短波设备发射的27.12 MHz磁场对精子发生的影响

Márcio Botelho Pedrosa, B. Tenorio, F. D. C. Tenório, R. N. Morais, R. Nogueira, V. A. Júnior
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引用次数: 0

摘要

研究表明磁场对几种生物系统有影响。其中一些磁场,如短波(SW)磁场,已用于治疗目的。然而,这种治疗可能引起的不良反应仍需要更好地了解。本研究旨在确定每天暴露在西南磁场(27.12 MHz) 15、30和60天内(15分钟)是否会阻碍精子发生。体、睾丸、附睾、前列腺、精囊及性腺指数均无明显变化。血浆睾酮水平和睾丸成分体积(精小管、管腔、固有层、结缔组织、血管、管间组织)也保持不变。组织病理学分析和精子发生标志物显示,暴露于西南磁场后没有变化。然而,一些分析显示了固有层、每日精子产量、间质细胞个体体积和种群的变化。综上所述,暴露于西南磁场长达60天似乎对精子发生是安全的,但这种暴露会引起睾丸的轻微变化,需要长期更好地了解。对于长期使用此类SW设备的卫生专业人员来说,这是特别感兴趣的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of the 27.12 MHz magnetic field emitted by short-wave equipment on spermatogenesis
Studies have shown the influence of magnetic fields on several biological systems. Some of these fields, such as shortwave (SW) magnetic fields, have been used for therapeutic purposes. However, the possible adverse effects caused by this treatment still need to be better understood. The present study aimed to ascertain whether a single daily exposure (15 min.), for 15, 30 and 60 days, to SW magnetic field (27.12 MHz) can impede spermatogenesis. Exposure to SW magnetic fields did not change the weight of body, testis, epididymis, prostate, seminal vesicle or the gonadosomatic index. The plasma testosterone levels and testicular component volumes (seminiferous tubules, lumen, lamina propria, connective tissue, blood vessels, intertubular tissue) also remained unchanged. Histopathological analysis and spermatogenesis markers showed no changes after exposure to SW magnetic fields. However, some analyses showed changes in the lamina propria, daily sperm production, individual volume and population of Leydig cells. In conclusion, exposure to SW magnetic field for up to 60 days seems to be safe for spermatogenesis, but this exposure caused minor testicular changes that need to be better understood in the long term. This is of particular interest to health professionals who handle such SW devices for long periods of time.
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