In order to investigate the biological effects of microwave electromagnetic (EM) fields as those emitted from mobile telecommunication equipment, a suitable exposure system has been designed. The system is specific for real-time acquisition of membrane ionic currents in a biological cell, i.e., patch-clamp recordings. Both numerical and experimental characterizations are considered, in terms of EM field and specific absorption rate (SAR) distribution in the Petri dish containing the biological target. Results show a good efficiency of the system in terms of SAR induced in the sample by incident input power
International audienceThe effects of electromagnetic radiation waves on health is one of the major p...
ABSTRACT: In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in viv...
International audienceWe propose to analyze the aperture and ITO layer presence of a modified transv...
In order to investigate the biological effects of microwave electromagnetic fields as those emitted ...
Abstract—In order to study possible effects of microwave electromagnetic (EM) fields on neuronal act...
Here we describe the design and fabrication of novel coplanar waveguide applicators, which facilitat...
Abstract—In order to study possible effects of microwave electromagnetic (EM) fields on neuronal act...
A coplanar broadband and efficient system was developed for real-time exposure of in vitro neuronal ...
Focus of this chapter is the description of the exposure systems used for data acquisition during th...
International audienceAn in vitro system for 2.45 GHz microwave (MW) exposure with real-time fluores...
In order to study possible biological effects of electromagnetic (EM) fields generated by Wi-Fi devi...
An in vitro exposure system, based on a Wire Patch Cell (WPC) and operating in the whole band of the...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
A standardized exposure device for a set of in vitro bioelectromagnetic experiments, to be carried o...
The patch-clamp technique allows the study of the kinetic and gating behavior of a single ionic chan...
International audienceThe effects of electromagnetic radiation waves on health is one of the major p...
ABSTRACT: In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in viv...
International audienceWe propose to analyze the aperture and ITO layer presence of a modified transv...
In order to investigate the biological effects of microwave electromagnetic fields as those emitted ...
Abstract—In order to study possible effects of microwave electromagnetic (EM) fields on neuronal act...
Here we describe the design and fabrication of novel coplanar waveguide applicators, which facilitat...
Abstract—In order to study possible effects of microwave electromagnetic (EM) fields on neuronal act...
A coplanar broadband and efficient system was developed for real-time exposure of in vitro neuronal ...
Focus of this chapter is the description of the exposure systems used for data acquisition during th...
International audienceAn in vitro system for 2.45 GHz microwave (MW) exposure with real-time fluores...
In order to study possible biological effects of electromagnetic (EM) fields generated by Wi-Fi devi...
An in vitro exposure system, based on a Wire Patch Cell (WPC) and operating in the whole band of the...
The main objective of this study is to learn about the theory of electromagnetic field and to create...
A standardized exposure device for a set of in vitro bioelectromagnetic experiments, to be carried o...
The patch-clamp technique allows the study of the kinetic and gating behavior of a single ionic chan...
International audienceThe effects of electromagnetic radiation waves on health is one of the major p...
ABSTRACT: In a previous study, an apparatus generating 1.8 GHz electromagnetic radiation for “in viv...
International audienceWe propose to analyze the aperture and ITO layer presence of a modified transv...