60
Views
0
CrossRef citations to date
0
Altmetric
Articles

Effect of different low electric field conditions on the dielectric properties of Ehrlich tumor

Pages 1-13 | Published online: 09 May 2011

References

  • Antov Y., Barbul A., Korenstein R.. Electroendocytosis: stimulation of adsorptive and fluid-phase uptake by pulsed low electric fields. Exp. Cell Res.. 2004; 297:348–362.
  • Antov Y., Barbul A., Mantsur H., . Electroendocytosis: Exposure of cells to pulsed low electric fields enhances adsorption and uptake of macromolecules. Biophys. J.. 2005; 88:2206–2223.
  • Blank M.. The surface compartment model (SCM) role of surface charge in membrane permeability changes. Bioelectrochem. Bioeng.. 1982; 9:615–624.
  • Chernomordik L., Sukharev S., Popov V., . The electrical breakdown of cell and lipid membranes: The similarity of phenomologies. Biochim. Biophys. Acta. 1987; 902:360–373.
  • Entin I., Plotnikov A., Korenstein R., . Tumor growth retardation, cure, and induction of antitumor immunity in B16 melanoma-bearing mice by low electric field-enhanced chemotherapy. Clin. Cancer Res.. 2003; 9:3190–3197.
  • Gabriel C.. 2006. Dielectric properties of biological materials. In: Frank S., Ben Greenebaum B.. editors. Bioengineering and Biophysical Aspects of Electromagnetic Fields. Boca Raton, FL: CRC Press. 1. 52–81.
  • Ghosh P. M., Keese C. R., Giaever I.. Monitoring electropermeabilization in the plasma membrane of adherent mammalian cells. Biophys. J.. 1993; 64:1602–1609.
  • Glahder J., Norrild B., Persson M. B., . Transfection of HeLa-cells with pEGFP plasmid by impedance power-assisted electroporation. Biotechnol. Bioeng.. 2005; 92:267–276.
  • Granot Y., Ivorra A., Maor E., . In vivo imaging of irreversible electroporation by means of electrical impedance tomography. Phys. Med. Biol.. 2009; 54:4927–4943.
  • Hanafy M.. Electric field affected the molecular structure of the total serum proteins of the mice blood. Rom. J. Biophys.. 2004; 16:205–214.
  • Hibino M., Shigemori M., Itoh H., . Membrane conductance of an electroporated cell analyzed by submicrosecond imaging of transmembrane potential. Biophys. J.. 1991; 59:209–220.
  • Huang Y., Rubinsky B.. Micro-electroporation: improving the efficiency and understanding of electrical permeabilization of cells. Biomed. Microdevices. 1999; 2:145–150.
  • Ibrahim I. H.. ariation in electric conductivity produced by the application of small, DC electric field intensities on human erythrocytes. Egypt. J. Biophys.. 1999; 5:35–40.
  • Ivorra A., Al-Sakere B., Rubinsky B., . In vivo electrical conductivity measurements during and after tumor electroporation: conductivity changes reflect the treatment outcome. Phys. Med. Biol.. 2009; 54:5949–5963.
  • Mindaugas S., Danute B.. Irregular solid tumor growth. Estimation of electrochemotherapy efficacy. Acta Med. Lituanica. 2003; 10:28–32.
  • Mir L.. Therapeutic perspectives of in vivo cell electropermeablization. Bioelectrochemistry. 2001; 53:1–10.
  • Neumann E., Rosenheck K.. Permeability changes induced by electric impulses in vesicular membranes. J. Membr. Biol.. 1972; 10:279–290.
  • Pliquett F., Wunderlich S.. Relationship between cell parameters and pulse deformation due to these cells as well as its change after electrically induced membrane breakdown. Bioelectrochem. Bioenerg.. 1980; 10:467–475.
  • Rafael V., David M., Mir L., . Electrical impedance tomography for imaging tissue electroporation. IEEE Trans. Biomed. Eng.. 2004; 51:761–767.
  • Rosemberg Y., Korenstein R.. Incorporation of macromolecules into cells and vesicles by low electric fields: induction of endocytic-like processes. Bioelectrochem. Bioenerg.. 1997; 42:275–281.
  • Vanbever R., Pliquett U. F., Preat V., . Comparison of the effects of short, high-voltage and long, medium voltage pulses on skin electrical and transport properties. J. Control. Rel.. 1999; 69:35–47.
  • Weaver J. C.. Electroporation of cells and tissues. IEEE Trans. Plasma Sci.. 2000; 28:24–33.
  • Yang X., Li Y., Sun C., . The effect of high frequency steep pulsed electric fields on in vitro and in vivo antitumor efficiency of ovarian cancer cell line skov3 and potential use in electrochemotherapy. Exp. Clin. Cancer Res.. 2009; 22:28–53.
  • Zheng M., Feng B., Li J., . Effects and possible anti-tumor immunity of electrochemotherapy with bleomycin on human colon cancer xenografts in nude mice. World J. Gastroenterol.. 2005; 11:2426–2430.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.