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A novel broadband impedance method for detection of cell-derived microparticles. Biosens Bioelectron 2010 Oct 15;26(2):444-51

Date

08/24/2010

Pubmed ID

20729061

Pubmed Central ID

PMC2946439

DOI

10.1016/j.bios.2010.07.094

Scopus ID

2-s2.0-77956895974 (requires institutional sign-in at Scopus site)   23 Citations

Abstract

A novel label-free method is presented to detect and quantify cell-derived microparticles (MPs) by the electrochemical potential-modulated electrochemical impedance spectroscopy (EIS). MPs are present in elevated concentrations during pathological conditions and play a major role in the establishment and pathogenesis of many diseases. Considering this, accurate detection and quantification of MPs is very important in clinical diagnostics and therapeutics. A combination of bulk solution electrokinetic sorting and interfacial impedance responses allows achieving detection limits as low as several MPs per μL. By fitting resulting EIS spectra with an equivalent electrical circuit, the bulk solution electrokinetic and interfacial impedance responses were characterized. In the bulk solution two major relaxations were prominent-β-relaxation in low MHz region due to the MP capacitive membrane bridging, and α-relaxation at ∼10 kHz due to counter ions diffusion. At low frequencies (10-0.1 Hz) at electrochemical potentials exceeding -100 mV, a facile interfacial Faradaic process of oxidation in MPs coupled with diffusion and non-Faradaic double layer charging dominate, probably due to oxidation of phospholipids and/or proteins on the MP surface and MP lysis. Buffer influence on the MP detection demonstrated that a relatively low conductivity Tyrode's buffer background solution is preferential for the MP electrokinetic separation and characterization. This study also demonstrated that standard laboratory methods such as flow cytometry underestimate MP concentrations, especially those with smaller average sizes, by as much as a factor of 2-40.

Author List

Lvovich V, Srikanthan S, Silverstein RL

Author

Roy L. Silverstein MD Professor in the Medicine department at Medical College of Wisconsin




MESH terms used to index this publication - Major topics in bold

Biosensing Techniques
Blood Platelets
Cell-Derived Microparticles
Cells, Cultured
Dielectric Spectroscopy
Equipment Design
Equipment Failure Analysis
Humans