: Systems like the ImageStream use Charge-Coupled Device (CCD) cameras with Time Delay Integration (TDI) to track cells in flow, preventing motion blur and enabling the detection of dim markers.
While IFC shares many preparatory steps with conventional flow cytometry, it requires specific optimizations to ensure high-quality imagery. Imaging Flow Cytometry: Methods and Protocols
: Researchers must set specific software parameters, such as magnification and laser power, to maximize the resolution of the captured images. Common Applications : Systems like the ImageStream use Charge-Coupled Device
Imaging Flow Cytometry (IFC) is a hybrid technology that combines the of conventional flow cytometry with the detailed spatial and morphological resolution of digital microscopy. Unlike standard flow cytometry, which provides integrated signal intensity for a whole cell, IFC captures multiple digital images of every individual cell as it passes through the system. Core Principles and Advantages Common Applications Imaging Flow Cytometry (IFC) is a
: Cells must be in a single-cell suspension to avoid clogging the thin fluidic channels used for imaging.
: It allows for the quantification of intracellular features, such as the translocation of signals into the nucleus or the internalization of particles. Key Protocol Steps