Finite Element Method Analysis of Microfluidic Channel with Integrated Dielectrophoresis Electrodes for Biological Cell Permeabilization and Manipulation

[1] Sarpeshkar, R. (2010). Ultra Low PowerBioelectronics: Fundamentals, BiomedicalApplications, and Bio-Inspired Systems. Cambridge University Press.Search in Google Scholar

[2] Pohl, H.A. (1978). Dielectrophoresis: The Behavior ofNeutral Matter in Nonuniform Electric Fields. Cambridge University Press.Search in Google Scholar

[3] Lei, U., Lo, Y.J. (2012). Review of the theory of generalised dielectrophoresis. IET Nanobiotechnology, 5 (3), 86-106.Search in Google Scholar

[4] Cahill, K. (2010). Cell - penetrating peptides, electroporation and drug delivery. IET SystemsBiology, 4 (6), 367-378.10.1049/iet-syb.2010.0007Search in Google Scholar

[5] Chenguo, Y., Dengbin, M., Chengxiang, L., Caixin, S., Yan, M. (2007). Study of transmembrane potentials of inner and outer membranes induced by pulsed-electricfield model and simulation. IEEE Transactions onPlasma Science, 35 (5), 1541-1549.Search in Google Scholar

[6] EL-Hag, A., Jayaram, S.H. (2008). Effect of biological cell size and shape on killing efficiency of pulsed electric field. In IEEE International Conference onDielectric Liquids (ICDL 2008), 30 June - 3 July 2008. IEEE, 1-4.10.1109/ICDL.2008.4622479Search in Google Scholar

[7] Pethig, R. (2007). Cell physiometry tools based on dielectrophoresis. In Micro/Nano Technology forGenomics and Proteomics. Springer.Search in Google Scholar

[8] Holzel, R., Bier, F.F. (2003). Dielectrophoretic manipulation of DNA. IEE Proceedings -Nanobiotechnology, 150 (2), 47-53.10.1049/ip-nbt:20031006Search in Google Scholar

[9] Ivorra, A. (2010). Tissue electroporation as a bioelectric phenomenon: Basic concepts. In Irreversible Electroporation. Springer.10.1007/978-3-642-05420-4_2Search in Google Scholar

[10] Grainys, A. et. al. (2012). High power facilities for electroporation of biological cells in pulsed magnetic fields. In 19th International Conference on MicrowaveRadar and Wireless Communications (MIKON), 21-23 May 2012. IEEE, Vol. 2, 508-511.Search in Google Scholar

[11] Garcia, A. et. al. (2001). A method for calculation the magnetic field produced by a coil of any shape. Sensors and Actuators A, 91, 230-232.10.1016/S0924-4247(01)00617-3Search in Google Scholar

[12] Frollo, I., Andris, P., Pribil, J., Vojtisek, L., Dermek, T., Valkovic, L. (2010). Measurement and imaging of planar electromagnetic phantoms based on NMR imaging methods. Measurement Science Review, 10 (3), 97-101.10.2478/v10048-010-0013-7Search in Google Scholar

[13] Bartkevičius, S., Novickij, J. (2008). The influence of pulsed magnet heating on maximal value of generated magnetic field. Measurement Science Review, 8 (4), 94-97.10.2478/v10048-008-0022-ySearch in Google Scholar