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MFMET

The overall objective of this project is to focus on metrology research necessary to support standardisation for microfluidics used in the health and pharmaceutical industry. This project will develop protocols for measuring different quantities, interfaces, connectivity, modularity and sensor integration in microfluidic devices. 

Publié le 29 juin 2022



Establishing Metrology Standards in Microfluidic Devices

The overall objective of this project is to focus on metrology research necessary to support standardisation for microfluidics used in the health and pharmaceutical industry. This project will develop protocols for measuring different quantities, interfaces, connectivity, modularity and sensor integration in microfluidic devices. 




 

Starting date : Jun. 2021 > May. 2024 

Lifetime: 36 months


Program in support :  EMPIR - European Metrology Programme for Innovation and Research (Normative 2020)


 

Status project : in progress


CEA-Leti's contact :

 

Project Coordinator: Instituto Português da Qualidade, I.P. (Portugal)

Partners:  

  • Centre Technique des Industries Aérauliques et Thermiques (FR)
  • Laboratoire national de métrologie et d'essais (FR)
  • Turkiye Bilimsel ve Teknolojik Arastirma KurumuGB: TUV SUD Limited (TR)
  • Cesky Hydrometeorologicky Ustav (CZ)
  • National Quality Infrastructure System (GB)
  • IMT Masken und Teilungen AG (CH)
  • Hahn-Schickard-Gesellschaft für angewandte Forschung e.V.(DE)
  • INESC Microsistemas e Nanotecnolgias-Instituto de Engenharia de Sistemas de Computadores Para os Microsistemas e as Nanotecnologias (PT)
  • Commissariat à l'énergie atomique et aux énergies alternatives (FR)
  • Microfluidic ChipShop GmbH (DE)
  • VAN HEEREN ARIE HENDRIK (BE)


Target market: Medical Device



Investment:  € 1 m.

EC Contribution€ 1 m.



Website


Stakes

  • The increased technical capability required to miniaturise devices along with the growing need for faster, more accessible and cost-effective solutions for precision analytical tools has led to the rapid growth of microfluidics in diverse sectors (e.g. pharmaceutical and biomedical industries). 
  • However, due to this rapid growth, microfluidics and specifically the control of fluids in microfluidic devices still lacks universal solutions and standards

OBJECTIVES


  • The overall objective of this project is to focus on metrology research necessary to support standardisation for microfluidics used in the health and pharmaceutical industry. This project will develop protocols for measuring different quantities, interfaces, connectivity, modularity and sensor integration in microfluidic devices. 

  • The protocols implemented in new transfer standards fabricated under this project and literature surveys will integrate the standards prepared by ISO/TC48/WG3. Nicolas Verplanck (CEA-Leti) is involved as convenor of ISO TC48/WG3 and will bridge the gap between the project and the ISO working group (requirements…).


IMPACT

  • The development of standards and test protocols for microfluidic and lab-on-a-chip systems can enable rapid testing and improve reliability of diagnostic products that are faster, scalable and more cost effective than current techniques but have comparable accuracy.

  • The new calibration guidelines and transfer standards developed in this project are of direct relevance to the industrial and other user communities as it will enable to test and improve their microfluidics devices or to develop new devices with increased accuracy and quality.