Lab-on-a-Chip European Congress Agenda

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Advancing Microchip Acoustophoretic Cell Handling in Life Science Applications
Johan Nilsson, Associate Professor, Lund University, Sweden

Recent advances in microchip acoustophoresis will be outlined, demonstrating tumor cell extraction and strategies to concentration and enrichment of biological species.

Attraction and Repulsion – Magnetic Forces for Particle and Cell Handling
Nicole Pamme, Professor in Analytical Chemistry, Stockholm University, Sweden

Microfluidic devices are presented for the trapping, focussing and deflection of particles and cells based on magnetic attraction and repulsion forces.

Dielectrophoretic Manipulation of Cells for Biomedical Applications
Claus Duschl, Head, Fraunhofer Institute for Biomedical Engineering, Germany

High-frequency electromagnetic fields in microfluidic systems are utilised (i) for the production of hybrid cells through the fusion of defined cell pairs and, (ii) for the characterization of the mechanical properties of cells for diagnostic purposes.

Coffee Break & Networking in Exhibition Hall

Assay Miniaturization Based on Centrifugal Microfluidics
Roland Zengerle, Professor, University of Freiburg, Germany

Centrifugal microfluidics enables sequential combination of microfluidic unit operations such as reagent storage and release, extraction of certain molecular species from complex samples, metering, mixing, incubation, enrichment and/or amplification on a low-cost substrate. We demonstrate this by implementing various assays in molecular diagnostics.

Microelectronics Meets Microfluidics: Integrated Sensors in Microfluidic Devices
Holger Becker, Chief Scientific Officer, Microfluidic ChipShop GmbH, Germany

In addition to the well established optical detection methods, a recent development in lab-on-a-chip technology is the increased use of sensor technology for the detection of analytes in a microfluidic system. These sensors can range from relatively simple electrochemical sensors to electronically read-out microarrays or highly integrated nano-electrode sensors with on-chip signal processing capabilities. These sensors require innovative technological solutions for their integration into a microfluidic cartridge. We will present solutions for such integrated systems for the detection of biomarkers, proteins and nucleic acids for applications in rapid infectious disease identification or drug efficacy monitoring.

Technology Spotlight:
Industrialization & Economics of Smart Consumables in Life Sciences & Diagnostics
Philip Perry, Manager, Sony DADC

Smart Consumables with microstructures / microfluidic features and functionalised surfaces are prerequisites for emerging applications in the Life Sciences and in-vitro Diagnostics (IVD) markets. The increasing complexity of such new products in those markets requires new manufacturing technologies. Sony DADC is now applying its excellence in customised mass manufacturing and its efficient processes to these highly sophisticated consumables in its new OEM business in a B2B format with leading, innovative companies in the biomedical field.

Lunch & Networking in Exhibition Hall

Poster Viewing Session

Lab-on-a-Chip Technology for Diagnostic Applications – From the Research Lab to Real Products
Jaap den Toonder, Chief Scientist, Philips Research Laboratories, Netherlands

We are entering a phase in which commercial companies are adapting lab-on-a-chip technologies to develop real products. In this lecture I will show examples of such products we are currently developing: a handheld biosensor for immunoassays that can be used for magnetic or optical detection of drugs of abuse (DOA) in saliva, or cardiac markers (e.g. troponin) in blood, and cell-diagnostics applications. I will talk about the principles, (dis)advantages, and critical aspects for commercialization.

Microfluidic Devices Market. Materials,Market and Trends
Frederic Breussin, Business Unit Manager, Yole Developpement, France

This paper provides data on the microfluidic device market, with a special focus on materials, manufacturing processes and production costs.

Technology Spotlight:
Bonding Your Future
Ray Karam, President and CEO, Invenios

Coffee Break & Networking in Exhibition Hall

Nanopore Sensors for Next Generation DNA Sequencing
Joshua Edel, Professor, Imperial College London, United Kingdom

We report on the fabrication and characterization of a DNA nanopore detector with integrated tunnelling electrodes for use as a possible route to high throughput DNA sequencing.

Enhancing the Capture of DNAs into Nanochannels via Engineering Nanochannel Inlets
Sunggook Park, Associate Professor, Louisiana State University, United States of America

One challenge in operating the nanochannel device is the difficulty in threading DNA molecules from microfluidic networks into small nanochannels electrophoretically. In this presentation, strategies to overcome this challenge by engineering nanochannel inlet structures will be shown.

Drinks Reception

Materials and Manufacturing of Labs-on-Chip for Infectious Diseases
Wouter van der Wijngaart, Professor, KTH Royal Institute of Technology, Sweden

Presentation of the novel off-stoichiometry thiol-ene (OSTE) polymer system and its application as a microfluidic packaging material in lab-on-chip devices for detection of pathogens and their antibiotic susceptibility.

On-Site Blood Preparation Unit
Manuel Kemmler, Scientific Associate, Fraunhofer Institute for Physical Measurement Techniques, Germany

The presented blood preparation unit is developed for an on-site usage and comprises a disposable low-cost chip with simple fluidic structures. The plasma is separated from the blood cells axial to the channels by the use of haemagglutinins and hydrodynamic effects.

Coffee Break & Networking in Exhibition Hall

Isolation of Factors Involved in Stem Cell to Adipocyte Conversion is Enabled by Microfluidic Cell Culture Techniques
Martin Dufva, Associate Professor, Technical University of Denmark, Denmark

Microfluidic perfusion showed that an adipocyte secreted factor and availability of nutrient building blocks affects stem cell derived adipocyte development.

Single Cells in the Spotlight: Detection of Heterogeneous Cell Response
Petra Dittrich, Assistant Professor, ETH Zurich, Switzerland

In this presentation, various approaches to single cell analysis on microfluidic platforms are presented that allow single cell gene expression studies, single cell electrophysiology and single cell toxicity tests.

Technology Spotlight:
Novel Biochip and Reagents for High specificity nucleic acid detections
Salvatore Pernagallo, Product Development Manager, DestiNA Genomics Ltd

DestiNA Genomics Ltd has developed a revolutionary chemistry-based technology with massive global potential in multiple markets, including the medical, veterinary, food, agricultural and forensic sectors. This presentation will describe existing performance of DestiNA’s reagents with Lab-on-a-Chip molecular diagnostics platform.

Lunch & Networking in Exhibition Hall

Poster Viewing Session

Photonic Lab on a Chip for Life Science Applications
Andreu Llobera, Researcher, Institut de Microelectronica de Barcelona, Spain

Photonics applied to life sciences has become popular for cell screening, mainly because of its speed and non-invasiveness. Lab-on-a-chip with photonic readout allows obtaining systems with outstanding performance. The latest achievements will be presented in this talk.

Photo-Actuation of Macro- and Microfluidic Systems
Damien Baigl, Professor, Ecole Normale Superieure, France

We show that photocontrol of interfacial energy allows us to generate and manipulate microscopic (10-100 µm) and macroscopic (~mm) droplets using light, with high spatio-temporal resolution and applicability to a large variety of fluidic systems.

Coffee Break & Networking in Exhibition Hall

Label-Free Detection of Protein in a Microfluidic Device Using Bead-Based Electrical Impedance Spectroscopy
Romen Rodriguez-Trujillo, Postdoctoral Researcher, Technical University of Denmark (DTU), Denmark

A new method for label-free detection of proteins in a microfluidic device by using bead-based Electrical Impedance Spectroscopy has been developed. The direct electrical readout mechanism is simple and potentially allows implementing the assays for point of care diagnosis.

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