Get your results faster. Meiji SVCell comes with several default application recipes for general image analysis purposes. All you need to do is pick the image and the recipe to run. Let Meiji SVCell handle the image processing tasks so you have more time for your experiments.
Meiji Core Facilities includes the RS Base Module, Cell Tracking recipe, Nuclei Tracking Recipe, Cell Proliferation Recipe, Wound Healing Recipe, Calcium Osillation recipe, Exocytosis Detection, Filament Tracking recipe, Particle Tracking recipe, Neurite Outgrowth recipe, Phase Cell Tracking, Overlap Analysis/Colocalization, 3D Neuron Analysis recipe, Colony Analyzer Recipe.
Cell Tracking recipe
Cell migration in response to external stimulus is a fundamental biological process. The Cell Tracking recipe detects cell regions and tracks the motion of individual cells over time. Specialized cell types and fluorophores are not required.
Calcium Osillation recipe
The Calcium Oscillation recipe for Meiji SVCell RS detects and measures intensity changes of specific regions in fluorescent time-lapse images. The recipe is designed to detect just the regions showing calcium response and works with most calcium assays.
Exocytosis Detection recipe
The Exocytosis Event Detection recipe for Meiji SVCell RS tracks the motion of vesicles within cells and detects exocytotic events in a TIRFM image sequence.
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 filament shape and provides a comprehensive suite of measurements on filament motility
Particle Tracking recipe
The Particle Tracking recipe for Meiji SVCell RS tracks the complex motion of particles inside and outside the cell. The recipe uses our unique Soft Tracking technology to provide great tracking performance. 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.
Phase Cell Tracking recipe
The Phase Cell tracking recipe enhances image contrast for segmentation and tracks cell movement in phase contrast time-lapse images. The recipe provides tracking and morphological information about the cells to help your analysis.
Cell migration in response to external stimulus is a fundamental biological process. The Cell Tracking recipe detects cell regions and tracks the motion of individual cells over time. Specialized cell types and fluorophores are not required.
Calcium Osillation recipe
The Calcium Oscillation recipe for Meiji SVCell RS detects and measures intensity changes of specific regions in fluorescent time-lapse images. The recipe is designed to detect just the regions showing calcium response and works with most calcium assays.
Exocytosis Detection recipe
The Exocytosis Event Detection recipe for Meiji SVCell RS tracks the motion of vesicles within cells and detects exocytotic events in a TIRFM image sequence.
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 filament shape and provides a comprehensive suite of measurements on filament motility
Particle Tracking recipe
The Particle Tracking recipe for Meiji SVCell RS tracks the complex motion of particles inside and outside the cell. The recipe uses our unique Soft Tracking technology to provide great tracking performance. 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.
Phase Cell Tracking recipe
The Phase Cell tracking recipe enhances image contrast for segmentation and tracks cell movement in phase contrast time-lapse images. The recipe provides tracking and morphological information about the cells to help your analysis.