2025年3月後半

Transcriptomic and metabolic profiling reveals the effects of long-term microwave exposure on testicular tissue: トランスクリプトームと代謝のプロファイリングによる精巣組織長期のマイクロ波ばく露の影響の解明
Yao B, Zeng J, Shi J, Pang Y, Men J, Li Y, Wang H, Liu J, Hui W, Zhao L, Li C, Peng R, Fan J
Beijing Institute of Radiation Medicine (China)
Ecotoxicol Environ Saf 2025; 293: 118040

Specific absorption rate analysis for Mitigation of electromagnetic hazards in laboratory environment using a miniaturized antenna at 2.45 GHz: 2.45 GHzの小型アンテナを用いた実験室環境における電磁ハザードの軽減のための比吸収率分析
Ahmed A, Keshwala U, Kumari V, Dubey SK
Research Associate, Electromagnetic Metrology Section, CSIR- National Physical Laboratory (India)
Measurement 2025; 250: 117135

Assessment of exposure to RF-EMF among telecommunication tower workers in Kuwait: クウェートにおける通信タワー労働者の高周波電磁界ばく露の評価
Al-Sadi N, Shehab M, Alzoughool M
IHS Kuwait Limited (Kuwait)
Discov Public Health 2025; 22 (1): 64

Study on field strength prediction using different models on time series from urban continuous RF-EMF monitoring: 都市部の連続的な高周波電磁界モニタリングからの時系列における異なるモデルを用いた電界強度予測に関する研究
Song X, Feng W, Yang C, Djuric N, Kljajic D, Djuric S
Beijing University of Civil Engineering and Architecture, School of Intelligence Science and Technology (China)
Expert Syst Appl 2025; 274: 126963

Microwaves Activate Immune Response and Promote Lymphocytes Proliferation of Wistar Rats: マイクロ波はWistarラットの免疫反応を活性化し、リンパ球の増殖を促進する
Lizhen M, Shuhua C, Yong Z, Weijia Z, Xuelong Z, Mingzhao Z, Zhifeng Y, Xiangjun H, Lifeng W
Beijing Institute of Radiation Medicine (China)
APMIS 2025; 133 (3): e70017

Smart Electronic Device-Based Monitoring of SAR and Temperature Variations in Indoor Human Tissue Interaction: 屋内での人体組織相互作用におけるSARと温度変化のスマート電子デバイスベースのモニタリング
Lagana F, Bibbo L, Calcagno S, De Carlo D, Pullano SA, Prattico D, Angiulli G
Laboratory of Biomedical Applications Technologies and Sensors (BATS), Department of Health Science, “Magna Græcia” University (Italy)
Appl Sci 2025; 15 (5): 2439

The effect on rat peripheral nerve morphology and function of a 900-MHz electromagnetic field applied in the prenatal period: 出生前期に適用した900 MHz電磁界がラットの末梢神経の形態と機能に及ぼす影響
Hanci H, Yenilmez E, Demir S, Yildirim M, Gedikli Ö, Kaya H
Department of Histology and Embryology, Ordu University (Turkiye)
Electromagn Biol Med 2025; Online

Fast In-Phantom Absorbed Power Density Evaluation at mmWaves Based on Infrared Measurements: 赤外線測定に基づくミリ波でのファントム内吸収電力密度の高速評価
Ziane M, Boriskin A, Zhadobov M
CNRS, IETR (Institut d'Electronique et des Technologies du numéRique), UMR 6164, Université de Rennes (France)
IEEE J Microw 2025; 5 (2): 269-280

The Numerical Assessment of RF Human Exposure to Microwave Ovens with Contact-Type Doors: 接触型扉付き電子レンジによる人体への高周波ばく露の数値評価
Tian R, Wei JC, Lu M
Key Laboratory of Opto-Electronic Technology and Intelligent Control, Ministry of Education, Lanzhou Jiao Tong University (China)
Electronics 2025; 14 (5): 873

The effects of radiofrequency radiation on male reproductive health and potential mechanisms: 雄性の生殖衛生に対する高周波放射の影響および潜在的メカニズム
Bektas H, Dasdag S
Department of Biophysics, Medical School of Van Yuzuncu Yil University (Turkiye)
Electromagn Biol Med 2025; Online

Comparative analysis of electromagnetic field exposure in a higher educational institution: a study before and after the COVID-19 pandemic: 高等教育機関における電磁界ばく露の比較分析：COVID-19パンデミック前後の研究
Singh R, Singh A, Jangid A
Department of Physics and Computer Science, Dayalbagh Educational Institute, Dayalbagh, Agra, Uttar Pradesh (India)
Discov Public Health 2025; 22 (1): 90

Mitigation of Low Frequency Magnetic Field Emitted by 10/0.4 kV Substation in the School: 学校内の10/0.4kV変電所から放出される低周波磁界の緩和
Grbic M, Canova A, Giaccone L, Pavlovic A, Grasso S
Nikola Tesla Institute of Electrical Engineering, University of Belgrade (Serbia)
Int J Numer Model 2025; 38 (2): e70015

Analysis of the Association of Mobile Phone Usage and Hearing Function in Young Adults: 若年成人における携帯電話使用と聴覚機能との関連の分析
Haji AI, Ejaz H, Omar MO, Takriti MB, Narayanan SN
Internal Medicine, Ras Al Khaimah College of Medical Sciences, Ras Al Khaimah Medical and Health Sciences University (UAE)
Cureus 2025; 17 (2): e79403

Radiofrequency radiation and Alzheimer's disease: harmful and therapeutic implications: 高周波放射とアルツハイマー病：有害性と治療への影響
Bektas H, Dasdag S
Department of Biophysics, Medical School of Van Yuzuncu Yil University (Turkiye)
Int J Radiat Biol 2025; Online

Comparative Analysis of Interpolation Models for RF-EMF Exposure Mapping in Urban Areas: 都市部における高周波電磁界ばく露マッピングのための補間モデルの比較分析
Panagiotakopoulos T, Kiouvrekis Y, Ploussi A, Spyratou E, Efstathopoulos EP
Theodor Panagiotakopoulos Department of Management Science and Technology, University of Patras (Greece)
IEEE Access 2025; Online

Repeated Head Exposures to a 5G-3.5 GHz Signal Do Not Alter Behavior but Modify Intracortical Gene Expression in Adult Male Mice: 5G-3.5GHz信号への頭部反復ばく露は成体雄マウスの行動には変化を与えないが、皮質内遺伝子発現を変化させる
Lameth J, Royer J, Martin A, Marie C, Arnaud-Cormos D, Lévêque P, Poirier R, Edeline JM, Mallat M
Institut du Cerveau, ICM, Inserm U 1127, CNRS UMR 7225, Sorbonne Université (France)
Int J Mol Sci 2025; 26 (6): 2459

5G Radiofrequency Exposure Reduces PRDM16 and C/EBP β mRNA Expression, Two Key Biomarkers for Brown Adipogenesis: 5Gの高周波ばく露は褐色脂肪形成の重要なバイオマーカーであるPRDM16とC/EBPβのmRNA発現を減少させる
Seewooruttun C, Bouguila B, Corona A, Delanaud S, Bodin R, Bach V, Desailloud R, Pelletier A
PériTox (UMR I_01), UPJV/INERIS, University of Picardy Jules Verne, CURS (France)
Int J Mol Sci 2025; 26 (6): 2792

The CB1R of mPFC is involved in anxiety-like behavior induced by 0.8/2.65 GHz dual-frequency electromagnetic radiation: mPFCのCB1Rは0.8/2.65 GHzの二重周波数電磁放射によって誘発される不安様行動に関与している
Sun B, Xue T, Gao AN, Wang XY, Wu S, Liu XM, Zhang LH, Li MH, Zou DF, Gao Y, Wang CZ
Beijing Institute of Radiation Medicine (China)
Front Mol Neurosci 2025; 18: 1534324

Lifestyle and Environmental Factors Affecting Male Fertility, Individual Predisposition, Prevention, and Intervention: 男性の妊孕性、個人の素因、予防、介入に影響を及ぼす生活様式と環境要因
Tesarik J
MARGen (Molecular Assisted Reproduction and Genetics) Clinic (Spain)
Int J Mol Sci 2025; 26 (6): 2797

Auto-Induced Downlink Radiofrequency Electromagnetic Field Exposure at 3.5 GHz with Focusing Near the Head: 頭部近傍に集中した3.5 GHzにおける自己誘導ダウンリンク高周波電磁界ばく露
Herssens H, Thielens A
Department of Information Technology, Ghent University (Belgium)
IEEE Access 2025; Online

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: ヒト細胞培養において信号振幅に応じて細胞内ROSを調節する1.8 GHz高周波ばく露システムにおける精度と再現性を達成するための新しい方法
Dahon C, Aguida B, Lebon Y, Le Guen P, Dangremont A, Meyer O, Citerne JM, Pooam M, Raad H, Thoradit T, Jourdan N, Bertagna F, Ahmad M
Laboratoire de Génie Electrique et Electronique de Paris, Sorbonne Université/CNRS (France)
Bioengineering 2025; 12 (3): 257

Exposure of Spargue Dawley Rats to Phone Cell Electromagnetic Field Frequency and Related Physiological, Apoptotic and Molecular Profile of Para Oral Tissues: In-vivo Study: 携帯電話の電磁界周波数へのSprague Dawleyラットのばく露と口腔周囲組織の生理学的、アポトーシスおよび分子プロファイル：イン・ビトロ研究
Abdel Rahman GAN, Mohamed AF
Department of Oral and Maxillofacial Pathology, Faculty of Oral and Dental Medicine, South Valley University (Egypt)
Asian Pac J Cancer Prev 2025; 26 (3): 985-994

Monitoring the head exposure of MRI workers around 3 T, 7 T, and 11.7 T scanners using smart goggles equipped with a network of magnetometers: 磁気計ネットワークを備えたスマートゴーグルを用いた3 T、7 T、および11.7 Tスキャナ周囲のMRI作業者の頭部ばく露モニタリング
Nicolas H, Féry C, Quirin T, Weber N, Oster J, Felblinger J, Vignaud A, Pascal J
School of Life Sciences, University of Applied Sciences (Switzerland)
Magn Reson Med 2025; Online

2025年3月後半整理分の論文紹介