Accelerate to discover
Related topics
Quantitative characterization of metaphase cellular events using 3D imaging cellular events
Sep 20, 2018
In conventional monolayer cell culture systems, cell nuclei show dynamic and cyclic changes in theirshape and height....
A carboxymethyl dextran-based polymeric conjugate as the antigen carrier for cancer immunotherapy
Sep 18, 2018
A polymeric conjugate, composed of a carboxymethyl dextran (CMD) as the backbone and ovalbumin (OVA) as a model foreign...
Adenovirus type B detection using the xxpress qPCR thermal cycler
Sep 17, 2018
The ultrafast xxpress qPCR thermal cycler through performing standard dilution series and multiplex qPCR experiments is...
BluePippin-DNA size selection for NGS with pulsed-field (100bp-50kb)
Sep 3, 2018
Highly sensitive detection of mutations in CHO cell recombinant DNA uses multi‐parallel single molecule real‐time DNA...
IncuCyte webinar: Live-cell analysis of cell subsets and heterogeneity
Sep 3, 2018
Discover the new IncuCyte S3 cell-by-cell analysis software module. The innovative module allow label free analysis to...
Diagnosis of Acute Cellular Rejection Using Probe-Based Confocal Laser Endomicroscopy in Lung
Sep 3, 2018
Mauna Kea Technologies announced the publication of a prospective multicenter study that demonstrates the potential of...
ACEA Biosciences introduces an exploratory xCELLigence RTCA S16 instrument
Aug 30, 2018
The company has just introduced the xCELLigence RTCA S16, which is the ideal entry level model for exploratory studies...
Aug 23, 2018
The new X-RAD 160 qube is suitable for either mounting on the lab bench or mobile on an optional wheeled cart, allowing...
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.
Get more info
Brand profile
Amnis has created the ImageStream Cell Analysis System, a breakthrough technology for high speed imaging and analysis of cells in flow.
More info at:
www.amnis.com
BioFocus newsletter
Register to receive Brand new technology development, Important product updates, Interesting scientific events and more!
BioTech a.s. © 2014
Designed & developed by imagineit
Technologies
