Correlation between the loss of intracellular molecules and cell viability after cell electroporation.

Control of membrane permeability to exogenous compounds by membrane electroporation can lead to cell death, which is related to permanent membrane damage, oxidation stress, leakage of intracellular molecules. In this study, we show that the predominant cell death modality after the application of high voltage electric pulses is related with inability to reseal of initial pores (first stage irreversible electroporation, FirEP). After moderately strong electric pulses, initial pores reseal, however, some cell still die later on due to electric field induced cell stress which leads to delayed cell death (late-stage irreversible electroporation, LirEP).

Extracellular-Ca-Induced Decrease in Small Molecule Electrotransfer Efficiency: Comparison between Microsecond and Nanosecond Electric Pulses.

Electroporation-a transient electric-field-induced increase in cell membrane permeability-can be used to facilitate the delivery of anticancer drugs for antitumour electrochemotherapy. In recent years, Ca electroporation has emerged as an alternative modality to electrochemotherapy. The antitumor effect of calcium electroporation is achieved as a result of the introduction of supraphysiological calcium doses.

A Novel Method for Controlled Gene Expression via Combined Bleomycin and Plasmid DNA Electrotransfer.

Electrochemotherapy is an efficient method for the local treatment of cutaneous and subcutaneous metastases, but its efficacy as a systemic treatment remains low. The application of gene electrotransfer (GET) to transfer DNA coding for immune system modulating molecules could allow for a systemic effect, but its applications are limited because of possible side effects, e.g.

Effect of electroporation medium conductivity on exogenous molecule transfer to cells in vitro.

In this study we evaluated the influence of medium conductivity to propidium iodide (PI) and bleomycin (BLM) electroporation mediated transfer to cells. Inverse dependency between the extracellular conductivity and the efficiency of the transfer had been found. Using 1 high voltage (HV) pulse, the total molecule transfer efficiency decreased 4.

Enhancement of drug electrotransfer by extracellular plasmid DNA.

Electroporation is a widely established method for molecular delivery across electric field perturbed plasma membrane. It can be used as a non-viral DNA transfection method, or as a way to achieve small molecule delivery to or extraction from cells. We examined the possibility of combining the DNA delivery to the cells with small molecule transport across electroporated plasma membrane.

Calcein Release from Cells In Vitro via Reversible and Irreversible Electroporation.

The aim of this study was to investigate the dependence of calcein extraction and cell viability on the parameters of pulsed electric field (PEF). Two different approaches concerning PEF parameters were investigated: (1) extraction efficiency and cell viability dependence on pulse number, exploiting 1200 V/cm 100 µs duration high voltage (HV) electric pulses and (2) extraction efficiency and cell viability dependence on the pulses with different duration (44-400 µs) and electric field strength (600-1800 V/cm) that result in the same amount of electric field energy delivered to Chinese hamster ovary cells. Extraction efficiency was evaluated as a percentage ratio of calcein fluorescence intensity prior and after PEF treatment.

Physical Methods for Drug and Gene Delivery Through the Cell Plasma Membrane.

The cell membrane represents a major barrier for efficient delivery of exogenous molecules, either pharmaceuticals or genetic material, under both in vitro and in vivo conditions. The number of methods employed to attempt safe, efficient, and local drug and gene delivery has increased during the recent years. One method for membrane permeabilization, electroporation, has already been translated to clinical practice for localized anticancer drug delivery and is termed "electrochemotherapy".