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Showing 11 results for Magnetic Field

M. Jadidi, Dr. S.m.p. Firoozabadi, A. Rashidy-Pour, B. Bolouri, Y. Fathollahi,
Volume 5, Issue 3 (12-2007)
Abstract

Introduction: Over the last decade, exposure to non-ionizing electromagnetic waves due to base station antenna has increased. This in vivo study was planned for evaluating the effects of whole-body exposure to 950 MHz field of GSM mobile phone system on rat dentate gyrus long-term potentiation. Materials and Methods: 24 naive male Wistar rats (3 month old, 225|¡|25 g) were randomly divided in the three groups (sham-exposed, GSM and continuous field exposed). The exposure program was planned for 10 sessions at 3 days. Animals were exposed to electromagnetic field for 45 minutes in a circular plastic chamber (mean power density=0.835 mW/cm2). Immediately after end exposure, anesthesia was induced for long term potentiation (LTP) induction. Field potentials were recorded and analyzed using the population spike amplitude and EPSP slope for 60- min. Results: There were no significant differences in population spike amplitude, EPSP slope and EPSP slope maintenance among the three groups. Conclusion: This study provides no evidence indicating that long-term potentiation can be affected by the whole-body exposure to low-power density of 950 MHz field of GSM mobile phone system.
S.a. Falahati, M. Anvari, M.a. Khalili,
Volume 9, Issue 3 (12-2011)
Abstract

Background: In previous investigations, it has been clarified that electromagnetic fields (ELF) can cause some changes in cellular behavior. The aim of this prospective study was to investigate the effect of magnetic field (MF) on human sperm parameters of motility, morphology, and viability. Materials and Methods: Semen samples were collected from 12 fertile men, and were allowed to liquefy for 15-30 min. Each sample was then divided into two aliquots. The experimental samples were placed in the ELF, while the control one was left intact. The applied fields were pulsed with distance of 6 m/ sec and effective intensity of 1mT and different frequencies of 10, 25 and 45 Hz at different time intervals. The constant field intensity was 1mT in all experiments. Results: In frequency of 10Hz, an increase in quick motility of sperm (1.8 times) occurred after 4h however, slow motility was decreased by 40% after 2h. Also, the quick motility increased by 1.6 times in frequency 25 Hz after 4 h, while the MF had no effect on other sperm parameters. MF had no effect on any of sperm parameters in frequency of 40 Hz in 4 h. The stimulation ratio on the sperm viability was only significant at frequency of 10 Hz after 2 h after incubation. The sperm morphology was not influenced in any of the fields. Conclusion: This study reports the existence of certain frequency windows for the resonance of the effects of the MF on human spermatozoa. Rapid motility was significantly affected by the exposure of spermatozoa to MF, but sperm structural parameter had remained intact. Iran. J. Radiat. Res., 2011 9(3): 195-200
Dr. A.d. Esmaeeli, M. Pouladian, A.s. Monfared, S.r. Mahdavi, D. Moslemi,
Volume 12, Issue 2 (4-2014)
Abstract

Background: To reduce the dose to normal tissues surrounding the treated breast, a uniform magnetic field was used within a humanoid phantom in breast radiotherapy. Materials and Methods: Monte Carlo simulations were performed with GEANT4, irradiating humanoid phantoms in a magnetic field. To reconstruct phantoms, computed tomography (CT) data slices of four patients were used for the Monte Carlo simulations. All of them had left breast cancer either or not mastectomy. In the simulations, the planning and methods of chest wall irradiation were similar to the actual clinical planning. Results: Utilizing magnetic field will help to produce uniform dose distribution to the breast with a sharp dose-volume histogram (DVH) curve for the planning target volume (PTV), however, for the ipsilateral lung and chest wall skin the mean dose was reduced by a mean of 16% and 12% at 1.5 T, and 9% and 7% at 3 T, respectively. The magnetic field was shown to restrict the lateral spread of secondary electrons to the contralateral organs, resulting in significient dose reductions to the contralateral breast (CB) and contralateral chest wall skin (CCWS) by a mean (range) of 28% (21-37%) and 58% (44-75%) at 1.5 T, and 48% (32-81) and 66% (54-73%) at 3 T, respectively. Conclusion: The simulations established that the magnetic field can reduce the dose to the internal and contralateral tissues and increase it to the PTV with sharper edge DVH curve.


E. Kazemi, Dr. S.m.j. Mortazavi, A. Ali Ghanbari, H. Mozdarani, S. Sharif-Zadeh, Z. Mostafavi-Pour, F. Zal, S. Haghdoost,
Volume 13, Issue 3 (7-2015)
Abstract

Background: Induction of cellular response after exposure to electromagnetic fields is limited to coherent fields. An incoherent noise field is supposed to suppress the bioeffects of regular RF electromagnetic fields. The purpose of this study was to investigate the effect of GSM mobile phone-induced radiofrequency (RF) on the induction of oxidative stress in SP2/0 cell line. Materials and Methods: This study was also an attempt to assess whether these RF-induced effects can be blocked by superposing the RF radiation and an incoherent magnetic noise. Three groups of cultured cells were used in this study. The cells in the first group were only exposed to RF radiation emitted from a mobile phone simulator. The second group was only exposed to an incoherent noise field and the third group was simultaneously exposed to RF radiation and incoherent noise field. The exposure duration in all groups was 2 hours. The level of ROS production in the cells was quantified by the CM-H2DCFDA fluorescence probe, using flow cytometry technique. Results: Although our results showed increased ROS production after exposure to 900 MHz RF radiation, superposition of 900 MHz RF and the incoherent noise fields did not lead to increased levels of ROS in any experiment. However, the differences between RF exposure group and superposition of RF and noise exposure group were not statistically significant. Conclusion: Altogether our results cannot support the neutralizing effect of noise theory but may confirm the concept that just the coherent fields can be bioeffective while the incoherent noise fields cannot cause any biological effects.


R. Mahmoudi, Dr. S.m.j. Mortazavi, S. Safari, M. Nikseresht, H. Mozdarani, M. Jafari, A. Zamani, M. Haghani, M. Davari, A. Tabatabaie,
Volume 13, Issue 4 (10-2015)
Abstract

Background:  Wi-Fi allows electronic devices such as laptops to exchange data or connect to a network resource. The main goal of this study was to assess the bioeffects of short term exposure to 2.4 GHz microwave radiation emitted from a common Wi-Fi router on sperm quality. Materials and Methods: Male Wistar rats were divided into 7 groups; I, sham exposed 4 h/day for 7days at 30 cm from the router. II, exposed for 2 h/day for 7days at 30 cm and sacrificed after 53 days. The exposure protocols for groups III to VII were 2h – 30 cm, 2h – 60 cm, 4 h – 30 cm, 4 h- 60 cm, 4 h – 30 cm (no data exchange) respectively. Rats in all the groups except group II, were sacrificed immediately after exposure and basic parameters of testicles weight, sperm motility, morphology, count, and DNA fragmentation were studied. Non-parametric tests were used to detect statistically significant differences between different groups. Results: Findings of this study showed statistically significant differences between the relative frequency of progressive and rapid progressive sperms in sham exposed rats compared to those of exposure groups. The testicles weight, DNA fragmentation of sperms and the frequency of sperms with normal morphology were not affected by Wi-Fi radiation. However, statistically significant differences between sperm count of the sham exposed rats compared to those of exposure group were observed. Conclusion: Exposure to microwave radiation emitted from Wi-Fi routers affects sperm parameters such as count and motility which are among the key parameters determining the chance of conceiving.


S. Tan, Dr. H. Wang, Dr. R. Peng,
Volume 16, Issue 2 (4-2018)
Abstract

With the development of science and technology, microwave has been used in many fields such as industry, military, medicine and communication. People are living in a lapped and dynamic electromagnetic environment. Concerns about potential hazards of microwave are getting increasing attentions. The single biological effects of microwave were widely discussed which was considered harmful. Relevant safety standards had been formulated and applied. However, the real environment was more complex. Microwave was not the only factor that organisms might be affected. Other physical or chemical factors, such as ionizing radiation (IR), ultraviolet (UV), magnetic field and chemical drugs, often existed with the microwave radiation. Even the microwave itself could create combined exposure situation, because the environment consisted different frequency microwaves. Nuclear weapons and high-power radar could produce microwave and ionizing radiation. The ultraviolet ray and magnetic field generated by the instrument's operation could act on the human bodies along with the microwaves. The combination of radiofrequency therapy and chemotherapeutic agents was also commonly used in cancer therapy. Therefore, the combined biological effects of microwaves and other physical or chemical factors were very important. This review had covered the original articles in this aspect. In order to better understand the combined biological effects, the comparative studies of different frequency microwaves were also included. Differences in biological effects were found among different frequency microwaves, and the combined biological effects contained both hazards and benefits. Findings in combined biological effects were very practical for rational uses of microwave technologies.
 

Ph.d., F.m. Gur, A. Ikinci Keles, H.s. Erol, C. Guven, E. Taskin, H. Kaya, H.e. Gur, E. Odaci, M.b. Halici, S. Timurkaan,
Volume 19, Issue 1 (1-2021)
Abstract

Background: Mobile phones as an electronic device which are emitting radiofrequency-electromagnetic field (RF-EMF). In this study was intend to determine the contingent effects of cell phone induced RF-EMF on testicular tissue in adolescence. Materials and Methods: Rats in the RF-EMF group were exposed to 900 MHz RF-EMF, while sham and control rats were not. After the completion of the test steps, the testicular tissues which were rapidly removed from the body of sacrificed rats were examined by using histopathological and biochemical methods. Testicular tissues cut to 5 µm thickness undergo routine histological procedures. Thus, histopathological evaluation will be completed. Malondialdehyde (MDA), glutathione (GSH), catalase (CAT) and superoxide dismutase (SOD) levels in testicular tissues were measured by biochemical methods to determine whether oxidative stress occurred or not. Results: Histopathologic findings were not observed in any of the studied groups. There was also no difference between the groups in terms of localization of androgen and estrogen receptors. The incidence of apoptotic index and TUNEL-positive cells was similar in all three groups. In the RF-EMF group, although the levels of MDA and CAT were significantly higher, GSH levels were lower than the other groups. There was no essential difference between the groups in terms of SOD level. Conclusions: The obtained results of this study showed that exposed to 900 MHz RF-EMF in adolescents caused oxidative stress in the testes, but testicular damage which is caused to oxidative stress is remained too low to be detected by histopathological methods in this study.

Ph.d., F. Cicek, C. Coskun, I. Baldan, M. Tokuş, I. Gunay,
Volume 20, Issue 2 (4-2022)
Abstract

Background: Pulsed magnetic field (PMF) application is an alternative therapy method used especially in the treatment of musculoskeletal system diseases. However, its effects on the vascular system are unclear. On the other hand, an imbalance in the synthesis of reactive oxygen species (ROS) can cause crucial vascular diseases such as hypertension or atherosclerosis. Therefore, this study aimed to elucidate the modulatory effect of PMF pre-exposure and the protective role of the application on ROS-related vascular dysfunctions. Materials and Methods: Rats were exposed to 1.5 mT, 40 Hz PMF for 30 days. Vascular smooth muscle cells (VSMCs) were isolated enzymatically at the end of the application. Cell proliferation in the presence or absence of hydrogen peroxide (H2O2, oxidative stress and apoptosis inducer) was determined by MTT assay. Caspase-3 activity and protein expressions were also determined. Results: Incubation of VSMCs with H2O2 decreased the cell proliferation dose-dependently. However, the cells isolated from PMF pre-treated rats had higher proliferation levels at high dose H2O2 (1 mM) than their controls. Moreover, PMF pre-applied cells had less caspase-3 expression at high dose H2O2 incubation. A similar effect of PMF was also observed in caspase-3 enzyme activity. Conclusion: The present study demonstrated that PMF pre-exposed cells showed resistance to H2O2-induced oxidative stress. Notably, the decreased activity and expression of caspase-3 in PMF pre-treated groups indicated that PMF has regulatory effects on apoptosis formation mechanisms. The present study demonstrated that PMF pre-application should be considered as protective in the development of vascular diseases.

H. Yucel, N.o. Dundar, D.k. Doguc, C. Uguz, O. Celik, F. Tutku Aksoy, M. Nazıroglu, S. Comlekci, B. Dundar,
Volume 20, Issue 4 (10-2022)
Abstract

Background: Electromagnetic fields may primarily affect cognitive functions. It has not been elucidated how electromagnetic radiation affects the brain, particularly in the young age group. We aimed to examine the cognitive function, expression of N-methyl-D-aspartate receptors (NMDA), and EEG alterations in weaned rats exposed to a 2.45 GHz electromagnetic field. Materials and Methods: Twenty-one weaned (21 days old) male Wistar Albino rats were divided into two groups as experimental group (n=12) and control group (n=9). Animals in the experimental group were exposed to a 2.45 GHz electromagnetic field for one hour a day for more than 28 days. At the end of this period, rats were subjected to training and learning test using Morris Water Maze. After obtaining EEG records, hippocampi were removed. 2A and 2B subunits of NMDA receptors were studied in hippocampal homogenates using the Western Blot method. Results: There were no statistically significant differences between the two groups in measures of latency to target quadrant, time spent in the target quadrant, and average swim speed as compared in Morris water maze. However, the time to arrive at the visible platform was significantly longer in experimental animals. There were no statistically significant differences in expression of 2A and 2B subunits of NMDA receptors between the two groups. Evaluation of EEG records revealed that spike frequency was significantly higher and time to first spike was significantly shorter in the experimental group. Conclusion: These results indicated that a 2.45 GHz electromagnetic field might negatively affect EEG, motivation, and attention, particularly in the young age group.

T. Jadidi, N. Asadian, Ph.d., M. Jadidi, M. Safari, H.r. Sameni, V. Semnani,
Volume 21, Issue 1 (1-2023)
Abstract

Background: Some growth factors and electromagnetic fields (EMFs) are capable to differentiate bone marrow mesenchymal stem cells (BMMSCs) into neural cells. EMF may induce BMMSCs to differentiate into dopaminergic (DA) neurons. Our aim was to analyze the influence of EMF on BMMSCs in the treatment of rat models of Parkinson's disease. Materials and Methods: BMMSCs were extracted from the rat’s hind limbs and incubated in a cell-cultured CO2 incubator. After the third passage, the BMMSCs were exposed to sinusoidal and square waveform EMF (400 µT, 75 Hz, 1 h/day - 1 week or 7 h/1 day) and injected into the substantia nigra region of Parkinson rats. Results: The results confirmed an increased number of TH+ neurons, a reduction of activated astrocytes, and an improvement in locomotor activity (Pole test) of sinusoidal EMF groups. Conclusion: We presented a low-frequency sinusoidal EMF that increased BMMSCs’ differentiation into DA neurons. The results indicated that injection of BMMSC exposed to sinusoidal 75 Hz EMF may increase TH+ cells in SNpc and motor coordination activity in the rat model of Parkinson's disease.


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