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Extremely Low Frequency Magnetic Field Effects on Nerve Conduction Velocity, Depolarization Amplitude and Latency on Nerve Action Potential

机译：极低频磁场对神经传导速度，去极化幅度和延迟对神经动作电位的影响

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The aim of this study was to investigate the effects of extremely low frequency (ELF) magnetic field on nerve conduction velocity, depolarization amplitude and latency. The nerve was exposed to extremely low frequency magnetic field by utilizing a special Helmholtz applicator. The experiments were carried out on a group of healthy volunteers. The group consisted of 20 persons, aged 30-52 years, 10 male and 10 female. This study two main states were conducted; pre-exposure group and post-exposure group. 4-channel NCS/EMG/EPS digital electromyography was used for the recording on latencies, depolarization amplitude and nerve conduction velocity from pre-exposure and post exposure group. The values of distal and proximal responses from median nerve were obtained as procedure. In this study demonstrated that affect power frequency with 50 Hz-1 mT magnetic field on human median nerve. 50 Hz-1 mT magnetic field should not be recognized as safe for conduction mechanism on a nerve.

机译：这项研究的目的是研究极低频（ELF）磁场对神经传导速度，去极化幅度和潜伏期的影响。通过使用特殊的亥姆霍兹施加器将神经暴露于极低频磁场中。实验是在一组健康的志愿者上进行的。该小组由20人组成，年龄在30-52岁之间，男性10位，女性10位。这项研究进行了两个主要状态。暴露前组和暴露后组。使用4通道NCS / EMG / EPS数字肌电图记录暴露前和暴露后组的潜伏期，去极化幅度和神经传导速度。按照程序获得正中神经远端和近端反应的值。在这项研究中证明了用50 Hz-1 mT磁场对人正中神经影响功率频率。 50 Hz-1 mT磁场不应被认为对神经传导机制安全。

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来源
《Advances in applied information science》|2012年|25-29|共5页
会议地点 Istanbul(TR)
作者
Ozlem COSKUN; Selcuk COMLEKCI;
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作者单位

Department of Electronics and Communication Engineering Suleyman Demirel University Faculty of Engineering TURKIYE;

Department of Electronics and Communication Engineering Suleyman Demirel University Faculty of Engineering TURKIYE;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Magnetic Field; Nerve Conduction Parameters; Median Nerve; Possible Effect;

机译：磁场;神经传导参数；神经中位数；可能的影响;
入库时间 2022-08-26 14:24:15

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Extremely Low Frequency Magnetic Field Effects on Nerve Conduction Velocity, Depolarization Amplitude and Latency on Nerve Action Potential

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