Description | The ImageXpress® Confocal HT.ai High-Content Imaging System utilizes a seven-channel laser light source with eight imaging channels to enable highly multiplexed assays while maintaining high throughput by using shortened exposure times. Water immersion objectives improve image resolution and The ImageXpress® Confocal HT.ai High-Content Imaging System utilizes a seven-channel laser light source with eight imaging channels to enable highly multiplexed assays while maintaining high throughput by using shortened exposure times. Water immersion objectives improve image resolution and minimize aberrations so scientists can see deeper into thick samples.
The powerful combination of MetaXpress® software and IN Carta™ software simplifies workflows for advanced phenotypic classification and 3D image analysis with machine learning capabilities and an intuitive user interface.
Enable greater assay flexibility
Eight imaging channels with laser excitation enable more assay flexibility, higher image brightness, and flexibility to use targeted imaging such as QuickID. Automated Water Immersion objectives offer greater numerical aperture and matched refractive index between the sample and the immersion media for enhanced resolution and decreased aberrations.
Increase throughput with higher quality images
Higher excitation power provides increased signal, shorter exposure times, and faster acquisitions of 3D samples. Micro-lens enhanced spinning disk confocal provides a flat field of view for more accurate and reproducible image analysis. Shorter exposure times generates up to a two-fold boost in scan speed. FRET experiments using lasers for CFP and YFP expand research.
Accelerate analysis speeds
IN Carta™ Image Analysis Software performs complex segmentation and classification. Phenoglyphs provides a robust trainable classification, and SINAP provides trainable segmentation for any image type. Accelerate analysis speeds by 40X with multi-threaded, parallel processing with MetaXpress® PowerCore Software. Reduces time from hours to minutes, eliminating 3D analysis as a bottleneck.... Read More | Demonstrating that cell lines are monoclonal – or that a gene was edited as expected – can be a time-consuming and highly-subjective process when relying on conventional technologies. The CloneSelect® Imager and CloneSelect® Imager FL are a high-throughput automated solutions for imaging and Demonstrating that cell lines are monoclonal – or that a gene was edited as expected – can be a time-consuming and highly-subjective process when relying on conventional technologies. The CloneSelect® Imager and CloneSelect® Imager FL are a high-throughput automated solutions for imaging and analyzing mammalian cells. Tracking the formation of a colony from a single cell is effortless as barcoded plates are tracked over time. Automated acquisition and analysis provides accurate, objective, and consistent results.
With high-resolution white light imaging, the CloneSelect Imager provides automated confluence, monoclonality assurance and industry leading acquisition times with the ability to image a 96-well plate in under two minutes.
The CloneSelect Imager FL features high contrast multichannel fluorescent and white light imaging that allows for accurate single cell detection and proof of monoclonality at day 0. Streamline your workflow with comparative confluence assays to identify and verify gene edits.
Features :
- White light and fluorescent imaging -
Image every well in every plate with rapid acquisition times with label-free white light. Multichannel fluorescence imaging provides additional confidence of monoclonality and comparative confluence assays (red vs green). -
Data tools to accelerate research timelines -
The software automatically calculates confluence measurements and generates growth curves, heatmaps, and image montages. Measurements for every well are automatically tracked over time. Streamline multiple steps (imaging, sample tracking, data analysis and report generation) in the cell line development workflow for IND filing. -
Quickly image a variety of plate formats and cell types -
Image a 96-well plate in under two minutes. Compatible with adherent or settled suspension cell types such as CHO, HEK, hybridomas, iPSCs, and many other cell types. -
Intelligent analysis with easy-to-use software -
The software automatically calculates confluence for each imaging time point. Growth curve, image montage, total growth, and mean rate are generated automatically and are exportable. Guided software user interface allows for simple 1-hour training. -
High-resolution images -
High-speed fluorescence and high-resolution white light imaging with accurate detection of single cells including debris. Image visualization and data tracking over multiple days. -
Custom automation options -
The Automation and Customization Team offers a variety of custom services from robotic plate loading to fully automated workstations with liquid handling and incubation. We have built out custom automated work cells with the CloneSelect Imager for iPSC workflows, full assay systems and drug toxicity and characterization research. ... Read More | Digital microscopy with automated brightfield and fluorescence imaging.
The ImageXpress® Pico Automated Cell Imaging System is more than a digital microscope, combining high-resolution imaging with powerful analysis. Whether running fluorescence imaging or brightfield assays, the automated imagerDigital microscopy with automated brightfield and fluorescence imaging.
The ImageXpress® Pico Automated Cell Imaging System is more than a digital microscope, combining high-resolution imaging with powerful analysis. Whether running fluorescence imaging or brightfield assays, the automated imager features a comprehensive portfolio of preconfigured protocols for cell-based assays to shorten the learning curve, so you can start running experiments quickly.
Multiple imaging modes - The ImageXpress Pico system offers objectives ranging from 4x to 63x and can operate in colorimetric, brightfield, or fluorescence imaging modes.
Preconfigured analysis protocols - Preconfigured analysis protocols ranging from cell counting to sophisticated neurite tracing analysis removes the guess work from optimizing parameters.
Plate-to-individual cell view - Data can be visualized at multiple levels from plate overview to individual cells. The cell click-to-find tool also makes it easy to automatically locate cells that match specific criteria.
Z-stack acquisition - Z-stack acquisition enables the generation of sharper images and more accurate segmentation. A series of images acquired at different focal points captures more details than with an individual slice.
Advanced slide-imaging workflow - Time and data storage can be saved by scanning an overview image of a whole slide; then, high resolution scans acquire only selected regions of interest.
Environmental control - Multi-day, time lapse, and live cell assays can be run on the system. The software provides real-time monitoring of environmental state, ensuring optimal assay conditions. Product option includes humidity, CO2, and O2 control.
Other features and benefits include: - Get started quickly
- Do more than cell counting
- Image Economically
... Read More | Fluorescence imaging platform within reach of every lab.
The ImageXpress® Nano Automated Imaging System features a long life, solid state, light engine, and optics to reliably deliver the right assay sensitivity. Capture fine details of a variety of cellular and subcellular assays with this Fluorescence imaging platform within reach of every lab.
The ImageXpress® Nano Automated Imaging System features a long life, solid state, light engine, and optics to reliably deliver the right assay sensitivity. Capture fine details of a variety of cellular and subcellular assays with this powerful and flexible fluorescent microscopy solution. The system includes MetaXpress® High-Content Image Acquisition and Analysis Software with tools for 2D and 3D imaging and time lapse analysis, as well as a range of needs from ease-of-use through to proprietary assay design.
Large field of view- An entire well of a 384-well plate can be captured in a single image at 4x magnification for faster throughput.
Automated Stages- Fully automated X, Y, and Z stages with resolution better than 25 nm.
Wide range of filters and objectives- The system can be configured with different filters or objectives (2-60x) to meet research needs.
Five fluorescent channels- The system can have up to 5 fluorescent filters installed at one time. The software allows up to 7 channels to be acquired at one time which enables multi-channel fluorescent and transmitted light imaging in one experiment.
Other features and benefits include: - - Image label-free
- Streamline image analysis
- Capture a diverse range of samples
... Read More | Designed specifically for the SpectraMax® i3 Multi-Mode Detection Platform, the SpectraMax® MiniMaxTM imaging cytometer option adds first-of-its-kind cellular imaging capability to a microplate reader. The upgradable option makes cytometry more accessible to a wider audience, providing researchers Designed specifically for the SpectraMax® i3 Multi-Mode Detection Platform, the SpectraMax® MiniMaxTM imaging cytometer option adds first-of-its-kind cellular imaging capability to a microplate reader. The upgradable option makes cytometry more accessible to a wider audience, providing researchers with cellular analysis capability without the need for investment in complex imaging systems. With brightfield and fluorescent imaging modes, the imaging cytometry option enables quick inspection of cells and provides insight into phenotypic changes that are important for understanding cytotoxicity, cell proliferation, and protein expression.
Features - Simple workflow: Cell and whole-well assays in a small footprint
- More data: Multi-parametric cell-based assays with brightfield and fluorescent modes
- Familiar software: Set up, image and analyze cells in a snap using SoftMax® Pro Software
- Higher sensitivity: Use fewer and or less fluorescent cells compared to whole-well measurements
- Lower variance: Normalize readings with number of cells in a well
... Read More |