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The Effects of 5G Radiation on Skin
Sponsor: Prof. Olivier Gaide, MD-PhD
Summary
The current 5G waves used on the daily life are ranging from 410 MHz to 7125 MHz and are called FR1. The next deployed 5G waves will be FR2, from 24.45 GHz to 52.6 GHz. Our project targets the 27.5 GHz frequency, as it will be used in both Europe and the USA. Recent studies have shown that these 5G FR2 waves enter the skin but do not penetrate deeper in the body, which is why our project focuses on the skin. Our aim is to understand the effects of 5G waves on skin by performing a clinical trial. In this study, participants (healthy volunteers, patients with dermatoporosis, or whose skin is prone to developing cancer or who suffer from atopic dermatitis) will be exposed to carefully chosen 5G parameters and skin will be analyzed by state-of-the-art single cell RNA analysis (an unbiased and very sensitive technique ideal for studying cell behavior changes). This project will also decipher the differences between women and men, in response to 5G FR2 waves.
Official title: Double-blind Randomized Controlled Study of the Effects of 5G Radiation on Skin
Key Details
Gender
All
Age Range
18 Years - Any
Study Type
INTERVENTIONAL
Enrollment
42
Start Date
2024-01-09
Completion Date
2026-09-01
Last Updated
2026-03-27
Healthy Volunteers
Yes
Conditions
Interventions
5GFR2 non ionizing EMW exposure
A 5G source, only exposing a small skin-area, will be placed on each arm of the participants. Only one of the two sources will emit waves (controlled by a computer). One arm will be exposed to 20W/m2 (a dose rate inferior to the recommended maximum for EMW exposure in Switzerland), the other not. The exposure time is 20 minutes. After the exposure, the participants will wait one hour and a 7.5-mm biopsy by punch (two pieces: one 5-mm punch + half a 5-mm punch) will be performed under local anesthesia on each arm. The wound will be closed by a simple suture. A second set of samples will be taken 24h after the exposure, using the same procedure. For each participant, 1 full biopsy per arm and per time-point will be used for single-cell-RNA-sequencing analysis. The selected method uses generic probed sequencing and does not generate patient-specific genomic information.
Locations (1)
CHUV
Lausanne, Canton of Vaud, Switzerland