Browsing by Subject "reference material"

Abstract Faculty: Faculty of Biological and Environmental Sciences Degree programme: Genetics and Molecular Biosciences Study track: Molecular and Analytical Health Biosciences Author: Annie Stendahl Title: Measurement repeatability of flow cytometry and nanoparticle tracking analysis for optimization of extracellular vesicle measurements Level: Master’s thesis Month and year: 11/2022 Number of pages: 92 Keywords: extracellular vesicles, repeatability measurements, metrology, traceability, flow cytometry, nanoparticle tracking analysis, reference material, METVES Supervisor or supervisors: Virpi Korpelainen, Katariina Maaninka and Pia Siljander Collaborative partner: VTT Technical Research Centre of Finland Ltd. Where deposited: E-thesis Extracellular vesicles (EVs) are lipid bilayer-enclosed vesicles secreted by all cells, containing variable cargo from nucleic acids and proteins to carbohydrates, metabolites, and lipids. EVs are considered to be involved in many physiological and pathological cell functions. Due to their presence in biofluids hence enabling semi-invasive liquid biopsies, EVs have indicated great promise for utilization as biomarkers in clinical settings. The innate properties of EVs and their cargo could also be harnessed into therapeutic use. However, the current methods and reference materials for determining EV concentration and size have not yet achieved the metrological level of repeatability and traceability, which is needed for EV measurements to be utilized in clinical settings. The aim of this thesis project was to evaluate repeatability of the methods typically used for EV quantification and size determination, flow cytometry (FCM) and nanoparticle tracking analysis (NTA). The repeatability was analyzed with reference material made of hollow organosilica beads and biological EV test samples, both developed in an ongoing EU metrology-project METVES II for EVs. A similar biological EV test sample was also prepared as part of the thesis project. Finally, the repeatability measurements were conducted with calibration beads recommended by the instrument manufacturers. The calibration beads gave repeatable results with FCM and one of the two NTA instruments tested, but neither the reference beads nor the biological EV test samples produced repeatable results to enable determination of repeatability. However, valuable understanding was gained on what can be optimized during the measurements and operation of the instruments to generate more repeatable results with FCM and NTA in EV analysis. Prior knowledge of both the sample type and method used for measuring would enable optimization of the measurement and instrument operation. Whether the aim is EV quantification or size determination, instrument errors and bias could then be minimized by adjusting the settings according to sample type. Furthermore, EV quantification and size determination would benefit from combining different methods to ensure more reliable and repeatable results. It is clear that more research needs to be done, for i.e., the tested reference beads need to be further developed to be established as EV reference material and enabling standardization of EV measurements. Standardizing EV quantification and size determination is required to achieve metrological repeatability and ultimately, traceability, and thus for EVs to be utilized in clinical settings as biomarkers or therapeutic use.