Standardization of extracellular vesicle concentration measurements by flow cytometry: the past, present, and future.

Concentrations of extracellular vesicles (EVs) in body fluids are being explored as disease biomarkers. Most laboratories use flow cytometry to characterize single EVs at high throughput. A flow cytometer (FCM) detects light scattering and fluorescence intensities of EVs. However, detection of EVs by flow cytometry is complicated for 2 reasons. First, EVs are small and have weak light scattering and fluorescence signals compared to cells and are, therefore, hard to detect. Second, FCMs differ in sensitivity and provide data in arbitrary units, which complicates data interpretation. Due to the mentioned challenges, the measured concentration of EVs by flow cytometry is cumbersome to compare between FCMs and institutes. To improve comparability, standardization and development of traceable reference materials to calibrate all aspects of an FCM are needed, as are interlaboratory comparison studies. Within this article, we will provide an overview of the standardization of EV concentration measurements, including the current effort to introduce robust calibration of FCMs, thereby enabling comparable concentration measurements of EVs, which in turn can be used to establish clinically relevant reference ranges of EV concentrations in blood plasma and other body fluids.

Towards defining reference materials for measuring extracellular vesicle refractive index, epitope abundance, size and concentration.

Accurate characterization of extracellular vesicles (EVs) is critical to explore their diagnostic and therapeutic applications. As the EV research field has developed, so too have the techniques used to characterize them. The development of reference materials are required for the standardization of these techniques. This work, initiated from the ISEV 2017 Biomarker Workshop in Birmingham, UK, and with further discussion during the ISEV 2019 Standardization Workshop in Ghent, Belgium, sets out to elucidate which reference materials are required and which are currently available to standardize commonly used analysis platforms for characterizing EV refractive index, epitope abundance, size and concentration. Due to their predominant use among EV researchers, a particular focus is placed on the optical methods nanoparticle tracking analysis and flow cytometry.