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Digital holographic microscopy evaluation of dynamic cell response to electroporation

Violeta L. Calin, Mona Mihăilescu, Nicolae Tarbă, Andrei‐Florin Sandu, Eugen Scarlat, Mihaela G. Moisescu, Tudor Savopol

2021Biomedical Optics Express16 citationsDOIOpen Access PDF

Abstract

Phase-derived parameters and time autocorrelation functions were used to analyze the behavior of murine B16 cells exposed to different amplitudes of electroporation pulses. Cells were observed using an off-axis digital holographic microscope equipped with a fast camera. Series of quantitative phase images of cells were reconstructed and further processed using MATLAB codes. Projected area, dry mass density, and entropy proved to be predictors for permeabilized cells that swell or collapse. Autocorrelation functions of phase fluctuations in different regions of the cell showed a good correlation with the local effectiveness of permeabilization.

Topics & Concepts

Digital holographic microscopyAutocorrelationElectroporationMicroscopyHolographyOpticsDigital holographyAmplitudePhase (matter)Materials scienceBiological systemPhysicsChemistryMathematicsBiologyQuantum mechanicsGeneStatisticsBiochemistryMicrobial Inactivation MethodsMicrofluidic and Bio-sensing TechnologiesMagnetic and Electromagnetic Effects
Digital holographic microscopy evaluation of dynamic cell response to electroporation | Litcius