Tuesday, 16 May 201708:00 | Registraation | 09:00 | Engineering Immune-modulatory Niches Amir Ghaemmaghami, , The University of Nottingham, United Kingdom
| 09:30 | 3D Bioprinted Human Soft Tissue Paul Gatenholm, Professor, Director of 3D Bioprinting Center, Chalmers University of Technology, Sweden; CEO, CELLHEAL AS, Norway, Sweden
| 10:00 | Catechol-PEG based Bioinks for 3D Printing and Gluing Aranzazu Del Campo, Scientific Director INM, Leibniz Institute for New Materials, Germany Malgorzata Wlodarczyk-Biegun, Research Scientist, INM, Leibniz Institute for New Materials, Germany
We present a new catechol-PEG based biocompatible ink for 3D extrusion bioprinting. Scaffolds with good shape fidelity are shown. Rheological properties of the material can be adjusted by ink’s component concentrations within physiological ranges. | 10:30 | Coffee & Networking | 11:00 | Biomicrofabrication via Low-voltage Electrospinning Patterning Yan Yan Shery Huang, Lecturer, University of Cambridge, United Kingdom
This presentation will demonstrate LEP’s applications in fabricating bio-scaffolds in microfluidics, producing single-fibres with multi-scale morphologies, and the printing of living bacteria. A cancer metastasis model based on the combination of biofabrication and microfluidics will also be demonstrated. | 11:30 | 3D Laser Printing of Scaffolds, Nanoparticles and Living Cells Boris Chichkov, Professor, Laser Zentrum Hannover , Germany
In this lecture, we discuss laser-based techniques applied for precise generation of 3D scaffolds for tissue engineering and for printing nanoparticles and living cells into 3D patterns. | 12:00 | Lunch and Networking | 13:15 | Poster Viewing Session | 14:30 | | Keynote Presentation Exceeding the Limits of Extrusion-based Additive Manufacturing for Biomedical Applications Michael Gelinsky, Professor, Technical University Dresden, Germany
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| 15:15 | Commercialising Customised Living Implants: Lessons from Franchised Manufacturing Nicholas Medcalf, , Loughborough University, United Kingdom
Customised and personalized living healthcare products are of increasing importance. Manufacture requires a sound basis of assurance of quality. Control of materials, equipment, manufacture and staff training can be managed close to clinic using the ‘franchise prototype’ business model. | 15:45 | Coffee & Networking | 16:15 | 3D Printing of Auxiliary Hydrogel Structures for Personalised Implants Nihal Engin Vrana, Fundamental Research Manager, PROTiP, Ireland
The talk will focus on i) 3D printed, personalized intralaryngeal implants based on our previous clinical experiences ii) Design and development of bioprintable, immune cell-laden novel immunomodulatory hydrogels. | 16:45 | Natural Polymers of Bacterial Origin and Their Application in Tissue Engineering Ipsita Roy, Reader, University of Westminster, United Kingdom
| 17:15 | Labvolution Drinks Reception |
Wednesday, 17 May 201709:00 | 3D printing of (bio)polymers: hoax or reality Peter Dubruel, Professor, Ghent University, Belgium
| 09:30 | | Keynote Presentation Direct Writing of 3D Micromaterials Paul Dalton, Professor, Functional Materials in Dentistry and Medicine, University of Würzburg, Bavaria, Germany
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| 10:15 | Development of Biofabricated Implants for Osteochondral Regeneration Jos Malda, Professor of Biofabrication in Translational Regenerative Medicine, University Medical Centre Utrecht, Netherlands
| 10:45 | Coffee & Networking | 11:15 | New Trends in 3D Bioprinting: Acoustic, Magnetic and 4D Bioprinting Vladimir Mironov, Chief Scientific Officer, 3D Bioprinting Solutions, Brazil
| 11:45 | 3D Printing in Microfluidics Rosanne Guijt, Senior Lecturer, University of Tasmania, Australia
3D printing has developed from a high-end manufacturing platform to a consumer product. The consequent market expansion has led to an increase in capabilities in material choice and resolution, making it an increasingly attractive approach for rapid prototyping in microfluidics. | 12:15 | Skin Bioprinting Fabien Guillemot, Senior Research Associate, University of Bordeaux, France
| 12:45 | Lunch & Networking | 13:15 | Poster Viewing Session | 14:30 | | 15:15 | Coffee & Networking | 15:45 | Extrusion based Printing Techniques for Generating 3D Tissues Petra Kluger, Researcher, Fraunhofer Institute for Interfacial Engineering and Biotechnology, Germany
Tissue Engineering is based on the manually combination of cells, scaffolds and specific signals to build up tissues. Using bioprinting techniques could advance the whole field and help to create complex tissue structures, like blood vessels. | 16:15 | Development of Multimaterial and Multiscale Biofabrication Approach to Reproduce the 3D Complexity of Natural Tissue Giovanni Vozzi, Associate Professor, University of Pisa, Italy
In this talk, the use of a multiscale and multimaterial process will be presented to develop 3D in vitro model that can mimic the 3D complexity of natural tissue.
| 17:15 | Close of Conference |
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