Explaining Bioprinting in an Understandable Way – Video Interview about Arthritis Treatment

2020-09-18T05:08:47-07:00September 18th, 2020|BioPrinting, RESTORE project, Uncategorized|

Professor Kenny Dalgarno from Newcastle University explains in this video recorded at 3DMedLIVE 2019: 3D printing in surgery how bioprinting can be used for treating arthritis and creating tissue [...]

New Collaboration Started Between Brinter and Axolotl Biosciences

2020-09-11T10:58:59-07:00September 11th, 2020|BioPrinting, Uncategorized|

Brinter has teamed up with Canadian start-up Axolotl Biosciences and plans to test Axolotl’s novel fibrin-based neurobioink for research and development purposes. This beta product has been specifically [...]

NOVUM Project Overview and How 3D Printing Transforms Manufacturing

2020-08-21T05:32:57-07:00August 21st, 2020|NOVUM project|

3DTech and its 3D bioprinter Brinter® is a trailblazer in being able to produce complex structures from Cellulose-based materials. Cellulose, as a renewable, non-toxic, non-allergic, and abundant forest material, [...]

Recent Progress of 3D Bioprinting in the RESTORE Project Reported by Our Partner University of Gothenburg

2020-08-14T06:59:10-07:00August 14th, 2020|RESTORE project|

Our consortium partner from the RESTORE project, University of Gothenburg, has successfully formed articular cartilage in 3D bioprints as reported in the article titled “Collagen 2A Type B Induction [...]

New York Times Showcases the Role of 3D Bioprinting in Tackling Coronavirus

2020-07-31T00:51:31-07:00July 31st, 2020|BioPrinting|

“Bioprinting’s importance for pharmaceutical analysis is paramount now, not only for potential Covid-19 treatments but also for testing treatments for cancer and other diseases,” states a recent article from [...]

Breakthrough in Additive Manufacturing – Cellulose Granulates as Raw Material

2020-07-17T07:30:37-07:00July 17th, 2020|NOVUM project|

Horizon 2020 Novum project news: In a major step forward in the field of additive manufacturing, BRINTER has demonstrated that it can successfully print constructs from cellulose granulates, a [...]