Paper
Exposure System for Real-time 5G Electrophysiology Experiments: Numerical and Experimental Characterization
Published Jun 11, 2024 · Carmen Pisano, Noemi Dolciotti, Elisa Fumarola
2024 IEEE MTT-S International Microwave Biomedical Conference (IMBioC)
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Abstract
The current adoption of the fifth generation (5G) technology standard requests further studies related to risk assessment. In this context, investigating cellular stress responses, under exposure to new RF-EMF signals, remains pivotal in assessing associated biological effects. Moreover, understanding such a response through real-time electrophysiological studies becomes of paramount importance when excitable cells and ion channels are the favoured targets. In this work, an appropriately shielded-CPW exposure system, targeting 700 MHz and 3.5 GHz frequencies is presented to allow real-time patch-clamp experiments. The system is designed and optimized to avoid EM-coupling both with the electronic equipment of the electrophysiology acquisition system and with the microscope setup to be used for single-cell selection.
This study presents a shielded-CPW exposure system for real-time 5G electrophysiology experiments, enabling investigations of cellular stress responses under new RF-EMF signals.
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