Innovation in detection of microparticles and exosomes

E. van der Pol; F. Coumans; Z. Varga; M. Krumrey; R. Nieuwland

doi:https://doi.org/10.1111/jth.12254

Innovation in detection of microparticles and exosomes

E. van der Pol, F. Coumans, Z. Varga, M. Krumrey, R. Nieuwland

Research output: Contribution to journal › Review article › Academic › peer-review

212 Citations (Scopus)

Abstract

Cell-derived or extracellular vesicles, including microparticles and exosomes, are abundantly present in body fluids such as blood. Although such vesicles have gained strong clinical and scientific interest, their detection is difficult because many vesicles are extremely small with a diameter of less than 100 nm, and, moreover, these vesicles have a low refractive index and are heterogeneous in both size and composition. In this review, we focus on the relatively high throughput detection of vesicles in suspension by flow cytometry, resistive pulse sensing, and nanoparticle tracking analysis, and we will discuss their applicability and limitations. Finally, we discuss four methods that are not commercially available: Raman microspectroscopy, micro nuclear magnetic resonance, small-angle X-ray scattering (SAXS), and anomalous SAXS. These methods are currently being explored to study vesicles and are likely to offer novel information for future developments

Original language	English
Pages (from-to)	36-45
Journal	Journal of thrombosis and haemostasis
Volume	11
Issue number	Suppl. 1
DOIs	https://doi.org/10.1111/jth.12254
Publication status	Published - 2013

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https://doi.org/10.1111/jth.12254

Cite this

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title = "Innovation in detection of microparticles and exosomes",

abstract = "Cell-derived or extracellular vesicles, including microparticles and exosomes, are abundantly present in body fluids such as blood. Although such vesicles have gained strong clinical and scientific interest, their detection is difficult because many vesicles are extremely small with a diameter of less than 100 nm, and, moreover, these vesicles have a low refractive index and are heterogeneous in both size and composition. In this review, we focus on the relatively high throughput detection of vesicles in suspension by flow cytometry, resistive pulse sensing, and nanoparticle tracking analysis, and we will discuss their applicability and limitations. Finally, we discuss four methods that are not commercially available: Raman microspectroscopy, micro nuclear magnetic resonance, small-angle X-ray scattering (SAXS), and anomalous SAXS. These methods are currently being explored to study vesicles and are likely to offer novel information for future developments",

author = "{van der Pol}, E. and F. Coumans and Z. Varga and M. Krumrey and R. Nieuwland",

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AU - van der Pol, E.

AU - Coumans, F.

AU - Varga, Z.

AU - Krumrey, M.

AU - Nieuwland, R.

PY - 2013

Y1 - 2013

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AB - Cell-derived or extracellular vesicles, including microparticles and exosomes, are abundantly present in body fluids such as blood. Although such vesicles have gained strong clinical and scientific interest, their detection is difficult because many vesicles are extremely small with a diameter of less than 100 nm, and, moreover, these vesicles have a low refractive index and are heterogeneous in both size and composition. In this review, we focus on the relatively high throughput detection of vesicles in suspension by flow cytometry, resistive pulse sensing, and nanoparticle tracking analysis, and we will discuss their applicability and limitations. Finally, we discuss four methods that are not commercially available: Raman microspectroscopy, micro nuclear magnetic resonance, small-angle X-ray scattering (SAXS), and anomalous SAXS. These methods are currently being explored to study vesicles and are likely to offer novel information for future developments

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