08:00 | Registration |
| Day One |
| Session Chair: Jonas Tegenfeldt, Professor, Lund University, Sweden |
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09:00 | A Microfluidic Culturing and Real Time Monitoring Systems Using Diffusive Nutrition Distribution Winnie Svendsen, Professor, Technical University of Denmark, Denmark
A microfluidic platform separating nutrient perfusion from the culturing site, thus utilizing diffusive nutrient delivery, has been developed and tested on several cell types and brain slices. The results and future potential of this platform will be presented and discussed. |
09:30 | | Keynote Presentation Single Cell Analysis Using Drop Based Microfluidics David Weitz, Professor, Harvard University, United States of America
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10:15 | Microfluidic Platforms Incorporating Design-For-Manufacture and Scale-Up of Production for De-Risking Commercialisation Jens Ducree, Professor of Microsystems, Dublin City University, Ireland
The presentation outlines the adoption of the platform based concept to microfluidic “Lab-on-a-Disc” systems developed in the recently founded Fraunhofer Project Centre for Embedded Bioanalytical Systems at Dublin City University.
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10:45 | Coffee & Networking in Exhibition Hall |
11:15 | Microfluidic Single Cell Sequencing Yanyi Huang, Professor, Peking University, China
Microfluidic technologies can greatly facilitate the research at the single cell level, especially the genomic sequencing of single cells with greatly improved sensitivity, reproducibility, and accuracy. |
11:45 | Status of the Microfluidics Industry Benjamin Roussel, Business Unit Manager of the Microfluidic & Medical Technologies (MedTech), Yole Développement
This year, KnowMade and Yole joined forces to get a comprehensive analysis of the microfluidics world in terms of market, technology and IP. This talk will present some of the results from their analysis to explain how and why microfluidic technologies are increasingly used, for which benefits. Benjamin Roussel will share his view of the strong maturation of the microfluidics industry, important strategic moves, race for molecular diagnostics, and IP strategy of main players. |
12:15 | Microfluidic Devices for Cryomicroscopy of Cells and Soft Materials Thomas Burg, Group Leader, Max Planck Institute for Biophysical Chemistry, Germany
Light and electron microscopy can reveal amazing details of cell function and disease with nanometer resolution in single cells. Here I present a new microfluidic technology for imaging fast cellular dynamics by correlating live-cell imaging, cryo-light microscopy and electron microscopy. |
12:45 | Lunch & Networking in Exhibition Hall |
13:15 | Poster Viewing Session |
13:30 | Free Workshop Translating Customers Ideas into Microstructured Smart Polymer Parts Workshop |
14:15 | Technology Spotlight: Need for Surface Tension Preparation for Microfluidic Devices Ken Sautter, Director of Technology Development, Yield Engineering Systems, Inc.
This presentation will discuss the need for surface tension modification for successful microfluidic devices. Silane vapor phase deposition is the preferred method for coating surfaces, as the process environment can be tightly controlled, yielding repeatable, stable results. A process will be discussed offering multiple gas and plasma mode preparation plus multiple chemical reactants for vapor phase deposition, in order to prepare for optimum surface conditions. |
14:30 | | Keynote Presentation Inflammation on a Chip Daniel Irimia, Associate Professor, Surgery Department, Massachusetts General Hospital (MGH), Shriners Burns Hospital, and Harvard Medical School, United States of America
We designed and validated microfluidic technologies that measure the motility phenotype of neutrophils with higher precision than ever before, directly in a droplet of blood. We employed these new lab-on-a-chip devices to diagnose sepsis in patients with high accuracy. |
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15:15 | Centrifugal Step Emulsification Allows Miniaturized Digital Droplet-RPA,-LAMP and -PCR on the Centrifugal Microfluidic Platform Felix von Stetten, Associate Director, Hahn-Schickard
A novel unit operation, designated as centrifugal step emulsification, enables droplet generation, DNA amplification and fluorescence detection within one single cavity. Results for absolute quantification of DNA by digital amplification are in good agreement with those obtained by a commercial dPCR system. |
15:45 | Coffee & Networking in Exhibition Hall |
16:15 | Microfluidics and Magnetic Particles for Cancer Clinical Research Stephanie Descroix, Research Scientist, Institut Curie, France
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16:45 | A Conceptually New Photomicroreactor Design for Energy-efficient Solar Photochemistry Timothy Noël, Professor, University of Amsterdam, Netherlands
We will present our results concerning a novel device integrating the luminescent solar concentrator (LSC) concept with photomicroreactors, allowing the direct use of solar light in photochemistry without the need for any intermediate energy conversion. This leaf-inspired photomicroreactor based on fluorescent dye-embedded polydimethylsiloxane collects sunlight, focuses the energy to a narrow wavelength region, and then transports that energy to embedded microchannels where the flowing reactants are converted. |
17:15 | Rapid Prototyping in Microfluidics: New Perspective by New Materials Bastian Rapp, Principal Investigator and Head of NeptunLab, Karlsruhe Institute of Technology, Germany
This talk will highlight important improvements in additive manufacturing technology and materials for microfluidics. |
17:45 | Drinks Reception in Exhibition Hall |
18:45 | End of Day One |