Abstract
Extracellular vesicles (EVs) are small, membrane-bound particles released by all cell types, including abundant release by platelets. EVs are a topic of increasing interest in the academic and clinical community due to their increasingly recognised and diverse role in normal biology as well as in disease. However, typical analysis methods to characterise EVs released by cultured cells or isolated from whole blood or other body fluids are restricted to bulk analysis of all EVs in a sample. In this review, we discuss the motivation for analysis of individual EVs, as well as discuss three emerging methods for physical and chemical characterisation of individual EVs: nanoparticle tracking analysis, tunable resistive pulse sensing and Raman spectroscopy. We give brief descriptions of the working principles of each technique, along with a review noting the benefits and limitations of each method as applied to detection of single EVs.
6. Declaration of interest statement
E. I. B., C. G. and C. L. report no conflict of interests. Z.J.S. gratefully acknowledges funding support from the National Natural Science Foundation of China’s 1000 Young Talents Plan.
Additional information
Notes on contributors
Edit I. Buzás
Edit I. Buzás, Chris Gardiner, Changwon Lee, and Zachary J. Smith contributed equally to this manuscript.