In this paper we develop further the analysis of a model of bioelectromagnetic interaction at the microscopic level. Non-thermal effects of electromagnetic (EM) fields regarding the cellular environment are approached by means of thermodynamic considerations. A classical model, which considers the Lorentz forces acting on the cell membrane ions, is investigated at extremely low frequencies (ELF). Thus it is possible to calculate the electromagnetic energy coupling with the different ionic species, by varying the frequency, the amplitudes, and the spatial configurations of the EM fields. The influence of orientation of the static and dynamic EM components is evaluated from a theoretical point of view.
Further investigations on non-thermal effects referring to the interaction between ELF fields and transmembrane ionic fluxes / D'Inzeo, Guglielmo; Galli, Alessandro; A., Palombo. - In: BIOELECTROCHEMISTRY AND BIOENERGETICS. - ISSN 0302-4598. - STAMPA. - 30:(1993), pp. 93-102. [10.1016/0302-4598(93)80066-4]
Further investigations on non-thermal effects referring to the interaction between ELF fields and transmembrane ionic fluxes
D'INZEO, Guglielmo;GALLI, Alessandro;
1993
Abstract
In this paper we develop further the analysis of a model of bioelectromagnetic interaction at the microscopic level. Non-thermal effects of electromagnetic (EM) fields regarding the cellular environment are approached by means of thermodynamic considerations. A classical model, which considers the Lorentz forces acting on the cell membrane ions, is investigated at extremely low frequencies (ELF). Thus it is possible to calculate the electromagnetic energy coupling with the different ionic species, by varying the frequency, the amplitudes, and the spatial configurations of the EM fields. The influence of orientation of the static and dynamic EM components is evaluated from a theoretical point of view.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
