Christophe Marquette,
Research Director ,
Universite Lyon
Dr Christophe Marquette received the Doctorat de spécialité in Biochemistry (1999) from the Université Claude Bernard-Lyon 1. After a two years post-doctoral fellowship at the Concordia University (Canada, Qc), he integrates the Centre National de la Recherche Scientifique (CNRS) in 2001. He is presently deputy director of the UMR 5246, coordinator of the H2020 project FAPIC (PHC10) and director of French platform 3d.FAB dedicated to the development of additive manufacturing (mainly 3D printing) for health science. Since 1998, he is author of more than 110 publications (H factor 30), 13 chapters, 100 communications and 7 patents, in the field of biology to surface interactions applied to diagnostic and health. He is also the founder of two companies: AXO Science which is commercialising multiplex genotyping systems for blood typing; Nano-H which is specialized in nanoparticles for diagnostic and therapy.
3d.FAB Platform: 3D Printing for Life Science
Tuesday, 17 October 2017 at 10:15
Add to Calendar ▼2017-10-17 10:15:002017-10-17 11:15:00Europe/London3d.FAB Platform: 3D Printing for Life ScienceBioprinting and 3D Printing in the Life Sciences Europe in Cripps Court, Magdalene College, Cambridge, UK Cripps Court, Magdalene College, Cambridge, UK SELECTBIOenquiries@selectbiosciences.com
The 3d.FAB platform of the Lyon1 University, a unique structure in Europe, hosts and drives research projects (private and academic) in the field of health and life science. A large panel of technological offers are available, from FDM to DLP but also bioprinting. Are also available techniques leading to ultra-high resolution using 2 photons printing and ceramic printing. Numerous projects hosted by the platform will be presented with a special focus on cell printing for skin, cartilage, cardiac patches and bone substitute production. 4D printing of hydrogels having biochemical active functions will also be presented together with project dealing with implantable polymer printing. The integration of multiple 3D printing techniques within a single object or tissue, a specificity of the platform, will also be presented to demonstrate the potential impact of the technique in the field.
Add to Calendar ▼2017-10-17 00:00:002017-10-18 00:00:00Europe/LondonBioprinting and 3D Printing in the Life Sciences EuropeBioprinting and 3D Printing in the Life Sciences Europe in Cripps Court, Magdalene College, Cambridge, UK Cripps Court, Magdalene College, Cambridge, UK SELECTBIOenquiries@selectbiosciences.com
Add to Calendar ▼2017-10-17 10:15:002017-10-17 11:15:00Europe/London3d.FAB Platform: 3D Printing for Life ScienceBioprinting and 3D Printing in the Life Sciences Europe in Cripps Court, Magdalene College, Cambridge, UK Cripps Court, Magdalene College, Cambridge, UK SELECTBIOenquiries@selectbiosciences.com
