Cell-related Microfluidic Chips

Cell-related microfluidic chips are designed to simulate microenvironments, manipulate cells, analyze cell heterogeneity, and dynamically monitor cell behavior, thereby enabling efficient and precise experiments at the cellular level. Matexcel offers a full range of cell-related microfluidic chips for life science research, drug screening, and cell engineering. All products are manufactured using biocompatible materials and feature standardized interfaces, making them compatible with conventional microscopes and automated sample loading systems.

Introduction to Cell-related Microfluidic Chips

Cell Culture Chips

Support two-dimensional/three-dimensional dynamic culture, simulate in vivo fluid shear stress and nutrient gradients, and are suitable for long-term maintenance, co-culture, and stem cell expansion.

Cell Analysis Chips

Integrate cell isolation, lysis, amplification, and in situ detection capabilities, suitable for cell transcriptomics, protein expression analysis, and heterogeneity studies.

Cell Capture/Sorting Chips

Utilize microstructural arrays (e.g., micropores, microcolumns) or hydrodynamic forces (e.g., inertial focusing, dielectrophoresis) to achieve efficient enrichment and specific sorting of target cells, such as circulating tumor cells and rare immune cells.

Cell Behavior Research Chips

Monitor dynamic processes such as cell migration, invasion, chemotaxis, proliferation, and apoptosis in real time, supporting drug screening, microenvironment simulation, and the exploration of invasion and metastasis mechanisms.

Advantages

High Biocompatibility: Constructed from PDMS, glass, or cell-friendly plastics, these systems are non-cytotoxic and exhibit low protein/nucleic acid adsorption, supporting long-term culture and real-time observation.
Precise Microenvironment Simulation: Through precision microchannels and fluid control, physiological and pathological microenvironments—including shear stress, concentration gradients, and oxygen partial pressure—are accurately recreated, providing a more realistic reflection of in vivo cell behavior.
Efficient Processing of Rare Cells: The chip incorporates built-in microstructural arrays or fluidic designs to efficiently capture circulating tumor cells, stem cells, and specific immune cells from complex samples.
Flexible and Customizable: Customization options are available for channel geometry, surface modification, coating proteins, and integrated electrodes to meet the needs of specific cell types or experimental protocols.

Matexcel has launched a range of high-performance microfluidic chips designed specifically for cells, enabling precise cell manipulation, observation, and analysis, and supporting research in cell biology, pharmacology, and toxicology, and cutting-edge life sciences. Please feel free to contact us for more product information or custom chip services.

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