TY - JOUR
T1 - Reproducible extracellular vesicle size and concentration determination with tunable resistive pulse sensing
AU - Coumans, Frank A. W.
AU - van der Pol, Edwin
AU - Böing, Anita N.
AU - Hajji, Najat
AU - Sturk, Guus
AU - van Leeuwen, Ton G.
AU - Nieuwland, Rienk
PY - 2014
Y1 - 2014
N2 - The size of extracellular vesicles (EVs) can be determined with a tunable resistive pulse sensor (TRPS). Because the sensing pore diameter varies from pore to pore, the minimum detectable diameter also varies. The aim of this study is to determine and improve the reproducibility of TRPS measurements. Experiments were performed with the qNano system (Izon) using beads and a standard urine vesicle sample. With a combination of voltage and stretch that yields a high blockade height, we investigate whether the minimum detected diameter is more reproducible when we configure the instrument targeting (a) fixed stretch and voltage, or (b) fixed blockade height. Daily measurements with a fixed stretch and voltage (n=102) on a standard urine sample show a minimum detected vesicle diameter of 128±19 nm [mean±standard deviation; coefficient of variation (CV) 14.8%]. The vesicle concentration was 2.4·109±3.8·109 vesicles/mL (range 1.4·108-1.8·1010). When we compared setting a fixed stretch and voltage to setting a fixed blockade height on 3 different pores, we found a minimum detected vesicle diameter of 118 nm (CV 15.5%, stretch), and 123 nm (CV 4.5%, blockade height). The detected vesicle concentration was 3.2-8.2·108 vesicles/mL with fixed stretch and 6.4-7.8·108 vesicles/mL with fixed blockade height. Summary/conclusion: Pore-to-pore variability is the cause of the variation in minimum detected size when setting a fixed stretch and voltage. The reproducibility of the minimum detectable diameter is much improved by setting a fixed blockade height
AB - The size of extracellular vesicles (EVs) can be determined with a tunable resistive pulse sensor (TRPS). Because the sensing pore diameter varies from pore to pore, the minimum detectable diameter also varies. The aim of this study is to determine and improve the reproducibility of TRPS measurements. Experiments were performed with the qNano system (Izon) using beads and a standard urine vesicle sample. With a combination of voltage and stretch that yields a high blockade height, we investigate whether the minimum detected diameter is more reproducible when we configure the instrument targeting (a) fixed stretch and voltage, or (b) fixed blockade height. Daily measurements with a fixed stretch and voltage (n=102) on a standard urine sample show a minimum detected vesicle diameter of 128±19 nm [mean±standard deviation; coefficient of variation (CV) 14.8%]. The vesicle concentration was 2.4·109±3.8·109 vesicles/mL (range 1.4·108-1.8·1010). When we compared setting a fixed stretch and voltage to setting a fixed blockade height on 3 different pores, we found a minimum detected vesicle diameter of 118 nm (CV 15.5%, stretch), and 123 nm (CV 4.5%, blockade height). The detected vesicle concentration was 3.2-8.2·108 vesicles/mL with fixed stretch and 6.4-7.8·108 vesicles/mL with fixed blockade height. Summary/conclusion: Pore-to-pore variability is the cause of the variation in minimum detected size when setting a fixed stretch and voltage. The reproducibility of the minimum detectable diameter is much improved by setting a fixed blockade height
U2 - https://doi.org/10.3402/jev.v3.25922
DO - https://doi.org/10.3402/jev.v3.25922
M3 - Article
C2 - 25498889
SN - 2001-3078
VL - 3
SP - 25922
JO - Journal of extracellular vesicles
JF - Journal of extracellular vesicles
ER -