Status:
ReviewerMember since: 2017
Organization: Fraunhofer Institute for Molecular Biology and Applied Ecology (IME)
Productive
Application Area: Drug discovery
"The instrument gives a lot of important information and its easy to use."
Status:
ReviewerMember since: 2017
Organization: COMBiNATi Inc
Affordable precision perfusion control.
Application Area:Precision pressure control
"It is the only product which is affordable and provides precision perfusion control. I would love to see more application-specific intelligent culture products developed for this platform."
Status:
ReviewerMember since: 2012
Organization: University of Florida
Good for live cell imaging that can keep cell survival for relatively long time.
Application Area:Live cell imaging
"CellASIC® ONIX2 Microfluidic System is a cell culture platform. Since it can keep long term cell survival, researchers can get high quality imaging at different time point for the drug effects or cell developing studies."
Status:
ReviewerMember since: 2017
Organization: Kaiser Permanente
Wonderful product
Application Area:Microfluidics
"Easy to use and great results. Can't run the lab without it"
It’s the boost your microscope needs for advanced, live cell imaging!
The CellASIC® ONIX2 Microfluidic System is a cell culture platform that can be used by drug discovery, basic and applied microbiological and mammalian cell researchers who need a highly controllable and manipulatable cellular environment and the ability to conduct semi-automated, repeatable long term experiments while continuously collecting quantitative image-based data.
The CellASIC® ONIX2 System incorporates extraordinary improvements to traditional live cell culture, observation and experimentation. It employs advanced microfluidics technology, using optically clear microfluidic plates, intuitive software and computer automation to precisely manipulate the cell culture environment under controlled conditions, then integrates with a broad range of inverted microscopes to allow continuous, high magnification observation of live cells—as they react to their environment in time.
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