Labyrinth builds a modular, scalable microfluidic chip platform, covering multiple cutting-edge application scenarios such as CTC enrichment, cell sorting, and gene delivery.
Microfluidic Chip
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Labyrinth CTC Enrichment Chip
Function Overview
Based on the principle of purely physical inertial microfluidics, achieve efficient and label-free separation and enrichment of circulating tumor cells (CTCs) in blood samples.
Application scenarios
CTC Enrichment and Detection
CTC Cultivation and Downstream Functional Research
ADC Target Detection and Patient Stratification
Status
Available / Commercial Applications
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Non-invasive Prenatal Testing Microfluidic Chip
Function Overview
Used for the physical separation and enrichment of target cells or nucleic acid-related components in peripheral blood samples, serving applications such as non-invasive prenatal testing (NIPT).
Potential Applications
Assessment of fetal chromosomal abnormality risk in non-invasive prenatal testing
Improvement of detection sensitivity and stability in prenatal screening processes
As an auxiliary screening method before clinical diagnostic testing
Status
Under development
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Cell Cycle-Regulated Gene Delivery Microfluidic Chip
Function Overview
By regulating and screening the physical properties related to the cell cycle, support the improvement of gene delivery efficiency and the study of cell states.
Potential Applications
Optimization of gene delivery efficiency
Study on the Relationship between the Cell Cycle and Transfection
Basic Research and Technology Verification Platform
Status
Under development
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Activation/Resting T Cell Sorting Microfluidic Chip
Function Overview
Based on the differences in cellular physical properties, achieve label-free sorting of activated T cells and resting T cells.
Potential Applications
Preprocessing for immunocyte therapy
T cell function research
Immune status analysis and process optimization
Status
Under development
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Dead/Live Cell Sorting Chip
Function Overview
Achieve physical separation of live and dead cells without relying on dyes or antibody labeling.
Potential Applications
Recovery of highly viable cells
Downstream culture and functional experiments
Cell quality control and process optimization
Status
Under development
Note
Some of the chip products listed on this page are still in the research or verification stage. The descriptions of their functions are based on current research progress and are intended only for scientific use, and do not constitute a commitment to commercial products or clinical applications.