Eoin Flaherty, Tristan Sturm, Elizabeth Farries. The conspiracy of Covid-19 and 5G: Spatial analysis fallacies in the age of data democratization. Social Science & Medicine. 2021, 114546. 2021. doi: 10.1016/j.socscimed.2021.114546.
Abstract
In a context of mistrust in public health institutions and practices, anti-COVID/vaccination protests and the storming of Congress have illustrated that conspiracy theories are real and immanent threat to health and wellbeing, democracy, and public understanding of science. One manifestation of this is the suggested correlation of COVID-19 with 5G mobile technology. Throughout 2020, this alleged correlation was promoted and distributed widely on social media, often in the form of maps overlaying the distribution of COVID-19 cases with the instillation of 5G towers. These conspiracy theories are not fringe phenomena, and they form part of a growing repertoire for conspiracist activist groups with capacities for organised violence. In this paper, we outline how spatial data have been co-opted, and spatial correlations asserted by conspiracy theorists. We consider the basis of their claims of causal association with reference to three key areas of geographical explanation: (1) how social properties are constituted and how they exert complex causal forces, (2) the pitfalls of correlation with spatial and ecological data, and (3) the challenges of specifying and interpreting causal effects with spatial data. For each, we consider the unique theoretical and technical challenges involved in specifying meaningful correlation, and how their discarding facilitates conspiracist attribution. In doing so, we offer a basis both to interrogate conspiracists’ uses and interpretation of data from elementary principles and offer some cautionary notes on the potential for their future misuse in an age of data democratization. Finally, this paper contributes to work on the basis of conspiracy theories in general, by asserting how – absent an appreciation of these key methodological principles – spatial health data may be especially prone to co-option by conspiracist groups.
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The Havana Syndrome and Microwave Weapons [Health Matters]
James C. Lin. The Havana Syndrome and Microwave Weapons [Health Matters]. IEEE Microwave Magazine. 22(11):13-14. Nov. 2021. doi: 10.1109/MMM.2021.3102201.
Abstract
Every few months, if not weeks, another mysterious attack on U.S. diplomatic and intelligence personnel is reported. Some of the attacks occurred years ago, while others were recounted as recently as July 2021 [1] – [3] . Over the past four or five years, nearly 200 U.S. personnel have reported similar attacks while working in places like Havana, Guangzhou, London, Moscow, Vienna, and Washington, D.C. The acute symptoms include headache and nausea immediately following the sounds of loud buzzing or bursts. The illness and symptoms have been called the “Havana Syndrome” after the place where cases were first reported. It refers to the range of symptoms first experienced by U.S. State Department personnel overseas.
Excerpt
Assuming reported accounts are reliable, the microwave auditory effect provides a scientific explanation for the Havana Syndrome [4], [5]. Pulsed microwaves can create an acoustic wave inside the head [6], [7], [14]. It is plausible that the loud buzzing, burst of sound, or pressure waves could have been covertly delivered using a beam of high power pulsed microwave radiation rather than blasting the subjects with conventional sonic sources. Microwave hearing doesn’t go through the ear; it goes directly from the brain tissue to the cochlea. Absorption of short pulses of microwave energy by brain tissues creates a rapid expansion of brain matter and launches an acoustic wave of pressure (sound wave) that travels inside the head to the inner ear cochlea [7], [14]. The short high-power microwave pulses do not generate noticeable amounts of heat in the brain tissues.
https://ieeexplore.ieee.org/document/9557212
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Solar Activity Is Associated With Diastolic and Systolic Blood Pressure in Elderly Adults
Veronica A Wang, Carolina L Zilli Vieira, Eric Garshick, Joel D Schwartz, Michael S Garshick, Pantel Vokonas, Petros Koutrakis.
Solar Activity Is Associated With Diastolic and Systolic Blood Pressure in Elderly Adults.
J Am Heart Assoc. 2021 Nov 2;10(21):e021006. doi: 10.1161/JAHA.120.021006.
Abstract
Background
Since solar activity and related geomagnetic disturbances modulate
autonomic nervous system activity, we hypothesized that these events
would be associated with blood pressure (BP).
Methods
We studied 675 elderly men from the Normative Aging Study (Boston, MA)
with 1949 BP measurements between 2000 and 2017. Mixed-effects
regression models were used to investigate the association of average
1-day (ie, day of BP measurement) to 28-day interplanetary magnetic
field intensity, sunspot number, and a dichotomized measure of global
geomagnetic activity (Kp index) in 4-day increments with diastolic and
systolic BP. We adjusted for meteorological conditions and other
covariates associated with BP, and in additional models adjusted for
ambient air pollutants (particulate matter with an aerodynamic diameter
≤2.5 µm, black carbon, and particle number) and ambient particle
radioactivity.
Results There were positive associations between interplanetary magnetic field,
sunspot number, and Kp index and BP that were greatest with these
exposures averaged over 16 through 28 days before BP measurement. An
interquartile range increase of 16-day interplanetary magnetic field and
sunspot number and higher Kp index were associated with a 2.5 (95% CI,
1.7‒3.2), 2.8 (95% CI, 2.1‒3.4), and 1.7 (95% CI, 0.8‒2.5) mm Hg
increase, respectively, for diastolic BP as well as a 2.1 (95% CI,
0.7‒3.6), 2.7 (95% CI, 1.5‒4.0), and 0.4 (95% CI, -1.2 to 2.1) mm Hg
increase, respectively, for systolic BP. Associations remained after
adjustment for ambient air pollutants and ambient particle
radioactivity.
Conclusions
Solar activity and solar-driven geomagnetic disturbances were
positively associated with BP, suggesting that these natural phenomena
influence BP in elderly men.
Clinical Perspective
What Is New?
Solar
and geomagnetic activity were associated with increases in blood
pressure in a large cohort of predominantly White, elderly men.
The
association with blood pressure was similar to or greater than that of
particulate pollution and of radioactivity associated with ambient
particles.
The association of solar and geomagnetic activity with blood pressure was independent of these pollutants.
What Are the Clinical Implications?
To gain insight and provide awareness into the association between solar activity and BP in elderly men, a vulnerable population at high risk for cardiovascular disease,10 we conducted a repeated measures analysis to examine the association of average 1‐day (ie, day of BP measurement) to 28‐day solar activity and GMD with BP among elderly men in Boston, MA who had between 1 and 8 health assessments over 17 years. We hypothesized that solar and geomagnetic activity is positively associated with systolic blood pressure (SBP) and diastolic blood pressure (DBP).
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Assessment of Human Exposure to
Electromagnetic Fields: Review and Future Directions
Akimasa Hirata,
Yinliang Diao,
Teruo Onishi,
Kensuke Sasaki,
Seunyoung Ahn,
Davide Colombi,
Valerio De Santis,
Ilkka Laakso,
Luca Giaccone,
Wout Joseph,
Essam A. Rashed,
Wolfgang Kainz,
Ji Chen. Assessment of Human Exposure to
Electromagnetic Fields: Review and Future Directions. IEEE Transactions
on Electromagnetic Compatibility, doi: 10.1109/TEMC.2021.3109249.
Abstract
This article reviews recent standardization activities and
scientific studies related to the assessment of human exposure to
electromagnetic fields (EMF). The differences of human exposure
standards and assessment of consumer products and medical applications
are summarized. First, we reviewed human body modeling and tissue
dielectric properties. Then, we explain the rationale of current
exposure standards from the viewpoint of EMF and the standardization
process for product compliance based on these exposure standards. The
assessment of wireless power transfer, as an example of emerging
wireless devices, and environmental EMFs in our daily lives are
reviewed. Safety in magnetic resonance systems, where the EMF exposure
is much larger than from typical consumer devices, is also reviewed.
Finally, we summarize future research directions and research needs for
EMF safety.
Excerpts
The overall
improvement in human model accuracy is an important topic as mentioned
in Section II-A and B. This may include an intersubject variability
study using different models or an analysis of the population level. In
addition, the accurate measurement of dielectric human tissue properties
is essential for evaluating the induced field strength. Recent studies
suggest that the conductivity of skin and brain tissues may be
significantly higher than those commonly used in LF dosimetry (e.g.,
[31]). Recent publications reported a novel approach for dielectric
measurements that allows the estimation of dielectric human tissue
properties in vivo using MRI [137]. These and other novel medical
imaging and measurement technologies will help to further improve human body modeling.
Research
needs in the areas of human EMF safety (Section III) are summarized by
various international standardization bodies [4], [138], [139]. The
topics listed therein relate to human body modeling, as well as the
necessity of more accurate dosimetry, which includes reductions of
uncertainties, and multiphysics or multiscale methods for correlating
the field quantities with substantiated biological effects (e.g.,
[140]). The assessments of exposure to emerging LF and RF technologies
and simultaneous exposure (local and whole-body) to multiple sources
will also prove useful for identifying potential changes in the dominant
factors affecting EM safety. Additional research on human EM safety
will provide more scientific data and improve the justifications for exposure limits, especially at frequencies higher than 6 GHz, and in the intermediate frequency range.
New mobile wireless technologies, such as 5G/6G and beyond, are being developed continuously. Their safe use demands not only conservative short- and long-term exposure limits for the new frequencies, but also adequately standardized compliance methods. Therefore, additional relevant exposure evaluation methods are needed to support frequencies from 100 to 300 GHz within the next 10 years. As the complexity of new wireless technologies has substantially increased over the years, further development and standardization of novel and more efficient EMF compliance testing methodologies are needed. International standardization will continue to play a key role in harmonizing global test procedures to establish compliance with current and future wireless technologies. One challenge faced by standardization will be to define test conditions that provide conservative, but realistic exposure conditions based on real-life situations, rather than relying on theoretical or unreasonable assumptions and simplifications. The assessment methods by the computation may become more common for emerging wireless systems, and thus further research is needed for verification of its effectiveness in different scenarios.
Future work for the environmental spectral measurement (see Section V) will focus on measurement procedures to assess worst-cases and realistic exposure to EMF from 5G New Radio (NR)—Ma-MIMO with a focus on sub-6 GHz and millimeter wave bands. The literature scarcely documents in situ assessment of 5G Ma-MIMO signals at millimeter waves and the proper adjustment of measurement settings. For personal exposimeter studies, protocols for 5G personal exposure assessment will need to include active and inactive users. In contrast to legacy technologies, Ma-MIMO base station exposure strongly depends on the activity of the individual user (e.g., streaming data, downloading files, and web browsing). Involving millimeter waves for personal exposure assessment is a significant challenge.
Also, in RF-MR safety, it is necessary to develop clinically relevant human body models for measurements in addition to developing new computational methods for multiscale and multiphysics applications. Most computational human body models use over 30 different types of tissue. However, below 500 MHz dielectric human tissues properties are not significantly different from each other. Some preliminary studies provided evidence that simplified human body models can still achieve accurate EM simulation results. This leads to the possibility of developing simplified computational and experimental models for different RF-MR safety measurement needs for PIMDs, AIMDs, and high-field MR systems (e.g., [141]). Furthermore, simple and equivalent test methods/equipment those are based on the physics principles should be developed (e.g., [142]).
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Accurately assessing exposure to radio frequency electromagnetic fields from 5G networks
Accurately assessing exposure to radio frequency electromagnetic fields from 5G networks. Ericsson white paper. GFTL-21:001105 Uen. October 2021.
No abstract.
Excerpts
"Measurements were recently taken in a large number of street-level locations around base stations in a commercial 5G network with massive MIMO base stations operating in the 3.5GHz band [9]. It was found that the contribution from the 5G network to the total environmental RF EMF exposure was less than 10 percent even in the case of 100 percent induced traffic and that the maximum exposure levels from the 5G base stations were 150 to 200 times below the international limits set by the ICNIRP."
Conclusion
"The high spectrum efficiency and the advanced antenna technologies used by 5G NR lead to lower levels of RF EMF exposure than from earlier generations of mobile networks for comparable services. The base stations in 5G NR networks need to comply with the same RF EMF safety regulations as other radio equipment, and the limits cover all frequency bands used by 5G, including those in the millimeter-wave range. International RF EMF exposure guidelines have recently been published based on the latest available scientific research, with conservative limits that have been or will be adopted in national regulations. Assessing compliance with RF EMF limits may be a challenge for massive MIMO 5G base stations due to dynamic beam steering, but solutions such as envelope beam pattern files together with recommended power reduction factors are available to enable accurate evaluations. The typical overall environmental RF EMF exposure will remain at a small fraction of international limits even with 5G being deployed since the contribution from 5G is relatively small."
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Physical units to report intensity of electromagnetic wave
R Ramirez-Vazquez, I Escobar, T Franco, E Arribas.
Physical units to report intensity of electromagnetic wave.
Environ Res. 2021 Nov 2;112341. doi: 10.1016/j.envres.2021.112341.
Abstract
The aim of this work is to propose a consensus to scientific community that handles personal exposimeters, which measure intensity of an electromagnetic wave (W/m2). To express the intensity of an electromagnetic wave there is a duality in the way of expressing it. Some scientists prefer to use W/m2 while others use V/m, which is a unit of the electric field. There is also a duality in the name, sometimes it is called it power flux density and some other times, wave intensity. We believe that this second name is more appropriate from the point of view of physics. We suggest expressing intensity of an electromagnetic wave in W/m2 instead of giving the value of their electric field which is measured in V/m. There is a quadratic relation between electric field and intensity of the wave, and it is necessary to do a mathematical operation, so in our opinion, it is preferable to use W/m2 which directly gives us the value of the measured intensity. Furthermore, if the intensity is very low, it may be expressed in μW/m2 and with only three significant figures, due to sensitivity of the current exposimeters used.
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The
effects of radiofrequency exposure on male fertility and adverse
reproductive outcomes: A protocol for two systematic reviews of human
observational studies with meta-analysis
Kenny RPW, Millar EB, Adesanya A, Richmond C, Beyer F, Calderon C,
Rankin J, Toledano M, Feychting M, Pearce MS, Craig D, Pearson F. The
effects of radiofrequency exposure on male fertility and adverse
reproductive outcomes: A protocol for two systematic reviews of human
observational studies with meta-analysis. Environ Int. 2021 Nov
1;158:106968. doi: 10.1016/j.envint.2021.106968.
Abstract
Background: The World Health Organization (WHO) is bringing together evidence on radiofrequency electromagnetic field (RF-EMF) exposure in relation to health outcomes, previously identified as priorities for evaluation by experts in the field, to inform exposure guidelines. A suite of systematic reviews are being undertaken by a network of topic experts and methodologists in order to collect, assess and synthesise data relevant to these guidelines. Here, we present the protocol for the systematic review on the effect of exposure to RF on adverse reproductive outcomes (human observational studies), also referred to as Systematic Review (SR) 3 within the series of systematic reviews currently being commissioned.
Objectives: Following the WHO handbook for guideline development and the COSTER conduct guidelines, we will systematically review the effect of RF-EMF exposure on both male fertility (SR3A) and adverse pregnancy outcomes (SR3B) in human observational studies. Herein we adhere to the PRISMA-P reporting guidelines.
Data sources: We will conduct a broad search for potentially relevant records relevant for both reviews within the following bibliographic databases: MEDLINE; Embase; and EMF Portal. We will also conduct searches of grey literature through relevant databases and organisational websites. RF-EMF experts will also be consulted. We will hand search citation and reference lists of included study records.
Study eligibility criteria: We will include quantitative human observational studies on the effect of RF-EMF exposure: (in SR3A) in adult male participants on infertility, sperm morphology, concentration or total sperm count or motility; and (in SR3B) in preconception adults or pregnant women on preterm birth, small for gestational age (associated with intrauterine growth restriction), miscarriage, stillbirth and congenital anomalies.
Study appraisal and synthesis methods: Titles, abstracts and then full texts will be screened in blinded duplicate against eligibility criteria with input from a third reviewer as required. Data extraction from included studies will be completed by two reviewers as will risk of bias assessment using the Office of Health Assessment and Translation (OHAT) tool. If appropriate we will undertake meta-analysis to pool effect measures and explore heterogeneity using sub-group analyses or meta-regression as feasible. We will conduct sensitivity analysis to assess the impact of any assumptions made throughout the review process. The OHAT methodology, based on the GRADE guidelines for evidence assessment, will be used to evaluate the certainty of evidence per outcome and to conclude the level of evidence of a health effect.
Conclusion: This manuscript details the protocols for two systematic reviews. The aims of publishing details of both protocols are to: pre-specify their scope and methods; reduce the impact of reviewer bias; promote transparency and replicability; and improve the review process.
Prospero registration: CRD42021265401 (SR3A), CRD42021266268 (SR3B).
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The effects of radiofrequency
electromagnetic fields exposure on human self-reported symptoms: A
protocol for a systematic review of human experimental studies
Bosch-Capblanch X, Esu E, Dongus S, Oringanje CM, Jalilian H, Eyers J,
Oftedal G, Meremikwu M, Röösli M. The effects of radiofrequency
electromagnetic fields exposure on human self-reported symptoms: A
protocol for a systematic review of human experimental studies. Environ
Int. 2021 Nov 1;158:106953. doi: 10.1016/j.envint.2021.106953.
Abstract
Background: The technological applications of radiofrequency electromagnetic fields (RF-EMF) have been steadily increasing since the 1950s across multiple sectors exposing large proportions of the population. This fact has raised concerns related to the potential consequences to people's health. The World Health Organization (WHO) is assessing the potential health effects of exposure to RF-EMF and has carried out an international survey amongst experts, who have identified six priority topics to be further addressed through systematic reviews, whereof the effects on symptoms is one of them. We report here the systematic review protocol of experimental studies in humans assessing the effects of RF-EMF on symptoms.
Objective: Our objectives are to assess the effects of exposure to electromagnetic fields (compared to no or lower exposure levels) on symptoms in human subjects. We will also assess the accuracy of perception of presence of exposure in volunteers with and without idiopathic environmental intolerance attributed to electromagnetic fields (IEI-EMF).
Eligibility criteria: We will search relevant literature sources (e.g. the Web of Science, Medline, Embase, Epistemonikos) for randomized trials (comparing at least two arms) and randomised crossover trials of RF-EMF exposure that have assessed the effects on symptoms. We will also include studies that have measured the accuracy of the perception of the presence or absence of exposure. We will include studies in any language.
Study appraisal and synthesis: Studies will be assessed against inclusion criteria by two independent reviewers. Data on study characteristics, participants, exposure, comparators and effects will be extracted using a specific template for this review, by two independent reviewers. Discrepancies will be solved by consensus. Risk of bias (ROB) will be assessed using the ROB Rating Tool for Human and Animal Studies and the level of confidence in the evidence of the exposure-outcome relations will be assessed using the GRADE approach. For the perception studies, we will use adapted versions of the ROB tool and GRADE assessment. Where appropriate, data will be combined using meta-analytical techniques.
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Radio-frequency exposure of the yellow fever mosquito (A. aegypti) from 2 to 240 GHz
De
Borre E, Joseph W, Aminzadeh R, Müller P, Boone MN, Josipovic I, et al.
(2021) Radio-frequency exposure of the yellow fever mosquito (A.
aegypti) from 2 to 240 GHz. PLoS Comput Biol 17(10): e1009460.
https://doi.org/10.1371/journal.pcbi.1009460
Abstract
Fifth
generation networks (5G) will be associated with a partial shift to
higher carrier frequencies, including wavelengths of insects. This may
lead to higher absorption of radio frequency (RF) electromagnetic fields
(EMF) by insects and could cause dielectric heating. The yellow fever
mosquito (Aedes aegypti), a vector for diseases such as yellow and
dengue fever, favors warm climates. Being exposed to higher frequency
RF EMFs causing possible dielectric heating, could have an influence on
behavior, physiology and morphology, and could be a possible factor for introduction of the species in regions where the yellow fever mosquito normally does not appear.
In this study, the influence of far field RF exposure on A. aegypti was
examined between 2 and 240 GHz. Using Finite Difference Time Domain
(FDTD) simulations, the distribution of the electric field in and around
the insect and the absorbed RF power were found for six different
mosquito models (three male, three female). The 3D models were created
from micro-CT scans of real mosquitoes. The dielectric properties used
in the simulation were measured from a mixture of homogenized A.
aegypti. For a given incident RF power, the absorption increases with
increasing frequency between 2 and 90 GHz with a maximum between 90 and
240 GHz. The absorption was maximal in the region where the wavelength
matches the size of the mosquito. For a same incident field strength,
the power absorption by the mosquito is 16 times higher at 60 GHz than
at 6 GHz. The higher absorption of RF power by future technologies can
result in dielectric heating and potentially influence the biology of
this mosquito.
Author summary
Radio Frequency (RF)
exposure of the A. aegypti mosquito can lead to absorption and
dielectric heating. We used Finite Difference Time Domain (FDTD)
simulations between 2 and 240 GHz to study the RF power absorbed by the
insect and the distribution of the electric field (EF) in and around it.
For this, three male and three female mosquito 3D models were
constructed from micro-CT scans. We used high resolution models and
dielectric properties, both retrieved from real insects, to gain
realistic outputs. For increasing frequency up to 90 GHz, the absorbed
power increases for all models. At 90–120 GHz, the wavelength is
comparable to the body size, and the increase in absorbed powers reaches
a maximum. Therefore, moving to higher frequencies in 5G, implies
higher absorbed power and possibly higher dielectric heating of the
insect.
Excerpt
The insect of interest
in this paper is the yellow fever mosquito, Aedes aegypti, it is known
as a vector for diseases such as yellow fever, dengue fever and zika
virus infections [14, 15]. According to the Centers of Disease Control
and Prevention in the U.S., yellow fever cases and deaths worldwide are
estimated at 200,000 and 30,000 each year [16], respectively. The yellow
fever mosquito is a tropical species favouring a hot and humid
environment. Temperature affects the life cycle and feeding behaviour of
the mosquito and the reproduction of the viruses [14, 15]. RF power
absorption and dielectric heating can cause disturbance in for example
the behaviour or development of the mosquito. Another interesting
consequence of dielectric heating and higher body temperature, may be
the spread of the mosquito to areas that are normally unfavorable for
them. Be that as it may, the focus in this paper is on the RF power
absorption, the dielectric heating or other consequences are not
considered.
Open access paper: https://journals.plos.org/ploscompbiol/article?id=10.1371/journal.pcbi.1009460
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The detrimental effect of cell phone radiation on sperm biological characteristics in normozoospermic
Mohammadmehdi Hassanzadeh-Taheri, Mohammad Ali Khalili, Ali Hosseininejad Mohebati, Mahmood Zardast, Mehran Hosseini, Maria Grazia Palmerini, Mohammad Reza Doostabadi. The detrimental effect of cell phone radiation on sperm biological characteristics in normozoospermic. Andrologia. 10 October 2021.
doi: 10.1111/and.14257.
Abstract
Radiofrequency electromagnetic radiation emitted from cell phone has harmful effects on some organs of the body, such as the brain, heart, and testes. This study aimed to assess the effects of cell phones on sperm parameters, DNA fragmentation, and apoptosis in normozoospermic. Normal sperm samples were divided into two groups of control and case. The samples from the case were placed for 60 min at a distance of approximately 2.5 cm from the cell phone set in the active antenna position. Control samples were exposed to cell phones without active antennas. All specimens were analysed by World Health Organization criteria. Sperm viability, sperm with chromatin abnormality and maturity, DNA fragmentation, and apoptosis were examined. Viability and motility in the case were significantly lower than the control (p < .001, p = .004 respectively). The percentage of apoptotic sperms and DNA fragmentation were significantly higher in the case when compared with the control (p = .031, p < .001 respectively). The other parameters studied such as morphology, chromatin abnormality, and maturity showed no significant difference between the case and control groups. Cell phone waves had a detrimental effect on human sperm's biological features. Therefore, it is recommended to keep the cell phone away from the pelvis as much as possible.
Conclusion
The cell phone waves can reduce the sperm's biological
characteristics, such as morphology, motility, viability, DNA integrity,
and an increase in apoptosis in normozoospermic men. Therefore, it is
recommended for men to keep the cell phone away from their pelvic.
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Prenatal chronic exposure to electromagnetic
fields modulated adenosine deaminase activity in serum and brain of
Wistar rats’ offspring
Behrooz Mohammadi, Mahdi Sadegh, Homa Soleimani.
Prenatal chronic exposure to electromagnetic
fields modulated adenosine deaminase activity in serum and brain of
Wistar rats’ offspring,
Journal of Microwave Power and Electromagnetic Energy. 2021. DOI: 10.1080/08327823.2021.1993045
Abstract
Considering
the importance of the embryonic stage, we investigated the brain and
serum ADA of offspring chronically exposed to low and high frequency
electromagnetic field (EMF-LF/HF) during their embryonic period. Male
and female rats were randomly selected for mating. After mating, the
females were divided into four groups. The first group was exposed to
extremely EMF-LF (50 Hz) through a solenoid for 30 minutes per day, the
second group was constantly exposed to EMF-HF (900 MHz) via a cell
phone, the third group (sham) was placed inside solenoid without any
exposure, and the last group (control) was placed in their cage. The
brain and serum samples of offspring (6 females and 6 males in each
group) were collected four weeks after birth. ADA was measured by a
specific enzymatic kit and a spectrophotometer. Exposure to EMF-LF
(1.5 mT) was significantly increased the brain ADA activity in both male
and female offspring. In addition, long-term HF exposure significantly
enhanced serum ADA activity in males in compared with control group but,
the brain ADA level was increased significantly in both
genders(p < 0.01). The present study revealed alterations in the
serum and brain ADA following embryonic exposure to HF and ELF. These
alterations depended on gender, frequency and wave intensity.
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The Effect of Mobile Radiation on the Oxidative Stress Biomarkers in Pregnant Mice
Nargess Moghadasi, Iraj Alimohammadi, Ali Safari Variani, Azadeh Ashtarinezhad.
The Effect of Mobile Radiation on the Oxidative Stress Biomarkers in Pregnant Mice.
J Family Reprod Health. 2021 Sep;15(3):172-178. doi: 10.18502/jfrh.v15i3.7134.
Abstract
Objective: Due to the growing use of communication instruments such as cell phones and wireless devices, there is growing public concern about possible harmful effects, especially in sensitive groups such as pregnant women. This study aimed to investigate the oxidative stress induced by exposure to 900 MHz mobile phone radiation and the effect of vitamin C intake on reducing possible changes in pregnant mice.
Materials and methods: Twenty-one pregnant mice were divided into three groups (control, mobile radiation-exposed, and mobile radiation plus with vitamin C intake co-exposed (200 mg /kg)). The mice in exposure groups were exposed to 900 MHz, 2 watts, and a power density of 0.045 μw /cm2 mobile radiation for eight hours/day for ten consecutive days. After five days of rest, MDA (Malondialdehyde), 8-OHdG (8-hydroxy-2' -deoxyguanosine), and TAC (Total Antioxidant Capacity) levels were measured in the blood of animals. The results were analyzed by SPSS.22.0 software.
Results: The results showed that exposure to mobile radiation increased MDA (P=0.002), and 8-OHdG (P=0.001) significantly and decreased Total Antioxidant Capacity in the exposed groups (P=0.001). Taking vitamin C inhibited the significant increase in MDA and 8-OHdG levels in exposed groups.
Conclusion: Although exposure to mobile radiation can cause oxidative stress in the blood of pregnant mice, vitamin C as an antioxidant can prevent it.
