Monday, 24 June 2024

07:30

Conference Registration, Materials Pick-Up, Coffee and Networking in the Exhibit Hall


Session Title: Conference Opening Plenary Session


Session Venue: Coolsingel Room

08:30

Claudia GärtnerConference Chair

Conference Co-Chairperson's Introduction and Welcome
Claudia Gärtner, CEO, microfluidic ChipShop GmbH, Germany

08:45

Nicole PammeConference Chair

Conference Co-Chairperson's Introduction and Welcome
Nicole Pamme, Professor in Analytical Chemistry, Stockholm University, Sweden

09:00

Martyn BoutellePlenary Presentation

Real-Time Point-of-Care Diagnostics Using Microfluidic Sensors and Biosensors
Martyn Boutelle, Professor of Biomedical Sensors Engineering, Imperial College London, United Kingdom

We are investigating technologies that take POC measurements from a moment in time that assists diagnosis to a continuous information stream that guides treatment dynamically. Biomarker molecule concentrations can give important information about the health of a person as they are dynamically challenged by acute illness or for example during clinical treatment. Such an approach would allow individualized treatments to be chosen and optimized. We have been developing a range of sensing and biosensing solutions for the invasive, minimally invasive, and non-invasive monitoring of people in healthcare situations. Microfluidics provide a valuable means of clinical sampling and robust quantification of measured signals.

I will describe the key challenges in the development of such integrated sensing devices and present our recent data obtained during models of cardiac arrest and from the neonatal intensive care unit.

09:30

Lorena DiéguezPlenary Presentation

Microfluidics in Liquid Biopsy and Integration in Functional Studies
Lorena Diéguez, Leader of the Medical Devices Research Group, INL- International Iberian Nanotechnology Laboratory, Portugal

Microfluidics has demonstrated numerous advantages for isolation and characterization of liquid biopsy biomarkers in oncology, with increased sensitivity and throughput, enabling their implementation in clinical routine. Microfluidics is also very relevant to build biomimetic and dynamic 3D models to better understand the process of metastasis. In this talk, we present our most recent work for the development of holistic liquid biopsy assays, by integrating microfluidic extraction of CTCs, cfDNA, and EVs; and application of viable CTCs in functional models for the study of metastasis.

10:00

Valérie TalyPlenary Presentation

Droplet-based Microfluidics for Biomarker Detection and Quantification
Valérie Taly, CNRS Research Director, Professor and Group leader Translational Research and Microfluidics, Université Paris Cité, France

Droplet-based microfluidic has led to the development of highly powerful tools with great potential in High-Throughput Screening where individual assays are compartmentalized within aqueous droplets acting as independant microreactors. Thanks to the combination of a decrease of assay volume and an increase of throughput, this technology goes beyond the capacities of conventional screening systems. Added to the flexibility and versatility of platform designs, such progresses in the manipulation of sub-nanoliter droplets has allowed to dramatically increase experimental level of control and precision.

The presentation will aim at demonstrating through selected examples, the great potential of this technology for patient monitoring in infectious diseases and cancers. A specific focuss will be made on the application of droplet-based digital PCR for the detection of blood-based methylation biomarkers (liquid biopsy). The results of several prospective clinical studies will be presented highlighting great potential of this technology for the follow-up of both advanced and localized cancers.

10:30

Mid-Morning Coffee Break and Networking in the Exhibit Hall

11:30

Rosanne GuijtPlenary Presentation

3D Printing of Porous Membrane Integrated Devices
Rosanne Guijt, Professor, Deakin University, Australia

The integration of chemical functionalities in microfluidic devices can be accomplished by the combination of different materials. 3D printing has readily been proposed as alternative for manufacturing of fluidic devices, in particular for small scale production. Resin-based printers are most suitable for printing small features, however, the combination of different materials remains a challenge. This presentation focuses on the development of resins for digital light projection 3D printing of porous materials, and their integration into fluidic devices by resin exchange and using greyscale masks. Applications of the devices include phase separation, chemotaxis, extraction of DNA and the detection of iron from soil.

12:00

Claudia GärtnerPlenary Presentation

Lab-on-a-Chip and Microfluidics: Emerging Landscape
Claudia Gärtner, CEO, microfluidic ChipShop GmbH, Germany

12:30

Maiwenn Kersaudy-KerhoasPlenary Presentation

Microfluidics, Lab-on-Chip and Environmental Sustainability: The Limits of the Single-Use
Maiwenn Kersaudy-Kerhoas, Professor of Microfluidic Engineering, Heriot-Watt University, United Kingdom

Many microfluidic point-of-care tests are now ubiquitous tools in rapid methods for human or veterinary diagnostics, or environmental monitoring. Using a microfluidic engineer perspective, and discussions with global health practitioners and anthropologists, I will share what I learned in recent years about the mishaps of point-of-need, single-use and disposable methods. Finally, I will use a recent project in which we produced lateral flow tests using recycled plastics (including derived from discarded chewing-gum!) as a case study for discussion on materials, engineering, supply chains, regulations, and considerations of human behaviour towards creating more sustainable point-of-care medical devices.

13:00

Networking Buffet Lunch in the Exhibit Hall - Network with Exhibitors and View Posters


Afternoon Session Title: Circulating Biomarkers and Extracellular Vesicles -- Conrad Room


Afternoon Session Title: Organoids and Spheroids Europe 2024 -- Coolsingel Room

18:30

Networking Reception in the Exhibit Hall. French Wine Tasting Sponsored by Kloé.

20:00

Close of Networking Reception and Day 1 Conference Programming.

Tuesday, 25 June 2024

08:00

Morning Coffee and Networking in the Exhibit Hall


Session Title: Companies and Technologies in the Lab-on-a-Chip and Microfluidics Field


Session Chairperson: Dr. Claudia Gärtner


Session Venue: Coolsingel Room

08:30

LPKF Laser & Electronics SEPrecision Glass Processing with LIDE For Lab-on-a-Chip and Microfluidic Applications
Joao Rafael Lourenco dos Santos, Director, Technical Sales, LPKF Laser & Electronics SE

Glass, renowned for lab-on-a-chip and microfluidics applications due to its unique properties such as chemical inertness and biocompatibility, optical transparency, low autofluorescence, high rigidity and dimensional stability. However, its widespread use has been hindered by its glass processing techniques which are typically expensive and with limited design freedom. These also generate defects limiting glass’s application and reducing its reliability in applications and industries with stringent quality and safety requirements. With LIDE, highly precise micrometer-scale features with high aspect-ratios can be fabricated, overcoming the drawbacks of traditional glass processing. With our proprietary LIDE technology, we achieve the fabrication of depth-limited structures such as wells and channels, seamlessly integrated with through-glass structures for inlet/outlet ports, electrical interconnects, or other features of diverse geometries and dimensions. Simultaneously, LIDE defines the part outlines and facilitates their singulation. Our focus on precision and cost-effectiveness is underscored by the high throughput inherent to LIDE. This capability not only ensures quality glass microprocessing but also opens avenues for the broader integration of glass in applications traditionally dominated by other materials. The result is not only enhanced precision but also new possibilities, positioning glass as a versatile and competitive choice across a spectrum of applications and industries.

08:50

ElvesysElveflow, Microfluidics One-Stop-Shop: PDMS Microfabrication and Flow Control
Barbara Corelli, Technical Sales Engineer, Elvesys

Elveflow develops state-of-the-art microfluidics equipment so scientists can focus on the science while we take care of the instruments. We specialize in chip microfabrication in PDMS and high-performance automated flow control, with solid expertise in system design for countless applications. Our plug-and-play microfluidics packs provide easy access to microfluidics for non-specialists.

09:10

KloéMicrofluidics and Mask-Aligner: How to Make the Right Choice?
Nicolas Brillouet, CTO, Kloé

Mask-aligners have been used for decades as key technological equipments to manufacture microchips, in particular in semiconductor industry. More recently, these equipment, historically based on the use of mercury lamps as the UV-source, have also been considered as relevant systems to enable the fabrication of chips in microfluidics (molds / PDMS casting, Lab On a Chip, Organ-on-a-Chip…) in particular thanks to the cost effective use of plastic/flexible photomasks (before considering the use of chrome photomasks to achieve higher resolution). However, the use of mercury lamps, that was already very energy consuming, is also now worldwide compromised in a very near future by considering the global ban of using mercury in fluorescent lighting (Minamata Convention on Mercury) that entered into force in 2017, and that has been ratified by 140 countries, while the last use exemptions remain presently in effect later by 2027. Without waiting for this recent decision dedicated to protect human health and the environment from the adverse effects of mercury, our company KLOE SAS introduced UV-KUB3 on the market since 2015 as the very first range of UV-LED based mask-aligners and this presentation highlights the major advantages of using this range of innovative lithography equipments as the new generation of mask-aligners.

09:30

z-microsystemsPrecision Microfluidic Plastic Consumables: From Design for Manufacturing to High Volume Production
Harald Fuchs, Project/Sales Manager, z-microsystems

The development path of a microfluidic consumable out of the lab to towards a robust and scalable product has some milestones we want to highlight in the talk. Design for manufacturing along with selection of material has a huge impact on functionality of the cartridge. Besides that, it determines processes and equipment needed for the production, what has an influence on the cost structure for further stages. Z-MICROSYSTESMS® support you along this path to your successful microfluidic consumable.

09:50

ASIGAASIGA Advancing 3D Printed Microfluidics and Lab-on-a-Chip
Stephan Weiß, Global Technology Manager, ASIGA

ASIGA is a leader in reliable and precise DLP 3D Printers. In this talk we will show you how to leverage our open material system and voxel-level control over all parameters in our 3D printers to create cutting edge biocompatible Microfluidic Chips.

10:10

STRATEC Consumables GmbHCombining the Power of Plasmonics and Microfluidics: A Collaboration Between Causeway Sensors, IPHT and STRATEC Consumables
Iris Prinz, Head of Sales and Business Development, STRATEC Consumables GmbH

In the evolving application of plasmonic devices for biosensing, the partnership between Causeway Sensors, IPHT and STRATEC Consumables is driving innovation in integrated plasmonic and microfluidic devices. This talk delves into the collaborative relationship that enabled the joint manufacture of a cutting-edge product designed by Causeway, focusing on the specialized plasmonic device central to real-time measurement of bioreactor samples like the IgG Titre quantification in Bioprocessing. IPHT Jena realizing nanostructured templates as well as STRATEC Consumables - renowned for its expertise in smart polymer-based consumables, coating technologies, and automated assembly - has been critical in bringing Causeways’ vision to life. The presentation will cover the technical challenges, the solutions developed, and the impact of this collaboration on biopharmaceutical manufacturing, allowing greater insights into behaviours in the bioreactor. By exploring the journey of how STRATEC Consumables realizes these microfluidic devices for Causeway, attendees will gain insight into the critical role of OEM partnerships in pushing the boundaries of what is possible in life sciences, pharma and medical technologies.

10:30

Mid-Morning Coffee Break and Networking in the Exhibit Hall

11:00

Nan ZhangKeynote Presentation

Precision Manufacturing of Polymeric Microfluidic Devices: Progress from Fast Prototyping Using High Precision DLP Printing and Defect-Free Production via Self-Lubricating Mould Technology
Nan Zhang, Associate Professor, University College Dublin, Ireland

Microfluidic devices have been used in point-of-care diagnostics, drug development and life science research. After more than 40 years development, microfluidic technology has been becoming a platform technology and reforming the development of the future generation in-vitro diagnostics, bio-pharma and life science. In comparison to the increasing development of advanced applications using microfluidic as a technical base, the manufacturing processes of microfluidic devices is still constrained by the tedious prototyping, which is still time consuming and requires specialized equipment. During production stage, for the high density and high aspect ratio micro structures, demoulding can cause feature damage or distortion, and thus affect the subsequent bonding and overall chip functionality. In the present talk, I would like to share our current progress on high precision prototyping of microfluidics devices by 3D printing based on Digital Light Processing technology, and showcase complex channel 3D printing and hybrid 3D features inside of 2.5D micro channel. Additionally, I would also like to talk about our newly developed novel self-lubricating micro/nano mold technology for defects-free production of plastic microfluidic devices. The demonstration will be highlighted for testing star patterns and microfluidic devices.

11:30

Gregory NordinKeynote Presentation

Advances in 3D Printing for Microfluidics
Gregory Nordin, Professor, Brigham Young University, United States of America

While there is great interest in 3D printing for microfluidic device fabrication, a main challenge has been to achieve feature sizes that are in the truly microfluidic regime (<100 µm). A key issue is that microfluidic devices are comprised primarily of negative space features, which therefore dominate 3D printing resolution requirements, as compared to positive space features that are typical for many other 3D printing applications. Consequently, we have developed our own stereolithographic 3D printers and materials that are specifically tailored to meet these needs. We have shown 3D printed channels as small as 18 µm x 20 µm, and have recently reduced this to 2 µm x 2 µm. We have also developed active elements such as valves and pumps with the smallest valves having an active area of only 15 µm x 15 µm. With these capabilities, we demonstrate highly integrated 3D printed microfluidic components such as a 10-stage 2-fold serial dilutor in an X-Y footprint of only 2.2 mm x 1.1 mm. We also show a fast (~1 ms) and small (<1 mm^3) 3D printed mixer using a new multi-resolution 3D printing technique. These advances open the door to 3D printing as a replacement for expensive cleanroom fabrication processes, with the additional advantage of fast (~5-15 minute), parallel fabrication of many devices in a single print run due to their small size.

12:00

Eden TechA User-Friendly and Holistic Journey into Microfluidics
Emmanuel Roy, CEO, Eden Tech

From conception, to prototyping and mass manufacturing, we present new strategies and solutions for microfluidic innovation and industrialization. First, it comes with a fully microfluidic oriented on-line application for fast and easy chips design and flow calculation. Following, a true 3D mold making solution is reported, and final a novel material solution for fast prototyping and high quality assembly is presented, Flexdym is a advanced polymer technology gathering the advantages of both classical silicone and thermoplastics materials.

12:20

Networking Buffet Lunch -- Network with Exhibitors and View Posters

15:30

Best Poster Awards Sponsored by Lab-on-a-Chip Journal, Royal Society of Chemistry (RSC) -- In the Coolsingel Room