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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.