Effects of cell phone (900 and 1800 MHz) and Wi-Fi (2450 MHz) frequencies on oxidative stress in laryngeal mucosa

Q4 Biochemistry, Genetics and Molecular Biology

Journal of Cellular Neuroscience and Oxidative Stress Pub Date : 2018-08-18 DOI:10.37212/JCNOS.610132

S. G. Kütük

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引用次数: 0

Abstract

The trachea has a composite structure with individual and incomplete cartilaginous rings. Deformation of trachea through surgical process and mechanical applications induces injury of laryngotracheal mucosa (Hussain et al. 2015). Results of recent studies studying the oxidative related values in larynx cancer indicated the importance of oxidative stress. Main reactive oxygen species (ROS) are superoxide radical, hydroxyl radical and singlet oxygen. Production normal level of ROS is a physiological process, because the ROS has been using for physiological functions such as killing bacteria and viruses in the body. The excessive production of ROS is scavenged by enzymatic and non-enzymatic antioxidants. 900 and 1800 MHz frequencies are used in cell phones in several countries including Turkey, although 2450 MHz has been using as Wi-Fi frequency in the countries. The non-ionize cell phone and Wi-Fi frequencies induce their hazardous effects in cells including laryngeal mucosa by excessive production of ROS. Results of recent papers indicated that the antioxidant levels such as glutathione and glutathione peroxidase were decreased in the laryngeal mucosa of animals by the cell phone and Wi-Fi exposures, but oxidative stress levels were increased by the exposures (Aynali et al. 2013). In the oral presentation, I will summarize the results of recent papers on oxidative stress and antioxidants in neurons and cells including laryngeal mucosa. In conclusion, exposure to the frequencies is accompanied by increased oxidative stress, suggesting that oxidative stress is a cause of electromagnetic radiation-induced laryngotracheal pathophysiology. For clarifying the subject, future studies need on the Wi-Fi and mobile phone frequencies-induced oxidative stress in larynx of animal and human

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手机（900和1800 MHz）和Wi-Fi（2450 MHz）频率对喉粘膜氧化应激的影响

气管具有复合结构，具有单独的和不完整的软骨环。通过外科手术和机械应用使气管变形会导致喉气管粘膜损伤（Hussain等人，2015）。最近对癌症中氧化相关值的研究结果表明了氧化应激的重要性。主要的活性氧（ROS）是超氧化物自由基、羟基自由基和单线态氧。产生正常水平的ROS是一个生理过程，因为ROS一直被用于生理功能，如杀死体内的细菌和病毒。ROS的过量产生被酶和非酶抗氧化剂清除。包括土耳其在内的几个国家的手机都使用900和1800 MHz的频率，尽管2450 MHz在这些国家一直被用作Wi-Fi频率。非电离手机和Wi-Fi频率通过过量产生ROS在包括喉粘膜在内的细胞中诱导其危险作用。最近的论文结果表明，通过手机和Wi-Fi暴露，动物喉粘膜中的抗氧化水平（如谷胱甘肽和谷胱甘肽过氧化物酶）降低，但氧化应激水平因暴露而增加（Aynali等人，2013）。在口头陈述中，我将总结最近关于神经元和细胞（包括喉粘膜）的氧化应激和抗氧化剂的论文的结果。总之，暴露在这些频率下会伴随着氧化应激的增加，这表明氧化应激是电磁辐射诱导的喉气管病理生理学的一个原因。为了阐明这一主题，未来需要对Wi-Fi和手机频率诱导的动物和人类喉部氧化应激进行研究

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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来源期刊

Journal of Cellular Neuroscience and Oxidative Stress Biochemistry, Genetics and Molecular Biology-Biophysics

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Journal of Cellular Neuroscience and Oxidative Stress isan online journal that publishes original research articles, reviews and short reviews on themolecular basisofbiophysical,physiological and pharmacological processes thatregulate cellular function, and the control or alteration of these processesby theaction of receptors, neurotransmitters, second messengers, cation, anions,drugsor disease. Areas of particular interest are four topics. They are; 1. Ion Channels (Na+-K+Channels, Cl– channels, Ca2+channels, ADP-Ribose and metabolism of NAD+,Patch-Clamp applications) 2. Oxidative Stress (Antioxidant vitamins, antioxidant enzymes, metabolism of nitric oxide, oxidative stress, biophysics, biochemistry and physiology of free oxygen radicals) 3. Interaction Between Oxidative Stress and Ion Channels in Neuroscience (Effects of the oxidative stress on the activation of the voltage sensitive cation channels, effect of ADP-Ribose and NAD+ on activation of the cation channels which are sensitive to voltage, effect of the oxidative stress on activation of the TRP channels in neurodegenerative diseases such Parkinson’s and Alzheimer’s diseases) 4. Gene and Oxidative Stress (Gene abnormalities. Interaction between gene and free radicals. Gene anomalies and iron. Role of radiation and cancer on gene polymorphism)