Litcius/Paper detail

Separating the Living from the Dead: An Electrophoretic Approach

Viswateja Kasarabada, Nuzhet Nihaar Nasir Ahamed, Alaleh Vaghef‐Koodehi, Gabriela Martinez-Martinez, Blanca Lapizco‐Encinas

2024Analytical Chemistry13 citationsDOI

Abstract

Cell viability studies are essential in numerous applications, including drug development, clinical analysis, bioanalytical assessments, food safety, and environmental monitoring. Microfluidic electrokinetic (EK) devices have been proven to be effective platforms to discriminate microorganisms by their viability status. Two decades ago, live and dead Escherichia coli ( E . coli ) cells were trapped at distinct locations in an insulator-based EK (iEK) device with cylindrical insulating posts. At that time, the discrimination between live and dead cells was attributed to dielectrophoretic effects. This study presents the continuous separation between the live and dead E . coli cells, which was achieved primarily by combining linear and nonlinear electrophoretic effects in an iEK device. First, live and dead E . coli cells were characterized in terms of their electrophoretic migration, and then the properties of both live and dead E . coli cells were input into a mathematical model built using COMSOL Multiphysics software to identify appropriate voltages for performing an iEK separation in a T-cross iEK channel. Subsequently, live and dead cells were successfully separated experimentally in the form of an electropherogram, achieving a separation resolution of 1.87. This study demonstrated that linear and nonlinear electrophoresis phenomena are responsible for the discrimination between live and dead cells under DC electric fields in iEK devices. Continuous electrophoretic assessments, such as the one presented here, can be used to discriminate between distinct types of microorganisms including live and dead cell assessments.

Topics & Concepts

ChemistryElectrophoresisChromatographyMicrofluidic and Bio-sensing TechnologiesMicrofluidic and Capillary Electrophoresis ApplicationsElectrohydrodynamics and Fluid Dynamics
Separating the Living from the Dead: An Electrophoretic Approach | Litcius