Granulate-based multi-material 3D printing was successfully carried out with Brinter® platform using two different cellulose-based materials. The first material with high cellulose content is developed by VTT as part [...]
In today's video post, we present our MicroDroplet Tool in action. It is a solenoid valve actuated dosing system enabling precision dosing of droplets in the range from 10 [...]
The key features of Brinter® 3D bioprinting platform are now presented in a video format. Have a look at some of the essential characteristics, such as the performance of [...]
3DTech’s task in the RESTORE project is to develop its Brinter® 3D bioprinting platform towards more accurate and efficient bioprinting of nanoenabled cartilage microtissues for repairing of chondral lesions. [...]
The increased awareness of environmental aspects has led to the search for more environmentally friendly printable materials, such as cellulose-based materials, to replace oil-based synthetic polymers in 3D (bio)printing. [...]
A research project in cartilage regeneration and cartilage repair, in which Brinter (3DTech) participates together with nine other partners from eight countries, was recently financed by the European [...]
Bioprinters should scale with bio technology advancements, says 3D bioprinting technology company, Brinter. Brinter will unveil its new scalable 3d bioprinter, Brinter 1, at Medica 2018. The machine boasts modular capabilities [...]
Someday bioprinter will print a new liver or pancreas for a human patient. At least this is the ultimate goal of the 3D bioprinting research running hot at the [...]
Sanna Turunen1,2, Susanna Kaisto3, Ilya Skovorodkin3, Vladimir Mironov4,5, Tomi Kalpio1, Seppo Vainio3,6, Aleksandra Rak-Raszewska3 1 3DTech Oy, Hyvoninkatu 1, 24240 Salo, Finland 2 Biomaterials and Tissue Engineering Group, BioMediTech [...]
