Biofabricated Materials Paving the Way for Neural Tissue Engineering

This project pioneers the development of printable, multifunctional biomaterials for neural tissue engineering, utilizing cutting-edge 3D printing techniques such as extrusion-based printing, electrospinning, and two-photon polymerization (2PP).

By harnessing these advanced fabrication methods, we aim to design highly conductive, biocompatible scaffolds that not only promote neural regeneration but also seamlessly integrate electrical signals, essential for mimicking the natural neural environment.

Our approach enables the creation of precise, complex, and functional structures, providing a versatile platform for bioelectronics, neuroprosthetics, and regenerative medicine. This breakthrough technology has the potential to transform therapeutic strategies for neurological diseases and injuries, paving the way for the future of neural repair.

Interactive Biomaterials for Neural Regeneration (InteReg) | Carl-Zeiss-Stiftung