HoloMonitor® M4FL - Live Cell Imaging System with Fluorescence

Features

• Combined Imaging Modalities: Integrates both holographic and fluorescence imaging, allowing for a more comprehensive analysis by providing both label-free and fluorescence-tagged visualization of cells.
• Minimized Phototoxicity: The system uses minimal light exposure during imaging, significantly reducing the risk of phototoxicity and preserving cell health over long-term experiments.
• Compact Design for Incubator Use: Specifically designed to fit inside standard CO₂ incubators, ensuring that cells remain in a stable and physiologically relevant environment throughout the imaging process.
• Long-term Monitoring: Capable of continuous imaging and analysis of individual cells and cell populations over extended periods, providing detailed time-lapse data for in-depth studies.
• User-friendly Interface: Features an intuitive interface that guides users through the entire process from setup to data analysis, making it accessible for researchers at all levels of expertise.

Models within the Series

1. HoloMonitor® M4: A basic model that offers non-invasive monitoring and analysis of cell cultures using holographic microscopy.
2. HoloMonitor® M4FL: An enhanced model that includes a fluorescence unit, enabling combined holographic and fluorescent imaging for more detailed and multifaceted cell analysis.

Applications

• Cell Biology Research: Ideal for analyzing cell movement, proliferation, morphology, and migration, providing valuable data for understanding cellular processes.
• Oncology: Enables monitoring of tumor cell responses to treatments, aiding in the development and assessment of cancer therapies.
• Regenerative Medicine: Useful for tracking the differentiation and growth of stem cells, supporting research in tissue engineering and regenerative therapies.
• Transfection Studies: Monitors the efficiency of cell transfection processes and co-culture studies, facilitating advancements in genetic research and therapy development.

For more information, visit HoloMonitor® Fluorescence Unit.