3D printing to repair damage in the human body

09/06/2016

Freigeist Fellowship supports Dr. Ivan Minev in using 3D printing to find ways to repair damage in the human body. A "Freigeist" fellow opens up new horizons and combines critical analysis with imagination and innovative solutions.

Image: Dr. Ivan Minev in front of his 3D printer; Copyright: BIOTEC

Dr. Ivan Minev will use soft materials and 3D printing to build functional implants for integration with the central nervous system; © BIOTEC

Dr. Ivan Minev, research group leader at the BIOTEC/CRTD, has been awarded a Freigeist Fellowship from the VolkswagenStiftung. This five-year, 920.000 EUR grant will enable him to establish his own research team. The ‘Freigeist’ initiative is directed toward enthusiastic scientists and scholars with an outstanding record that are given the opportunity to enjoy maximum freedom in their early scientific career. Dresden. Electronic tissue technology may soon enable the replacement or repair of damaged human organs. A regenerative surgeon will place a bioelectronic device inside the patient’s body, where it will blend with host tissues and execute a therapeutic program. As a Freigeist Fellow, Dr. Ivan Minev will now investigate technological ways to repair damage in the human body.

"The Freigeist Fellowship makes it possible for me to do research on bioelectronic implants that can boost regeneration in the brain. The next 5 – 10 years should give us a good idea of the road-map we need to follow in order to make it happen. I will use soft materials and 3D printing to build functional implants for integration with the central nervous system. Implants will be designed to match the mechanical properties of brain and will emulate aspects of tissue architecture", Dr. Ivan Minev explains.

Dr. Ivan Minev highly appreciates the advantages Dresden has as a location for science: "The spirit of scientific collaboration is evident everywhere in Dresden. The city hosts the University including many research institutions with their own specific expertise. I was impressed by the idea of the Dresden Concept when I first visited. Getting the various research institutes in Dresden to work together creates a critical mass of expertise which enables interdisciplinary research. This is important for me because in the field of bioelectronics, we need input from both the physical and life sciences and engineering."

Dr. Ivan Minev joined the BIOTEC/CRTD as a research group leader in June 2016 where his team will focus on developing "Electronic Tissue Technologies". At the École Polytechnique Fédérale de Lausanne (EPFL), Centre for Neuroprosthetics, he worked as a Post-Doctoral Research Associate developing neuroprosthetic implants for the injured spinal cord. He also used mechanically compliant materials and nano-technologies to address challenges in long-term implant biointegration and enabling platforms for multi-modal neuromodulation (2012-2016).

His PhD Dr. Ivan Minev earned at the University of Cambridge, Department of Engineering (2008-2012). Within this period he explored materials and technologies for stretchable electronic devices and investigated thin metallic films on elastomer substrates for biomedical applications.

For the Volkswagen Foundation, a "Freigeist" is a young researcher with a strong personality, a creative mind, an ability to identify and use freedom, dedicated to overcoming resistance. A "Freigeist" fellow opens up new horizons and combines critical analysis with imagination and innovative solutions. By thinking ahead the "Freigeist" fellow will act as a catalyst in overcoming existing disciplinary, institutional and even national boundaries.

COMPAMED-tradefair.com; Source: BIOTEC

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