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27-09-2024 | Laser | Original Article

Advanced roll porous scaffold 3D bioprinting technology

Author: Vyacheslav Shulunov

Published in: Journal of Artificial Organs

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Abstract

Improvements in the roll porous scaffold (RPS) 3D bioproduction technology will increase print density of 10−15 µm cells by ~ 20% up to ~ 1.5 × 108 cells/mL and purity of organoid formation by > 17%. The use of 360 and 1200 dpi inkjet printheads immediately enables biomanufacturing with 10–30 µm cells in a single organoid with performance > 1.8 L/h for 15 µm layer thickness. The spongy bioresorbable ribbon for RPS technology is designed to solve the problems of precise placement, leakage and increasing in the number of instantly useable cell types and superior to all currently dominant 3D bioprinting methods in speed, volume, and print density without the use of expensive equipment and components. The potential of RPS for parallel testing of new substances studied was not on animals, but using generated 3D biomodels “organ on a chip”. Solid organoids are more suitable for personalized medicine with simultaneous checking of several treatment methods and drugs, targeted therapy for a specific patient in vitro using the 3D composition of his personal cells, and selection of the most effective ones with the least toxicity. Overcoming the shortage of organs for implantation and personal hormone replacement therapy for everyone was achieved using printed endocrine glands based on their DNA.
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Metadata
Title
Advanced roll porous scaffold 3D bioprinting technology
Author
Vyacheslav Shulunov
Publication date
27-09-2024
Publisher
Springer Nature Singapore
Keyword
Laser
Published in
Journal of Artificial Organs
Print ISSN: 1434-7229
Electronic ISSN: 1619-0904
DOI
https://doi.org/10.1007/s10047-024-01470-y
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