CellASIC Products - M1 Microfluidic Plate for Mammalian Cells


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PRODUCTS OVERVIEW

ONIX LIVE CELL IMAGING

Perfusion Control System

Microfluidic Culture Plates

M1 for Mammalian Cells

M2 for Mammalian Cells

M16 for Mammalian Cells

Y2 for Yeast Cells

Y16 for Yeast Cells

B2 for Bacterial Cells

3D:M GEL CULTURE ARRAY

M1 Microfluidic Perfusion Chamber for Mammalian Cells

The M1 plate enables time-lapsed imaging of cultured mammalian cells with solution switching. The microfluidic cell culture region ensures optimal cell health during long term microscopy studies. This design is ideal for switching between up to 6 solutions during imaging, as well as creation of stable spatial gradients. Also see the M16 and M2 microfluidic plate.

	Key Features: • Switch between 6 medium solutions • Perfusion culture on your microscope for 3+ days • Ideal for long term spatial gradients • Pump-free culture in a standard incubator • Pipet friendly sample wells • #1.5 glass bottom for optimal imaging quality Ordering Info Instructions Technical Note


Microfluidic Live Cell Imaging Benefits


	Flow Switching

	Unlike static cultures, the microfluidic chambers allow medium to continuously perfuse the cultured cells. Six upstream solution reservoirs allow rapid laminar switching of the exposure solution during time-lapsed imaging to monitor real time cell responses. Additionally, flow of 2 or more solutions simultaneously generates a stable spatial gradient.
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	Long Term Culture

	The innovative microfluidic chamber is carefully designed to maximize cell health for long term imaging experiments on your microscope stage. Medium perfusion, temperature, and gas atmosphere are controlled via a novel microincubator design.

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	Image Quality

	The optically clear microfluidic cell culture chamber minimizes background fluorescence. A #1.5 thickness glass bottom allows for superior high magnification time-lapsed imaging quality.

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	Time Saving

	Maximize your microscope time by obtaining higher quality images, stable long-term cell environments, parallel units, repeatable experiment conditions, and reduced setup times.
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