High-Throughput Screening (HTS) Cytometry by Sartorius
Scientists use flow cytometry to investigate complex biological processes as part of routine cell analysis workflows. This research has a significant impact on society as it drives progress in antibody discovery, T-cell engineering, and immuno-oncology. To keep pace with market demands, scientists need a faster way to generate biologically relevant data from high-throughput research workflows.
Sartorius recognizes the need to update the decades-old complexity in flow cytometry instruments that utilize inefficient, disjointed sampling and data analysis workflows, making them unsuitable for high-throughput applications. Our intuitive iQue® HTS cytometers can take you from sample to biologically relevant data faster than any other instrument on the market. Additionally, elegant, and easy-to-use software.
Video: Speed Up Your Entire Workflow With Sartorius High-Throughput Screening (HTS) Cytometry Solutions
The iQue® HTS Platform has the ability to handle 96 or 384-well plates, and enables continuous plate loading through connection with any automation system.
Why Choose Sartorius High-Throughput Cytometry Solutions?
- Optimized mix-and-read reagent kits with ready-to-use analysis templates
- Flexible fluorophore options with up to 4 laser excitation and 27 channel configurations
- No adjustment optics for scalable, reliable, and reproducible data collection in multi-user environments
- Enhanced rinse station with intelligent software reporting of cartridge levels
- Patented sampling technology processes 96 wells in as little as 5 minutes; 384 wells in 20 minutes
- Automated plate calibration, QC, detector cleaning and shut down
- Single-software solution for all your acquisition and analysis needs
- Rapid data visualization—adjust a gate to see updated plate-wide analysis in real time
- Guided creation of metrics, statistics, visualizations and reports
- Easily identify wells of interest using multiple selection criteria
- Compare, identify, and rank wells in all plates across your experiment
- Drill down from experiment level, to plate level, to well level, to cell level
