2021
DOI: 10.1002/jev2.12062
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Cross‐flow microfiltration for isolation, selective capture and release of liposarcoma extracellular vesicles

Abstract: We present a resource‐efficient approach to fabricate and operate a micro‐nanofluidic device that uses cross‐flow filtration to isolate and capture liposarcoma derived extracellular vesicles (EVs). The isolated extracellular vesicles were captured using EV‐specific protein markers to obtain vesicle enriched media, which was then eluted for further analysis. Therefore, the micro‐nanofluidic device integrates the unit operations of size‐based separation with CD63 antibody immunoaffinity‐based capture of extracel… Show more

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Cited by 31 publications
(49 citation statements)
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“…The implementation of this approach for microfluidic devices usually requires functionalization of the walls of a microfluidics device with immobilized antibodies [104]. Therefore, surface preparation for functionalization [106,107] plays an important role in tethering antibodies [96]. Physicochemical interactions leading to eventual binding or capture of antigens at the immobilized antibody site include hydrogen bonding, coulombic interactions, Van der Waals interactions, and hydrophobic interactions [104].…”
Section: Isolation Based On Immunoaffinitymentioning
confidence: 99%
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“…The implementation of this approach for microfluidic devices usually requires functionalization of the walls of a microfluidics device with immobilized antibodies [104]. Therefore, surface preparation for functionalization [106,107] plays an important role in tethering antibodies [96]. Physicochemical interactions leading to eventual binding or capture of antigens at the immobilized antibody site include hydrogen bonding, coulombic interactions, Van der Waals interactions, and hydrophobic interactions [104].…”
Section: Isolation Based On Immunoaffinitymentioning
confidence: 99%
“…Label-free isolation methods used in filtration devices contribute to higher entrapment efficiency while maintaining the functionality of EVs so that they can be examined after isolation [111]. However, the main challenge for these EV isolation methods is the lack of specificity in isolating particles [96]. NeutrAvidin is used to coat the surface of the device, which helps in the incorporation of desthiobiotinconjugated antibodies required for recognition of surface markers of EVs.…”
Section: Filtrationmentioning
confidence: 99%
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“…10 min after bonding, microfluidic channels (n = 3 of each design) were functionalised with an antibody against CD63 (SantaCruz, sc-5275) by using a well-established linker chemistry 4,[28][29][30] . Briefly, 8% percent (3-Aminopropyl)triethoxysilane (APTES, Sigma) in ethanol was flowed at a rate of 20 µl/min for 15 min then left stagnant for 20 min, followed by a flush with pure ethanol.…”
Section: Ev Capture Efficiency Quantificationmentioning
confidence: 99%