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SELECTBIO Conferences Lab-on-a-Chip Asia Track A

Nicolas Szita's Biography



Nicolas Szita, Professor, University College London

Nicolas Szita has significant expertise in microbioreactors and microfluidics, which encompasses performing cell cultivation in a microfluidic format, biochemical micro reactor design and microfluidic device fabrication, and the system-wide integration of microfluidic and analytical devices. For his doctoral degree at ETH Zurich, he created a microfluidic pipetting device from silicon and glass, with integrated capacitive sensors for the liquid handling of microlitre volumes with nanolitre precision. At MIT, he established multiplexed microfluidic bioreactors, and demonstrated highly reproducible parallel batch fermentations. This led to the first demonstration that multiplexed microbioreactors can be designed to provide in situ and real-time kinetic process data that are comparable with bench-scale reactor data. The microbioreactors were linked to gene expression analysis, analysed for glucose consumption, organic acid production, and for oxygenation capacity. During his time at the Technical University of Denmark, he initiated doctoral projects on continuous culture microbioreactors for single use and which have led to international collaborations. At UCL, he has developed a microbioreactor for enzyme reactions integrated with inline filtration for the production of chiral metabolites. He has also developed a microfabricated cell culture device which permits the long-term culture of human and mouse embryonic cells. Current work includes the development and integration with monitoring concepts for cell confluency and dissolved oxygen to start quantifying stem cell culture processes.

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Microbioreactors for Stem Cell Bioprocessing

Wednesday, 13 November 2013 at 16:30

Add to Calendar ▼2013-11-13 16:30:002013-11-13 17:30:00Europe/LondonMicrobioreactors for Stem Cell BioprocessingSELECTBIOenquiries@selectbiosciences.com

We present a novel, autoclavable, and microfabricated scale-down device designed for regenerative medicine process development. The microfabricated device contains a re-sealable culture chamber that facilitates use of standard culture protocols, creating a link with traditional small-scale culture devices for validation and scale-up studies. An image processing algorithm was developed which permits quantification of co-cultured colony-forming cells from phase contrast microscope images.


Add to Calendar ▼2013-11-12 00:00:002013-11-13 00:00:00Europe/LondonLab-on-a-Chip Asia Track ASELECTBIOenquiries@selectbiosciences.com