Short Description
The Thermo Fisher Attune CytPix Flow Cytometer with Autosampler is a high-performance flow cytometry system designed for high-throughput, multi-parametric cellular analysis. It features four standard lasers (blue, red, violet, and yellow-green), allowing the detection of multiple fluorescence parameters simultaneously with high sensitivity and precision.
Using acoustic-assisted hydrodynamic focusing technology, the system ensures precise sample acquisition, even at high flow rates. This enhances data quality while minimizing sample loss and clogging. The CytPix module integrates real-time brightfield imaging, enabling users to visualize and verify cells during acquisition. This feature improves gating accuracy, supports morphological assessments, and assists in troubleshooting.
The autosampler automates multi-well plate processing, increasing sample throughput and reducing manual handling. Its user-friendly software streamlines experiment setup, data acquisition, and analysis, making it accessible to both experienced and novice users.
With its combination of four-laser excitation, real-time imaging, and automated sample handling, the Attune CytPix with Autosampler is well-suited for immunophenotyping, cell cycle analysis, rare event detection, oncology, microbiology, and stem cell research. It provides researchers with a powerful tool for fast, high-content cellular analysis while ensuring reproducibility and efficiency.
Contact Person
Dhanlakshmi Shunmugam
Research Services
The Thermo Fisher Attune Flow Cytometer is not available for external users. It enables high-speed cell analysis, including immunophenotyping, T cell analysis, stem cell studies, microbiology, and fluorescent protein detection. The Attune CytPix model also captures cell images for morphology analysis. For further inquiries, please contact the responsible person (FACS technician, CeMM).
Methods & Expertise for Research Infrastructure
The Attune Thermo Fisher Cell Analyzer at CeMM enables high-throughput flow cytometry with acoustic-assisted hydrodynamic focusing, ensuring precise and rapid single-cell analysis. This infrastructure supports multiparametric immunophenotyping, cell cycle analysis, and viability assays.