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Background and Objective: Low electromagnetic fields (LEMF) are produced by instruments which are works with electricity. This study was done to determine the effect of LEMF on fetal death and bone marrow megakaryocytes in NMRI mouse neonates. Materials and Methods: In this experimental study 64 females’ mice with 6-8 old weeks were used. 2 female mice coupled with one male, and positive vaginal plaque was interpreted as the zero day of pregnancy (GD=0). The pregnant mice were randomly categorized into control and experimental groups. The experimental group were exposed to50HZ, 0.5 mT Low electromagnetic fields on 7-11 days of pregnant period (8h/d). The weight of neonate and death fetus were studied after delivery. The live neonates were dissected on 15th day, and 1 ml of bone marrow was extracted from Tibia and vertebral column, by pressing method. The bone marrow cells suspended in 1:1 IMDM in 15cc (FULCON) tubule and cells was counted with neobar lam. The data were tested by t-student test significance was set up at p<0.05. Results: There was significant differences between the mean weight of one day neonate in cases with controls (P<0.05). The mean of dead fetus in experimental group was higher than controls (P<0.05). The mean of megakaryocytes numbers higher than controls, but this differences was not significant. Conclusion: This study showed that the number of megakaryocytes and fetal death were increased by low electromagnetic fields exposure during pregnancy.

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Background and Objective: Many studies have showed malformation of low frequency of electromagnetic fields (EMF) on different tissues. This study was carried out to evaluate the effect of low frequency electromagnetic fields on the heart of white-leghorn chicken embryo. Materials and Methods: In this experimental study, 90 healthy, fresh and fertilized eggs were allocated into 6 groups including control, sham, and four preincubated experimental groups. Experimental groups I, II, III and IV (1.33, 2.66, 5.52 and 7.32 mT) were located in the electromagnetic device, sham group was located into the same coil with no exposure for 24h before incubation. Control, sham and experimental groups incubated (37±0.5 ºC, 60% humidity) for 14 days. Results: Disassembling cell regulation in experimental group I, dense nucleus of myocytes and increase of intercellular spaces in experimental group II, necrosis and bleeding in the heart tissue in experimental groups III and IV were seen in compare to control and sham groups. There was a significant increase in the level of activity of alkaline phosphatase in the heart of experimental groups in compare to control and sham groups. Conclusion: Low frequency of electromagnetic fields caused alternations in cardiac tissue and elevation of Alkaline phosphatase activity in chicken embryos.

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Background and Objective: Overexposure to electromagnetic waves produces by computer cause health disorders by users. This study was performed to determine the employer's exposure risk to electromagnetic fields from monitors of computers in north of Iran
Methods: This descriptive-analytical study was performed on 100 of computers using by 100 employee users (69 males and 31 femals) with the mean age of 40.83±7.37 in Gomishan county, Golestan province in north of Iran during 2018. The intensity of the magnetic and electric field caused by computers was measured at 30, 50 and 60 cm intervals and in four directions from the front, back, right and left side of the monitor using SVENSK standard method. The intensity of fields was measured by TM-190 instrument. Data were compared with OEL (Occupational Exposure Limit), MPRII and TCO (The Swedish Confederation of Professional Employees). The NIOSH (National Institute for Occupational Safety and Health) standard questionnaire was used to assess the side effects of working with computers. The health problems in employee users were recorded.
Results: The mean±SD of the intensity of the electrical waves was 103.63±33.62 v/m that was less than the standard values. The mean±SD of the intensity of the magnetic waves was 0.1±0.09 mA/m that was higher than the TCO, MPRII standard values and less than OEL. The maximum magnetic-field invasion from the standard range with an average of 157.04 mA/m is on the front of the monitors, at a distance of 30 cm and the lowest of them with a mean of 19.2 mA/m for the off-mode computer and at a distance of 60 cm from the mantle. There was a significant difference between the time of working with computer in the day with burning eye, headache and eye fatigue. There were no significant difference of clinical symptoms in men and women and fatigue syndrome.
Conclusion: The electrical waves of monitor of computers were lower than standard limit in all studied conditions, but the magnetic waves were much higher than standard limit.