Publications
Find all the scientific publications related to our technology and applications.
Scientific Publications
Fully 3D printed piezoelectric pressure sensor for dynamic tactile sensing
https://www.sciencedirect.com/science/article/pii/S2214860423002142 By H. Nassar, G. Khandelwal, R. Chirila, X. Karagiorgis, R. E. Ginesi, A. S. Dahiya, & R. Dahiya Additive Manufacturing, 2023, Volume 71,103601 https://doi.org/10.1016/j.addma.2023.103601
Published Book Chapter in Elsevier’s Handbook of Surgical Planning: A Collaborative Effort Towards Using 3D Bioprinting for Future Treatment of Osteoarthritis
Check out our newly published book chapter in Elsevier’s Handbook of Surgical Planning and 3D Printing discussing how 3D bioprinting can be used for future treatment of osteoarthritis! This chapter was written by an amazing team of scientists and engineers during the EU Horizon 2020 program funded RESTORE project, including Sanna Turunen,
Brinter is challenging the status-quo for meniscus repair using 3D bioprinting.
Brinter is challenging the status-quo for meniscus repair using 3D bioprinting. For over 100 years, patients’ meniscus repairs have been done with non-biological materials, like metals, plastics, and polymers, that are rigid and limit patients’ flexibility and mobility. Brinter is changing this forever with 3D bioprinting durable and functional cartilaginous
Sequential Cross-linking of Gallic Acid-Functionalized GelMA-Based Bioinks with Enhanced Printability for Extrusion-Based 3D Bioprinting
https://pubs.acs.org/doi/10.1021/acs.biomac.2c01418 By H. Jongprasitkul, S. Turunen, V.S. Parihar & M. Kellomäki Biomacromolecules 2022, Publication Date: December 21, 2022
3D bioprinting of blood vessels. DI thesis
https://www.utupub.fi/handle/10024/174189 By Akseli Vainio & Brinter Ltd Publication Date: December 13, 2022 This thesis concentrates around 3D bioprinting of blood vessels using Brinter ONE platform and the triaxial toolhead. Samples were tested using UV curable silicone (for model testing) and telocollagen as a more physiological counterpart with cells. During this
Customers’ biomaterials printed on spot at TERMIS EU 2022 conference.
Printing was tested for example with Nanohydroxyapatite from the Institute of High Pressure Physics. Mixing of the powder into a gel was done in 10 minutes in the middle of the conference hall.
