List of publications in 2018
- J. Barthes, A. Mutschler, C. Dollinger, G. Guillaume, P. Lavalle, V. Le Houerou, G.B. McGuinness, N.E. Vrana. Establishing Contact between Cell-laden Hydrogels and Metallic Implants with a Biomimetic Adhesive for Cell Therapy Supported Implants Biomedical Materials 2018: 1: 015015.
- C. Dollinger, S. Ciftci, H. Knopf-Marques, R. Guner, A.M. Ghaemmaghami, C. Debry, J. Barthes, N.E. Vrana. Incorporation of Resident Macrophages in Engineered Tissues: Multiple Cell Type Response to Phenotype Controlled Macrophage-laden Gelatin Hydrogels Journal of Tissue Engineering and Regenerative Medicine 2018:12:330-340.
- J. Bystronova, I. Scigalkova, L. Wolfova, M. Pravda, N.E. Vrana, V. Velebny. Creating a 3D Microenvironment for Monocyte Cultivation: ECM-mimicking hydrogels based on gelatine and hyaluronic acid derivatives RSC Advances 2018: 8: 7606-7614.
- J. Barthes, S. Ciftci, F. Ponzio, H. Knopf-Marques, L. Pelyhe, A. Gudima, I. Kientzl, E. Bognar, M. Weszl, J. Kzhyshkowska, N.E. Vrana. Review: The Potential Impact of Surface Crystalline States of Treated Titanium for Biomedical applications Critical Reviews in Biotechnology 2018:38: 423-437.
- M. Reggente, P. Masson, C. Dollinger, H. Palkowski, S. Zafeiratos, M. Rossi, N.E. Vrana, G. Pourroy, A. Carradò. A novel alkali-activation of titanium substrates to grow thick and covalently bound PMMA layers ACS Applied Materials and Interfaces 2018, in press.
- N. Nagarajan, A. Dupret-Bories, E. Karabulut, P. Zorlutuna, N.E. Vrana. Enabling Personalized Implant and Controllable Biosystem Development Through 3D Printing Biotechnology Advances 2018, in press.
- M. Kubon, H. Hartmann, M. Moschallski, C. Burkhardt, G. Link, S. Werner, P. Lavalle, B. Schlosshauer, G. Urban, N.E. Vrana, M. Stelzle. Multi-Modal Chemosensor-Based, Real-time Biomaterial/Cell Interface Monitoring Advanced Biosystems 2018, in press.
- S. Bierbaum, S. Mulansky, E. Bognár, I. Kientzl, P. Nagy, R. Beutner, N.E. Vrana, M. Weszl, E. Boschke, D. Scharnweber, C. Wolf-Brandstetter. Osteogenic nanostructured titanium surfaces with antibacterial properties under conditions that mimic the dynamic situation in the oral cavity Biomaterials Science 2018, in press.