Molecular dynamics (MD) simulations give the chance to evaluate physical interactions in biological matter occurring at the atomistic level and in nanosecond or microsecond timescales. Due to the ongoing interest in using radiofrequency (RF) electromagnetic (EM) fields both for a wide range of biomedical applications and for the interaction mechanisms at the basis of health effects, a deep investigation on their effects to biological membrane is needed.In this work the response of a biological hydrated membrane to the application of RF EM fields was studied from an atomistic point of view, comparing the effects with the ones induced by a static field exposure
Radio-frequency (RF) electromagnetic fields are readily absorbed in biological matter and lead to di...
© 2017 IEEE. One of the potential ways to decrease the cost of extraction of microalgae products is ...
352-360Low level electromagnetic fields have been found to produce a variety of biological effects,...
International audienceElectropermeabilisation is a well established physical method, based on the ap...
UnrestrictedRecent advances in computing technology have facilitated the application of simulations ...
The electromagnetic fields application as a way to enhance biomedical techniques has recently drawn ...
Membrane model systems capable of mimicking live cell membranes were used for the first time in stud...
In order to investigate the biological effects of high frequency electromagnetic (EM) fields as thos...
Knowledge of molecular interactions, thermodynamics, temperature and system composition effects are ...
The cell membrane is a selectively permeable barrier that controls the transport of ions, molecules,...
Biological membranes are quasi-two-dimensional bilayer structures consisting of a nonideal mixture o...
2013-06-26Computer simulations of physical, chemical, and biological systems have improved tremendou...
The biological systems can absorb electromagnetic energy during radio frequency (RF) exposition. It ...
International audiencePulsed electric fields of sufficient magnitude and duration trigger functional...
Phospholipids, the main components of cell membranes, are amphiphilic molecules and can form bilayer...
Radio-frequency (RF) electromagnetic fields are readily absorbed in biological matter and lead to di...
© 2017 IEEE. One of the potential ways to decrease the cost of extraction of microalgae products is ...
352-360Low level electromagnetic fields have been found to produce a variety of biological effects,...
International audienceElectropermeabilisation is a well established physical method, based on the ap...
UnrestrictedRecent advances in computing technology have facilitated the application of simulations ...
The electromagnetic fields application as a way to enhance biomedical techniques has recently drawn ...
Membrane model systems capable of mimicking live cell membranes were used for the first time in stud...
In order to investigate the biological effects of high frequency electromagnetic (EM) fields as thos...
Knowledge of molecular interactions, thermodynamics, temperature and system composition effects are ...
The cell membrane is a selectively permeable barrier that controls the transport of ions, molecules,...
Biological membranes are quasi-two-dimensional bilayer structures consisting of a nonideal mixture o...
2013-06-26Computer simulations of physical, chemical, and biological systems have improved tremendou...
The biological systems can absorb electromagnetic energy during radio frequency (RF) exposition. It ...
International audiencePulsed electric fields of sufficient magnitude and duration trigger functional...
Phospholipids, the main components of cell membranes, are amphiphilic molecules and can form bilayer...
Radio-frequency (RF) electromagnetic fields are readily absorbed in biological matter and lead to di...
© 2017 IEEE. One of the potential ways to decrease the cost of extraction of microalgae products is ...
352-360Low level electromagnetic fields have been found to produce a variety of biological effects,...