Open Access
The effect of bee venom and hyperthermia on the lipoperoxidation and antioxidant activity of the blood of tumor-bearing animals
Author(s) -
Михаил Александрович Шабалин,
А. V. Deryugina,
В. В. Назарова,
Елена Александровна Грачева,
А.S. Lizunova
Publication year - 2021
Publication title -
journal of siberian medical sciences
Language(s) - English
Resource type - Journals
ISSN - 2542-1174
DOI - 10.31549/2542-1174-2021-3-25-33
Subject(s) - hyperthermia , bee venom , venom , pharmacology , medicine , antioxidant , lipid peroxidation , superoxide dismutase , intraperitoneal injection , saline , chemistry , anesthesia , biology , biochemistry , zoology
Introduction. Nowadays, it has been shown that one of the possible ways to increase the effectiveness of the treatment of malignant tumors is the use of combined treatment methods. Aim. To study the intensity of lipid peroxidation (LPO) and the activity of superoxide dismutase (SOD) in hyperthermia against the background of bee venom in the blood of tumor-bearing rats. Materials and methods. The experimental animals were divided into 5 groups: 1st — intact; 2nd — control (tumor-bearing animals (PS-1 tumor strain) with intraperitoneal (IP) administration of saline solution); 3rd, 4th and 5th groups — tumor-bearing animals with IP administration of 0.5 ml of bee venom against the background of hyperthermia 42, 43 and 44°C respectively. The content of diene and triene conjugates, Schiff bases (SB) and SOD activity in the blood of animals was determined. Results. From the 1st day after the end of the experiment, a statistically significant decrease in triene conjugates was recorded in all experimental groups compared to the control group. SB decreased on the 1st–7th day after the end of the experiment with the action of hyperthermia 42°C and bee venom, on the 7th–28th day — with the action of hyperthermia 43°C and bee venom, and on the 28th day — with the action of bee venom and hyperthermia 44°C, which was accompanied by an increase in SOD activity from the 7th day in all experimental groups compared to the control group. Conclusion. Hyperthermia in combination with the action of bee venom causes a decrease in lipid peroxidation products and an increase in antioxidant activity in the blood of tumor-bearing rats. The most effective action, in our opinion, is the use of bee venom against the background of hyperthermia of 43°C, at which a prolonged effect is recorded both with respect to a decrease in the concentration of SB and an increase in the activity of SOD.