The latest additions appear below.
The complete collection of abstracts now covers more than 900 scientific papers. This 658-page document (pdf) can be downloaded by clicking on the following link:
Note: This link will change when new abstracts are added to the collection.
Recent Papers
Half Duplex Radio: Towards Green 5G NR
Half Duplex Radio: Towards Green 5G NR
Abstract
The standardization of the 5th Generation of mobile communication networks is paving its way in 3GPP, involving the evolution of 5G New Radio (NR). One of the key features of NR is its operation at high frequencies such as mm Wave, involving high human exposure to electromagnetic (EM) radiation in the atmosphere. This increases the power density levels in our ecosystem, high specific absorption rates in body tissues because of temperature elevation due to heating. The article provides an overview of the harmful impacts of the Radio Frequency (RF) fields with some radiation reduction techniques. A potential solution as a proposal in the form of “Thermal Radiation” (TR) mode to design the future mobile communication networks is presented. The proposed mode validates its performance by decreasing Power Density (PD), complexity and temperature elevation. Also high energy efficiency is obtained for proposed TR mode hence contributing towards Green Communication.
Excerpt
Various biological effects of radiofrequency electromagnetic field (RF-EMF) and mmWave radiation have been studied in literature. Some of them are summarized in Table 1. It can be seen that at low frequencies of exposure the power density values obtained for the study targets are within the exposure limits as specified by ICNIRP [3]. With the rise in frequency exposure, the PD and Specific absorption Rate (SAR) obtained rise correspondingly. The damage caused is seen in terms of reduced growth rate, reproductive capacity, corneal damage, altered memory and so on. There is a major contribution to the climate change caused by emission of harmful gases such as 饾惗饾憘2 due to proliferation in the ICT industry [4] and mobile communication systems which is expected to be 51% (179 Mt 饾惗饾憘2 饾憭) by 2020 [5].
In humans the eyes, skin tissues, brain are the most vulnerable areas and the power density exposure is maximum [7]. There are concerns regarding planning of the 5G networks in a way as to abide by the EMF limits and constraints. Various 5G enabling technologies have been discussed in literature to provide new opportunities for reducing the exposure and for EMF aware network planning to plan the future communication networks [8]. In [9], the authors discuss EM radiation reduction techniques for mobile communication systems such as Massive MIMO which increases the spatial diversity by transmitting parallel streams of information channels called as spatial multiplexing. Various other techniques discussed include Electromagnetic Shielding, Beamforming, Coordinated multipoint (CoMP), Spectrum Sharing. In [10] an algorithm to achieve better quality of experience and service in 5G systems is proposed. In addition, zonal based approach is followed in [11] to prolong battery lifetime of users in a spectrum-shared network contemplating Green Communication.
Limitations of Incident Power Density as a Proxy for Induced Electromagnetic Fields
Christ A, Samaras T, Neufeld E, Kuster N. Limitations of Incident Power Density as a Proxy for Induced Electromagnetic Fields. Bioelectromagnetics. 2020 May 14. doi: 10.1002/bem.22268. [Epub ahead of print]
Abstract
Christ A, Samaras T, Neufeld E, Kuster N. Limitations of Incident Power Density as a Proxy for Induced Electromagnetic Fields. Bioelectromagnetics. 2020 May 14. doi: 10.1002/bem.22268. [Epub ahead of print]
Abstract
The
most recent safety guidelines define basic restrictions for
electromagnetic field exposure at frequencies more than 6 GHz in terms
of spatial- and time-averaged transmitted power density inside the body.
To enable easy-to-perform evaluations in situ, the reference levels for
the incident power density were derived. In this study, we examined
whether compliance with the reference levels always ensures compliance
with basic restrictions. This was evaluated at several distances from
different antennas (dipole, loop, slot, patch, and helix). Three power
density definitions based on integration of the perpendicular real part
of the Poynting vector, the real part of its three vector components,
and its modulus were compared for averaging areas of 位2 /16, 4 cm2 (below 30 GHz) and 1 cm2
(30 GHz). In the reactive near-field (d < 位/(2蟺)), the transmitted
power density can be underestimated if an antenna operates at the free
space exposure limit. This underestimation may exceed 6 dB (4.0 times)
and depends on the field source due to different coupling mechanisms. It
is frequency-dependent for fixed-size averaging areas (4 and 1 cm2
). At larger distances, transmission can be larger than the theoretical
plane-wave transmission coefficient due to backscattering between the
body and field source. Using the modulus of the incident Poynting vector
yields the smallest underestimation.
https://www.ncbi.nlm.nih.gov/
Conclusions
The ratio of the transmitted to incident averaged PD was quantified considering near‐ and far‐field effects with the objective of establishing a correlation that can be used for the assessment of the compliance of wireless devices operating above 6 GHz based on free space measurements. The following additional aspects need be taken into consideration for the quantification of the average transmitted PD:
https://www.ncbi.nlm.nih.gov/
Conclusions
The ratio of the transmitted to incident averaged PD was quantified considering near‐ and far‐field effects with the objective of establishing a correlation that can be used for the assessment of the compliance of wireless devices operating above 6 GHz based on free space measurements. The following additional aspects need be taken into consideration for the quantification of the average transmitted PD:
-
Increased coupling in the near‐field, which has already been described by Kuster and Balzano [1992], can lead to an underestimation of the average transmitted PD by more than 6 dB (4.0 times) or a factor of 4 for d < 位/2 if the real part of the Poynting vector that is perpendicular to the phantom (Equation (1)) is applied to calculate the averaged PD as the exposure metric.
-
The underestimation is frequency‐independent, if the averaging area is normalized to (位/4)2, instead of being kept fixed at 4 or 1 cm2.
If the averaging area is normalized to the wavelength, frequency
independence for array antennas can be assumed provided that the array
topology (e.g. number and spatial arrangement of array elements) is kept
constant.
-
Calculating the averaged PD using the modulus of the Poynting vector (Equation (3)) yields a better proxy for the transmitted power in the near‐field, i.e. for d < 位/(2蟺),
because it takes into account losses that are induced by the reactive
field components, which do not contribute to the real part of the
Poynting vector.
-
At distances d > 位/(2蟺), at
which the Poynting vector approaches the PD of TEM wave propagation,
the transmission coefficient may deviate by more than ±2 dB (1.6 times)
from the plane‐wave equivalent transmission due to backscattering and
constructive or destructive interference. Within the considered distance
range of up to 2位, the impact of backscattering cannot be neglected.
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Comparison of effects of 2.4 GHz Wi-Fi and mobile phone exposure on human placenta and cord blood
Bektas H, Dasdag S, Bektas MS. Comparison of effects of 2.4 GHz Wi-Fi and mobile phone exposure on human placenta and cord blood. Biotechnology & Biotechnological Equipment. 34(1):
154-162,
DOI: 10.1080/13102818.2020.1725639.
Abstract
The aim of this study was to investigate the effects of radiofrequency radiation emitted from Wi-Fi systems and mobile phones on cord blood and placenta. The study included 149 pregnant women who were divided in subgroups: unexposed (control), mobile phone exposed, Wi-Fi exposed and mobile phone plus Wi-Fi exposed groups. Immediately after birth, placenta and cord blood samples were collected and protein carbonyl (PCO), malondialdehyde (MDA), total oxidant status (TOS), total antioxidant status, 8-hydroxy-2′-deoxyguanosine (8-OHdG) levels and DNA single strand breaks were analysed. The results of the study showed an increase in 8-OHdG, MDA, PCO and TOS in cord blood and placenta in the group exposed to mobile phones during gestation. However, the group exposed to Wi-Fi did not show alterations in the studied oxidative stress parameters. On the other hand, tail intensity and tail moment of DNA in the mobile phone exposure groups were higher than those in the control and Wi-Fi exposure groups. In conclusion, the results of this study indicated that mobile phone exposure during pregnancy could have an important potential to cause oxidative stress and DNA damage in cord blood and placenta. The results of this study also indicated that combined effects of Wi-Fi plus mobile phone exposure have a higher potential to cause synergistic harmful effects.
The aim of this study was to investigate the effects of radiofrequency radiation emitted from Wi-Fi systems and mobile phones on cord blood and placenta. The study included 149 pregnant women who were divided in subgroups: unexposed (control), mobile phone exposed, Wi-Fi exposed and mobile phone plus Wi-Fi exposed groups. Immediately after birth, placenta and cord blood samples were collected and protein carbonyl (PCO), malondialdehyde (MDA), total oxidant status (TOS), total antioxidant status, 8-hydroxy-2′-deoxyguanosine (8-OHdG) levels and DNA single strand breaks were analysed. The results of the study showed an increase in 8-OHdG, MDA, PCO and TOS in cord blood and placenta in the group exposed to mobile phones during gestation. However, the group exposed to Wi-Fi did not show alterations in the studied oxidative stress parameters. On the other hand, tail intensity and tail moment of DNA in the mobile phone exposure groups were higher than those in the control and Wi-Fi exposure groups. In conclusion, the results of this study indicated that mobile phone exposure during pregnancy could have an important potential to cause oxidative stress and DNA damage in cord blood and placenta. The results of this study also indicated that combined effects of Wi-Fi plus mobile phone exposure have a higher potential to cause synergistic harmful effects.
Excerpts
The use of wireless Internet and mobile phones has been increasing rapidly. Nowadays, access points to the internet are present in workplaces, public places, houses, and schools. These sources of RFR are raising the public concern regarding the potential health effects. Possibly, these systems are particularly popular with children and the young population. However, exact proof is not present on whether these RFR systems are harmful or not for humans. Therefore, people, especially pregnant women and children should be cautious around such equipment until there are sufficient data. Some animal studies have recently indicated that RFR exposure during pregnancy induced some adverse effects on infants [13–15]. On the other hand, in a human pregnancy study, it is reported that RFR exposure during pregnancy caused significant changes in some biochemical parameters of cord blood [16].
There is a correlation between radiofrequency and body penetration. When the frequency of the RFR increases, it penetrates less into the body tissues [8]. Consequently, the penetration of 2.4 GHz Wi-Fi should be lower than that of 900, 1800 and 2100 MHz, which are the mobile phone frequencies. On the other hand, there are two frequency zones (around 100 MHz and 1–4 GHz) in which children absorb more RF than adults [8]. However, the strength and distance to sources are very important for the health effects of RFR. As it is known, when RFR moves away from the source, its power density decreases in proportion to 1/d2 (where d2 is the square of the distance to the source). People are exposed to local RFR when talking with mobile phones, whereas RFR emitted from Wi-Fi affects the entire body. It is thought that public exposure levels arising from Wi-Fi are lower than those from mobile phones [8]. Additionally, frequency, power density, distance and physical properties of the biological material (permeability and dielectric constant) are the determinative factors for the interaction between RFR and the biological material. It is also reported that tissues with high water content are more sensitive to RFR than others [9]. Therefore, another issue that needs attention is pregnancy because the body water content increases in pregnancy. It is also verified that RFR has potential to develop some anomalies during pregnancy [10,11]. Additionally, the specific absorption rate (SAR) levels in foetuses exposed to 900 MHz plane waves have been found 14% lower than those of their mothers [12]
In our study, the tail moment and tail intensity, which are DNA damage indicators, were found higher in Group 1 (mobile phone only) than in the control group. However, no significant change was observed in the Wi-Fi group (Group 2) in terms of the parameters under discussion. The 8-OHdG level, which is also another oxidative DNA damage indicator, was higher in Group 1 than in the Control. On the other hand, no significant alteration was observed in Group 2 as compared to the control. We also observed differences in the 8-OHDG levels, tail moment and tail intensity between the experimental groups (p<0.001). Therefore, we suggest that RFR emitted from mobile phones was more effective in inducing oxidative DNA damage than RFR emitted from Wi-Fi. On the other hand, the results from our study indicated that Wi-Fi has the potential to contribute to the detrimental effects of mobile phones.
In cord blood, the values of TOS and OSI in Groups 1 and 3 were higher than those in the control group (p<0.001), whereas the TAS levels were lower than that in the control (p<0.05). Alterations in TAS, TOS, OSI were not observed in the Wi-Fi exposed group. In placenta, TAS in Group 2 was higher than that in Group 1 (p<0.001), OSI in Group 2 were acquired lower than Group 1. The results obtained from our study showed that the exposure to mobile phones during the gestation period might be able to induce oxidative stress, but exposure to Wi-Fi does not appear to cause oxidative stress. The reason behind this difference may be attributed to absorption and attenuation of RFR emitted from Wi-Fi devices by walls and materials in the vicinity. In addition, mobile phone users are exposed to more RFR in the near field. Known harmful effects of RFR on living organisms depend on some physical characteristics of radiation [7]. The body RF penetration decreases when RF frequency increases [8].
There are some limitations to this study. For example, although all efforts were made to carefully select the participants enrolled in this study, the study design could not possibly exclude all potential effects of other factors on the pregnant women that may have affected the levels of the parameters in this study. However, the confounding factors presented in Tables 1 and 2 indicated that external factors were found statistically insignificant (p>0.05).
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Electromagnetic hypersensitivity: a critical review of explanatory hypotheses
Dieudonn茅 M. Electromagnetic hypersensitivity: a critical review of explanatory hypotheses. Environ Health. 2020 May 6;19(1):48. doi: 10.1186/s12940-020-00602-0.
Abstract
BACKGROUND: Electromagnetic hypersensitivity (EHS) is a condition defined by the attribution of non-specific symptoms to electromagnetic fields (EMF) of anthropogenic origin. Despite its repercussions on the lives of its sufferers, and its potential to become a significant public health issue, it remains of a contested nature. Different hypotheses have been proposed to explain the origin of symptoms experienced by self-declared EHS persons, which this article aims to review.
METHODS: As EHS is a multi-dimensional problem, and its explanatory hypotheses have far-reaching implications, a broad view was adopted, not restricted to EHS literature but encompassing all relevant bodies of research on related topics. This could only be achieved through a narrative approach. Two strategies were used to identify pertinent references. Concerning EHS, a complete bibliography was extracted from a 2018 report from the French Agency for Food, Environmental and Occupational Health & Safety and updated with more recent studies. Concerning related topics, the appropriate databases were searched. Systematic reviews and expert reports were favored when available.
FINDINGS: Three main explanatory hypotheses appear in the literature: (1) the electromagnetic hypothesis, attributing EHS to EMF exposure; (2) the cognitive hypothesis, assuming that EHS results from false beliefs in EMF harmfulness, promoting nocebo responses to perceived EMF exposure; (3) the attributive hypothesis, conceiving EHS as a coping strategy for pre-existing conditions. These hypotheses are successively assessed, considering both their strengths and limitations, by comparing their theoretical, experimental, and ecological value.
CONCLUSION: No hypothesis proves totally satisfying. Avenues of research are suggested to help decide between them and reach a better understanding of EHS.
Open access paper: https://www.ncbi.nlm.nih.gov/
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The enigma of headaches associated with electromagnetic hyperfrequencies: Hypotheses supporting non-psychogenic algogenic processes.
Toffa DH, Sow AD. The enigma of headaches associated with electromagnetic hyperfrequencies: Hypotheses supporting non-psychogenic algogenic processes. Electromagn Biol Med. 2020 May 13:1-10. doi: 10.1080/15368378.2020.1762638.
Abstract
Although an electrohypersensitivity (EHS) is reported in numerous studies, some authors associate hyperfrequencies (HF)-related pains with a nocebo effect while others suggest a biological effect. Therefore, we aimed to suggest hypotheses about the complex mechanisms of headaches related to HF-exposure. We crossed basic features of headaches with relevant studies (from the year 2000 up to 2018) emphasizing on the HF effects that may lead to pain genesis: neuroglial dysmetabolism, neuroinflammation, changes in cerebral blood perfusion, blood-brain barrier dysfunction and electrophysiological evidences of hyperexcitability. We privileged studies implying a sham exposure (for in vivo studies) and a specific absorption rate lower than 4 W/Kg. HF-induced headaches may involve an indirect inflammatory process (neurogenic, magnetogenic or thermogenic) as well as a direct biophysical effect (thermogenic or magnetogenic). We linked inflammatory processes to meningeal dysperfusion or primary neuroglial dysfunction triggered by non-thermal irradiation or HF-induced heating at thermal powers. In the latter case, HF-induced excitoxicity and oxidative stress probably play a crucial role. Such disorders may lead to vascular-trigeminal activation in predisposed people. Interestingly, an abnormal oxidative stress predisposition had been demonstrated in overall 80% of EHS self-reporting patients. In the case of direct effects, pain pathways' activation may be directly triggered by HF-irradiation (heating and/or transcranial HF-induced ectopic action potentials). Further research on HF-related headaches is needed.
Toffa DH, Sow AD. The enigma of headaches associated with electromagnetic hyperfrequencies: Hypotheses supporting non-psychogenic algogenic processes. Electromagn Biol Med. 2020 May 13:1-10. doi: 10.1080/15368378.2020.1762638.
Abstract
Although an electrohypersensitivity (EHS) is reported in numerous studies, some authors associate hyperfrequencies (HF)-related pains with a nocebo effect while others suggest a biological effect. Therefore, we aimed to suggest hypotheses about the complex mechanisms of headaches related to HF-exposure. We crossed basic features of headaches with relevant studies (from the year 2000 up to 2018) emphasizing on the HF effects that may lead to pain genesis: neuroglial dysmetabolism, neuroinflammation, changes in cerebral blood perfusion, blood-brain barrier dysfunction and electrophysiological evidences of hyperexcitability. We privileged studies implying a sham exposure (for in vivo studies) and a specific absorption rate lower than 4 W/Kg. HF-induced headaches may involve an indirect inflammatory process (neurogenic, magnetogenic or thermogenic) as well as a direct biophysical effect (thermogenic or magnetogenic). We linked inflammatory processes to meningeal dysperfusion or primary neuroglial dysfunction triggered by non-thermal irradiation or HF-induced heating at thermal powers. In the latter case, HF-induced excitoxicity and oxidative stress probably play a crucial role. Such disorders may lead to vascular-trigeminal activation in predisposed people. Interestingly, an abnormal oxidative stress predisposition had been demonstrated in overall 80% of EHS self-reporting patients. In the case of direct effects, pain pathways' activation may be directly triggered by HF-irradiation (heating and/or transcranial HF-induced ectopic action potentials). Further research on HF-related headaches is needed.
Excerpts
Electromagnetic HFs are non-ionizing radiations that have complex interactions with intracranial structures. These radiations can significantly impact on neuroglial excitability and induce direct or indirect changes in the permeability of the BBB and meningeal capillaries. All these objective interactions can lead to the induction of headaches either by non-thermal/thermal proinflammatory mechanisms, by thermal stimulation of trigeminal endings, or also by ectopic discharges genesis. However, we believe that unless there occurs a prolonged and high-intensity exposure, a low threshold for vascular trigeminal activation seems crucial to promote headaches in EHS people. Our hypotheses are based on the conclusions of several studies targeting the brain effects of HF. However, further experiments based on the current assumptions should be conducted. In practice, since it is impossible to avoid HF exposure in modern society, it is important to emphasize awareness to reduce this exposure, especially in EHS individuals. Moreover, since some of the mechanisms described above can lead to durable neuroglial processes, chronic exposure in predisposed people can result in brain disorders (headaches or other) that increasingly evolve independently from HF triggering.
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Empirical study on specific absorption rate of head tissues due to induced heating of 4G cell phone radiation
Christopher B, Mary YS, Khandaker MU, Jojo PJ.
Empirical study on specific absorption rate of head tissues due to induced heating of 4G cell phone radiation. Radiation Physics and Chemistry. Published online Apr 4, 2020. https://doi.org/10.1016/j.
Highlights
• Induced heating of 4G cell phone radiation affects the functions of neural cells.
• Temperature and SAR of brain, eye and skin tissues are measured in laboratory condition.
• Rise in temperature and SAR values are found in the studied tissues for confrontation of 600 s.
• Long time and over exposure to mobile phone radiation may affect the individual health.
Abstract
Exposures to electromagnetic radiation mainly from the extended use of mobile phones may initiate biological damages in the human body at the macromolecular level. Several studies on human and animal models have shown significant changes in the functions of neural cells. Present empirical study analyses the thermal changes and the specific absorption rates (SAR) of brain, eye and skin tissues due to prolonged exposure to mobile phone radiation. A phantom, simulating human head with skin, skull and brain was used for the study. The Phantom was exposed to radiation for longer durations (600 s and more) and the temperature variations at different specific points were studied with sensitive thermocouple probes. SAR (1 g of contiguous tissue) values were determined using the variations of temperature and other parameters. The average rise in brain temperature was found to be 0.10 ± 0.05 °C at 30 mm deep in the brain and the estimated SAR was 0.66 ± 0.35 Wkg-1. The increase in temperature for the eye socket was 0.03 ± 0.02 °C with SAR 0.15 ± 0.08 Wkg-1. The average rise in temperature for skin was 0.14 ± 0.05 °C and the SAR was 0.66 ± 0.42 Wkg-1. Although the measured SAR lie within the safe limit of 2 Wkg-1 recommended by the international regulatory body, considering the tremendous growth in the number of mobile phone users and prolonged use of mobile phone in communication purposes, the cumulative effects could be a real concern for human health.
An Experimental Study of Effects of Media Implication on Self-Report Symptoms Related With Mobile Phone Use
Gao P, Zheng F-Z, He M-D, Li M, Deng P, Zhou Z, Yu Z-P, Zhang L.
An Experimental Study of Effects of Media Implication on Self-Report Symptoms Related With MP Use.
Front. Public Health, 13 May 2020 | https://doi.org/10.3389/fpubh.
Along with gradual increases in mobile phone (MP) use, the mass media has played a vital role in informing the public regarding the potential health hazards of MP use. These media warnings have prompted public worries about health. The aim of the present study is to investigate the effects of media warnings about the possible health hazards of MP use on self-reported symptoms. Participants were 703 undergraduate students who volunteered to take part in an experimental study between August 2013 and July 2015. After completing baseline questionnaires containing information on demographics, MP usage and possible confounding variables, the participants were randomly clustered assigned to a video treatment group (watching a 5-min video about the possible health hazards of MP use) or a control group. Then, they completed another set of questionnaires containing 6 self-reported physical symptoms and the Beck Depression Inventory (BDI). Chi-squared tests, Mann-Whitney U-tests and logistic regression models were applied in the data analysis. Participants in the video group reported significantly more frequent headache (P = 0.01), fatigue (P = 0.00), memory loss (P = 0.03), inattention (P = 0.00), and higher level of depression (P = 0.05) than those in the control group. Additionally, the prevalence of memory loss (尾 = 0.071, P = 0.03) and inattention (尾 = 0.110, P = 0.00) were significantly higher in participants with higher level of depression who watched the video. Media warnings about the possible health hazards of MP use promote people to report physical symptoms and psychological problems. Considering this tendency, more moderate and scientific media information is needed to alleviate public worries about MP use.
Open access paper: https://www.frontiersin.org/
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Spending the night next to a router - Results from the first human experimental study investigating the impact of Wi-Fi exposure on sleep
Danker-Hopfe H, Bueno-Lopez A, Dorn H, Schmid G, Hirtl R, Eggert T. Spending the night next to a router - Results from the first human experimental study investigating the impact of Wi-Fi exposure on sleep. Int J Hyg Environ Health. 2020 May 11;228:113550. doi: 10.1016/j.ijheh.2020.113550.
Abstract
BACKGROUND: The use of wireless telecommunication systems such as wireless fidelity (Wi-Fi)-enabled devices has steadily increased in recent years. There are persistent concerns that radiofrequency electromagnetic field (RF-EMF) exposure might affect health. Possible effects of RF-EMF exposure on human sleep were examined with regard to mobile phones and base stations, but not with regard to Wi-Fi exposure.
OBJECTIVES: The present double-blind, sham-controlled, randomized, fully counterbalanced cross-over study addressed for the first time the question whether a whole night Wi-Fi exposure has an effect on sleep.
METHODS: Thirty-four healthy young male subjects (mean ± SD: 24.1 ± 2.9 years) spent five nights in the sleep laboratory. A screening and adaptation night was followed by two experimental nights. Each of the experimental nights was preceded by a baseline night. Sleep was evaluated at the subjective level by a questionnaire and at the objective level (macro- and microstructure) by polysomnography. Either 2.45 GHz Wi-Fi (max psSAR10g of 6.4 mW/kg) or sham signals were delivered by a newly developed head exposure facility.
RESULTS: Results showed no statistically significant acute effects of a whole-night Wi-Fi exposure on subjective sleep parameters as well as on parameters characterizing the macrostructure of sleep. Analyses of the microstructure of sleep revealed a reduction in global EEG power in the alpha frequency band (8.00-11.75 Hz) during NREM sleep under acute Wi-Fi exposure compared to sham.
DISCUSSION: The results of the present human experimental study are well in line with several other neurophysiological studies showing that acute RF-EMF exposure has no effect on the macrostructure of sleep. The slight physiological changes in EEG power observed under Wi-Fi exposure are neither reflected in the subjective assessment of sleep nor at the level of objective measurements. The present results are not indicative of a sleep disturbing effect of Wi-Fi exposure.
Danker-Hopfe H, Bueno-Lopez A, Dorn H, Schmid G, Hirtl R, Eggert T. Spending the night next to a router - Results from the first human experimental study investigating the impact of Wi-Fi exposure on sleep. Int J Hyg Environ Health. 2020 May 11;228:113550. doi: 10.1016/j.ijheh.2020.113550.
Abstract
BACKGROUND: The use of wireless telecommunication systems such as wireless fidelity (Wi-Fi)-enabled devices has steadily increased in recent years. There are persistent concerns that radiofrequency electromagnetic field (RF-EMF) exposure might affect health. Possible effects of RF-EMF exposure on human sleep were examined with regard to mobile phones and base stations, but not with regard to Wi-Fi exposure.
OBJECTIVES: The present double-blind, sham-controlled, randomized, fully counterbalanced cross-over study addressed for the first time the question whether a whole night Wi-Fi exposure has an effect on sleep.
METHODS: Thirty-four healthy young male subjects (mean ± SD: 24.1 ± 2.9 years) spent five nights in the sleep laboratory. A screening and adaptation night was followed by two experimental nights. Each of the experimental nights was preceded by a baseline night. Sleep was evaluated at the subjective level by a questionnaire and at the objective level (macro- and microstructure) by polysomnography. Either 2.45 GHz Wi-Fi (max psSAR10g of 6.4 mW/kg) or sham signals were delivered by a newly developed head exposure facility.
RESULTS: Results showed no statistically significant acute effects of a whole-night Wi-Fi exposure on subjective sleep parameters as well as on parameters characterizing the macrostructure of sleep. Analyses of the microstructure of sleep revealed a reduction in global EEG power in the alpha frequency band (8.00-11.75 Hz) during NREM sleep under acute Wi-Fi exposure compared to sham.
DISCUSSION: The results of the present human experimental study are well in line with several other neurophysiological studies showing that acute RF-EMF exposure has no effect on the macrostructure of sleep. The slight physiological changes in EEG power observed under Wi-Fi exposure are neither reflected in the subjective assessment of sleep nor at the level of objective measurements. The present results are not indicative of a sleep disturbing effect of Wi-Fi exposure.
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Review of Audiovestibular Symptoms Following Exposure to Acoustic and Electromagnetic Energy Outside Conventional Human Hearing
Lubner RJ, Kondamuri NS, Knoll RM, Ward BK, Littlefield PD, Rodgers D, Abdullah KG, Remenschneider AK, Kozin ED. Review of Audiovestibular Symptoms Following Exposure to Acoustic and Electromagnetic Energy Outside Conventional Human Hearing. Front Neurol. 2020 Apr 28;11:234. doi: 10.3389/fneur.2020.00234.
Abstract
Objective: We aim to examine the existing literature on, and identify knowledge gaps in, the study of adverse animal and human audiovestibular effects from exposure to acoustic or electromagnetic waves that are outside of conventional human hearing.
Design/Setting/Participants: A review was performed, which included searches of relevant MeSH terms using PubMed, Embase, and Scopus. Primary outcomes included documented auditory and/or vestibular signs or symptoms in animals or humans exposed to infrasound, ultrasound, radiofrequency, and magnetic resonance imaging. The references of these articles were then reviewed in order to identify primary sources and literature not captured by electronic search databases. Results: Infrasound and ultrasound acoustic waves have been described in the literature to result in audiovestibular symptomology following exposure. Technology emitting infrasound such as wind turbines and rocket engines have produced isolated reports of vestibular symptoms, including dizziness and nausea and auditory complaints, such as tinnitus following exposure. Occupational exposure to both low frequency and high frequency ultrasound has resulted in reports of wide-ranging audiovestibular symptoms, with less robust evidence of symptomology following modern-day exposure via new technology such as remote controls, automated door openers, and wireless phone chargers. Radiofrequency exposure has been linked to both auditory and vestibular dysfunction in animal models, with additional historical evidence of human audiovestibular disturbance following unquantifiable exposure. While several theories, such as the cavitation theory, have been postulated as a cause for symptomatology, there is extremely limited knowledge of the pathophysiology behind the adverse effects that particular exposure frequencies, intensities, and durations have on animals and humans. This has created a knowledge gap in which much of our understanding is derived from retrospective examination of patients who develop symptoms after postulated exposures.
Conclusion and Relevance: Evidence for adverse human audiovestibular symptomology following exposure to acoustic waves and electromagnetic energy outside the spectrum of human hearing is largely rooted in case series or small cohort studies. Further research on the pathogenesis of audiovestibular dysfunction following acoustic exposure to these frequencies is critical to understand reported symptoms.
Open access paper: https://www.ncbi.nlm.nih.gov/
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Comprehensive radiofrequency electromagnetic field measurements and assessments: a city center example
Kurnaz C, Mutlu M. Comprehensive radiofrequency electromagnetic field measurements and assessments: a city center example. Environ Monit Assess. 2020 May 7;192(6):334. doi: 10.1007/s10661-020-08312-3.
Abstract
In this study, radiofrequency electromagnetic field (RF-EMF) measurements were carried out between 2016 and 2018 in one the largest provinces of Turkey; measurement results are compared with the limit values determined by International Commission on Non-Ionizing Radiation Protection (ICNIRP) and Turkey's Information and Communication Technologies Authority (ICTA). In the first stage of a three-phase evaluation, short-term RF-EMF measurements were conducted in 500 locations over a 2-year period. In the second stage, short-term RF-EMF measurement results were analyzed to determine selected locations for long-term RF-EMF measurements to be carried out, including variation of RF-EMF during the day. In the last stage, band selective measurements were taken and the main sources of RF-EMF in the environment were determined. Overall, RF-EMF values do not exceed the limits determined by ICNIRP and ICTA, and they are below levels that threaten public health. In the short-term RF-EMF measurements, RF-EMF levels doubled after fourth generation (4G) systems were introduced. In the long-term RF-EMF measurements, RF-EMF values in the day are 35.4% more than at night. The total measured RF-EMF within the city center is 99.3% base station sourced. Among the six main RF-EMF sources, the devices operating in UMTS2100 band have the most contribution to total RF-EMF of medium with 31.2%. Additionally, we found short-term average electric field strength data are best described by the "exponential distribution," while long-term RF-EMF measurement data is best described by the "Burr distribution."
https://www.ncbi.nlm.nih.gov/
Kurnaz C, Mutlu M. Comprehensive radiofrequency electromagnetic field measurements and assessments: a city center example. Environ Monit Assess. 2020 May 7;192(6):334. doi: 10.1007/s10661-020-08312-3.
Abstract
In this study, radiofrequency electromagnetic field (RF-EMF) measurements were carried out between 2016 and 2018 in one the largest provinces of Turkey; measurement results are compared with the limit values determined by International Commission on Non-Ionizing Radiation Protection (ICNIRP) and Turkey's Information and Communication Technologies Authority (ICTA). In the first stage of a three-phase evaluation, short-term RF-EMF measurements were conducted in 500 locations over a 2-year period. In the second stage, short-term RF-EMF measurement results were analyzed to determine selected locations for long-term RF-EMF measurements to be carried out, including variation of RF-EMF during the day. In the last stage, band selective measurements were taken and the main sources of RF-EMF in the environment were determined. Overall, RF-EMF values do not exceed the limits determined by ICNIRP and ICTA, and they are below levels that threaten public health. In the short-term RF-EMF measurements, RF-EMF levels doubled after fourth generation (4G) systems were introduced. In the long-term RF-EMF measurements, RF-EMF values in the day are 35.4% more than at night. The total measured RF-EMF within the city center is 99.3% base station sourced. Among the six main RF-EMF sources, the devices operating in UMTS2100 band have the most contribution to total RF-EMF of medium with 31.2%. Additionally, we found short-term average electric field strength data are best described by the "exponential distribution," while long-term RF-EMF measurement data is best described by the "Burr distribution."
https://www.ncbi.nlm.nih.gov/
Excerpts
Short-term and long-term RF-EMF measurements were taken using the PMM-8053 EMF meter (PMM-8053 2020)
with the EP-330 electric field isotropic probe. Band selective RF-EMF
measurements were performed with the SRM-3006 EMF meter (SRM-3006 2020)
with 3501/03 isotropic electric field probe. The PMM-8053 measures the
total RF-EMF for the frequency spectrum of 100 kHz–3GHz, while the
SRM-3006 measures the RF-EMF for a selective band in the 27 MHz–3 GHz
frequency band. Technical details for PMM-8053 and SRM- 3006 used in
measurements are given in Table 2.
Conclusions This
study undertook three stages of RF-EMF measurement between 2016 and
2018 in the Alt谋nordu District of Ordu, Turkey. In the first stage,
short-term RF-EMF measurements, in the frequency range of 100 kHz–3 GHz,
were performed at 500 locations during 2016 and 2017. The highest
measured Eavg value in 2016 was 4.55 V/m (21.66% of
the lowest ICTA reference level (21 V/m) and 16.25% of the lowest ICNIRP
reference level (28 V/m) for the considered frequency band), which
increased to 5.86 V/m (27.9% of the lowest ICTA reference level) in
2017. The average of all short-term RF-EMF measurements in 2016 was
0.39 V/m (corresponding to 1.85% of the ICTA reference level), which
increased to 0.79 V/m (corresponding to 4.23% of the ICTA reference
level) in 2017, an increase of 102.5%. The main reason for this increase
appears to be due to the introduction of the 4G system in 2017. Our
short-term RF-EMF measurement results (0.39 V/m and 0.79 V/m) were in
agreement with those obtained in similar studies, where average electric
field strength levels ranged between 0.22 and 0.41 V/m (Urbinello et
al. 2014a), from 0.02 to 2.05 V/m (Sanchez-Montero et al. 2017), from 0.07 to 1.27 V/m (Jalilian et al. 2019), from 0.32 to 1.70 V/m (Tang et al. 2019), between 0.08 and 1.8 V/m (Gajsek et al. 2015), 0.47 V/m in city centers (Sagar et al. 2016), 0.74 V/m in urban environments (Joseph et al. 2012). The Eavg of the short-term RF-EMF data are best described by the exponential distribution.
In
the second stage, long-term RF-EMF measurements at the 17 locations
where the short-term RF-EMF measurement exceeded 1.90 V/m were performed
to determine the variation of RF-EMF over the day. The maximum overall
RF-EMF and average values were observed as 9.54 V/m and 5.13 V/m (45.42%
and 24.42% of the corresponding of the lowest ICTA reference level
(21 V/m) for the considered frequency band), respectively. RF-EMF values
measured during the afternoon are higher than night and morning, being
35% greater than at night. Long-term RF-EMF measurement data is best
described by the “Burr distribution.”
In the last stage, band selective RF-EMF measurements were performed at the same locations as the long-term measurements to identify the sources of RF-EMF. From all the locations considered, the highest average RF-EMF level was 5.013 V/m (23.87% of the lowest ICTA reference level for FM frequency band)) generated by the FM band. The greatest contribution to RF-EMF was from base stations, with 57.3% in the overall measurements, and increasing to 99.3% in the city center. The highest city center RF-EMF level (2.284 V/m for LTE 800 band) measured represented 8.41% of the ICTA limit for LTE 800.
Comprehensive RF-EMF measurements were conducted between 2016 and 2018 and over 510 h (short-term RF-EMF measurements took 100 h, while long-term and band selective RF-EMF measurements took 408 h and more than 2 h respectively) show that the values in Alt谋nordu District are below the limits set by ICTA and ICNIRP. However, an annual increase in RF-EMF was observed, and it is recommended that measurements should be made annually to ensure levels remain below the limits set by ICTA and ICNIRP to reduce risks to public health. These measurements and assessments, especially with the deployment of fifth generation (5G) wireless infrastructure in the near future, will be of great importance to determine and keep under control the level of RF-EMF in the environment.
In the last stage, band selective RF-EMF measurements were performed at the same locations as the long-term measurements to identify the sources of RF-EMF. From all the locations considered, the highest average RF-EMF level was 5.013 V/m (23.87% of the lowest ICTA reference level for FM frequency band)) generated by the FM band. The greatest contribution to RF-EMF was from base stations, with 57.3% in the overall measurements, and increasing to 99.3% in the city center. The highest city center RF-EMF level (2.284 V/m for LTE 800 band) measured represented 8.41% of the ICTA limit for LTE 800.
Comprehensive RF-EMF measurements were conducted between 2016 and 2018 and over 510 h (short-term RF-EMF measurements took 100 h, while long-term and band selective RF-EMF measurements took 408 h and more than 2 h respectively) show that the values in Alt谋nordu District are below the limits set by ICTA and ICNIRP. However, an annual increase in RF-EMF was observed, and it is recommended that measurements should be made annually to ensure levels remain below the limits set by ICTA and ICNIRP to reduce risks to public health. These measurements and assessments, especially with the deployment of fifth generation (5G) wireless infrastructure in the near future, will be of great importance to determine and keep under control the level of RF-EMF in the environment.
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Case-control study on occupational exposure to extremely low-frequency electromagnetic fields and the association with acoustic neuroma
Case-control study on occupational exposure to extremely low-frequency electromagnetic fields and the association with acoustic neuroma
Carlberg M, Koppel T, Ahonen M, Hardell L.
Case-control study on occupational exposure to extremely low-frequency electromagnetic fields and the association with acoustic neuroma. Environmental Research. Available online 7 May 2020, 109621
Highlights
• Exposure to ELF-EMF has been classified as a possible human carcinogen by IARC.
• Risk for acoustic neuroma was investigated for occupations with ELF-EMF exposure.
• No increased risk for acoustic neuroma was found in any exposure category.
Abstract
Exposure to extremely low-frequency electromagnetic fields (ELF-EMF) was in 2002 classified as a possible human carcinogen, Group 2B, by the International Agency for Research on Cancer at WHO based on an increased risk for childhood leukemia. In case-control studies on brain and head tumours during 1997-2003 and 2007-2009 we assessed life-time occupations in addition to exposure to different agents. The INTEROCC ELF-EMF Job-Exposure Matrix was used for associating occupations with ELF-EMF exposure (渭T) with acoustic neuroma. Cumulative exposure (渭T-years), average exposure (渭T) and maximum exposed job (渭T) were calculated. No increased risk for acoustic neuroma was found in any category. For cumulative exposure in the highest exposure category 8.52+ 渭T years odds ratio (OR) = 1.2, 95 % confidence interval (CI) = 0.8-2.0, p linear trend = 0.37 was calculated. No statistically significant risks were found in the time windows 1-14 years, and 15+ years, respectively. In conclusion occupational ELF-EMF was not associated with an increased risk for acoustic neuroma.
• Risk for acoustic neuroma was investigated for occupations with ELF-EMF exposure.
• No increased risk for acoustic neuroma was found in any exposure category.
Abstract
Exposure to extremely low-frequency electromagnetic fields (ELF-EMF) was in 2002 classified as a possible human carcinogen, Group 2B, by the International Agency for Research on Cancer at WHO based on an increased risk for childhood leukemia. In case-control studies on brain and head tumours during 1997-2003 and 2007-2009 we assessed life-time occupations in addition to exposure to different agents. The INTEROCC ELF-EMF Job-Exposure Matrix was used for associating occupations with ELF-EMF exposure (渭T) with acoustic neuroma. Cumulative exposure (渭T-years), average exposure (渭T) and maximum exposed job (渭T) were calculated. No increased risk for acoustic neuroma was found in any category. For cumulative exposure in the highest exposure category 8.52+ 渭T years odds ratio (OR) = 1.2, 95 % confidence interval (CI) = 0.8-2.0, p linear trend = 0.37 was calculated. No statistically significant risks were found in the time windows 1-14 years, and 15+ years, respectively. In conclusion occupational ELF-EMF was not associated with an increased risk for acoustic neuroma.
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Mobile Electromagnetic Radiation Affects Vitelline Vessels Development in Chick Embryo: A Morphometric Study
Al-Qudsi F, Al-Quahtani A. Mobile Electromagnetic Radiation Affects Vitelline Vessels Development in Chick Embryo: A Morphometric Study. Bioscience Research. 17(1):383-398. 2020.
Abstract
Smart mobile phone use has increased dramatically in the last five years. Electromagnetic radiation (EMR) emitted from mobile phones might affect embryonic development. However the mechanism of this effect is not completely understood. Vitelline vessels are the first blood vessels formed, playing a vital role in embryonic nutrition during development. The aim of this research was to study the effect of mobile phone EMR (450-2100 MHz) on the formation of vitelline vessels in chick embryo (Gallus gallus domesticus) and detect the resulting congenital malformations. Fertilized chicken eggs were divided into three groups: control (C), exposed without call (EO) and exposed with call (EW). In EW group the mobile phone was called every 6 hours for 15 minutes, (60min/24hr.). While the EO group was exposed to a mobile phone connected through the Wi-Fi to the internet only. Embryos were extracted on day 2, 3, 4 and 5 of incubation. A major decrease in the formation of vitelline vessels was seen in the treated groups compared to the controls causing bleeding seen in several sites of the treated embryos. Congenital malformations increased in treated groups compared to the controls of all experimental ages. The congenital malformations seen were growth retardation, bleeding, clotting and neural tube defects. It was concluded that mobile phone EMR prevented proper formation of vitelline vessels resulting in deformed embryos.
Open access paper: https://www.isisn.org/BR17(1)
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Sultangaliyeva I, Beisenova R, Tazitdinova R, Abzhalelov A, Khanturin M. Vet World. The influence of electromagnetic radiation of cell phones on the behavior of animals. 2020 Mar;13(3):549-555. doi: 10.14202/vetworld.2020.549-
Abstract
Background and Aim: The radiation emitted from cell phones has various deleterious effects on human health. The article considers the problem of the effects of electromagnetic radiation (EMR) of cell phones on the behavior of animals. The use of mobile phones is continually increasing throughout the world. All of the world population uses mobile phones widely; thus, having strong and daily effect on the brain. There is no restriction on the use of mobile phones. Getting more advantages and convenience of mobile communication, the population is trying not to hear the information about possible risks to their health, there is no element of self-restraint. The aim of this work was to study behavioral patterns in response to the influence of cell phones.
Materials and Methods: The experiments were carried out on 90 white outbred rats weighing 250-300 g. Experiments were carried out and the effect of EMR from Samsung Galaxy J1 mini and Xiaomi Redmi S2 phones on animal behavior was studied. Behavioral reactions were studied using the open field method.
Results: By the quality of the act of locomotion in the second experimental group is reduced by 30% and also in this group by the time of the act is 23% lower than in the control data. Vertical motor activity, a support stand, is also suppressed in the second experimental group: 61% lower in number and 47.2% lower in act time compared to the control group. Based on the data, we can conclude that the EMR of the phone Samsung Galaxy J1 Mini affects the behavior of animals to a greater extent than Xiaomi Redmi S2. By the frequency of the act, sniffing is 26% lower; by the time of the act, it remained at the level of control data in the second group. In the third group of the animals, the number and time of the act are 15% lower than the control data. The support stands as an indicator of research activity. In the second group the act of stand with support - by number was lower by 57% than the control data, this indicates that research activity is being suppressed.
Conclusion: According to the above changes under the action of EMR from the Samsung Galaxy J1 Mini and Xiaomi Redmi S2 phones, the motor component of behavior is suppressed. The research component of behavior in all groups of animals is enhanced due to high rates of sniffing. It is possible that in animals under stress, the motivation to interact with the environment decreases, leading to an excessive self-accentuation of the animal. Immobility is seen in all experimental groups, which indicates the suppression of the emotional sphere of brain activity. Defecation and urination change only slightly, which may also indicate the suppression of animal emotions.
Open access paper: https://www.ncbi.nlm.nih.gov/
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Protective Effects of Vitamin E on Mobile Phone Induced Injury in The Brain of Rats
Sangi S M A, Bawadekji A, Alotaibi N M, Aljameeli A M, Soomro S. Protective Effects of Vitamin E on Mobile Phone Induced Injury in The Brain of Rats. Int j pharm phytopharm res 2020;10(1):97-104
Abstract
Aim: With increase in use of cell phone and exposure to radiation emission from Wi-Fi,cell damage in all the body systems is found.It is necessary to find ways and means to prevent that cell damage that may affect normal functioning of the organs etc. The objective of this study was to assess the damage to brain caused by exposure to cell phones connected with Wi-Fi and prevention of that damage with Vitamin E.
Aim: With increase in use of cell phone and exposure to radiation emission from Wi-Fi,cell damage in all the body systems is found.It is necessary to find ways and means to prevent that cell damage that may affect normal functioning of the organs etc. The objective of this study was to assess the damage to brain caused by exposure to cell phones connected with Wi-Fi and prevention of that damage with Vitamin E.
Methods: Thirty male Wistar Albino rats were used in the study,rats were divided in different groups, they were exposed to cell phones and Wi-Fi for 8 weeks. The rats were treated with Vit. E 50 IU/kg of bodyweight for 4 weeks.
Results: Histopathological examination of the rat brain revealed that, exposure of rats to cell phones and Wi-Fi caused significant damage to the neurons in different areas of rat brain.The rats treated with Vit. E showed less damage in comparison to untreated rat groups.
Conclusion: In the brain of rats, treated with Vit. E intact neuronal architecture was found along with less inflammation.
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Aghajari S, Mortazavi SMJ, Kalani M, Nematolahi S, Habibzadeh P, Farjadian S. The Immunomodulatory Effect of Radiofrequency Electromagnetic Field on Serum Cytokine Levels in A Mouse Model of Hindlimb Unloading. Cell J. 2021 Jan;22(4):401-405. doi: 10.22074/cellj.2021.6856. Epub 2020 Apr 22.
Abstract
Objective: Astronauts are exposed to a wide range of environmental stresses during space flights that reduce their immune responses and make them more susceptible to infections and malignancies. Exposure to a low dose of a certain stress induces an adaptive response, which leads to resistance to higher doses of the same or other types of stress. We designed this study to investigate the effect of radiofrequency electromagnetic field (RF-EMF)-induced adaptive response on immune system modulation in a mouse model of hindlimb unloading (HU) as a ground-based animal model of spaceflight conditions.
Materials and Methods: In this experimental study, serum levels of T helper (Th)-mediated cytokines were determined by the multiplex cytometric bead assay in four groups of mice (n=10 per group): HU mice, RF-EMF-treated mice, HU mice pre-exposed to RF-EMF; and untreated controls. Mice were exposed to 2450 MHz RF-EMF with SAR 0.478 W/ kg for 12 hours/day for three successive days.
Results: Tumor necrosis factor-alpha (TNF-伪), interleukin-9 (IL-9) and IL-22 were significantly decreased in HU mice. Comparison between HU mice and RF-EMF-treated mice showed an opposite change in IL-6, while IL-9, IL-22, IFN-纬 and TNF-伪 decreased in both groups. However, just interferon gamma (IFN-纬) was significantly decreased in HU mice that were pre-exposed to RF-EMF compared to the control group.
Conclusion: The effect of RF-EMF in elevating IL-6 and reducing IL-9 in opposite directions in HU mice suggest a modulating effect of RF-EMF on HU-induced changes in these cytokines, as Th2 and Th9 eventually returned to normal levels and balances in cytokine ratios were also restored in HU mice pre-exposed to RF-EMF.
Objective: Astronauts are exposed to a wide range of environmental stresses during space flights that reduce their immune responses and make them more susceptible to infections and malignancies. Exposure to a low dose of a certain stress induces an adaptive response, which leads to resistance to higher doses of the same or other types of stress. We designed this study to investigate the effect of radiofrequency electromagnetic field (RF-EMF)-induced adaptive response on immune system modulation in a mouse model of hindlimb unloading (HU) as a ground-based animal model of spaceflight conditions.
Materials and Methods: In this experimental study, serum levels of T helper (Th)-mediated cytokines were determined by the multiplex cytometric bead assay in four groups of mice (n=10 per group): HU mice, RF-EMF-treated mice, HU mice pre-exposed to RF-EMF; and untreated controls. Mice were exposed to 2450 MHz RF-EMF with SAR 0.478 W/ kg for 12 hours/day for three successive days.
Results: Tumor necrosis factor-alpha (TNF-伪), interleukin-9 (IL-9) and IL-22 were significantly decreased in HU mice. Comparison between HU mice and RF-EMF-treated mice showed an opposite change in IL-6, while IL-9, IL-22, IFN-纬 and TNF-伪 decreased in both groups. However, just interferon gamma (IFN-纬) was significantly decreased in HU mice that were pre-exposed to RF-EMF compared to the control group.
Conclusion: The effect of RF-EMF in elevating IL-6 and reducing IL-9 in opposite directions in HU mice suggest a modulating effect of RF-EMF on HU-induced changes in these cytokines, as Th2 and Th9 eventually returned to normal levels and balances in cytokine ratios were also restored in HU mice pre-exposed to RF-EMF.
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The Effect of Radiation Emitted by Cell Phone on The Gelatinolytic Activity of Matrix Metalloproteinase-2 and -9 of Mouse Pre-Antral Follicles During In Vitro Culture
Azimipour F, Zavareh S, Lashkarbolouki T.
The Effect of Radiation Emitted by Cell Phone on The Gelatinolytic Activity of Matrix Metalloproteinase-2 and -9 of Mouse Pre-Antral Follicles During In Vitro Culture. Cell J. 2020 Apr;22(1):1-8. DOI: 10.22074/cellj.2020.6548.
Abstract
Objective: The unfavorable effects of electromagnetic radiation (EMR) emitted by the cell phone on reproduction health are controversial. Metalloproteinases play a vital role in ovarian follicle development. This study was designed to investigate the effects of exposure to the cell phone on the gelatinolytic activity of in vitro cultured mouse pre-antral follicle.
Materials and methods: In this experimental study, pre-antral follicles were isolated from ovaries of immature mice (n=16) and cultured with or without exposure to the cell phone in talking mode for 60 minutes. The gelatinolytic activity was evaluated through the zymography method, as well as the gene expression of matrix metalloproteinases (MMPs) namely MMP-2 and -9 and tissue inhibitors of metalloproteinases (TIMPs) namely, TIMP-1 and -2 by the real-time polymerase chain reaction (PCR) method. Also, in parallel, the development of pre-antral follicles was assessed.
Results: The maturation parameters of the cell phone-exposed pre-antral follicles were significantly lower compared with the control group (P<0.05). The gelatinolytic activity was significantly decreased in the cell phone-exposed preantral follicles compared with the control group (P<0.05). The relative mRNA expression of the MMP-2 gene was significantly (P<0.05) increased in the cell phone-exposed pre-antral follicles whereas the expression rate of the MMP-9 gene was considerably (P<0.05) reduced when compared with the control group. Conversely, the relative expression of the TIMP-1 was markedly (P<0.05) increased in the cell phone-exposed pre-antral follicles while the expression of the TIMP-2 was (P<0.05) significantly diminished in comparison with the control group.
Conclusion: Exposure to the cell phone alters the growth and maturation rate of murine ovarian follicle through the changing in the expression of the MMP-2 and -9 genes, as well as the gelatinolytic activity.
Abstract
Objective: The unfavorable effects of electromagnetic radiation (EMR) emitted by the cell phone on reproduction health are controversial. Metalloproteinases play a vital role in ovarian follicle development. This study was designed to investigate the effects of exposure to the cell phone on the gelatinolytic activity of in vitro cultured mouse pre-antral follicle.
Materials and methods: In this experimental study, pre-antral follicles were isolated from ovaries of immature mice (n=16) and cultured with or without exposure to the cell phone in talking mode for 60 minutes. The gelatinolytic activity was evaluated through the zymography method, as well as the gene expression of matrix metalloproteinases (MMPs) namely MMP-2 and -9 and tissue inhibitors of metalloproteinases (TIMPs) namely, TIMP-1 and -2 by the real-time polymerase chain reaction (PCR) method. Also, in parallel, the development of pre-antral follicles was assessed.
Results: The maturation parameters of the cell phone-exposed pre-antral follicles were significantly lower compared with the control group (P<0.05). The gelatinolytic activity was significantly decreased in the cell phone-exposed preantral follicles compared with the control group (P<0.05). The relative mRNA expression of the MMP-2 gene was significantly (P<0.05) increased in the cell phone-exposed pre-antral follicles whereas the expression rate of the MMP-9 gene was considerably (P<0.05) reduced when compared with the control group. Conversely, the relative expression of the TIMP-1 was markedly (P<0.05) increased in the cell phone-exposed pre-antral follicles while the expression of the TIMP-2 was (P<0.05) significantly diminished in comparison with the control group.
Conclusion: Exposure to the cell phone alters the growth and maturation rate of murine ovarian follicle through the changing in the expression of the MMP-2 and -9 genes, as well as the gelatinolytic activity.
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Oxidative stress and apoptosis in electromagnetic waves exposed Zebrafish embryos and protective effects of conductive nonwoven fabric
脺st眉nda臒 脺V, 脰zen MS, 脺nal 陌, Ate艧 PS, Alturfan AA, Akal谋n M, Sancak E, Emekli-Alturfan E. Oxidative stress and apoptosis in electromagnetic waves exposed Zebrafish embryos and protective effects of conductive nonwoven fabric. Cell Mol Biol (Noisy-le-grand). 2020 Apr 20;66(1):70-75.
脺st眉nda臒 脺V, 脰zen MS, 脺nal 陌, Ate艧 PS, Alturfan AA, Akal谋n M, Sancak E, Emekli-Alturfan E. Oxidative stress and apoptosis in electromagnetic waves exposed Zebrafish embryos and protective effects of conductive nonwoven fabric. Cell Mol Biol (Noisy-le-grand). 2020 Apr 20;66(1):70-75.
Abstract
The amount of technological products including television, radio transmitters, and mobile phone that have entered our daily life has increased in recent years. But these devices may cause adverse effects on human health. Electromagnetic shielding fabrics may limit and inhibit electromagnetic waves. Aim of our study was to evaluate electromagnetic wave blocking performance of nonwoven textile surfaces on zebrafish embryos that were exposed to electromagnetic waves at specific frequencies. Oxidant-antioxidant system parameters were evaluated spectrophotometrically. The expressions of tp53 and casp3a were evaluated by RT-PCR. Results showed that electromagnetic shielding fabrics produced as conductive nonwoven textile surfaces improved oxidant-antioxidant status and tp53 expression that were impaired in electromagnetic waves exposed zebrafish embryos. Also, electromagnetic shielding fabrics decreased casp3a expression responsible for the execution phase of apoptosis that increased in electromagnetic waves exposed zebrafish embryos.
https://www.ncbi.nlm.nih.gov/
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The role of 217-Hz ELF magnetic fields emitted from GSM mobile phones on electrochemotherapy mechanisms
Mansourian M, Firoozabadi M, Hassan ZM. The role of 217-Hz ELF magnetic fields emitted from GSM mobile phones on electrochemotherapy mechanisms. Electromagn Biol Med. 2020 May 15:1-11. doi: 10.1080/15368378.2020.1762635.
Abstract
Electrochemotherapy (ECT), the combination of electric pulses (EPs) and an anticancer drug, is a type of cancer treatment method. We investigated the effect of 217-Hz magnetic fields (MFs) similar to that generated by GSM900 mobile phones, as intervening factors, on proposed mechanisms of ECT including permeability, tumor hypoxia and immune system response. The 4T1 cells were exposed to extremely low-frequency (ELF)-MFs at 93, 120 or 159 碌T intensities, generated by Helmholtz coils 10 min, and then put in individual groups, comprising no treatment, chemotherapy, EPs or ECT. The cell viability was evaluated. Then, two treatment protocols were selected for in vivo experiments. The mice with 4T1 tumor cells were exposed to ELF-MFs 10 min/day until the day their tumors reached 8 mm in diameter. Then, the tumors were treated to ECT. Tumor hypoxia and immune system response were analyzed through immunohistochemistry assay and enzyme-linked immunosorbent assay technique, respectively. The results in vitro indicated a significant decreased ECT efficacy of 60 V/cm, 5 kHz at the flux density of 93 碌T. The results in vivo showed that pre-exposure to ELF-MFs could increase tumor hypoxia induced by ECT. In addition, exposure to ELF-MFs before ECT caused a significant increase in interferon-纬/interleukin-4 in comparison with ECT alone. More studies, including studies on the effect of ELF-MFs emitted from mobile phones on tumor volume changes induced by ECT, are needed to elucidate how the process of ECT is influenced by the MFs.
The amount of technological products including television, radio transmitters, and mobile phone that have entered our daily life has increased in recent years. But these devices may cause adverse effects on human health. Electromagnetic shielding fabrics may limit and inhibit electromagnetic waves. Aim of our study was to evaluate electromagnetic wave blocking performance of nonwoven textile surfaces on zebrafish embryos that were exposed to electromagnetic waves at specific frequencies. Oxidant-antioxidant system parameters were evaluated spectrophotometrically. The expressions of tp53 and casp3a were evaluated by RT-PCR. Results showed that electromagnetic shielding fabrics produced as conductive nonwoven textile surfaces improved oxidant-antioxidant status and tp53 expression that were impaired in electromagnetic waves exposed zebrafish embryos. Also, electromagnetic shielding fabrics decreased casp3a expression responsible for the execution phase of apoptosis that increased in electromagnetic waves exposed zebrafish embryos.
https://www.ncbi.nlm.nih.gov/
The role of 217-Hz ELF magnetic fields emitted from GSM mobile phones on electrochemotherapy mechanisms
Mansourian M, Firoozabadi M, Hassan ZM. The role of 217-Hz ELF magnetic fields emitted from GSM mobile phones on electrochemotherapy mechanisms. Electromagn Biol Med. 2020 May 15:1-11. doi: 10.1080/15368378.2020.1762635.
Abstract
Electrochemotherapy (ECT), the combination of electric pulses (EPs) and an anticancer drug, is a type of cancer treatment method. We investigated the effect of 217-Hz magnetic fields (MFs) similar to that generated by GSM900 mobile phones, as intervening factors, on proposed mechanisms of ECT including permeability, tumor hypoxia and immune system response. The 4T1 cells were exposed to extremely low-frequency (ELF)-MFs at 93, 120 or 159 碌T intensities, generated by Helmholtz coils 10 min, and then put in individual groups, comprising no treatment, chemotherapy, EPs or ECT. The cell viability was evaluated. Then, two treatment protocols were selected for in vivo experiments. The mice with 4T1 tumor cells were exposed to ELF-MFs 10 min/day until the day their tumors reached 8 mm in diameter. Then, the tumors were treated to ECT. Tumor hypoxia and immune system response were analyzed through immunohistochemistry assay and enzyme-linked immunosorbent assay technique, respectively. The results in vitro indicated a significant decreased ECT efficacy of 60 V/cm, 5 kHz at the flux density of 93 碌T. The results in vivo showed that pre-exposure to ELF-MFs could increase tumor hypoxia induced by ECT. In addition, exposure to ELF-MFs before ECT caused a significant increase in interferon-纬/interleukin-4 in comparison with ECT alone. More studies, including studies on the effect of ELF-MFs emitted from mobile phones on tumor volume changes induced by ECT, are needed to elucidate how the process of ECT is influenced by the MFs.
