European Organ-on-Chip Society open for active membership
The founding phase is complete: the European Organ-on-Chip Society (EUROoCS) is now welcoming members to join. The annual conference, held this year in Graz (Austria), saw launch of the community website and the start of its availability as an information resource. "We invite scientists, engineers, as well as regulators and patient representatives interested in these new laboratory models to become active members of the society and contribute to efforts of the Organ-on-Chip community in promoting recognition and implementation of this exciting research field," says Christine Mummery, chair of EUROoCS and professor of Developmental Biology at Leiden University Medical Center, the Netherlands
3 July 2019 - Organ-on-Chip (OoC) systems are among the latest emerging technologies for healthcare research. It is believed they will accelerate drug discovery, advance drug efficacy and toxicology testing and open new opportunities for personalized medicine. "Organ-on-Chip systems can reduce and perhaps eventually replace animal experiments and provide predictive human data before expensive and lengthy clinical trials actually start," vice-chair Peter Loskill says. The biophysicist heads the Organ-on-Chip research group at the Fraunhofer Institute for Interfacial Engineering and Biotechnology IGB in Germany.
Building a community network
Although the potential of OoC technology is high, it is also very complex. Organ-on-Chip systems hold human cells, tissues or mini-organs in mimics of their own microenvironment while they perform real-life tissue functions. This requires considerable interdisciplinary collaboration - especially between biology, engineering and physics, disciplines only recently in close contact. "We established the European Organ-on-Chip Society to bring together all relevant stakeholders and build an expert network. In this way we provide a platform for exchange of scientific knowledge across disciplines and collaboration opportunities," says Janny van den Eijnden-van Raaij, secretary of EUROoCS and managing director of the Dutch institute hDMT. "Involving all stakeholders at an early stage is key to success and rapid development of Organ-on-Chip technology."
Many scientists with interest registered earlier are now invited to contribute and participate actively in the OoC community.
Making the difference
High on EUROoCs agenda is identifying "showcases" that demonstrate the potential of OoC-technology and how it can make a difference in discovery of safe and effective drugs. EUROoCs promotes the development of reliable and robust model systems, open technology platforms, standardization and discussion of ethical aspects. "We have to work on approaches for the integration of physical or chemical sensors, and ensure that the test systems deliver reproducible and comparable results and can also be standardized from a regulatory point of view," says board member Albert van den Berg, professor of sensor systems for biomedical and environmental applications at the University of Twente, the Netherlands. "Furthermore, we need to think about the manufacturability and integration in the user's workflow at an early stage if we want to have real impact."
The society is open to individual researchers and students worldwide and to individual representatives of industry and regulatory agencies. Anyone with a real interest in Organ-on-Chip technology is welcome to join and share ideas and knowledge. Student members enjoy a 50% reduction on the € 40,- annual membership fee.
Member benefits include exclusive access to the digital platform (with forum, research projects and expert profiles), discounted registration for the annual conference and up-to-date information on advances and activities in the OoC field.
Stay tuned and join the Organ-on-Chip Society: https://euroocs.eu/become-a-member/
Become part of a growing network and help move this emerging technology forward.
Dr. Janny van den Eijnden - van Raaij
Managing Director hDMT
T: +31 6 1299 8074
About Organ-on-Chip systems
An Organ-on-Chip is a fit-for-purpose microfluidic device,
containing living engineered organ substructures in a controlled
microenvironment, that recapitulates one or more aspects of the
organ's dynamics, functionality and (patho)physiological response
in vivo under real-time monitoring.
Organ-on-chip models are expected to result in a paradigm shift for healthcare, leading to new ways to elucidate disease mechanisms in humans, identify effective drugs and improve health by prevention and personalized cure of many diseases.
The European Organ-on-Chip Society (EUROoCS) is an independent,
not-for-profit organization established to encourage and develop
Organ-on-Chip research, and to provide opportunities to share and
advance knowledge and expertise in the field towards better health
for all. EUROoCS was launched November 2018 during the 3rd
International Organ-on-Chip Symposium at the University of
Technology in Eindhoven, the Netherlands.
EUROoCS is an outcome of the Horizon 2020 project ORCHID (Organ-on-Chip in Development) carried out by a European consortium of seven partner organizations.
The Horzion 2020 ORCHID project (Organ-on-Chip development) is
an EU initiative, coordinated by Leiden University Medical Center
and the Dutch Organ-on-Chip consortium hDMT in the Netherlands. The
main goal of ORCHID is to create a roadmap for Organ-on-Chip
technology and to build a network of all relevant stakeholders in
this promising innovative field. In the two years ORCHID project
that started on 1 October 2017 in total seven leading European
research institutions from five different European countries are
hDMT (Institute for human Organ and Disease Model technologies)
is a pre-competitive, non-profit, technological research institute,
in which renowned scientists from 15 Dutch organizations (academic
research centers, research institutes, University Medical Centers,
and biotech companies) work together. In this consortium hDMT
researchers share and integrate their knowledge, expertise and
research facilities in technology, biology, physics, chemistry,
pharmacology and medicine to develop Organs-on-Chips largely using
human stem cells. hDMT aims to disseminate Organ-on-Chip models and
research data via open access publication and valorization.