With live-cell imaging and analysis, we can monitor changes in real time, which is not possible with typical end-point assays that provide only a snapshot into cellular function. Live-cell imaging and analysis is the combination of microscopy techniques and powerful analysis software that allows researchers to study spatio-temporal events within cells in real time. Live-cell imaging and analysis systems housed within an incubator, such as the Incucyte®, can perform real-time continuous analysis over days to months, while keeping cells in a stable and optimal environment. Live-cell imaging and analysis systems are designed to capture cellular events as they occur in real time. High-content screening and analysis systems are benchtop systems that combine fluorescent microscopy with analysis software to visualize and analyze real-time cellular data.
- We provide remote support, additional training and other servic…
- To ensure the best possible image quality, researchers must optimize various settings such as exposure time, focus, and illumination intensity.
- Power your research with the Incucyte® platform of real-time live cell analyzers.
- These software solutions often include advanced features such as real-time image processing, customizable analysis, and detailed reporting tools.
- Cells are dynamic in nature, so it is important to have the ability to image in real time to gain access to deeper biological insights.
- These systems typically do not sit within a tissue culture incubator and so are limited in terms of environmental stability and long-term studies.
Incucyte® CX3 Live-Cell Analysis Tech Talk
Request a complimentary sample of our ready-to-use transfection reagents for life science research involving most mammalian cell lines. Accelerate your next discovery with Incucyte’s® suite of live-cell applications. Reagents have been optimized for each application allowing easy assay preparation and intuitive software that guides the user through each step. These systems again lack proper environmental controls which will impact long-term studies. With increasing technical advancements comes increased complexity and costs; high-resolution microscopes often require extensive training and access is often limited. The timing of adjunct studies such as analysis of metabolites or secreted proteins in supernatants can also be guided.
Sartorius Live-Cell Imaging and Analysis FAQs
However, only the Incucyte® SX5 and S3 support independent vessel scheduling for different image acquisition frequencies. All Incucyte® models provide multi-user support with unlimited, free user licenses. We provide remote support, additional training and other servic… Experience faster discovery with the suite of live-cell applications from Incucyte®. Learn how the Incucyte® can support your research needs, from setting up an assay to analyzing and exporting your data with a virtual demo This page is also available in your prefered language.Switch to that version.
Automated systems in live-cell analysis streamline image acquisition and processing, enabling efficient, accurate, and reproducible results. Fluorescence microscopy systems are designed to acquire images at high speeds, enabling researchers to observe rapid changes and dynamic processes in real-time. By tagging specific molecules with fluorescent markers, researchers can track their movement, concentration, and interactions within the cell, providing valuable data for understanding cellular mechanisms. The ability to selectively label and visualize specific molecules provides valuable insights into cellular processes that would otherwise be invisible. Efficient data management systems and advanced analytical tools are essential to handle this influx of information, enabling researchers to extract meaningful insights without being overwhelmed by the data.
Imaging fixed cells allows high-resolution imaging of sub-cellular structures. See how your peers are using live-cell imaging and analysis Live-cell imaging continues this legacy by providing deeper insights into cellular processes, leading to advancements in medical research and biotechnology.
These systems typically do not sit within a tissue culture incubator and so are limited in terms of environmental stability and long-term studies. As such, it becomes easier to target internal cellular structures with dyes and antibodies. The fixation process kills the goatz casino no deposit bonus cells, which makes the outside cell membrane more permeable than living cells. While cellular composition is compromised, larger structures such as proteins, organelles and DNA are conserved. Fixed cells have been preserved by a fixation step that “locks” the cell in place.
Incucyte® software
Proper image optimization reduces noise and enhances the signal, making it easier to extract quantitative information from the images. This optimization process is crucial for obtaining clear and accurate images that can be reliably analyzed. A well-defined experimental plan ensures that the study is focused and that the data collected is relevant and meaningful.
Incucyte® — Reagents, Consumables and Software
- The volume of data generated during long-term imaging experiments can be substantial, posing challenges in storage, processing, and analysis.
- Generate data rich information from every sample with fluorescent reagent combinations – compatible with a variety of cell culture models and applications
- Incucyte® S3 shares the same highest maximum throughput as the Incucyte® SX5 but supports only the phase channel as well as green and red fluorescence.
- With continuous live-cell imaging and analysis, it is straightforward to temporally track network parameters and use the real-time data to judge when best to initiate treatment regimes.
- Spend more time investigating and less time troubleshooting with lab-tested protocols and purpose-built, intuitive software
- Fluorescence microscopy allows for precise quantitative measurements of various cellular processes.
- Live-cell imaging of T cells engineered to target and kill GFP labelled tumor cells.
The goal of this content is to serve as a resource for anyone wanting to learn more about long-term, live-cell imaging. Explore the resources below to learn more about how live-cell analysis outperforms other methods. Generate data rich information from every sample with fluorescent reagent combinations – compatible with a variety of cell culture models and applications Spend more time investigating and less time troubleshooting with lab-tested protocols and purpose-built, intuitive software Unlock 3D biology with ease using intuitive software and automated processes to acquire and analyze complex biology
To ensure accurate representation of cellular dynamics, it's important to optimize acquisition speed, resolution, and time intervals based on the specific biological phenomena being studied. However, over-collection of images can lead to excess data, increasing processing time and storage demands without necessarily enhancing biological insight. The ability to quickly capture images is crucial for studying fast kinetics in cellular activities.
Understanding these tradeoffs is essential for designing experiments that yield high-quality data without compromising cell health. Researchers must balance these factors to obtain useful data while maintaining cell viability. There is often a tradeoff between image resolution, acquisition speed, and cell health.
High-throughput 3D imaging systems will enable large-scale screening of these models, accelerating the discovery of new treatments. This capability could lead to the development of predictive models that forecast cellular responses to treatments, enabling more targeted and effective therapies. AI algorithms can analyze vast amounts of imaging data, identifying patterns and correlations that may not be apparent to human observers. We are at a very exciting time in the world of science thanks to the advancement of AI software and the utilization of patient-derived samples. This technique has the potential to revolutionize our understanding of diseases, drug development, and cellular functions, ultimately contributing to improved healthcare outcomes.
What are the advantages of using Incucyte® for live-cell imaging and analysis?
Maintain your cell health with non-perturbing image-based analysis and proprietary reagent formulations. The Incucyte® itself is not an incubator, but rather sits within a standard tissue culture incubator so cells are maintained in a physiologically relevant environment. Learn about the benefits of AI-driven image analysis and label-free cytotoxicity assays Real-time live-cell analysis is redefining the possibilities and workflows of cell biology. Furthermore, the applications enable analysis of a wide range of phenotypic cell-based assays. With the Incucyte® S3 Live-Cell Analysis System, take your research further with automatic acquisition and analysis of cells in a physiologically relevant environment.
Begin your investigations from the moment cells are placed in culture. Obtain real-time insight into morphological and phenotypic changes for pathway and mechanistic studies by observing time-dependent and cell-dependent treatment effects. Interact with instrument at anytime from anywhere – ideal for routine monitoring of assays and critical for restrictive laboratory conditions Cells remain stationary while optics move below capture changes in biology, without disrupting cell cultures in the stable incubator environment Analyze even the most sensitive living cells around the clock for days, weeks or months.