PATHOGENETIC MARKERS OF ECOLOGICALLY RELATED RESPIRATORY DISEASES
Abstract and keywords
Abstract (English):
The aim of the research is to examine the relationship between the integral parameters of respiratory function, the values of LPO-AOD system and NO level at bronchopulmonary pathology in individuals living in different ecological areas of the city of Vladivostok. 206 patients living in different ecological conditions (healthy individuals, patients with respiratory disorders) were examined. Lung function and the state of LPO-AOD system were studied; the concentration of NO metabolites was assessed in blood serum. The nature and strength of the impact of environmental factors on respiratory function, the state of LPO-AOD, NO level were studied by the method based on correlation analysis. There was calculated power index (D) which was differentiated into power within the system (Ds) which in its turn reflects the in-system interrelationship tension (LPO-AOD, respiratory) and power between systems (Dm) characterizing the activity of interconnections and response to an external stimulus. Intra-system dependences typical for the unfavorable zone were viewed in relation to the favorable zone. It was found out that in ecologically unfavorable regions in individuals with different bronchopulmonary pathologies the value of Ds increases. This indicates that the pathogenic influence of environmental factors increases. In healthy people living in ecologically unfavourable area physiological adaptive-compensatory reaction of the body was revealed, which was proved by high power interconnections (Dm). In the patients with chronic bronchitis there was maintained an adequate level of functioning of the body systems studied. In patients with COPD living in an unfavourable zone there were found strong links between the indicators of the system of LPO-AOD and of NO, and in patients with bronchial asthma - supplementary relationship between lung function and NO. At the same time pathologic changes in the system of LPO-AOD and NO depend on the general pollution, metal and gas components contained in the air. Thus, the people with respiratory diseases being in environmentally unfavorable conditions have the most negative influence. The analysis of the activity of relationships proved that violations of interaction of LPO-AOD systems and NO in ecologically unfavorable regions may contribute to the occurrence and progression of bronchopulmonary diseases.

Keywords:
lipid peroxidation and antioxidant system, nitric oxide, respiratory pathology, ecologically unfavourable environment.
References

1. Veremchuk L.V., Kiku P.F., Simonova I.N. Influence of ecology-hygienic characteristics external environments on immune-metabolic parameters of blood the population with diseases of bodies of breath. Sibirskiy meditsinskiy zhurnal (Irkutsk) 2012; 111(4):126–130 (in Russian).

2. Veremchuk L.V., Yankova V.I., Witkin T.I., Barskova L.S., Golokhvastov K.S. The development of air pollution in city and its impact on respiratory morbidity. Sibirskiy nauchnyy meditsinskiy zhurnal 2015; 4(35): 55–61 (in Russian).

3. Report on the state of the environment of Primorsky Krai in 2000-2008. Committee of Environmental Protection and Natural Resources of Primorsky Krai. Bibikov M.N., Kuchenko K.M., Kiselev S.A., editors. Vladivostok; 2009 (in Russian).

4. Dzherieva I.S., Volkova N.I. Oxidative stress and possibilities of its correction by melatonin. Klinicheskaya meditsina 2011; 89(5):21–25 (in Russian).

5. Kozin O.V. Ogorodova L.M., Selivanova P.A., Petrova I.V., Gereng I.V., Sazonov A.E. NOS gene expressions in bronchial mucosa of patients with bronchial asthma. Pul´monologiya 2009; 6:78–82 (in Russian).

6. Menshchikova E.B., Lankin V.Z., Zenkov N.K., Bondar I.A., Krugovykh N.F., Trufakin V.A. Oxidative stress. Pro-oxidants and antioxidants. Moscow: Slovo; 2006 (in Russian).

7. Novgorodtseva T.P., Endakova E.A., Yankova V.I. "Lipid peroxidation – antioxidant protection" in the biological fluids. Vladivostok; 2003 (in Russian).

8. Postnikova L.B., Kubysheva N.I. Mindubaev R.Z., Boldina M.V., Soodaeva S.K. Features of the maintenance of endothelin-1 and endobronchial concentration of nitric oxide metabolites in chronic obstructive pulmonary disease. Pul´monologiya 2010; 3:108–112 (in Russian).

9. Simonova I.N., Hodosova K.K., Bobrovnik E.A. The content of nitric oxide in the blood of patients with chronic obstructive pulmonary disease. Health. Medical ecology. Science. 2014; 56(2):120–121 (in Russian).

10. Simonova I.N., Antonyuk M.V. Role of industrial air pollution in growth of bronchopulmonary pathology. Health. Medical ecology. Science. 2015; 59(1):14–20 (in Russian).

11. Soodaeva S.K. Free radical damage mechanisms in diseases of the respiratory system. Pul´monologiya 2012; 1:5–10 (in Russian).

12. Kharitonov S.A., Barner P.J. Biomarkers of some pulmonary diseases in exhaled breath. Biomarkers 2002; 7(1):1–32.

13. Ricciardolo F.M., Sterk P.J., Gaston B. Folkerts G. Nitric oxide bin health and disease of the respiratory system. Physiol. Rev. 2004; 84(3):731–765.

14. Schropfer F., Riobo N., Carreras M.C., Alvarez B., Radi R., Boveris A., Cadenas E., Poderoso J.J. Oxidation of ubiquinol by peroxynitrite: implication for protection of mitochondria against nitrosative damage. Biochem. J. 2000; 349(Pt.1):35–42.

Login or Create
* Forgot password?