Cell properties assessment using optimized dielectrophoresis-based cell stretching and lumped mechanical modeling

Abstract: Cells mechanical property assessment has been a promising label-free method for cell differentiation. Several methods have been proposed for single-cell mechanical properties analysis. Dielectrophoresis (DEP) is one method used for single-cell mechanical property assessment, cell separation, and sorting. DEP method has overcome weaknesses of other techniques, including compatibility with microfluidics, high throughput assessment, and high accuracy. However, due to the lack of a general and explicit model for t… Show more

“…The authors proposed that this parameter can be used in a high throughput system to distinguish between different cell types, but this has not yet been demonstrated. 20 Other active approaches have been developed to increase the sorting rate, but they showed sorting mostly on a heterogeneous mixture of cells 8,19 or beads 75 with distinct mechanical properties. Recently, using a SSAW actuator we demonstrated deformation-based sorting of RBCs.…”

“…This has led to the development of novel methods combining microscopy and microfluidics, which perform spatial and temporal analysis of several cell physical and chemical properties with high throughput and sensitivity. Among such methods are Raman scattering, 16 quantitative phase imaging, 17,18 impedance- and dielectrophoresis-based analyses, 19,20 Brillouin microscopy, 21 suspended micro-channel resonators, 22 deformability cytometry (DC), 23 quantitative DC 24 and real-time deformability cytometry (RT-DC). 25,26 The further integration of microactuators enabled the sorting of single cells based on the selection and combination of specific parameters, today frequently performed by the use of artificial intelligence (AI).…”

Image-based cell sorting using focused travelling surface acoustic waves

“…The authors proposed that this parameter can be used in a high throughput system to distinguish between different cell types, but this has not yet been demonstrated. 20 Other active approaches have been developed to increase the sorting rate, but they showed sorting mostly on a heterogeneous mixture of cells 8,19 or beads 75 with distinct mechanical properties. Recently, using a SSAW actuator we demonstrated deformation-based sorting of RBCs.…”

“…This has led to the development of novel methods combining microscopy and microfluidics, which perform spatial and temporal analysis of several cell physical and chemical properties with high throughput and sensitivity. Among such methods are Raman scattering, 16 quantitative phase imaging, 17,18 impedance- and dielectrophoresis-based analyses, 19,20 Brillouin microscopy, 21 suspended micro-channel resonators, 22 deformability cytometry (DC), 23 quantitative DC 24 and real-time deformability cytometry (RT-DC). 25,26 The further integration of microactuators enabled the sorting of single cells based on the selection and combination of specific parameters, today frequently performed by the use of artificial intelligence (AI).…”

Image-based cell sorting using focused travelling surface acoustic waves

“…As indicated by eqn (4), in the same liquid medium, the crossover frequency of a cell is determined by its permittivity and conductivity, which both have complex relationships with the cell radius. 46,47 Therefore, it can be inferred that HEK293-ChR2 cells and HEK293 cells with different radii may have distinctive crossover frequencies, indicating the possibility for separation.…”

Label-free purification and characterization of optogenetically engineered cells using optically-induced dielectrophoresis

“…However, such capabilities can be highly desirable for bioengineering applications. 36 The current work proposes a design that addresses the unique requirements of propulsion and lateral confinement required for single particle transport.…”

“…As such, on-chip single particle transport has received less attention in the literature ,, than single particle trapping. ,, While a few excellent works have reported manipulation capabilities with single particle resolution, they do not focus on controlled linear transport of individual particles using purely DEP forces. However, such capabilities can be highly desirable for bioengineering applications . The current work proposes a design that addresses the unique requirements of propulsion and lateral confinement required for single particle transport.…”

Controlled Transport of Individual Microparticles Using Dielectrophoresis