Cornelia KasperstudiedChemistryat the University Hannover and received herDiploma degree1994. AfterPhDat the Institute for Technical Chemistry 1998 she was employed asEU liason officerat the University of Hannover. In 2007 she receivedHabilitation. 2000-2011 Cornelia Kasper has been head of Cell Culture and Tissue Engineering Group at the Institute for Technical Chemistry, Leibniz University of Hannover and head of young researcher group JRG Large Scale Cultivation within Cluster of Excellence Rebirth (fromRegenerativeBiology andReconstructive Therapies).Since October 2011 Cornelia Kasper has been appointed asUniversity Professor Cell and Tissue Culture Technologyat the Department of Biotechnology at BOKU.The focus in her research group is the isolation, characterization, expansion and differentiation of human primary/progenitor and stem cells. For the expansion and guided differentiation she develops optimized strategies and bioprocesses for 3 D cell culture conditions mimicking physiological environment generating functional cells for tissue engineering and cell based therapies and 3 D test systems under defined and controlled dynamic conditions.
Antonina Lavrentievais a group leader at the Institute of Technical Chemistry, Leibniz University of Hannover, working in the field of stem cell research, biotesting and tissue engineering. In her second PhD Thesis, she studied methods of expanding mesenchymal stem cells (MSCs) in bioreactors, as well as the influence of hypoxia on the MSCs. She studied Biology and Life Science at Moscow State University and the University of Hannover. She also defended a PhD Thesis in Physiology. Her current research interests include stem cell media optimization, 3D cell culture, gradient hydrogels for studying cell niches and 3D-bioprinting.
Dominik Egger is a postdoctoral researcherand Deputy of the Institute of Cell and Tissue Culture Technologies at the University of Natural Resources and Life Sciences (BOKU). He received his master degree in Life Science at the Leibniz University of Hannover and continued his doctoral studies on the conceptual implementation of physiologic culture conditions for human stem cells. He finished his PhD studies with highest honors by 2017. Currently, he is investigating new approaches for the isolation, expansion and directed differentiation of human stem cells to improve their therapeutic effects. His special interest and expertise are on 3D cell culture, biomaterials, and bioreactor technology.