Short microsecond pulses achieve homogeneous electroporation of elongated biological cells irrespective of their orientation in electric field

Dermol–Černe, Janja; Napotnik, Tina Batista; Reberšek, Matej; Miklavčič, Damijan

doi:10.1038/s41598-020-65830-3

Cited by 29 publications

(40 citation statements)

References 88 publications

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“…Pulse width has been studied for ablation effects in several studies. Dermol-Cerne et al compared the ablation effect for myocardial cells under ns, μs, and ms pulse width ( 18 ). Gianulis et al studied the ablation effect of PFA for different cells under ns and μs pulse width ( 17 ).…”

Section: Discussionmentioning

confidence: 99%

Study on Optimal Parameter and Target for Pulsed-Field Ablation of Atrial Fibrillation

Liu

Yin

et al. 2021

Front. Cardiovasc. Med.

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Pulsed-field ablation (PFA) had potential advantages in atrial fibrillation ablation, and we aim to confirm the optimal parameter and target of PFA for atrial fibrillation. Two ablation modes in vitro of single-cell system (ablation in electrode cup) and monolayer cell system (ablation in inserts with electrode tips) were established to perform PFA for myocardial cell H9C2 and smooth muscle cell A7r5. Ablation effect, calcium ion influx, the expression of Cx45, and surface morphological change were observed. Three Bama minipigs were used to verify the in vivo ablation effect of PFA. In monolayer cell system, H9C2 was significantly sensitive to PFA compared with A7r5, with shrinking of the whole monolayer. The ablation effect of bidirectional pulse was weaker than that of the two mono-polar pulses. Expressed Cx45 proteins were increased in H9C2 but decreased in A7r5 cells. Bidirectional PFA performed on Bama minipigs was able to effectively block electrical activity from the pulmonary vein to the atrium with week muscle contraction, not generating pulmonary vein stenosis. Bidirectional PFA was able to significantly ablate myocardial cells, maintain cell–cell connection, and reduce muscle contraction, which was a kind of optimized PFA strategy for atrial fibrillation.

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Section: Discussionmentioning

confidence: 99%

Study on Optimal Parameter and Target for Pulsed-Field Ablation of Atrial Fibrillation

Liu

Yin

et al. 2021

Front. Cardiovasc. Med.

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“…Electroporation refers to the generation of micropores in the cell membrane under the action of a high-intensity electric field, which improves the permeability of the cell membrane 128 , 129 . The micropores produced in the cell membrane allow substances in the culture medium to enter the cells, and many manipulations of oocytes are based on this theory 130 .…”

Section: Oocyte Electrical Activation/reconstructed Embryo Electrofusionmentioning

confidence: 99%

Recent advances in critical nodes of embryo engineering technology

Ma¹,

Gu²,

Chen³

et al. 2021

Theranostics

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The normal development and maturation of oocytes and sperm, the formation of fertilized ova, the implantation of early embryos, and the growth and development of foetuses are the biological basis of mammalian reproduction. Therefore, research on oocytes has always occupied a very important position in the life sciences and reproductive medicine fields. Various embryo engineering technologies for oocytes, early embryo formation and subsequent developmental stages and different target sites, such as gene editing, intracytoplasmic sperm injection (ICSI), preimplantation genetic diagnosis (PGD), and somatic cell nuclear transfer (SCNT) technologies, have all been established and widely used in industrialization. However, as research continues to deepen and target species become more advanced, embryo engineering technology has also been developing in a more complex and sophisticated direction. At the same time, the success rate also shows a declining trend, resulting in an extension of the research and development cycle and rising costs. By studying the existing embryo engineering technology process, we discovered three critical nodes that have the greatest impact on the development of oocytes and early embryos, namely, oocyte micromanipulation, oocyte electrical activation/reconstructed embryo electrofusion, and the in vitro culture of early embryos. This article mainly demonstrates the efforts made by researchers in the relevant technologies of these three critical nodes from an engineering perspective, analyses the shortcomings of the current technology, and proposes a plan and prospects for the development of embryo engineering technology in the future.

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“…Under a high-voltage electric field, transient pores can be created on the cell membrane which then changes its conductivity and permeability, a process referred to as electroporation [1]. By adjusting the magnitude of the applied voltage, the number of pulses and the duration of each pulse, one can in principle control the density, size, and lifetime of membrane [2]. Depending on the ability of those pores to reseal, these pores can be classified as reversible or irreversible.…”

Section: Electroporationmentioning

confidence: 99%

A Novel Electroporation System for Living Cell Staining and Membrane Dynamics Interrogation

et al. 2020

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A novel electroporation system was developed to introduce transient membrane pores to cells in a spatially and temporally controlled manner, allowing us to achieve fast electrotransfection and live cell staining as well as to systematically interrogate the dynamics of the cell membrane. Specifically, using this platform, we showed that both reversible and irreversible electroporation could be induced in the cell population, with nano-sized membrane pores in the former case being able to self-reseal in ~10 min. In addition, green fluorescent protein(GFP)-vinculin plasmid and 543 phalloidin have been delivered successively into fibroblast cells, which enables us to monitor the distinct roles of vinculin and F-actin in cell adhesion and migration as well as their possible interplay during these processes. Compared to conventional bulk electroporation and staining methods, the new system offers advantages such as low-voltage operation, cellular level manipulation and testing, fast and adjustable transfection/staining and real-time monitoring; the new system therefore could be useful in different biophysical studies in the future.

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Short microsecond pulses achieve homogeneous electroporation of elongated biological cells irrespective of their orientation in electric field

Cited by 29 publications

References 88 publications

Study on Optimal Parameter and Target for Pulsed-Field Ablation of Atrial Fibrillation

Study on Optimal Parameter and Target for Pulsed-Field Ablation of Atrial Fibrillation

Recent advances in critical nodes of embryo engineering technology

A Novel Electroporation System for Living Cell Staining and Membrane Dynamics Interrogation

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