Critical fields in cell fusion and dielectrophoresis

Abstract

It is increasingly recognized that exposure to electrical fields can reversibly increase the electrical permeability and conductivity of the cellular membrane. It is therefore worthwhile to determine under what circumstances the critical fields capable of affecting the cellular membrane can be reached. We have evaluated the field intensities E and the gradients of E² in the neighborhood of the more common field electrode shapes, the sphere-sphere and cylinder-cylinder electrodes, and put these in terms of the values useful for the practical electro-fusion and dielectrophoresis (DEP) of cells. The calculations were performed using the charge-image technique. From this it was observed that gross errors (underestimations of up to 1000-fold) of the field would be made if neglect of the electrode polarization were made as in simple electrostatic calculation. The dielectric forces (in terms of ▽(E)²) show interesting spatial character.

The electrical breakdown of cellular membranes affects the exchange of information and materials between the cell and its environment, and can be used to fuse cells of the same type or of differing types. It is moreover of importance in handling cells during DEP while obtaining their spectral characteristics or in cell-sorting. It is expected that the results here will aid in the more proper use of electrical fields for such ends.