2021年8月後半整理分の論文紹介

2021.09.24掲載

  • Dosimetry of Various Human Bodies Exposed to Microwave Broadband Electromagnetic Pulses.
    マイクロ波高帯域電磁パルスにばく露された各種の人体のドシメトリ
    Chakarothai J, Wake K, Fujii K
    National Institute of Information and Communications Technology(日本)
    Front Public Health 2021; 9: 725310
  • 900 MHz Radiofrequency Field Induces Mitochondrial Unfolded Protein Response in Mouse Bone Marrow Stem Cells.
    900 MHz高周波はマウス骨髄幹細胞でのミトコンドリアの小胞体ストレス応答を誘導する
    Xie W, Xu R, Fan C, Yang C, Chen H, Cao Y
    Department of Toxicology, School of Public Health, Medical College of Soochow University(中国)
    Front Public Health 2021; 9: 724239
  • Electromagnetic exposure dosimetry study on two free rats at 1.8 GHz via numerical simulation
    数値シミュレーションを通じた1.8 GHzでの2匹の自由ラットについての電磁的ばく露ドシメトリ研究
    Wang X, Lu L, Qi H, Zhang J
    East China Normal University(中国)
    Front Public Health 2021: Online
  • Effects of Radiofrequency Electromagnetic Radiation on Neurotransmitters in the Brain.
    脳での神経伝達物質に対する高周波電磁放射の影響
    Hu C, Zuo H, Li Y
    Anhui Medical University, Academy of Life Sciences(中国)
    Front Public Health 2021; 9: 691880
  • Combined effect of co-exposure to di (2-ethylhexyl) phthalates and 50-Hz magnetic-fields on promoting human amniotic cells proliferation.
    ヒト羊膜細胞の増殖の促進に対するフタル酸ジエチルヘキシルおよび50 Hz磁界への同時ばく露の複合的影響
    Chen L, Ye A, Liu X, Lu J, Xie Q, Guo Y, Sun W
    The First Affiliated Hospital, School of Public Health, Zhejiang University School of Medicine(中国)
    Ecotoxicol Environ Saf 2021; 224: 112704
  • Effects of Radiofrequency Electromagnetic Field (RF-EMF) exposure on male fertility and pregnancy and birth outcomes: Protocols for a systematic review of experimental studies in non-human mammals and in human sperm exposed in vitro.
    雄性の生殖能力および妊娠および出生アウトカムに対する高周波(RF)電磁界ばく露の影響:イン・ビトロでばく露したヒト以外の哺乳類およびヒトの精子での実験研究の系統的レビューのためのプロトコル
    Pacchierotti F, Ardoino L, Benassi B, Consales C, Cordelli E, Eleuteri P, Marino C, Sciortino M, Brinkworth MH, Chen G, McNamee JP, Wood AW, Hooijmans CR, de Vries RBM
    Division Health Protection Technologies, Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA)(イタリア)
    Environ Int 2021; 157: 106806
  • High Power Electromagnetic Waves Exposure of Healthy and Tumor Bearing Mice: Assessment of Effects on Mice Growth, Behavior, Tumor Growth, and Vessel Permeabilization.
    健康なマウスおよび担がんマウスの高出力電磁波ばく露:マウスの成長、行動、腫瘍成長、血管透過性への影響の評価
    Kolosnjaj-Tabi J, Golzio M, Bellard E, Catrain A, Chretiennot T, Saurin Q, Tarayre J, Vezinet R, Rols MP
    Institut de Pharmacologie et de Biologie Structurale, IPBS, Université de Toulouse, CNRS, UPS(フランス)
    Int J Mol Sci 2021; 22 (16): 8516
  • Millimeter-wave Heating in vitro: Local Microscale Temperature Measurements Correlated to Heat Shock Cellular Response.
    イン・ビトロでのミリ波加熱:熱ショック細胞応答と相関する局所マイクロスケール温度測定
    Orlacchio R, Nikolayev D, Le Page Y, Le Drean Y, Zhadobov M
    XLIM(フランス)
    IEEE Trans Biomed Eng 2021: Online
  • Stochastic-Deterministic Thermal Dosimetry Below 6 GHz for 5G Mobile Communication Systems.
    5Gモバイル通信システム用の6 GHz未満での確率論‐決定論的熱ドシメトリ
    Šušnjara A, Dodig H, Poljak D, Cvetković M
    University of Split(クロアチア)
    IEEE Trans Electromagn Compat 2021: Online
  • Induced radiofrequency fields in patients undergoing MR examinations: insights for risk assessment.
    MR検査中の患者に誘導される高周波:リスク評価のための洞察
    Yao A, Murbach M, Goren T, Zastrow E, Kainz W, Kuster N
    Foundation of Research on Information Technologies in Society (IT'IS)(スイス)
    Phys Med Biol 2021: Online
  • The effect of exposure to radiofrequency fields on cancer risk in the general and working population: A protocol for a systematic review of human observational studies.
    一般公衆および労働者の集団におけるがんリスクに対する高周波電磁界ばく露の影響:ヒト観察研究の系統的レビューのためのプロトコル
    Lagorio S, Blettner M, Baaken D, Feychting M, Karipidis K, Loney T, Orsini N, Röösli M, Paulo MS, Elwood M
    Department of Oncology and Molecular Medicine, National Institute of Health (Istituto Superiore di Sanità)(イタリア)
    Environ Int 2021; 157: 106828
  • A Novel Method to Predict the Maximum Electric Fields in Different Body Parts Exposed to Uniform Low-Frequency Magnetic Field.
    均一な低周波磁界にばく露される様々な身体部位での最大電界の予測のための新規の方法
    Miwa K, Suzuki Y, Lan J, Diao Y, Hirata A
    Department of Electrical and Mechanical Engineering, Nagoya Institute of Technology(日本)
    IEEE Trans Electromagn Compat 2021 [in press]
  • Health Risks Associated with 5G Exposure: A View from the Communications Engineering Perspective.
    5Gばく露に関連した健康リスク:通信工学の観点からの見解
    Chiaraviglio L, Elzanaty A, Alouini MS
    Electrical Engineering (EE) Department, University of Rome Tor Vergata(イタリア)
    IEEE Open Journal of the Communications Society 2021:
  • Performance Analysis of Incident Power Density Evaluation by Inverse Source Method for Compliance Assessment at Quasi-Millimeter and Millimeter Wave Bands.
    準ミリ波およびミリ波帯での適合性評価のための逆波源法による入射電力密度評価の性能分析
    Omi S, Sasaki K, Wake K
    National Institute of Information and Communications Technology(日本)
    IEEE Trans Electromagn Compat 2021: Online
  • Electromagnetic Fields and Calcium Signaling by the Voltage Dependent Anion Channel.
    電磁界と電位依存性陰イオンチャネルによるカルシウムシグナル伝達
    Ullrich V, Apell HJ
    Universität Konstanz(ドイツ)
    Open J Vet Med 2021; 11: 57-86
  • Massive Measurements of 5G Exposure in a Town: Methodology and Results.
    街中での5G[第5世代移動通信]ばく露の大規模測定:手法および結果
    Chiaraviglio L, Lodovisi C, Franci D, Pavoncello S, Aureli T, Blefari-Melazzi N, Alouini MS
    University of Rome Tor Vergata(イタリア)
    IEEE Open Journal of the Communications Society 2021: Online
  • Health impact of 5G
    5G[第5世代移動通信]の健康へのインパクト
    Belpoggi F
    European Parliamentary Research Service (EPRS), Panel for the Future of Science and Technology (STOA)(国際機関)
    2021, PE 690.012: 1-176, ISBN-13 978-92-846-8030-6, ISBN-10 9284680301
  • Human detection thresholds of DC, AC, and hybrid electric fields: a double-blind study.
    直流、交流およびハイブリッド電界のヒトの検出閾値:二重盲検研究
    Kursawe M, Stunder D, Krampert T, Kaifie A, Drießen S, Kraus T, Jankowiak K
    Research Center for Bioelectromagnetic Interaction (femu), Institute for Occupational, Social and Environmental Medicine, Uniklinik RWTH Aachen University(ドイツ)
    Environ Health 2021; 20 (1): 92
  • Long-term inhibition of ferritin2 synthesis in trophocytes and oenocytes by ferritin2 double-stranded RNA ingestion to investigate the mechanisms of magnetoreception in honey bees (Apis mellifera).
    ミツバチ(Apis mellifera)における磁気受容のメカニズムの調査のためのフェリチン2二本鎖RNA摂取による栄養細胞および卵細胞におけるフェリチン2合成の長期的阻害
    Hsu CY, Weng YT
    Department of Biomedical Sciences, College of Medicine, Chang Gung University(台湾)
    PLoS One 2021; 16 (8): e0256341
  • Oxidative damage in the liver and brain of the rats exposed to frequency-dependent radiofrequency electromagnetic exposure: Biochemical and histopathological evidence.
    周波数依存性の高周波電磁界にばく露したラットの肝臓および脳での酸化損傷:生化学的および組織病理学的証拠
    Sharma A, Shrivastava S, Shukla S
    UNESCO-Trace Element Satellite Centre, School of Studies in Zoology, Jiwaji University(インド)
    Free Radic Res 2021: Online
  • Effects of Microwave 10 GHz Radiation Exposure in the Skin of Rats: An Insight on Molecular Responses.
    ラットの皮膚での10 GHzマイクロ波放射ばく露の影響:分子応答についての洞察
    Verma S, Keshri GK, Karmakar S, Mani KV, Chauhan S, Yadav A, Sharma M, Gupta A
    Defence Institute of Physiology and Allied Sciences (DIPAS)(インド)
    Radiat Res 2021: Online
  • Effects of Extremely Low Frequency Electro Magnetic Field on different developmental stages of Drosophila melanogaster.
    キイロショウジョウバエの様々な発達段階に対する超低周波電磁界の影響
    Agrawal N, Verma K, Baghel D, Chauhan A, Prasad DN, Sharma SK, Kohli E
    Department of Neurobiology, Defense Institute of Physiology and Allied Sciences(インド)
    Int J Radiat Biol 2021: Online
  • Threshold of radiofrequency electromagnetic field effect on human brain.
    ヒトの脳に対する高周波電磁界の影響の閾値
    Hinrikus H, Lass J, Bachmann M
    Tallinn University of Technology(エストニア)
    Int J Radiat Biol 2021: Online
  • Health effects of WiFi radiation: a review based on systematic quality evaluation.
    WiFi放射の健康影響:系統的品質評価に基づくレビュー
    Dongus S, Jalilian H, Schürmann D, Röösli M
    Department of Epidemiology and Public Health, Swiss Tropical and Public Health Institute(スイス)
    Crit Rev Environ Sci Technol 2021: Online
  • Can static electric fields increase the activity of nitric oxide synthase and induce oxidative stress and damage of spleen?
    静電界は一酸化窒素シンターゼの活性を高め、酸化ストレスと脾臓の損傷を生じ得るか?
    Dong L, Xiang J, Guo J, Chen G, Di G
    Department of Environmental Science, College of Environmental and Resource Sciences, Zhejiang University(中国)
    Environ Sci Pollut Res Int 2021: Online
  • Quantitative Comparison of Power Densities Related to Electromagnetic Near-Field Exposures with Safety Guidelines from 6 to 100 GHz.
    近傍電磁界ばく露に関連した電力密度と6-100 GHzの安全ガイドラインとの定量的比較
    Li K, Sasaki K, Wake K, Onishi T, Watanabe S
    Faculty of Engineering and Design, Kagawa University(日本)
    IEEE Access 2021: Online
  • Exposure to 60 Hz magnetic field can affect membrane proteins and membrane potential in human cancer cells.
    60 Hz磁界ばく露はヒトがん細胞の膜タンパク質および膜電位に影響し得る
    Hayashi S, Kakikawa M
    Graduate School of Natural Science and Technology, Kanazawa University(日本)
    Electromagn Biol Med 2021: Online
  • Numerical Simulation of the Radiofrequency Safety of 128-Channel hd-EEG Nets on a 29-Month-Old Whole-Body Model in a 3 Tesla MRI.
    3テスラMRIでの29月齢の全身モデルに対する128チャネルhd-EEG[高解像度脳電図]ネットの高周波安全性の数値シミュレーション
    Jeong H, Ntolkeras G, Grant PE, Bonmassar G
    Massachusetts General Hospital, Harvard Medical School(米国)
    IEEE Trans Electromagn Compat 2021
  • Effects of Pesticides and Electromagnetic Fields on Honeybees: A Field Study Using Biomarkers.
    ミツバチに対する殺虫剤と電磁界の影響:バイオマーカーを用いた実地研究
    Lupi D, Tremolada P, Colombo M, Giacchini R, Benocci R, Parenti P, Parolini M, Zambon G, Vighi M
    Department of Environmental Science and Policy, University of Milan(イタリア)
    Int J Environ Res 2020; 14: 107–122
  • Effects of mobile phone radiofrequency radiation on sperm quality.
    精子の質に対する携帯電話の高周波放射の影響
    Sciorio R, Tramontano L, Esteves SC
    Edinburgh Assisted Conception Programme, EFREC, Royal Infirmary of Edinburgh(英国)
    Zygote 2021: Online
  • Medicinal plants in mitigating electromagnetic radiation-induced neuronal damage: a concise review.
    電磁放射によるニューロン損傷を緩和する薬用植物‐簡潔なレビュー
    Raghu SV, Kudva AK, Rajanikant GK, Baliga MS
    Neurogenetics Lab, Department of Applied Zoology, Mangalore University(インド)
    Electromagn Biol Med 2021: Online

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