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产品概况
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BE-Doubleflow: is our most advanced device. It consists of two perfusable channels connected via a porous membrane. Explore the crosstalk between different 2D and 3D cultures in a biomimetic environment and control the efficiency of the interaction by selecting the optimal pore size for your application. This is the optimal device when a hypoxia environment is needed, for studying the effect of circulating particles (bacteria, immune system, circulating tumor cells) and for endothelium/epithelium barrier when no ALI is needed or when flux plays a role in both sides of the coculture.
Culture Models
• Explore the crosstalk in the endothelium epithelium barrier under flow in both channels of the device, mimicking a more physiological environment for the study of different organs such as kidney, liver, gut or heart, among others.
• Combine 3D and 2D cultures in a hypoxia environment where oxygen is supplied to the cells via the medium flowing in one of the channels.
• Research the effect of circulating particles such as circulating tumor cells, immune system cells, bacteria, fungi, viruses and many more in a single cell culture, or in a complex coculture.
Device features
• Easy to use: Be-Doubleflow is compatible with any type of optical microscopy and its slide format has been chosen for easy handling under a microscope.
• Easy to connect: Be-Doubleflow is compatible with all microfluidic flow control systems (syringe, peristaltic pumps, pressure control systems, rocker systems…).
• No unspecific absorption: Unlike in other PDMS devices, Be -Doubleflow is made of lipophobic thermoplastic materials and does not present unspecific drug absorption issues. It allows inmunohistochemistry with fluorescent detection.
• Cell recovery: The cell cultures used in the Be-Doubleflow can be easily recover for further experimentation.
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BE-Doubleflow: is our most advanced device. It consists of two perfusable channels connected via a porous membrane. Explore the crosstalk between different 2D and 3D cultures in a biomimetic environment and control the efficiency of the interaction by selecting the optimal pore size for your application. This is the optimal device when a hypoxia environment is needed, for studying the effect of circulating particles (bacteria, immune system, circulating tumor cells) and for endothelium/epithelium barrier when no ALI is needed or when flux plays a role in both sides of the coculture.
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