Title :
Novel Passive Element Circuits for Microdosimetry of Nanosecond Pulsed Electric Fields
Author :
Merla, Caterina ; Denzi, Agnese ; Paffi, Alessandra ; Casciola, Maura ; D´Inzeo, G. ; Apollonio, Francesca ; Liberti, Micaela
Author_Institution :
Italian Inter-Univ. Centre of Electromagn. Fields & Bio-Syst., Italian Nat. Agency for New Technol., Energy, & Sustainable Econ. Dev., Rome, Italy
Abstract :
Microdosimetric models for biological cells have assumed increasing significance in the development of nanosecond pulsed electric field technology for medical applications. In this paper, novel passive element circuits, able to take into account the dielectric dispersion of the cell, are provided. The circuital analyses are performed on a set of input pulses classified in accordance with the current literature. Accurate data in terms of transmembrane potential are obtained in both time and frequency domains for different cell models. In addition, a sensitivity study of the transfer function for the cell geometrical and dielectric parameters has been carried out. This analysis offers a new, simple, and efficient tool to characterize the nsPEFs´ action at the cellular level.
Keywords :
bioelectric potentials; biomembranes; cellular biophysics; dosimetry; frequency-domain analysis; permittivity; sensitivity analysis; time-domain analysis; biological cells; cell geometrical parameters; cell models; cellular level; circuital analysis; dielectric dispersion; dielectric parameters; frequency domains; medical applications; microdosimetric models; nanosecond pulsed electric held technology; nsPEF action; passive element circuits; sensitivity analysis; time domains; transfer function; transmembrane potential; Biological system modeling; Biomembranes; Dielectrics; Dispersion; Frequency domain analysis; Integrated circuit modeling; Mathematical model; Circuit models; dielectric dispersion; electroporation; microdosimetry; Cell Membrane; Cytological Techniques; Cytoplasm; Electromagnetic Fields; Electroporation; Membrane Potentials; Models, Biological; Nanotechnology; Radiometry;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
DOI :
10.1109/TBME.2012.2203133
