Title Single Cell Technologies for SMEs (SICTEC)
Start 01.10.2013
Duration/Status 24 months / ongoing project
Budget 1.4 Mio. EUR
Dr. Wolfgang Streule,
Project description This project is focused on development of technologies for separation and manipulation of single biological cells for life science research and medical applications. The research plan is built upon the results of the FP7 project PASCA (GA 257073, started 01.09.2010). The single cell manipulation technology (SCM technology) developed there is based on inkjet-like printing of single biological cells confined in free flying micro droplets. It constitutes a universal platform for single cell analysis that has been proven to have high potential for many life science applications. The objective of this project is to support the participating SMEs and companies to take up the SCM technology, to realize their own applications and to develop them into innovative products for the medical, biomedical and pharmaceutical markets. Central element of the research is the SCM prototype instrument as presented in numerous publications (see The actual project will provide validation and extension of the use of this prototype instrument and deal with necessary improvements and modifications of pre-production prototypes towards the specific needs and applications of the SME partners. In particular also topics affecting commercial exploitation like e.g. application development, design for manufacturability, reliability issues, cost and throughput optimization, extension of technical specifications, and preparation of CE IVD labeling will be investigated. Applications targeted by the individual SMEs are considering fast pathogen detection for clinical use by combining the SCM technology with MALDI TOF mass spectroscopy of single bacteria, instruments for single cell cancer and stem cell research, methods for monoclonal cell line development and in-vitro medical diagnostic applications. The anticipated innovations stemming from this research will be exploited by the involved SMEs individually as well as jointly through several innovative products targeted for different markets and applications.
BioFluidix tasks
BioFluidix is coordinating the project and contributing to it through its NanoJetT® dispensing technology, system integration and software development.
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European Commission, Research Executive Agency (REA): 
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Research Partners
University of Freiburg, IMTEK, Germany
Erasmus MC, Netherlands
Sophion BioScience A/S, Denmark
Primadiag SAS, France
BioFluidix GmbH, Germany
BioSparQ BV, Netherlands
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Selected publications
A Non-Invasive Single Cell Dispensing Approach for 2-Dimensional Micro-Patterning,
A. Yusof, L. Riegger, N. Paust, A. Ernst, R. Zengerle, P. Koltay Actuator 2010, Bremen, Germany, 14.-16. June, 2010, 1033 - 1036

Towards a microfluidic dispenser chip for printing of single cells,
A. Yusof, R. Zengerle, and P. Koltay Proc. of IEEE-MEMS, Cancun, Mexico, January 23-27, 2011, 1059-1062

Inkjet-like printing of single-cells,
A. Yusof, H. Keegan, C. D. Spillane, O. M. Sheils, C. M. Martin, J. J. O'Leary, R. Zengerle and P. Koltay Lab Chip, 2011, Advance Article, DOI: 10.1039/C1LC20176J