Alterations in membrane stability after in vitro exposure of human erythrocytes to 2.41 GHz electromagnetic field

Q4 Environmental Science

BioRisk Pub Date : 2023-05-15 DOI:10.3897/biorisk.20.97616

B. Angelova, G. Atanasova, N. Atanasov, M. Paunov, M. Gurmanova, M. Kouzmanova

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引用次数: 1

Abstract

The growing use of wireless communication devices has been significantly increasing the level of high frequency electromagnetic fields (EMFs) in the environment, which raises a concern for possible deleterious effects on living organisms. Long lasting exposure to low-intensity EMFs can cause effects on the molecular and cellular level, and a number of morphological and physiological changes. The aim of this work was to investigate the effects of 2.41 GHz EMF emitted by wireless communication systems on human erythrocytes after in vitro irradiation. The amount of the hemoglobin released from the cells was measured as an indicator for membrane destabilization. Effects of different exposure times (20 min or 4 h) and time elapsed after exposure to 2.41 GHz pulsed or continuous EMFs with different intensities, emitted from a textile (0.213–0.238 V/m) or a dipole (5, 20, 40 and 180 V/m) antenna, were investigated. The obtained results showed that the low intensity EMF had no significant effect on the hemoglobin release from irradiated cells; even a slight tendency for membrane stabilization was noticed 3–4 hours after the end of 20-min exposure to 0.213–0.238 V/m, 2.41 GHz EMF. There was no difference in the effects of continuous and pulsed EMFs. Increased hemoglobin release was observed only during the 4-hour exposure to 180 V/m, 2.41 GHz continuous EMF. Under these conditions, the temperature of the cell suspension had been rising, so we compared the results obtained under EMF with the effects of conventional heating. Moreover, after 1-hour exposure to 180 V/m the released hemoglobin level was a bit higher than the control one but the difference disappears within an hour after terminating the irradiation. In conclusion, the in vitro exposure to 2.41 GHz EMF emitted by wireless communication devices with power density below the reference level for population exposure does not change the stability of the cell membrane of human erythrocytes.

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Alterations对人红细胞体外暴露于2.41 GHz电磁场后膜稳定性的影响

无线通信设备的使用日益增加，大大增加了环境中的高频电磁场(emf)水平，这引起了人们对生物可能产生有害影响的关注。长期暴露于低强度电磁场中，可引起分子和细胞水平的影响，以及许多形态和生理变化。本研究旨在探讨无线通信系统发出的2.41 GHz电磁场对体外辐照后人体红细胞的影响。从细胞中释放的血红蛋白量被测量为膜不稳定的指标。研究了从纺织品(0.213-0.238 V/m)或偶极子(5、20、40和180 V/m)天线发射的不同强度的2.41 GHz脉冲或连续电磁场的不同暴露时间(20分钟或4小时)和暴露时间的影响。结果表明，低强度电磁场对辐照细胞的血红蛋白释放无显著影响;在0.213-0.238 V/m, 2.41 GHz EMF下暴露20分钟后3-4小时，甚至可以注意到膜稳定的轻微趋势。连续和脉冲电磁场的效果没有差别。仅在180 V/m, 2.41 GHz连续EMF下暴露4小时时，观察到血红蛋白释放增加。在这些条件下，细胞悬浮液的温度一直在上升，因此我们将电动势下获得的结果与常规加热的效果进行了比较。在180 V/m下照射1小时后，释放的血红蛋白水平略高于对照组，但在照射结束后1小时内差异消失。综上所述，体外暴露于功率密度低于人群暴露参考水平的无线通信设备发射的2.41 GHz EMF下，不会改变人红细胞细胞膜的稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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