RT Journal Article
T1 Electromechanical effects on multilayered cells in nonuniform rotating fields
A1 Sebastián Franco, José Luis
A1 Muñoz San Martín, Sagrario
A1 Sancho Ruíz, Miguel
A1 Martínez López, Genoveva
A1 Álvarez Galindo, Gabriel
AB We use the Maxwell stress tensor to calculate the dielectrophoretic force and electrorotational torque acting on a realistic four-shelled model of the yeast Saccharomyces cerevisiae in a nonuniform rotating electric field generated by four coplanar square electrodes. The comparison of these results with numerical calculations of the dipolar and quadrupolar contributions obtained from an integral equation for the polarization charge density shows the effect of the quadrupole contribution in the proximity of the electrode plane. We also show that under typical experimental conditions the substitution of the multilayered cell by an equivalent cell with homogeneous permittivity underestimates the quadrupole contribution to the force and torque by 1 order of magnitude.
PB American Physical Society
SN 1539-3755
YR 2011
FD 2011-07-28
LK https://hdl.handle.net/20.500.14352/43695
UL https://hdl.handle.net/20.500.14352/43695
LA eng
NO [1] R. Pethig, Biomicrofluidics 4, 022811 (2010).[2] M. Mischel, A. Voss, and H. A. Pohl, J. Biol. Phys. 10, 223 (1982).[3] W.M. Arnold and U. Zimmermann, J. Electrost. 21, 151 (1988).[4] A. Alazzam, D. Roman, V. Nerguizian, I. Stiharu, and R. Bhat, Microfluid. Nanofluid. 9, 1115 (2010).[5] A.K. Srivastava, M. Kim, S.M. Kim, M.-K. Kim, K. Lee, Y.H. Lee, M.-H. Lee, and S.H. Lee, Phys. Rev. E 80, 051702 (2009).[6] J.P. Huang, K.W. Yu, G.Q. Gu, and M. Karttunen, Phys. Rev. E 67, 051405 (2003).[7] S. Archer, H. Morgan, and F.J. Rixon, Biophys. J. 76, 2833 (1999).[8] C. Dalton, A.D. Goater, J.P.H. Burt, and H.V. Smith, J. Appl. Microbiol. 96, 24 (2004).[9] X.B. Wang, R. Pethig, and T.B. Jones, J. Phys. D 25, 905 (1992).[10] X.B. Wang, Y. Huang, R. Holzel, J.P.H. Burt, and R. Pethig, J. Phys. D 26, 312 (1993).[11] M.P. Hughes, X.B.Wang, F.F. Becker, P.R.C. Gascoyne, and R. Pethig, J. Phys. D 27, 1564 (1994).[12] T. Sun, H. Morgan, and N.G. Green, Phys. Rev. E 76, 046610 (2007).[13] M.P. Hughes, Phys. Med. Biol. 43, 3639 (1998).[14] M.P. Hughes, S. Archer, and H. Morgan, J. Phys. D 32, 1548 (1999).[15] J. Gimsa, R. Glaser, and G. Fuhr, in Physical Characterization of Biological Cells, edited by W. Schütt, H. Klinkmann, I. Lamprecht, and T.Wilson (Verlag Gesundheil GmbH, Berlin,1991), pp. 295–323.[16] R. Hölzel, J. Phys. D 26, 2112 (1993).[17] H.P. Schwan, Ferroelectrics 86, 205 (1988).[18] T.B. Jones, J. Electrost. 6, 69 (1979).[19] R. Paul and K.V.I.S. Kaler, Phys. Rev. E 48, 1491 (1993).[20] T.B. Jones, IEEE Eng. Med. Biol. Mag. 22, 33 (2003).[21] X.J. Wang, X.B. Wang, and P.R.C. Gascoyne, J. Electrost. 39, 277 (1997).[22] N.G. Green, A. Ramos, and H. Morgan, J. Electrost. 56, 235 (2002).[23] D.F. Chen, H. Du, W.H. Li, and C. Shu, J. Micromech. Microeng. 15, 1040 (2005).[24] C.H. Kua, Y.C. Lam, C. Yang, K. Youcef-Toumi, and I. Rodríguez, J. Electrost. 66, 514 (2008).[25] T.B. Jones, Electromechanics of Particles (Cambridge University Press, Cambridge, 1995).[26] U. Zimmermann and G.A. Nell, Electromanipulation of Cells (CRC Press, Boca Raton, FL, 1995).[27] E.R. Mognaschi and A. Savini, J. Phys. D 16, 1533 (1983).[28] Y.A. Chizmadzhev, P.I. Kuzmin, and V.P. Pastushenko, Biol. Membrany 2, 1147 (1985).[29] V.P. Pastushenko, P.I. Kuzmin, and Y.A. Chizmadzhev, Stud. Biophys. 110, 51 (1985).[30] V.P. Pastushenko, P.I. Kuzmin, and Y.A. Chizmadzhev, Biol. Membrany 5, 65 (1988).[31] T. Schnelle, R. Hagedorn, G. Fuhr, S. Fielder, and T. Muller, Biochim. Biophys. Acta 1157, 127 (1993).[32] F.A. Sauer, H. Frohlich, and F. Kremer, eds., Coherent Excitations in Biological Systems (Springer, Berlin, 1983).[33] F.A. Sauer and R.W. Schlögl, in Interactions Between Electromagnetic Fields and Cells, edited by A. Chiabrera, C. Nicolini, and H.P. Schwan (Plenum, New York, 1985), pp. 203–252.[34] J. Yang, Y. Huang, X.J. Wang, X.B. Wang, F.F. Becker, and P.R.C. Gascoyne, Biophys. J. 76, 3307 (1999).[35] J. Gimsa, T. Muller, T. Schnelle, and G. Fuhr, Biophys. J. 71, 495 (1996).[36] V.L. Sukhorukov and U. Zimmermann, J. Membr. Biol. 153, 161 (1996).[37] Y. Huang, X.B. Wang, F.F. Becker, and P.R.C. Gascoyne, BBA Biomembranes 1282, 76 (1996).[38] J. Gimsa, R. Glaser, and G. Fuhr, Stud. Biophys. 125, 71 (1988).[39] K. Maswiwat, M. Holtappels, and J. Gimsa, Electrochim. Acta 51, 5215 (2006).[40] K. Maswiwat, M. Holtappels, and J. Gimsa, ScienceAsia 33, 061 (2007).[41] A.M. Woodward and D.B. Kell, Bioelectrochem. Bioener. 24, 83 (1990).[42] M.D. Vahey and J. Voldman, Anal. Chem. 80, 3135 (2008).[43] R. Hölzel, Biophys. J. 73, 1103 (1997).[44] E. Vitols, R.J. North, and A.W. Linnane, J. Biophys. Biochem. Cytol. 9, 689 (1961). [45] C.W. Moore, R. del Valle, J. McKoy, A. Pramanik, and R.E. Gordon, Antimicrob. Agents Ch. 36, 2497 (1992).[46] J. Mulholland, D. Preuss, A. Moon, A. Wong, D. Drubin, and D. Botstein, J. Cell Biol. 125, 381 (1994).[47] J.L. Sebastián, S. Muñoz, M. Sancho, and G. Álvarez, Phys. Rev. E 78, 051905 (2008).[48] E. Prodan, C. Prodan, and J.H. Miller Jr., Biophys. J. 95, 4174 (2008).[49] A. Di Biasio and C. Cametti, Phys. Rev. E 82, 021917 (2010).[50] A. Di Biasio, L. Ambrosone, and C. Cametti, Phys. Rev. E 82, 041916 (2010).[51] M. Sancho, G. Martínez, and C. Martín, J. Electrost. 57, 143 (2003).[52] M. Sancho, G. Martínez, S. Muñoz, J. L. Sebastián, and R. Pethig, Biomicrofluidics 4, 022802 (2010).[53] D. B. Geselowitz, Biophys. J. 7, 1 (1967).
NO © American Physical Society. The financial support of UCM—Santander to Bioelectromagnetism Research Group 910305, UCM—Santander Grant No. GR35/10-A-91056, and Comisión Interministerial de Ciencia y Tecnología Project No. FIS2008-00209 is gratefully acknowledged
NO UCM-Santander
NO Comisión Interministerial de Ciencia y Tecnología
DS Docta Complutense
RD 8 may 2024