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Related Experiment Video

Updated: Nov 16, 2025

Adhesion Frequency Assay for In Situ Kinetics Analysis of Cross-Junctional Molecular Interactions at the Cell-Cell Interface
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Automated Capillary-Based Vacuum Pulse-Assisted Instrument for Single-Cell Acquisition and Concurrent

David Ma1, Zhongcai Ma1, Lili C Kudo1

  • 1NeuroInDx, Inc., Torrance, CA, USA.

SLAS Technology
|February 22, 2021
PubMed
Summary
This summary is machine-generated.

A new automated platform, A-picK, measures and collects individual cell adhesion properties. This technology aids in understanding cancer metastasis by correlating cell adhesion with molecular profiles.

Keywords:
adhesioncell collectiondetachmentsingle cellsingle-cell adhesion assaysingle-cell collection

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Area of Science:

  • Biotechnology
  • Cell Biology
  • Cancer Research

Background:

  • Cell adhesion molecules are crucial in cancer metastasis.
  • Altered cell adhesion properties serve as biomarkers for metastatic potential.
  • Loss of intracellular adhesion promotes cancer cell invasion and metastasis.

Purpose of the Study:

  • To develop a rapid, accurate method for measuring individual cell adhesion and attachment.
  • To overcome limitations of existing complex technologies like AFM and optical tweezers.
  • To enable concurrent, automated single-cell adhesion measurement and collection for molecular profiling.

Main Methods:

  • Introduction of a fully automated and versatile platform named A-picK.
  • Parallel single-cell adhesion assay and isolation capabilities.
  • Demonstration using human lung carcinoma A549 cells and seven different substrates.

Main Results:

  • The A-picK platform successfully performed time-course analysis of cell adhesion.
  • Substrate-specific adhesion potential was measured for various biomaterials.
  • The system allows for parallel adhesion measurement and isolation of single cells.

Conclusions:

  • A-picK offers a novel solution for single-cell adhesion analysis.
  • The platform facilitates direct correlation between cell adhesion properties and molecular profiles.
  • This technology has significant implications for cancer metastasis research.