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Cyris - Model Flox -Innovative Multisensor Cell Analysis Technology
Our technology allows researchers to measure changes in cell morphology and metabolism automatically and in a fully controllable atmospheric environment. It improves efficiency and work performance through the continuous observation of multiple data: dissolved oxygen, cellular oxygen consumption rate (OCR), pH, extracellular acidification rate (ECAR), cellular impedance (magnitude and phase) and microscopic imaging. CYRIS® flox has now a more compact look: our new platform has become lighter and smaller, the ideal device to save space in any laboratory, while features and functionalities remain the same.
- Automated detection of multiple cellular key parameters
- Full label-free real-time measurement for days or weeks
- Automatic climatisation (temperature, gas atmosphere and humidity) of the measurement environment
- Investigation of up to 24 different treatable cell samples or references in parallel
- Automatic supply of culture media and addition plus washout of active substances
- Automatic disposal of exhausted media, pooled or retraceable to samples (subsequent investigation possible)
- USB Ports
- ON/OFF Button
- Status light
- Freely programmable sequences of experiments and output of raw and processed data
- Excellent ergonomics thanks to the tilted touchscreen display
- Reduced working time standing in front of the device
During the measurement, living adherent cells are cultivated and treated in the 24 independent test chambers of a special sensor-equipped microtiter plate (sensor plate), located in a temperature- and atmosphere- controlled climatic chamber.
A fully automated pipetting robot supplies and disposes of media and drugs in all 24 test chambers. This life support fluidic system allows the cells to be monitored and treated in the sensor plate for days up to several weeks in vital conditions and free of disturbance and contamination.
All measurements and treatment protocols in the sensor plate are individually configurable and are monitored online and in real time.
