Abstract

Objective: to study the indicators of lipid peroxidation and the antioxidant system in the blood and moisture condensate of exhaled air in patients with AD combined with type 2 diabetes, and in the blood of these patients — total metabolites of nitric oxide. Materials and methods: the study involved 215 patients with persistent BA of moderate severity aged (38.6±2.4) years, including 88 men (40.9%), 127 women (59.1%). Among the examined patients with BA there were 64 — group I, persons with BA combined with type 2 diabetes — 151 (group II). The parameters of the lipid peroxidation system (LPS) in the blood serum were studied: malondialdehyde (MDA), diene conjugates (DC), and the antioxidant system (AOS) according to the activity of catalase and superoxide dismutase (SOD), the amount of total metabolites of nitric oxide (NOx), in the condensate of exhaled air moisture (KEAM) was determined general oxidant (GOA) and antioxidant (AOA) activity. Results: in patients with BA combined with type 2 diabetes, an increase in the concentration of POL products in the blood was revealed: MDA was 2.6 times (p<0.05) compared with the control group and 1.3 times (p<0.05) compared with the indicator in patients with AD, DC, respectively, 2.0 times (p<0.05) compared with the control group and 1.2 times (p<0.05) compared with I group. The activity of the enzymes AOS catalase and SOD in patients with comorbidity of BA and type 2 diabetes was found to be lower than in patients of group I. In the KEAM of patients with comorbidity of BA and type 2 diabetes, a significant increase in OOA and a decrease in OAA were noted. The concentration of NOx in the blood serum of group II patients was 1.6 times higher than in the control group (p<0.05), but 1.4 times lower than in patients with AD without comorbidity with type 2 diabetes (p<0.05). The direction of the revealed correlations between the products of POL in blood serum and KEAM confirmed the systemic nature of metabolic changes in the body of patients with AD, and their strength in group II patients — the negative effect of comorbid type 2 diabetes on the greater severity of these metabolic changes. Conclusions: the resulting changes in the state of LPS and AOS in the blood and KEAM of patients with BA combined with type 2 diabetes can be characterized as systemic metabolic stress, both components of which: oxidative and nitrosive are supported by insufficient stress-limiting mechanisms — low activity of AOS enzymes and possible depletion of nitric oxide production, which should be reflected in the means of correcting metabolic disorders in patients with this comorbidity.

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