Enhance your cell imaging and analysis capabilities with our high-content imaging systems that offer a variety of optional features and configurations. Access a broader range of cell assays, expand scaling capabilities for basic and complex tests, and capture more relevant physiological insights. Our integrated image analysis software streamlines data processing, while the modular and scalable design ensures high-throughput image acquisition and analysis for a variety of samples, including live cells, plants, tissue slices, and complex 3D matrices. Collaborate with our team of skilled scientists and engineers to tailor your equipment and automate complete workflows to match the distinct requirements of your assay, technique, or procedure.
Features
Essential Features
- These solutions, along with their image analysis software, excel in delivering rapid and precise high-content analysis, supported by efficient image acquisition times, enabling high-throughput screening and comprehensive exploration of cellular features and dynamics.
- They ensure exceptional image quality, capturing intricate details of cell morphology and subcellular structures with remarkable clarity, enhancing the accuracy and reliability of high content imaging assays.
- Designed with robust engineering and durable components, these systems offer a long-lasting and dependable solution for continuous analysis, guaranteeing consistent and high-quality results over extended periods of operation.
Applications
Applications
- This kind of imaging facilitates rapid and comprehensive analysis of cellular phenotypes, mAb development, antisense oligonucleotide development and manufacturing, antibody screening, development and manufacturing of synthetic oligonucleotide, and bioassay screening for activity testing.
- Cell painting employs a multiplexed fluorescent dye technique to comprehensively capture cell morphology and subcellular organization, making it a valuable tool in various fields such as drug discovery. By providing detailed morphological and phenotypic profiles of cells treated with the drug, researchers can identify specific cellular changes and compare them with known patterns associated with different mechanisms of action. This comparative approach can help infer how a drug interacts with its targets and affects cellular processes.
- Accurate cell counting holds fundamental importance in a wide range of biological investigations, and automated imaging can significantly enhance the speed of cell counting while minimizing the need for manual intervention and the associated potential for human errors.
- Organoids are gaining growing significance in cancer research, neurobiology, and stem cell investigations, necessitating high content screening instruments and quantitatively evaluating phenotypic alterations occurring within these structures.
- Utilizing imaging systems for examining and analyzing cancer spheroid cultures facilitates a thorough exploration of how potential cancer treatments impact the behavior of tumors.
FAQs
What are the advantages of high-content imaging?
High-content imaging offers the advantages of high throughput, multiparametric and quantitative data, phenotypic profiling, mechanism of action studies, data richness, versatility, and integration with other technologies, making it a powerful tool for advanced research and drug discovery.
How do I choose the right high-content imaging system?
Consider factors like imaging quality (resolution and sensitivity), throughput (sample capacity and speed), analysis capabilities, compatibility with your assays, automation level, user interface, and budget when selecting a system.
What does our high-content imaging system include?
Our high-content imaging systems encompass high-resolution imaging capabilities, multi-channel fluorescence and transmitted light detection, robust automation for high throughput, advanced image analysis software, flexibility to accommodate various sample types and assays, and reliable data management.