ManuCyte

Full name: Self-learning modular manufacturing platform for flexible, patient specific cell production
Homepage: http://www.manucyte-project.eu/
Department: Computer Integrated Manufacturing Laboratory
Start date: 2010. 05. 01.
End date: 2013. 04. 31.
External identifier: FP7 260100
Cost: 3.435.700 euro

Project manager

János Nacsa: Address: 1111 Budapest, Kende u. 13-17.
Room number: K 421
Phone: +36 1 279 6268
Fax: +36 1 4667503
E-mail: nacsa.janosEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.mta.hu
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Members

Sándor Kopácsi: Address: 1111 Budapest, Kende u. 13-17.
Room number: K 421
Phone: +36 1 279 6268
Fax: +36 1 466 7503
E-mail: kopacsi.sandorEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.mta.hu
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György Kovács: Address: 1111 Budapest, Kende u. 13-17.
Room number: K 424
Phone: +36 1 279 6140
Fax: +36 1 4667503
E-mail: kovacs.gyorgyEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.mta.hu
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Géza Haidegger: Address: 1111 Budapest, Kende u. 13-17.
Room number: K 423
Phone: +36 1 279 6207, +36 1 279 6224
Fax: +36 1 4667503
E-mail: haidegger.gezaEZT_TOROLJE_KI@EZT_TOROLJE_KIsztaki.mta.hu
Homepage: http://www.sztaki.hu/munkatars/008001106/
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Participants

ÅBO AKADEMI University
acp-IT AG
AFT GmbH
Chip-Man Technologies Oy
Fraunhofer IPA (project leader)
mta automation ag
MTA SZTAKI
PRIMACYT GmbH
Regensburg University of Applied Sciences

Description

ManuCyte focuses on the development of an intelligent, modular manufacturing platform for flexible, patient-specific cell production which will increase efficiency of personalised cell production in terms of quality, throughput, and costs. This objective will be reached by combining several high-sophisticated technologies such as
- a modular and scalable concept for the setup of cell production platforms, which is based on plug-ins and allows a flexible composition of functionalities, extension of capacities, as well as fast ramp up.
- a micro-fluidic component which provides cell culture medium specifically customised for each cell culture.
- bioreactors with integrated sensor technology, which are capable for highly automated processes as well as the associated incubation component
- the application of a cost-neutral cleanroom and sterilisation concept to keep cell cultures free of contaminations from the environment and between different cell cultures.
- optical and biochemical inline monitoring methodologies, which enable the evaluation of cell status within the production process
- a MES (Manufacturing Execution System) with LIMS (Laboratory Information and Management System) functionalities
- a self-learning knowledge-based cell behaviour model and advanced cell process control functionalities.