Quantitative analysis and safety assessment for biological effects of ELF electromagnetic environment

极低频电磁环境生物效应定量分析及安全评估

• 批准号: 10480130
• 负责人: SHIMOOKA Toshiyuki
• 金额: $ 2.69万
• 依托单位: HOKKAIDO UNIVERSITY
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Scientific Research (B)
• 财政年份: 1998
• 资助国家: 日本
• 起止时间: 1998 至 1999
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-10480130/
• 关键词: electric field; electromagnetic field; biological effect; exposure dose; quantitative analysis; safety; numerical analysis; exposure experiment

The first aim of this study is to establish the methods for the analysis and the evaluation of the electric field exposure to a human body. The second aim is to clarify the biological effect of electric field quantitatively using biotelemetry techniques. This study included the development of numerical analysis techniques and measurement techniques, the measurement of exposure dose in a living human body and the search for the biological effects that can be evaluated quantitatively. Through this study, the following results were obtained.1) We have developed a numerical analysis technique and a measurement technique of an electric field, which are applicable to a living human body. The distribution of the electric field and the induced current could be measured successfully over all parts of a human body.2) Using the techniques developed in the study, the electric field and the induced current were measured in the human body when it was exposed to the electric field in the instrument of an electric field therapy.3) We could obtain the distribution of the surface electric field and the induced current with a living human body. The results revealed the manners of the field concentration on specific parts of the body. It also revealed that the density of the induced current became high (hot spots) at some parts of the body.4) Through the quantitative analysis of this study, a part of the mechanism of the field perception and the cause of the individual difference in the perception level were made clear.5) As a physiological change caused by the electric field exposure, the phenomenon of blood flow change in a human body surface was newly discovered.In conclusion, the most part of the purpose of this study was accomplished, and some significant new findings were obtained.

本研究的第一个目的是建立分析和评估人体电场暴露的方法。第二个目标是利用生物遥测技术定量地阐明电场的生物效应。这项研究包括发展数值分析技术和测量技术，测量活体中的照射剂量，以及寻找可以定量评估的生物效应。通过本研究，取得了以下成果：1）开发了适用于活体的电场数值分析技术和电场测量技术。电场和感应电流的分布可以在人体的所有部位成功地测量。2）使用研究中开发的技术，当人体暴露于电场治疗仪器中的电场时，测量人体中的电场和感应电流。3）利用该方法可以得到人体表面电场和感应电流的分布。结果揭示了人体特定部位的场集中方式。同时也揭示了感应电流密度变高的现象（热点）在身体的某些部位。4）通过本研究的定量分析，明确了场知觉的部分机制和知觉水平个体差异的原因。5）作为电场暴露引起的生理变化，新发现了人体表面的血流变化现象，完成了本研究的大部分目的，并获得了一些有意义的新发现。

项目成果

H.Shimizu et al.: "Experimental analysis of the human perception threshold of a DC electric field"Medical & Biological Engineering & Computing. 37. 727-732 (1999)

H.Shimizu等人：“直流电场的人类感知阈值的实验分析”医学

H.Shimizu and K.Shimizu: "Experimental analysis of the human perception threshold of an ELF Electric Field."Proceedings of International Symposium on Electromagnetic Compatibility. 169-172 (1999)

H.Shimizu 和 K.Shimizu：“人类对 ELF 电场感知阈值的实验分析。”国际电磁兼容性研讨会论文集。

清水孝一(分担執筆): "「環境電磁ノイズハンドブック(9.3直流電界・低周波電界の生体影響)"朝倉書店. 605 (1999)

清水浩一（合著者）：《环境电磁噪声手册（9.3 直流电场和低频电场的生物效应）》朝仓书店 605（1999）。

牛田亘一: "交流電流刺激の免疫細胞機能への影響" 電子情報通信学会技術研究報告. MBE97-153. 73-78 (1998)

Koichi Ushida：“交流电刺激对免疫细胞功能的影响”IEICE MBE97-153 (1998)。

山下政司他: "ELF強電解中における脳波解析"電子情報通信学会技術研究報告. MBE98-29. 21-26 (1998)

Masashi Yamashita 等人：“ELF 强电解期间的脑电图分析”MBE98-29 (1998)。