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How microCT can provide insight into dynamic disease processes webinar
Jun 19, 2018
Professor Vande Velde will describe how high-field MRI and low dose microCT complement each other; where microCT gives...
Real-time study of platelet formation under sheer-flow with Lumascope
Jun 18, 2018
Platelet formation was observed with Lumascope microscope in a uniform-sheer-flow biorector. Videos of the formation...
Early fetal sex determination using micro-volume of maternal plasma
Jun 16, 2018
A qPCR-based assay, SneakPeek Early Gender Test (Gateway Genomics) has been developed to determine fetal sex as early...
3R Compliant drug development studies
Jun 8, 2018
In preclinical imaging, magnetic resonance imaging (MRI) can be an attractive alternative to researchers who have...
Kinase study of cytotoxicity voted paper of the year.
Jun 6, 2018
Society of Toxicology voted a xCELLigence based paper the Paper of the Year. The study of cytotoxicity was done using...
xCELLIgence webinar: label-free real-time cell analysis technology for Immuno-Oncology
Jun 5, 2018
Cancer immunotherapies harness and enhance the innate power of the immune system to eliminate cancer cells and have...
Heterodimeric compounds with dual-targeting active against both HIV and tuberculosis.
Jun 4, 2018
Search for dual action drugs against both HIV and Tuberculosis has lead to the creation of heterodimeric compounds with...
Mutual destruction of deep Lung tumor tissues by nanodrug‐conjugated and CQ1 imaging cytometer
Jun 1, 2018
Lung cancer is a highly malignant tumor, and targeted delivery of anti‐cancer drugs to deep lung tumor tissue remains a...
May 23, 2016
Extracellular vesicles (EVs) such as exosomes (70 nm – 160 nm in diameter) and microvesicles (100 nm – 1,000 nm diameter) can be harvested from cell-culture supernatants and from all bodily fluids. Current standard techniques to visualize, quantify, and characterize EVs are electron microscopy, nanoparticle tracking analyses, and dynamic light scattering. To further characterize and discriminate EVs, more exact high-throughput technologies to analyze their surface are highly desired. Although conventional flow cytometry is limited to measuring particles down to approximately 300 nm – 500 nm, a relatively new flow-cytometric method called “imaging flow cytometry” allows for the analysis of EVs smaller than 300 nm. This webinar on Wednesday, June 8, 2016 (6 pm CEST) will introduce viewers to the challenges, limitations, and pitfalls of flow cytometry-based EV analysis, and to the imaging flow cytometry methodology. Also covered will be techniques for analyzing exosomes, microvesicles, and apoptotic bodies in unprocessed samples, how imaging flow cytometry can be used to evaluate or reevaluate EV isolation techniques, and the advantages and disadvantages of using this method.
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Amnis has created the ImageStream Cell Analysis System, a breakthrough technology for high speed imaging and analysis of cells in flow.
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