Cell Migration / Invasion
Cell migration and invasion are live cell kinetic assays useful in oncology research. The principle difference between migration and invasion is that migration refers to normal cell movement; whereas invasion describes cells actively invading surrounding tissue. It can do this under the influence of a chemoattractant gradient and secretion of proteases. There are numerous formats for performing these assays including scratch assays performed on a monolayer of cells adhered to plasticware (microplates or culture inserts) or using 3D cell culture models. Gen5 3.0 offers numerous methods of automated image analysis that can be used to quantify migration and invasion such as wound width, confluence or healing rate in the case of scratch assays; or invadopodia area for tumor invasion assays incorporating spheroid co-cultures embedded in matrigel.
- Automated Monitoring of Protein Expression and Metastatic Cell Migration using 3D Bioprinted Colorectal Cancer Cells
- Automated, Kinetic Imaging of Cell Migration and Invasion Assays using Corning FluoroBlok™ Permeable Supports
- Imaging and Analysis of a High Density Cell Migration Assay
- Performance of a Label-Free Image-Based 2D Scratch Wound Healing Assay to monitor Cell Migration and its Inhibition
Visual Abstracts (.mp4):
BioTek’s Visual Abstracts are brief animated presentations describing the Augmented Microscopy workflow of a specific application.
- Phenotypic and MoA Analysis of Anti-Metastatic Molecules using 3D Tumoroid Invasion Assays, Kinetic Ligand Binding, and Cellular Microscopy
- Combining Automated Liquid Handling, Cellular Microscopy and Magnetic Bioprinting to Create Walk Away 3D Oncology, Stem Cell Differentiation, and Toxicity Procedures - On Demand
- Lionheart FX Automated Microscope
- BioSpa Live Cell Imaging System
- Cytation 5 Cell Imaging Multi-Mode Reader
- Cytation 1 Cell Imaging Multi-Mode Reader
Learn more about Cell Migration/Invasion applications - search our Application Notes and technical documentation in Resources.