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W4328053768 endingPage "108415" @default.
W4328053768 startingPage "108415" @default.
W4328053768 abstract "The impact of cell shape on cell membrane permeabilization by pulsed electric fields is not fully understood. For certain applications, cell survival and recovery post-treatment is either desirable, as in gene transfection, electrofusion, and electrochemotherapy, or is undesirable, as in tumor and cardiac ablations. Understanding of how morphology affects cell viability post-electroporation may lead to improved electroporation methods. In this study, we use precisely aligned nanofiber networks within a microfluidic device to reproducibly generate elongated cells with controlled orientations to an applied electric field. We show that cell viability is significantly dependent on cell orientation, elongation, and spread. Further, these trends are dependent on the external buffer conductivity. Additionally, we see that cell survival for elongated cells is still supported by the standard pore model of electroporation. Lastly, we see that manipulating the cell orientation and shape can be leveraged for increased transfection efficiencies when compared to spherical cells. An improved understanding of cell shape and pulsation buffer conductivity may lead to improved methods for enhancing cell viability post-electroporation by engineering the cell morphology, cytoskeleton, and electroporation buffer conditions." @default.
W4328053768 created "2023-03-22" @default.
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W4328053768 date "2023-08-01" @default.
W4328053768 modified "2023-10-17" @default.
W4328053768 title "Engineering high post-electroporation viabilities and transfection efficiencies for elongated cells on suspended nanofiber networks" @default.
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W4328053768 doi "https://doi.org/10.1016/j.bioelechem.2023.108415" @default.
W4328053768 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37011476" @default.
W4328053768 hasPublicationYear "2023" @default.
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