The purpose of the work is to study the processes of free radical lipid peroxidation, antioxidant system activity and their connection with the iron metabolism in white rats with experimental hepatitis, and after the use of hepatoprotectors. Materials and Methods. Studies were conducted on white Wistar rats: body weight – 180–200 g, age – 3 months. “Berlition” and “Legalon M” were administered intramuscularly, 0.2 ml per animal once a day (30 days). The authors registered the content of malonic dialdehyde (MDA), diene conjugates, catalase activity, serum iron level, total and unsaturated iron binding capacity. Results. In experimental animals, the level of diene conjugates increased 1.8 times if compared with healthy ones. After the administration of “Legalon M” and “Berlition”, the concentration of diene conjugates decreased by 58.6 % (by half) compared with the experimental animals. It was established that the malondialdehyde content significantly increased in all tissues. After the administration of “Legalon M” and “Berlition”, the malondialdehyde content decreased in the liver, lungs and muscle tissues. In the tissues of the intestine and in the blood serum, MDA level resolved to that of healthy animals. In experimental animals, catalase activity increased significantly if compared with healthy ones. After “Legalon M” and “Berlition” administration there was a decrease in enzyme activity in all body tissues. In animals with experimental hepatitis, there was a failure of iron metabolism in the body. The authors observed activation of iron metabolism in the body after drug administration to rats with experimental hepatitis. Conclusions. “Ligalon M” and “Berlition” have an antioxidant effect and stimulate iron metabolism. Keywords: hepatitis, antioxidants, free radicals, malonic dialdehyde, catalase, diene conjugates, iron metabolism, transferrin, lipids.
Учредитель и издатель: Founder and editor: ФГБОУ ВО «Казанская государственн ая академия ветеринарной медицины имени Н.Э. Баумана» (ФГБОУ ВО Казанская ГАВМ) FSBEI HE «Kazan Bauman State Academy of Veterinary Medicine»(FSBEI HE KSAVM) Печатается по решению редакционной коллегии Казанской государственной академии ветеринарной медицины им. Н.Э. Баумана от 5 Июня 2018 г
The kinetics of the reaction of hydroxyl radical (OH) with dimethyl methylphosphonate (DMMP, (CH3O)2CH3PO) (reaction 1) OH + DMMP → products (1) was studied at the bath gas (He) pressure of 1 bar over the 295–837 K temperature range. Hydroxyl radicals were produced in the fast reaction of electronically excited oxygen atoms O(1D) with H2O. The time-resolved kinetic profiles of hydroxyl radicals were recorded via UV absorption at around 308 nm using a DC discharge H2O/Ar lamp. The reaction rate constant exhibits a pronounced V-shaped temperature dependence, negative in the low temperature range, 295–530 K (the rate constant decreases with temperature), and positive in the elevated temperature range, 530–837 K (the rate constant increases with temperature), with a turning point at 530 ± 10 K. The rate constant could not be adequately fitted with a standard 3-parameter modified Arrhenius expression. The data were fitted with a 5-parameter expression as: k1 = 2.19 × 10−14(T/298)2.43exp(15.02 kJ mol−1/RT) + 1.71 × 10−10exp(−26.51 kJ mol−1/RT) cm3molecule−1s−1 (295–837 K). In addition, a theoretically predicted pressure dependence for such reactions was experimentally observed for the first time.
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