Published: 06 Jul 2026(Updated: 06 Jul 2026)
•12 min
•12 min read
•Leonhard Hambitzer, Jan Mathis Hornbostel, Louise Roolfs, Richard Prediger, Sebastian Kluck, Kai Zheng, Cornelia Lee-Thedieck, Frederik Kotz-HelmerBioactive glass microscaffolds for tissue engineering
Cell cultureSustainability
Researchers from the Laboratory of Process Technology (NeptunLab), Department of Microsystems Engineering (IMTEK), University of Freiburg (Germany) developed a new way to produce bioactive glass microscaffolds for tissue engineering using advanced 3D printing technology. During in vitro mineralization studies, samples were incubated in the INFORS HT Minitron incubator shaker, where the material demonstrated strong bioactivity. The scaffolds were also shown to be compatible with human mesenchymal stromal cells and supported osteogenic differentiation, providing a new platform for studying scaffold design in tissue engineering.