Extension to In Situ Single-Cell Electroporation of a Microwave Biosensor - Équipe Micro et nanosystèmes HyperFréquences Fluidiques
Article Dans Une Revue IEEE Microwave and Wireless Technology Letters Année : 2024

Extension to In Situ Single-Cell Electroporation of a Microwave Biosensor

Résumé

This letter presents a biosensor first developed to perform microwave dielectric spectroscopy (MDS) analysis, which is evaluated for in situ electroporation (EP) at the single- cell level. After demonstrating the possibility to characterize living cancer cells in the radio-frequency (RF) sensor by acquir- ing their dielectric properties, we then evaluate the use of this RF sensor to apply high electric field stimulus to trigger cell permeabilization. The impact of applied voltage and therefore electric field intensity on the number of permeabilized cells is defined, leading to the establishment of an EP threshold, which is EP conditions and cell dependent. This paves the way for further studies assessing the impact of in situ EP using the MDS method performed with a unique microdevice and consequent observation and understanding of the EP phenomenon.
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Dates et versions

hal-04651131 , version 1 (17-07-2024)

Identifiants

Citer

Anne Calvel, Olivia Peytral-Rieu, Marie-Pierre Rols, David Dubuc, Katia Grenier. Extension to In Situ Single-Cell Electroporation of a Microwave Biosensor. IEEE Microwave and Wireless Technology Letters, 2024, 34 (6), pp.849 - 852. ⟨10.1109/lmwt.2024.3391213⟩. ⟨hal-04651131⟩
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