Effective proliferation control of human cancer cells using electrical pulses

Author

Sundararajan, Raji ; Funian Xiao ; Salameh, T. ; Reece, L.M. ; Leary, J.F. ; Otto, Kevin ; Camarillo, Ignacio G. ; Campana, L.G.

Author_Institution

Purdue Univ., West Lafayette, IN, USA

Volume

19

Issue

6

fYear

2012

fDate

12/1/2012 12:00:00 AM

Firstpage

2225

Lastpage

2236

Abstract

Since current cancer therapies do not work effectively for all patients, there is a pressing need for alternate, affordable, yet effective treatments for inoperable and chemo-resistant tumors. Presented in this paper are our investigations on the application of short duration (milli and micro seconds) electrical voltage pulses for the treatment of breast carcinoma. For this purpose, electroporation, a pulse power technology, was evaluated for its effect upon the viability and proliferation of human breast cancer cells using a number of voltages and pulse durations. The results indicate the promising potential of electrical pulses to effectively and economically enhance drug transport across the normally impermeable plasma cell membranes and to reduce proliferation.

Keywords

bioelectric potentials; biomembrane transport; cancer; drug delivery systems; drugs; permeability; tumours; breast carcinoma treatment; cancer therapy; chemoresistant tumor treatment; drug transport; effective proliferation control; electroporation; human breast cancer cell proliferation; human breast cancer cell viability; inoperable tumor treatment; normally impermeable plasma cell membranes; pulse power technology; short duration electrical voltage pulses; Breast cancer; Cells (biology); DNA; Drugs; Impedance; Proteins; Electroporation; MCF-7 breast cancer cell line; flow cytometry; impedance spectroscopy; proliferation control; western blot;

fLanguage

English

Journal_Title

Dielectrics and Electrical Insulation, IEEE Transactions on

Publisher

ieee

ISSN

1070-9878

Type

jour

DOI

10.1109/TDEI.2012.6396984

Filename

6396984