaterial scaffolds are two critical …