Cellaca® PLX Image Cytometry System
Multiplexity without complexity.
cell count and cell growth/viability
The image cytometry is really easy to use and accelerates cell count for chemical assays. The viability readouts are very quick and best of all it does not need numerous optimisation methods (all are provided) or other techniques to be implemented.
Review Date: 3 Feb 2023
Analytical science for immunophenotyping
We were looking for a rapid, easy to use instrument to run high throughput immunophenotyping in a clinical research lab setting. The current configuration of an 8 sample slide gave us results comparable to those from our flow cytometers, but process and data analysis time was dramatically reduced. The 24 sample plate format, currently under development will be a game changer.
Review Date: 1 Dec 2022
The Cellaca PLX system with Matrix analysis software and dedicated reagents and consumables provides a benchtop solution for accurate measurements of small sample volumes to easily perform rapid subpopulation analysis for downstream processing.
Multiplexing made easy
The Cellaca PLX image cytometry system is easy to use, performing simple yet sensitive cell counts, viability readouts, and multiplex analysis in seconds.
Small sample volume
The sample-efficient Cellaca PLX requires between 15 – 50 uL per single sample analysis. That’s 10-30 times less sample volume required per test, compared to a flow cytometer.
Speed with sensitivity
The time to downstream processing is shortened by multiplexing with four channels with viability readouts at one minute per sample.
Optimized assays and kits
Our simple-to-use, mix, incubate, wash, and read reagent kits provide immunophenotyping plus viability multiplexing assays using disposable, low fluorescence consumables.
Stress-free software
Optimized protocols streamline surface marker staining, vitality, and apoptosis analysis with step-by-step methodologies and customizable result presentations.
Low auto-fluorescent consumables
Allow for accurate surface marker detection.