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Product Infomation
Product Name Cell Capture Chip
Catalog Number MC-CMC-014
Physical Specs 46*27 mm
Description Cell capture chips are an advanced application of microfluidic technology widely used in biomedical research, medical diagnostics, and the life sciences. This technology enables the efficient capture, positioning, and analysis of cells through microscopic fluidic channels and functional surface structures. The core principle of cell capture chips is based on the integration of microfluidic technology and cell biology. Microfluidic technology enables highly precise manipulation of fluids through microscopic channels and microstructures, while cell biology focuses on the structure, function, and interactions of cells. Cell capture chips typically feature microscopic channels and surface microtextures; through these structures, cells can be captured, localized, and immobilized under specific conditions. These chips can also selectively capture specific cell types using different functionalized surfaces, enabling precise sorting of mixed cell populations.
Applications Capturing and analyzing specific cell types in an in vitro environment facilitates a deeper understanding of cellular physiology, metabolism, and signaling mechanisms. Additionally, cell capture chips can be used to establish disease models, offering new avenues for disease research and treatment; they are also employed for early cancer diagnosis, circulating tumor cell detection, and the diagnosis of other diseases. By capturing circulating cells from a patient’s body fluids, these chips provide more accurate and earlier diagnostic information, aiding in the development of more personalized treatment plans. They are used to evaluate the effects of drugs on cells and optimize drug design. This helps improve the efficiency of drug R&D and reduces the need for animal testing. In organ-on-a-chip research, by capturing and analyzing specific cell types, they simulate the physiological and pathological states of organs. This is of great significance for gaining a deeper understanding of organ function as well as the onset and progression of diseases.
Features Highly precise cell manipulation; high-throughput analysis; selective capture; minimizes sample and reagent consumption.
Material PDMS & Glass
Depth 20 μm, 25 μm, 300 μm
Width 20 & 10 μm, 30 & 10 μm, 130 & 30 μm, 270 & 10 μm, 270 & 40 μm (narrow channel width)
Thickness 4+1 mm
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For Research or Industrial Raw Materials, Not For Personal Medical Use!
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