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一种在1.8 GHz射频暴露系统中实现精度和可重复性的新方法,该系统可调节细胞内活性氧水平,使其在人类细胞培养物中作为信号幅度的函数。

A Novel Method for Achieving Precision and Reproducibility in a 1.8 GHz Radiofrequency Exposure System That Modulates Intracellular ROS as a Function of Signal Amplitude in Human Cell Cultures.

作者信息

Dahon Cyril, Aguida Blanche, Lebon Yoann, Le Guen Pierre, Dangremont Art, Meyer Olivier, Citerne Jean-Marie, Pooam Marootpong, Raad Haider, Thoradit Thawatchai, Jourdan Nathalie, Bertagna Federico, Ahmad Margaret

机构信息

Laboratoire de Génie Electrique et Electronique de Paris, Sorbonne Université/CNRS, F-75005 Paris, France.

Institut de Biologie Paris-Seine, Sorbonne Université/CNRS, F-75005 Paris, France.

出版信息

Bioengineering (Basel). 2025 Mar 4;12(3):257. doi: 10.3390/bioengineering12030257.

DOI:10.3390/bioengineering12030257
PMID:40150722
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11939444/
Abstract

Radiofrequency fields in the 1-28 GHz range are ubiquitous in the modern world, giving rise to numerous studies of potential health risks such as cancer, neurological conditions, reproductive risks and electromagnetic hypersensitivity. However, results are inconsistent due to a lack of precision in exposure conditions and vastly differing experimental models, whereas measured RF effects are often indirect and occur over many hours or even days. Here, we present a simplified RF exposure protocol providing a single 1.8 GHz carrier frequency to human HEK293 cell monolayer cultures. A custom-built exposure box and antenna maintained in a fully shielded anechoic chamber emits discrete RF signals which can be precisely characterized and modelled. The chosen amplitudes are non-thermal and fall within the range of modern telecommunication devices. A critical feature of the protocol is that cell cultures are exposed to only a single, short (15 min) RF exposure period, followed by detection of immediate, rapid changes in gene expression. In this way, we show that modulation of genes implicated in oxidative stress and ROS signaling is among the earliest cellular responses to RF exposure. Moreover, these genes respond in complex ways to varying RF signal amplitudes consistent with a hormetic, receptor-driven biological mechanism. We conclude that induction of mild cellular stress and reactive oxygen species (ROS) is a primary response of human cells to RF signals, and that these responses occur at RF signal amplitudes within the range of normal telecommunications devices. We suggest that this method may help provide a guideline for greater reliability and reproducibility of research results between labs, and thereby help resolve existing controversy on underlying mechanisms and outcomes of RF exposure in the general population.

摘要

在现代世界中,1 - 28 GHz范围内的射频场无处不在,引发了众多关于潜在健康风险的研究,如癌症、神经系统疾病、生殖风险和电磁超敏反应。然而,由于暴露条件缺乏精确性以及实验模型差异巨大,研究结果并不一致,而所测量的射频效应往往是间接的,且发生在数小时甚至数天内。在此,我们提出一种简化的射频暴露方案,为人类HEK293细胞单层培养提供单一的1.8 GHz载波频率。一个定制的暴露箱和天线放置在完全屏蔽的消声室内,发射离散的射频信号,这些信号可以被精确地表征和建模。所选择的幅度是非热的,且落在现代电信设备的范围内。该方案的一个关键特征是细胞培养仅暴露于单个短暂(15分钟)的射频暴露期,随后检测基因表达的即时、快速变化。通过这种方式,我们表明与氧化应激和ROS信号传导相关的基因调制是细胞对射频暴露的最早反应之一。此外,这些基因对不同射频信号幅度的反应复杂,符合一种 hormetic、受体驱动的生物学机制。我们得出结论,轻度细胞应激和活性氧(ROS)的诱导是人类细胞对射频信号的主要反应,并且这些反应发生在正常电信设备范围内的射频信号幅度下。我们建议这种方法可能有助于为实验室之间研究结果的更高可靠性和可重复性提供指导,从而有助于解决关于一般人群射频暴露的潜在机制和结果的现有争议。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/e9df74c18a4d/bioengineering-12-00257-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/18fcb892c4aa/bioengineering-12-00257-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/6af240edded4/bioengineering-12-00257-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/8be2b3c26d82/bioengineering-12-00257-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/d587af5647e8/bioengineering-12-00257-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/856a76e499fc/bioengineering-12-00257-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/e9df74c18a4d/bioengineering-12-00257-g006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/18fcb892c4aa/bioengineering-12-00257-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/6af240edded4/bioengineering-12-00257-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/8be2b3c26d82/bioengineering-12-00257-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/d587af5647e8/bioengineering-12-00257-g004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/856a76e499fc/bioengineering-12-00257-g005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f787/11939444/e9df74c18a4d/bioengineering-12-00257-g006.jpg

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