A Physics-based Model of Hydrogen Bond Disruption in Cell Membranes Under Electric Fields

Abstract

A physical model is presented for hydrogen bonding in an effort to better understand the� impact of electric fields on hydrogen bonds in human cells. Using fundamental dielectric physics� and hydrogen-bonding in cell membranes, the model indicates that little/no membrane� degradation will occur for external electric fields of ? 200V/cm. The model also indicates that� significant damage to the cell membrane will commence at external fields as low as 1kV/cm,� strong and irreversible cell membrane degradation will occur at 10kV/cm, and catastrophic cell� membrane damage will occur at 40kV/cm. Any cell membrane degradation (that permits water� molecules to permeate the normally hydrophobic cell membrane layer) is shown to be� particularly devastating for H-bond breakage. This work is important not only for determining� the safe-levels of external electric field for humans but also the external field levels that impact� the electroporation process where cancer cell membranes are purposely broken down with electric field.�