This study was designed to assess oxidative damage and cell apoptosis in the uterus of rats with streptozotocin (STZ)-induced diabetes. The role of vitamin E (VE) and/or folic acid (FA) in the protection from such damage was also evaluated. The treatments were performed for 4 weeks on six groups of rats: 1) normal control 2) diabetic control 3) diabetic rats receiving olive oil as a vehicle (without VE) 4) diabetic rats treated with VE (200 mg/kg) in olive oil 5) diabetic rats treated with FA (25 mg/kg) and 6) diabetic rats treated with VE+FA (200 and 25 mg/kg, respectively). We measured the malondialdehyde level (MDA), glutathione content (GSH) and the activity of GSH peroxidase (GPx), GSH reductase (GR) and catalase. Changes in caspase-3 activity were quantified in uterine tissue to assess the rate of apoptosis. In the rat uterine tissues, MDA content and caspase-3 activity were significantly elevated, while GPx, GR and CAT activities and the GSH level were significantly decreased in the diabetic control compared with those in normal rats (p<0.05). The combination of the vitamins (VE+FA) restored uterine GSH content and enzymatic activities of GPx, GR and CAT and reduced the MDA level (p<0.05). A prominent reduction in apoptosis of uterine cells was detected in diabetic rats treated with two vitamins (p<0.05). Overall, VE alone, not FA, produced results similar to those of the VE+FA combination. Thus, in the uterine tissue of diabetic rats, diabetes complications (that are caused by oxidative damage and apoptosis induction) can be prevented by the systemic administration of VE and FA.
In this article, the dispersion characteristics of the paraxial (near axis) electromagnetic (EM) waves in a relativistic electron beam guided by the ion channel are investigated. Equilibrium fields such as ion-channel electrostatic field and self-fields of relativistic electron beam are included in this formalism. In accordance with the equilibrium field structure, radial and azimuthal waves are selected as base vectors for EM waves. It is shown that the dispersion of the radially polarized EM and space charge waves are influenced by the equilibrium fields, but azimuthally polarized wave remain unaffected. In some wave number domains, the radially polarized EM and fast space charge waves are coupled. In these regions, instability is analyzed as a function of equilibrium structure. It is shown that the total equilibrium radial force due to the ion channel and electron beam and also relativistic effect play a key role in the coupling of the radially polarized EM wave and space charge wave. Furthermore, some asymptotic behaviors such as weak and strong ion channel, nonrelativistic case and cutoff frequencies are discussed. This instability could be used as an amplification mechanism for radially polarized EM waves in a beam-plasma system where a relativistic electron beam is guided by the ion channel.
Background and Aims: Burn injury remain as a major medical problem throughout the world. This injury is accompanied with inflammatory and wound healing responses. Since royal jelly (RJ) has anti-inflammatory and wound healing activity therefore, the aim of this study was to evaluate the repairing effects of RJ on skin burn- damage. Materials and Methods: In an experimental study, 40 male Wistar rats (8 weeks old) were engaged. The animals were divided into five equal groups. Group 1 was considered healthy control. Group 2 (positive control) was treated topically with Silver Sulfadiazine Cream, group 3 received Eucerin as negative control, and group 4, 5 treated with RJ (10 and 30%). Sampling was performed after observing the second-degree burns on the first, seventh and fourteenth days. Then after 28 days, rats were sacrificed and their skin tissues were used for morphological and morphometric assessments. Results: The results of this study showed that the amount and arrangement of collagen type 1 protein was higher in the RJ treatment groups versus control group. Reconstruction and thickening of the epithelium in RJ treated groups confirmed therapeutic effects of RJ. In addition, RJ increased angiogenesis compared to the control group. The woundchr('39')s surface area was reduced in the RJ treatment groups compared to the control group. In addition, fibroblast cell proliferation was increased in the groups receiving RJ versus control. Conclusions: It could be concluded that, RJ induce wound healing effects and might be considered as potential treatment option to improve the burn wound healing.
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