Automated Cell Imaging Systems
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Our Automated Cellular Imaging Systems are scientific instruments with advanced technology designed to automatically capture and analyze images of cells or biological specimens. With their high-speed capabilities, researchers can obtain comprehensive results in a matter of minutes, accelerating scientific discoveries and enhancing our understanding of the behavior of various cell models.
Eliminate the inconvenience of visiting a core life science lab by bringing automated imaging and analysis directly to your lab bench. Our lab-friendly and economical Automated Cell Imagers empower researchers to access the benefits of automated imaging and analysis, ensuring enhanced laboratory automation and simplified remote access to cope with the ever-changing research environment. Achieve increased productivity, cost savings, and consistent performance with our state-of-the-art systems. Our automated cell imaging systems streamline the acquisition and processing of multi-channel images and drastically accelerating research progress.
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Features

Essential Features of Automated Cell Imaging Systems

  • Our Automated Cell Imaging Systems excel in quantitative analysis, offering precise and reproducible measurements for various cell parameters. Researchers can rely on their high-performance capabilities to analyze complex cellular processes such as outgrowth analysis, cell health, and cell death. Our system's accuracy and speed streamline biology workflows, including culture workflows and 3D cell models, providing valuable data for in-depth cell studies.
  • These systems ensure top-notch image quality, capturing clear and detailed cell images with its advanced optics and imaging technology. The high-quality output is crucial for accurate analysis of images and reliable results. Researchers can confidently explore various biological phenomena, such as cell health, neurite outgrowth formation, and cell death, with these systems’ exceptional image quality.
  • Engineered for durability, our imaging systems are purpose-built to withstand continuous use in rigorous research environments. Their robust design and high-quality components ensure long-lasting performance, allowing researchers to rely on consistent and reliable analysis of cell images, including cell morphology, over time. Whether monitoring cell proliferation or studying cell culture, our systems’ durability provides researchers with a dependable tool to support their ongoing investigations and scientific discoveries.

Applications

Applications of Automated Cell Imaging Systems

  • The drug discovery landscape is evolving with a focus on 3D cell models, accelerating drug development. Our technology enhances throughput and reproducibility, speeding up the journey from drug to market. Our automated 3D imaging solutions optimize throughput, revolutionizing the development of drug candidates. Integrating microplate readers,  high-content imaging, and advanced analysis solves the complexity of drug discovery, enabling next-gen drug discovery.
  • Safer and faster drug development requires accurate toxicity assessment methods to identify adverse effects and characterize compound-specific effects. Shifting towards cell-based testing, particularly using 3D organoids, allows for rapid evaluation of complex compound effects and cytotoxic effects, providing more representative and reliable results compared to traditional animal studies. We offer a comprehensive range of advanced tools, including imaging instruments, ePhys instruments, plate readers, and automation solutions, empowering researchers to obtain detailed insights into the safety profile of potential drugs.
  • Our suite of hardware and software solutions automates the stem cell imaging and analysis workflow, supporting complex assays and 3D iPSC-derived cell models, from initial growth and expansion to differentiation, quality control, and predictive assays for therapeutic research while also providing necessary lab supplies.
  • The automated live cell imaging equipment offers the capability to control environmental conditions and thus automated single-molecule imaging in living cells, ensuring the optimal health and viability of cells while observing molecular and cell processes, spanning from single-cell analyses to observations at the organismal level.
  • The high-resolution imaging systems are used in  cell line developmentmAb development, and  antisense oligonucleotide development to monitor cell processes, optimize production, and evaluate the effectiveness of potential therapeutics.
FAQs

What are the benefits of using ImageXpress Nano Automated Imaging System?

ImageXpress Nano offers several benefits, including the rapid acquisition of label-free brightfield images without the need for harmful fluorescent agents and streamlined image analysis with a modular toolbox for setting up routine assays and turnkey analysis modules for added convenience. The system's flexibility in capturing a diverse range of samples, from whole-well imaging (e.g., C. elegans, zebrafish) to sub-cellular details (vesicles, organelles) at different magnifications (2x to 60x), makes it a powerful tool for a wide range of cell imaging and microscopy studies.

How does an Automated Cellular Imaging System differ from manual microscopy?

An Automated Cellular Imaging System relies on known sample layout, combined with robust autofocusingto capture and analyze cell images automatically, allowing high-throughput imaging of multiple samples. In contrast, manual microscopy requires manual manipulation of samples and limited throughput, making it less efficient for large-scale studies.

How does an Automated Imaging System expedite the phenotypic analysis process?

Automated image capture and analysis systems significantly reduce the time and effort required for phenotypic analysis, enabling researchers to obtain results faster and accelerate their research.