2025年5月前半

Predicting Electromagnetic Field Exposure Using Artificial Intelligence Methods: 人工知能を用いた電磁界ばく露の予測
Manassas A, Delidimitriou S, Wiart J, Samaras T
Athanasios Manassas CIRI-Center for Interdisciplinary Research and Innovation, Aristotle University of Thessaloniki (Greece)
IEEE Access 2025; 13: 79832-79844

The effect of 50 Hz magnetic fields on cellular sensitivity of mouse spermatogenic cell lines to hydrogen peroxide: 50 Hz磁界がマウス精子形成細胞株の過酸化水素に対する細胞感受性に及ぼす影響
Wei X, Zhu L, Zhu Y, Zhao X, Sun C, Chen G
Sir Run Run Shaw Hospital, Zhejiang University School of Medicine (China)
Toxicol Res 2025; 14 (3): tfaf059

Medical students and mobile phones: a cross-sectional study on auditory health: 医学生と携帯電話：聴覚の健康についての横断研究
William R, Rajasekaran V, Kulothungan G
Department of Otorhinoalryngology, Shri Sathya Sai Medical College And Research Institute, Sri Balaji Vidyapeeth (Deemed to be university) (India)
The Egyptian Journal of Otolaryngology 2025; 41: 72

Simulation-based analysis of electric field characteristics under high-voltage double-circuit and quadrupole overhead transmission lines: 高圧2回線および4重架空送電線下の電界特性のシミュレーションに基づく解析
Ahsan M, Baharom MNR, Khalil IU, Zanial Z
Faculty of Electrical and Electronic Engineering, Universiti Tun Hussein Onn Malaysia (Malaysia)
J Electrost 2025; 135: 104080

Single exposure to near-threshold 5G millimeter wave modifies restraint stress responses in rats: 閾値近くの5Gミリ波への単回ばく露はラットの拘束ストレス反応を変化させる
Matsumoto A, Endo I, Ijima E, Hirata A, Kodera S, Ichiba M, Tokiya M, Hikage T, Masuda H
Department of Social and Environmental Medicine, Saga University School of Medicine (Japan)
Environ Health Prev Med 2025; 30: 33

Universal Electromagnetic Reference Skin Model for APD Evaluation at 6–100 GHz: 6-100 GHzにおける吸収電力密度の評価のための電磁的ユニバーサル参照皮膚モデル
Boriskin A, Ziane M, Mafamane M, Anwar SM, Foged LJ, Zhadobov M
Univ Rennes, CNRS, IETR (Institut d'Electronique et des Technologies du numéRique) (France)
IEEE J Microw 2025; 5 (3): 543-554

Measuring 5G Exposure from Multiple Terminals and Base Station in Standalone FWA Networks: スタンドアローン固定ワイヤレスアクセスネットワークにおける複数の端末および基地局からの5Gばく露の測定
Chiaraviglio L, Montenero M, Lodovisi C, Salsano S, Mayer A, Lungaroni P, Blefari-Melazzi N, Basset L, Lo Duca M, Cicciarelli T, Lorenzi L, Trucchi D, Giuliani R, Di Salvatore G, Battistini M, Musi AM, Franci D, Pavoncello S, Coltellacci S, Brinciotti E, Elzanaty A, Alouini MS
Department of Electronic Engineering, University of Rome Tor Vergata, Rome, Italy Consorzio Nazionale Interuniversitario per le Telecomunicazioni (CNIT) (Italy)
IEEE Access 2025; 13: 87438-87461

5G EMF Exposure at 3.6 GHz in Greece Using Data From Frequency-Selective Monitoring Sensors: 周波数選択型モニタリングセンサーのデータを用いたギリシャにおける3.6 GHz帯の5G電磁界ばく露
Iakovidis S, Manassas A, Apostolidis C, Samaras T
CIRI-Center for Interdisciplinary Research and Innovation, Aristotle University of Thessaloniki (Greece)
Bioelectromagnetics 2025; 46 (4): e70008

Electromagnetic fields from mobile phones: a risk for maintaining energy homeostasis?: 携帯電話からの電磁界：エネルギー恒常性の維持に対するリスクか？
Seewooruttun C, Mai TC, Corona A, Delanaud S, Seze R, Bach V, Desailloud R, Pelletier A
PériTox (UMR I_01), UPJV/INERIS, University of Picardy Jules Verne (France)
Ann Endocrinol 2025; 101782

Melatonin ameliorates RF-EMR-induced reproductive damage by inhibiting ferroptosis through Nrf2 pathway activation: メラトニンはNRF2経路活性化を介してフェロプトーシスを阻害することで、RF電磁放射誘発性の生殖障害を軽減する
Wang J, Dong J, Xu Q, Yan S, Wang H, Lei H, Ma X, Yang T, Wang K, Li Z, Wang X
Department of Gynecology and Obstetrics, Tangdu Hospital, Air Force Medical University, Xi'an (China)
Pathol Res Pract 2025; 270: 156003

Uncertainty assessment of electromagnetic exposure safety for human body with intracranial artery stent around EV-WPT based on K-GRU surrogate model: K-GRU代替モデルに基づく電気自動車用ワイヤレス電力伝送システムの周囲での頭蓋内動脈ステントを有する人体への電磁ばく露安全性の不確かさ評価
Liu J, Zhao K, Yu Q, Zhou H, Wang T, Chi Y
Department of Radiology, The First Hospital of Jilin University (China)
Alex Eng J 2025; 125: 624-635

Realistically Poseable Mouse Model for Assessing Exposures to Magnetic Field in the Intermediate Frequency Band: 中間周波帯域の磁界へのばく露を評価するための現実的なポーズが可能なマウスモデル
Wasoontarajaroen S, Ishiwata H, Chakarothai J, Ohtani S, Ushiyama A, Hattori K, Wada K, Ikehata M, Suzuki Y
Graduate School of Systems Design Tokyo Metropolitan University (Japan)
IEEE Access 2025; 13: 86528-86541

"Bogeymen," "Murderers," and "Loonies": Emotions in Dutch Debates on 5G and Health: 「お化け」「殺人者」「おかしな人」：5Gと健康に関するオランダの議論に見る感情
Moes F, Broer C, Horstman K
Department of Health, Ethics and Society, Maastricht University, Research School CAPHRI (The Netherlands)
Sci Technol Human Values 2025; Online

Impact of mobile phone-emitted non-ionizing electromagnetic radiation on parotid gland function: A comprehensive study: 携帯電話から発せられる非電離電磁放射が耳下腺機能に及ぼすインパクト：包括的研究
Jacob RA, Jose M, Pai VR, Kalal BS
Department of Oral Pathology and Microbiology, Yenepoya Dental College, Yenepoya (Deemed to be University) (India)
Int J Risk Saf Med 2025; 13: 86528-86541

IEEE/IEC International Draft Standard for Determining the Peak Spatial Average Specific Absorption Rate (SAR) in the Human Body from Wireless Communications Devices, 30 MHz to 6 GHz. Part 1: General Requirements for using the Finite Difference Time Domain (FDTD) Method for SAR Calculations: 30 MHz-6 GHz帯におけるワイヤレス通信デバイスによる人体におけるピーク空間平均比吸収率（SAR）の測定に関するIEEE/IEC国際規格案パート1：SAR計算における有限差分時間領域（FDTD）法の使用に関する一般要件
Institute of Electrical and Electronics Engineers (IEEE), International Electrotechnical Commission (IEC) 2025; P62704-1/D3: 1-85

Effects of Mobile Electromagnetic Exposure on Brain Oscillations and Cortical Excitability: Scoping Review: 携帯電話の電磁界ばく露が脳の揺らぎと皮質興奮性に及ぼす影響：スコーピングレビュー
Torkan A, Zoghi M, Foroughimehr N, Yavari A, Jaberzadeh S
Monash Neuromodulation Research Unit, Department of Physiotherapy, School of Primary and Allied Health Care, Monash University (Australia)
Sensors 2025; 25 (9): 2749

Electromagnetic exposure levels of electric vehicle drive motors to cochlear implanted passenger: 電気自動車の駆動モーターによる人工内耳装着者の電磁界ばく露レベル
Dong XW, Qian YD, Lu M
Key Laboratory of Opto-Electronic Technology and Intelligent Control of Ministry of Education, Lanzhou Jiaotong University (China)
PLoS One 2025; 20 (5): e0322735

5G-exposed human skin cells do not respond with altered gene expression and methylation profiles: 5Gにばく露したヒト皮膚細胞には遺伝子発現およびメチル化プロファイルの変化を伴う反応はない
Jyoti J, Gronau I, Cakir E, Hütt MT, Lerchl A, Meyer V
School of Science, Constructor University (Germany)
PNAS Nexus 2025; 4 (5): pgaf127

Trends in the incidence of brain cancer and the use of mobile phones: analysis of the Spanish Network of Cancer Registries (REDECAN): 脳腫瘍の発症率と携帯電話の使用傾向：スペインがん登録ネットワーク（REDECAN）の分析
Galceran J, Ameijide A, Cañete A, Peris-Bonet R, López de Munain A, Aizpurúa A, de la Cruz M, Sanvisens A, Sánchez MJ, Palacios I, Franch P, Sánchez A, Guevara M, Carulla M, Gutiérrez P, Sáez I, Rodríguez M, Alemán A, Sabater C, Spanish Network of Cancer Registries (REDECAN)
Tarragona Cancer Registry, Cancer Epidemiology and Prevention Service, Sant Joan de Reus University Hospital (Spain)
Clin Transl Oncol 2025; Online

2025年5月前半整理分の論文紹介