Edukad projektid

eesti keeles / in English

Microfluidic Chip

acronym: MICROFLUCHIP
start: 2010-04-01
end: 2012-09-30
 
programme: FP7 - Euroopa Liidu 7. raamprogramm
sub-programme: PEOPLE - Marie Curie tegevused
instrument: MC-ERG - Marie Curie tegevused
call identifier: FP7-PEOPLE-2009-RG
project number: 256305
duration in months: 30
partner count: 1
 
abstract: Microfluidic devices can integrate laboratory functions such as biomedical analysis on a single chip. They produce a huge market for the upcoming decades, as they seem to compete, rewardingly, benchtop instruments. Microfluidic devices became innovative as an increasing number of applications use microfluidic reactors for cultivating cells. Microfluidic devices might work with segmented flows where cells might be cultivated within miniaturized droplets, called droplet-bioreactors. MicroFluChip project targets the fabrication of a microfluidic chip capable of measuring electrically blood cells within droplet-bioreactors. For assessing the passive properties of the cells we intend to employ bioimpedance spectroscopy, which is a well-established method in biomedicine for measuring dielectric response of cells. Digital pulses with predefined spectral properties will be employed in this work. Integrated front-end electronics will condition the signals for performing online analysis with an analyzer or a signal processor. A network of microchannels, junctions and microelectrodes will direct the droplet-bioreactors, serially, into outlets for separation. Immiscible oil will be used as separation medium in order to prevent the droplets from merging and also to isolate their content from contamination. No surfactants are required for stabilizing the droplets. The microfluidic chip will be capable of measuring up to ten droplets per second serially, which enables high throughput processing for this class of devices. Our design allows oxygen and carbon dioxide to diffuse through the chip walls, which is essential for the metabolism of the cells. MicroFluChip is a highly multidisciplinary project and combines microfluidics, electronics and material technology. MicroFluChip project ensures the transfer of knowledge to Tallinn Technical University and offers the potential of introducing this technology into the local industry.
partner no and role partner name country contact person web page
1 coordinator Tallinna Tehnikaülikool EE Athanasios Giannitsis http://www.ttu.ee