A Novel Reverberation Chamber for In Vitro Bioelectromagnetic Experiments at 3.5 GHz

In this article, a mode-stirred reverberation chamber (RC) was designed and proposed for the first time as a cell culture incubator for in vitro electromagnetic waves exposure of adherent cells in tissue culture plates (TCPs). Typical cell incubators require specific conditions, such as temperature...

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Veröffentlicht in:IEEE transactions on electromagnetic compatibility 2023-02, Vol.65 (1), p.39-50
Hauptverfasser: Orlacchio, Rosa, Andrieu, Guillaume, Joushomme, Alexandre, Patrignoni, Lorenza, Hurtier, Annabelle, De Gannes, Florence Poulletier, Lagroye, Isabelle, Percherancier, Yann, Arnaud-Cormos, Delia, Leveque, Philippe
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Sprache:eng
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Zusammenfassung:In this article, a mode-stirred reverberation chamber (RC) was designed and proposed for the first time as a cell culture incubator for in vitro electromagnetic waves exposure of adherent cells in tissue culture plates (TCPs). Typical cell incubators require specific conditions, such as temperature of 37 °C and humidity rate of 95%, which are challenging conditions for an RC. The chamber was characterized as an RC through an innovative experimental methodology based on the measurements of the S 11 parameter of the emitting antenna. The proposed RC is adapted for in vitro bioelectromagnetic experiments for simultaneous exposure of up to 10 TCPs under highly homogeneous exposure conditions at 3.5 GHz, i.e., the mid-frequency band of the 5G telecommunication networks. Experimental results showed that the specific absorption rate (SAR) in the exposed samples extracted from temperature measurements was similar (an acceptable maximum variation lower than 30% was observed) in reason of the homogeneity and the uniformity of the field within the chamber. Specifically, measured SAR values were around 1.5 and 1 W/kg per 1 W incident, in 6-well or 96-well plates used for biological exposure, respectively. To validate our system, numerical simulations were performed. Overall, we showed that experimental and numerical SARs are in good agreement with differences
ISSN:0018-9375
1558-187X
DOI:10.1109/TEMC.2022.3216045