Cell Tracking recipe
Cell migration in response to external stimulus is a fundamental biological process. The Cell Tracking recipe detects and tracks the motion of individual cells over time. Specialized cell types and fluorophores or not required.
Nuclei Tracking recipe
The Nuclei Tracking Recipe for Meiji SVCell accurately detects nuclei and tracks both their movement and their division in fluorescence time lapse sequences. Our adaptive detection and partition techniques provide accurate boundary definition and nuclei separation, even in images with high cell density.
Cell Proliferation recipe
The Cell Proliferation recipe for Meiji SVCell measures the change in cell confluency over time in phase contrast and fluorescence time lapse sequences. The recie accurately detects cell regiions with our patented image recognition technology that works on your cell line at our magnification.
Filament Tracking recipe
The Filament Tracking recipe in Meiji SVCell detects the leading edge of actin filaments in gliding assays and track the motion of the leading edge over time. The recipe enhances the filement shape and provides a comprehensive suite of measurements on filament motility.
Particle Tracking recipe
The Particle Tracking recipe for Meiji SVCell tracks the complex motion of sub-cellular particles inside and outside the cell. The recipe uses our unique Soft Tracking technology to achieve great tracking accuracy. With Meiji SVCell you can easily optimize the recipe for your application.
Neurite Outgrowth recipe
The Neurite Outgrowth recipe detects cell bodies and traces neurite extensions in fluorescence images and provides a comprehensive suite of measurements for quantifying neurites.
Neurite Outgrowth recipe
The Neurite Outgrowth recipe detects cell bodies and traces neurite extensions in fluorescence images and provides a comprehensive suite of measurements for quantifying neurites.