2016
DOI: 10.3390/chemosensors4030014
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Computational Analysis of Enhanced Circulating Tumour Cell (CTC) Separation in a Microfluidic System with an Integrated Dielectrophoretic-Magnetophorectic (DEP-MAP) Technique

Abstract: Abstract:Cell based cancer analysis is an important analytic method to monitor cancer progress on stages by detecting the density of circulating tumour cells (CTCs) in the blood. Among the existing microfluidic techniques, dielectrophoresis (DEP), which is a label-free detection method, is favoured by researchers. However, because of the high conductivity of blood as well as the rare presence of CTCs, high separation efficiency is difficult to achieve in most DEP microdevices. Through this study, we have propo… Show more

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Cited by 10 publications
(5 citation statements)
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“…This technology requires three main actions, such as sampling, processing, and validation. The capability of isolating rare cells comes from different passive methods that tailor the microfilters of varying pore sizes, [ 107 ] flow chamber geometries, [ 108 ] microstructures, [ 109 ] and flow density [ 110 ] with precision and active methods, which rely on compressibility, [ 111 ] polarizability, [ 112 ] and magnetic susceptibility as shown in Table 1 . [ 113 ] For the CTCs/CTM enumeration and further analysis for downstream processes, the surface chemistry of microfluidic platforms needs to be designed to control the capture and release of tumor cells.…”
Section: Clinical/research Methods For Ctcs/ctm Enrichment and Isolationmentioning
confidence: 99%
“…This technology requires three main actions, such as sampling, processing, and validation. The capability of isolating rare cells comes from different passive methods that tailor the microfilters of varying pore sizes, [ 107 ] flow chamber geometries, [ 108 ] microstructures, [ 109 ] and flow density [ 110 ] with precision and active methods, which rely on compressibility, [ 111 ] polarizability, [ 112 ] and magnetic susceptibility as shown in Table 1 . [ 113 ] For the CTCs/CTM enumeration and further analysis for downstream processes, the surface chemistry of microfluidic platforms needs to be designed to control the capture and release of tumor cells.…”
Section: Clinical/research Methods For Ctcs/ctm Enrichment and Isolationmentioning
confidence: 99%
“…The 0.05 × EMG 408 (Ferrotec, USA) is adopted as the ferrofluid medium because of its reasonable biocompatibility and optical properties 36 . All properties of the materials used in simulations are summarized in Table 1 27 , 68 73 .…”
Section: Numerical Simulationsmentioning
confidence: 99%
“…Hybridization between the dielectrophoretic DEP and the magnetophoretic (MAP) separation methods could also improve performance. Low and Kadri 27 developed a computational model to study the integration of a magnetophoretic platform with a DEP-based system to separate circulating tumor cells. Shamloo et al 28 conducted a numerical study of a two-step micro separator device that uses MAP physics to separate red blood cells (RBCs) and platelets (PLTs) in the first step, followed by the DEP technique to separate white blood cells (WBCs) and circulating tumor cells (CTCs) in the second step.…”
Section: Introductionmentioning
confidence: 99%
“…Since biological subjects, such as cells, have dielectric constants, the DEP can be used to manipulate, transport, separate, and sort different types of bioparticles, which is based on differentiation of dielectric and conducting properties of the particles [ 160 , 161 , 162 , 163 , 164 , 165 , 166 , 167 , 168 , 169 ]. For example, Figure 5 B(i) shows a general scheme for an AC-DEP microfluidic device for continuous cell characterization and separation.…”
Section: Active Separation Group 2: Contacting Electrical Forcesmentioning
confidence: 99%