Sensitivity of transmembrane voltage induced by applied electric fields - a theoretical analysis

被引：186

作者：

Kotnik, T ^{[1
]}

Bobanovic, F ^{[1
]}

Miklavcic, D ^{[1
]}

机构：

[1] UNIV LJUBLJANA,FAC ELECT ENGN,LJUBLJANA 1000,SLOVENIA

来源：

BIOELECTROCHEMISTRY AND BIOENERGETICS | 1997年 / 43卷 / 02期

关键词：

electric field stimulation; electroporation; transmembrane voltage; low conductivity medium; pulse duration;

D O I：

10.1016/S0302-4598(97)00023-8

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

The sensitivity of induced transmembrane voltage to extracellular conductivity, membrane conductivity, cytoplasmic conductivity, cell radius and electric pulse duration has been studied. The study showed that variations of membrane conductivity, cytoplasmic conductivity and cell radius within the ranges of their physiological values do not influence induced transmembrane voltage substantially, provided that extracellular conductivity also corresponds to the physiological conditions, and duration of the electric pulse is in range of 10 mu s or longer. However, when extracellular conductivity is reduced to the values typical for a ''low conductivity'' medium, the induced transmembrane voltage decreases considerably, while the charging time of the membrane increases up to the range of 1 ms. This increases the necessary amplitude and duration of electric pulses used for electroporation. In a ''low conductivity'' medium, the induced transmembrane voltage is also much more sensitive to variations in cell radius, membrane conductivity, and cytoplasmic conductivity. Such a medium is used in many in vitro studies of the effects of an electric field upon single cells. Our study shows that in these cases, in order to evaluate the induced transmembrane voltage, it is important to consider the values of conductivities and radii of cells used in the experiment, as well as the duration of the electric pulses used. (C) 1997 Elsevier Science S.A.

引用

页码：285 / 291

页数：7

共 27 条

[1] Alberts B., 1994, MOL BIOL CELL, P477
[2] ELECTRO-ROTATION - DEVELOPMENT OF A TECHNIQUE FOR DIELECTRIC MEASUREMENTS ON INDIVIDUAL CELLS AND PARTICLES
ARNOLD, WM
ZIMMERMANN, U
[J]. JOURNAL OF ELECTROSTATICS, 1988, 21 (2-3) : 151 - 191
[3] ELECTROROTATION OF MOUSE OOCYTES - SINGLE-CELL MEASUREMENTS OF ZONE-INTACT AND ZONE-FREE CELLS AND OF THE ISOLATED ZONA-PELLUCIDA
ARNOLD, WM
SCHMUTZLER, RK
SCHMUTZLER, AG
VANDERVEN, H
ALHASANI, S
KREBS, D
ZIMMERMANN, U
[J]. BIOCHIMICA ET BIOPHYSICA ACTA, 1987, 905 (02) : 454 - 464
[4] DIFFERENCES IN THE ROTATION SPECTRA OF MOUSE OOCYTES AND ZYGOTES
FUHR, G
GEISSLER, F
MULLER, T
HAGEDORN, R
TORNER, H
[J]. BIOCHIMICA ET BIOPHYSICA ACTA, 1987, 930 (01) : 65 - 71
[5] ROTATION OF DIELECTRICS IN A ROTATING ELECTRIC HIGH-FREQUENCY FIELD - MODEL EXPERIMENTS AND THEORETICAL EXPLANATION OF THE ROTATION EFFECT OF LIVING CELLS
FUHR, G
GLASER, R
HAGEDORN, R
[J]. BIOPHYSICAL JOURNAL, 1986, 49 (02) : 395 - 402
[6] GASCOYNE PRC, 1993, BIOCHIM BIOPHYS ACTA, V1146, P119
[7] Gimsa J., 1991, PHYSICAL CHARACTERIZ, P295
[8] ELECTROMOBILE SURFACE-CHARGE ALTERS MEMBRANE-POTENTIAL CHANGES INDUCED BY APPLIED ELECTRIC-FIELDS
GROSS, D
[J]. BIOPHYSICAL JOURNAL, 1988, 54 (05) : 879 - 884
[9] CELLULAR MEMBRANE-POTENTIALS INDUCED BY ALTERNATING-FIELDS
GROSSE, C
SCHWAN, HP
[J]. BIOPHYSICAL JOURNAL, 1992, 63 (06) : 1632 - 1642
[10] THE RADIO-FREQUENCY DIELECTRIC-PROPERTIES OF YEAST-CELLS MEASURED WITH A RAPID, AUTOMATED, FREQUENCY-DOMAIN DIELECTRIC SPECTROMETER
HARRIS, CM
KELL, DB
[J]. BIOELECTROCHEMISTRY AND BIOENERGETICS, 1983, 11 (01): : 15 - 28

← 1 2 3 →