Imaging Solutions
Our imaging solutions consist of advanced, innovative hybrid microscopes and live-cell analyzers that enable high-quality imaging and automated monitoring of living cells in real time.
PRODUCTS
Understanding Imaging Solutions
Microscopy systems provide high-resolution imaging to observe cellular structures and dynamics. Live-cell analysis platforms enable continuous monitoring of living cells within incubators, capturing real-time data.
These systems support high-throughput workflows, imaging multiple vessels simultaneously. Automated analysis tools quantify cellular behaviors such as proliferation, apoptosis, and morphology changes. Together, they offer comprehensive insights into cellular function, enhancing experimental reproducibility and accelerating discovery.
APPLICATIONS
Drug Discovery
High-resolution imaging and live-cell monitoring enable observation of cellular responses and viability for compound evaluation.
Cancer Research
Tumor structures, spheroid growth, and treatment responses can be visualized and tracked.
Immunology
Immune cell interactions, proliferation, and activation can be captured and quantified.
Stem Cell Research
Differentiation, morphology, and long-term behavior of stem cells can be followed.
3D Cell Cultures & Spheroids
Spatial organization and development of 3D models and spheroids can be monitored.
Neuroscience
Neuronal networks, synapses, and activity can be observed and measured over time.
FAQ
How do these systems maintain cell health during imaging?
Live-cell imaging systems are designed to provide an optimal environment for live cell imaging experiments. Specifically, they control temperature, CO₂, humidity, and can accommodate hypoxia conditions.
This precise environmental control ensures that cells remain healthy and physiologically relevant throughout long-term experiments, supporting reliable and reproducible results in various research applications.
How long can cells be monitored during live-cell imaging experiments?
Live-cell imaging systems are designed to maintain optimal environmental conditions for extended periods, allowing continuous observation of cells over hours or even days while keeping them healthy and physiologically relevant.
How do microscopes and live-cell analyzers differ?
Microscopes provide high-resolution imaging of cellular structures, while live-cell imaging+analyzers enable continuous monitoring, automated analysis, and quantitative measurement of dynamic cellular processes.
Are these systems compatible with different culture formats?
Yes, they support multi-well plates, dishes, flasks, and spheroids, allowing versatility for both 2D and 3D cell culture experiments.
How does using these systems improve reproducibility and efficiency?
By combining controlled environments, automated imaging, and quantitative analysis, these systems reduce variability, save time, and provide reliable, reproducible data.
What is a hybrid microscope?
A hybrid microscope is a single system that can switch between upright and inverted configurations, combining the functionality of two microscopes in one. It uses high-resolution displays instead of traditional eyepieces and supports versatile imaging for a wide range of research applications.
