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  Introduction: The increasing use of EMF (electromagnetic field) generating apparatus (refrigerators, computers, TV, etc) caused an increasing interest in investigations of its adverse effects on human health. This study is done to investigate the effects of EFM on Balb/c mice.

  Materials and Methods: This is an experimental study in which at first a circuit generating low frequency electromagnetic field (50 Hz, 15G) was designed. Then adult virgin female mice were placed in coil and exposed to 15 gauss electromagnetic field for 4 day and 6 hour per day. Then their blood was examined to assay the level of hormones (FSH, LH, estradiol, progesterone). Also ovary and uterus sections were studied with light & electronic microscope.

  Results : Results showed that the weight and size of ovary was not significantly affected in females exposed to the low frequency electromagnetic field and their offspring. Our results also showed that the number of ovary follicles were significantly affected in exposed females (p<0.05). Also the study of micrographs showed hetrochromatinated oocytes and follicular cells and increasing polysomes, accumulation of mitochondria and cleft nucleus. Decreasing amount of FSH, LH and 50% decrease in couplation rate was also seen as compared with the control group.

  Conclusion: Results of this study is indicator of EFM effects on gonads^, structure and endocrine system and decreases fertility.

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Introduction: The increasing users of microwave appliances such as cell phones caused an increasing interest on investigation of its adverse effects on human health and development of animals.This study is done to investigate the effects of simulating cell phone waves on gonads and sex cells of male Balb/C mouse. Materials and Methods: This is an experimental study in which with the use of generating apparatus of simulating cell phone waves, adult male mice were exposed to cell phone waves for 10 days (4 hours per day). Then structure and ultrastructure of testes and number of sex cells were examined by light and transmission electron microscope. Data was analyzed using t and Mann Whitney testes. Results: The results did not show any significant differences in the size and weight of testes in mice exposed to the simulating cell phone waves. Results also showed that the number of spermatogonia cells and primary spermatocytes and spermatids and sperms were significantly increased in exposed mice (p<0.05), but the number of sertoli cells were significantly decreased (p<0.05). The study of micrographs showed changes in ultrastructure of sexual cells, such as cleft and hetrochromatined nucleus and decrease of cell organelles and vacuolization of cytoplasm. Conclusion: Results indicate the effect of simulating cell phone waves on number and ultrastructure of sex cell in male Balb/C mouse.

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Introduction: The increasing use of the electromagnetic field producer sets in daily living causes concerns about these waves on human health. The effects of extremely low frequency electromagnetic field (50 Hz) on induction of chromosomal damages on bone marrow erythrocytes of male Balb/C mouse has been investigated in this research. Materials and Methods: This is an experimental study in which the laboratory system of producing electromagnetic with low frequency (50 Hz) was used. Five week old male Balb/C mice were divided into three controls, sham-exposed and experimental groups. The experimental mice exposed were exposed to electromagnetic field (50 gauss) for 4 days (12 hours/day). After treatment, the chromosomal damages were assessed using micronucleus test in polychromatic erythrocytes and resultant quantity data were analyzed using t and Mann-Whitney test. Results: Results showed that frequency of micronucleated polychromatic erythrocytes of experimental group (14/35±1/589) was more than Sham-exposed (8/958±1/049) and control group (7/65±0/768) significantly (p<0/05). Conclusion: Extremely low frequency electromagnetic field (50 Hz) causes chromosomal damages induction in polychromatic erythrocytes of bone marrow male Balb/C mouse.

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Background: Glycoconjugates molecules showed a programmed changes during the development. These components in the cell-surface and extracellular matrix plays important roles for different developmental processes. In this study lectin histochemistry technique was used for identification and localization of some glycoconjugates during the development of thymus. Methods and Materials: Balb/C mice embryos from days 10 to 15 and also day 18 fetuses fixed in formalin and provided 5m serial sections of these samples for histochemical study. Slices were incubated with three types of HRP-conjugated lectins (HRP) include: SBA specified for α, β-D-N-acetylgalactoseamin (α,β-D-GalNAc), PNA specified for β-D-Galactose -(1-3)-D-N-acetylgalactoseamin (β-D-Gal-(1-3)-D-GalNAc) , MPA specified for D-Galactose (D- Gal). Results: SBA lectin was presented with decreasing intensity in the Golgi zone (GZ) and cell surfaces of mesenchymal cells, epithelial cells and T-cells microenvironment in studying days. In first day (12&13) T-cells had high reaction with SBA in membranes and GZ. PNA lectin was revealed with several intensity in basal membranes and membranes of mesenchymal cells, epithelial and microenvironment of T-cells in studying days. MPA lectin weakly presented in the endodermal and mesenchymal cells and microenvironment of T-cells in all days. Conclusion: Results indicated that glycoconjugates molecules with terminal carbohydrate of GalNAc might have a role in the development of thymus gland and maturation of the T-cells. Glycoconjugates with terminal disaccharide of Gal/GalNAc probably have significant effect on the total developmental process of thymus gland. Further, Glycoconjugates with terminal carbohydrate of Gal probably had not a key role in the development of thymus gland and T-cells or with low quantity effect.

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Background: Angiogenesis is a complex process that occurs in many physiologic and pathologic conditions such as invasion and metastasis of tumors. Therefore, it is the target of many clinical treatments. Rapamycin is one of the immune system inhibitor drugs that recently has been used for controlling different types of cancer. In this study, the effect of Rapamycin on angiogenesis in chicks' chorioalantoic membrane was investigated. Methods and Materials: In this experimental study, we used 42 Ross fertilized eggs that were divided into 3 random groups: control, sham-exposed (treated by Dimethyle sulfoxide-DMSO- ) and treated with Rapamycin. In 2th day, a window was opened on eggs in the sterile condition. Later, in 8th day, a gelatin sponge appeared on chorioalantoic membrane and was soaked with 5 μl Rapamycin in treatment group and 5 μl DMSO in the sham-exposed group. In 12th day, CAMs were examined and photographed by Research Photostereomicroscope in all cases. The numbers and lengths of vessels around the sponges were measured and compared with each other by T-Test (p<0.05). Results: The mean of number (42 ±7.26 ) and length (57.25±5.05 cm ) for vessels in the control group and mean of number (42.93±8.37 ) and length (55.66±10.44 cm) in sham-exposed group was'nt any significant differences. There was a significant decrease in mean number (29.36±5.28) and length (44.55±10.22) of vessels in Rapamycin with control group. Conclusion: It seems Rapamycin has an inhibitory effect on angiogenesis in chicks' chorioalantoic membrane. It decreases the number and length of vessels around treated area

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Abstract Background: Vitamin A is an important messager molecule for differentiation setting, cells proliferation and morphogenesis. In this research, an effect of vitamin A on limb bud development of Balb/C mouse was determined. Materials and Methods: In this experimental study, 10 female pregnant mice were divided to control and experimental groups. Control mice were maintained in natural situation and experimental mice were received vitamin A 15000IU/kg intraperitoneal injection at gestational day 10.5. Control and experimental mice were dissected in day 15.5 of gestation and after a morphology study their embryos were prepared for histological studies with microscope and were stained by Hematoxylin & Eosin method. Results: Comparison of crown- rump length, fore limb width, length of zone 1 (finger and palm) and zone 2 (wrist) of fore limb and total length of hind limb in experimental embryos with control group didn’t have significant difference in means. But, mean of embryos weights and length of total fore limb and length zone 3 (arm and forearm) of experimental embryos fore limb were more then control (p<0.001). Also, in comparison mean of hind limb width of experimental to contol embryos, increase was observed (p<0.006). But number and size of chondrocyte in 4 zones of fore and hind limb in experimental group didn’t have significant difference to control group (p>0.05). Conclusion: Concentration of 15000IU/kg vitamin A has progressive effects on the fetuses’ weight and fore limb bud development of Balb/C mouse.

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Background: Noticing the daily advancement of the role of electromagnetic field generators in human life, examination of the biologic impacts of these waves has come to be extensively appreciated by researchers. During pregnancy, vitamin A is extremely essential for the development of fetus and its lack, insufficiency or excess can result in embryonic malformations. This study investigated the synergetic effects of vitamin A and extremely low frequency electromagnetic fields on the development of embryo skin in Balb/C mice. Materials and Methods: This study was experimental in nature. Eighteen pregnant mice were divided into control, sham-exposed and experimental groups. The mice in the experimental group were given an intra-peritoneal injection of 15000 IU/kg vitamin A on the 10.5th day of gestation and were, then, exposed to a 50Hz electromagnetic field 4 hours a day from 10 through 12th day of gestation. The animals were dissected and investigated morphologically and histologically on 17.5th day of gestation. Results: The results showed an increase in the mean weight of fetuses in the experimental group in comparison to the sham- exposed group (p<0.05). Also, Crown-Rump of fetuses in the experimental group increased in comparison to those in the sham- exposed group (p<0.001). Epidermis thickness increased significantly in experimental group in comparison to sham- exposed (p<0.05), while the average number of basal, spinous cells and hair follicles decreased significantly in the experimental group compared to the sham- exposed (p<0.001). Conclusion: The findings indicate that vitamin A usage and synergetic exposure to low frequency electromagnetic fields (50Hz) profoundly affect the development and growth of skin epidermis in the fetus of Balb/C mouse.

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Background: Green tea due to its antioxidant properties can prevent some types of chromosomal damage. In this study, the effects of green tea on repressing chromosomal aberrations induced by cell phone waves in bone marrow polychromatic erythrocytes of male Balb/C mice were investigated. Materials and Methods: In this experimental study, 40 adult male Balb/C mice were randomly divided into five groups: control (natural conditions), sham exposed (no exposure to cell phone waves in vitro), experimental group 1 (exposure to cell phone waves), and experimental group 2 (intraperitoneal injection of 100 mg/kg dose of green tea extract for 5 days and exposure to cell phone waves), and experimental group 3 (intraperitoneal injection of 200 mg/kg dose of green tea extract for 5 days and exposure to cell phone waves). Micronucleus test was run in all groups. Data were analyzed by ANOVA and Tukey tests using SPSS software (p<0.05). Results: The mean number of micronucleus in polychromatic erythrocytes of the sham group (3.47± 0.253) compared with control group (3.43 ± 0.605) did not show a significant difference (p> 0.05), whereas the mean micronucleus frequency in the experimental group 1 (5.64±0.308) increased significantly. However, the mean micronucleus frequency in experimental group 2 (0.92 ± 0.129) and experimental group 3 (0.55 ± 0.046) compared with the control and sham exposed groups decreased significantly (p = 0.001). Conclusion: Cell phones microwaves (940 MHz) induce chromosomal aberrations in bone marrow polychromatic erythrocytes of male Balb/C mice, but green tea has inhibitory effects and reduces chromosomal damage.

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Background: In recent decades, with the increasing use of devices generating electromagnetic fields in modern industrial societies, the study of biological effect of these waves on the many organisms development has been considered by government and scientific organizations all over the world. Many people in all hours of their life are exposed to boarding electromagnetic fields of devices in their life and work places, with different intensities and frequencies. This presence of a significant relationship between the increase of some diseases and genetic aberrations and electromagnetic fields is one of the most important issues for researchers that has created many concerns regarding the adverse effects of electromagnetic fields. The findings of some studies indicate that this field does not have enough energy to damage biological molecules, while other researchers believe that electromagnetic fields by affecting cellular stress response and other protective mechanisms cause genetic cell damage. Some studies express that the electromagnetic field are safe alone, but they enhance the genotoxic function of physical and chemical environmental pollutants.

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Introduction: Harmine is an alkaloid from the carboline family, belonging to the harmal plant, which has extensive applications in traditional medicine, with numerous studies highlighting its anti-cancer effects. Since biological processes are influenced by electromagnetic fields, the current study examined the anti-cancer effects of harmine and low-frequency electromagnetic fields on the expression of COX2, VEGF, and MMP-2 genes in the A2780 cell line.
Methods: In this experimental-laboratory study, ovarian cancer cell lines were randomly divided into four groups: control, harmine at concentrations of 6, 12, 24, 48, 96, and 192 micromolar, low-frequency electromagnetic field with an intensity of 50 Gauss, and harmine at a concentration of 48 micromolar with a low-frequency electromagnetic field of 50 Gauss intensity. Their toxicity was assessed using the MTT assay, nuclear morphological changes by DAPI staining, apoptotic effects of these compounds by measuring nitric oxide (NO), and gene expression changes by Real-Time PCR. Quantitative data were analyzed the ANOVA statistical test at a P < 0.05 level.
Results: Quantitative data comparison of this research indicated that harmine and a low-frequency electromagnetic field with an intensity of 50 Gauss caused a concentration-dependent reduction in the viability of ovarian cancer cells. Additionally, in the nitric oxide test, a significant decrease was found in the control group compared to the groups treated with a concentration of 48 micromolar and synergized with a 50 Gauss electromagnetic field (p<0.05). The expression of the aforementioned genes in treated cells showed a significant decrease. Treating ovarian cancer cells with harmine and its combined application led to significant nuclear morphological changes, including chromatin condensation, formation of apoptotic bodies, and wrinkling of the cell membrane.
Conclusions: The combined application of harmine and a low-frequency electromagnetic field induced apoptosis in A2780 cancer cells and resulted in the downregulation of COX2, VEGF-A, and MMP-2 gene expression. Consequently, the combined use of harmine with a low-frequency electromagnetic field, due to its effective cytotoxicity in inhibiting proliferation and inducing apoptosis, could be a suitable candidate for clinical studies.