Novosibirsk State Pedagogical University Bulletin, 2015, vol. 5, no. 4, pp. 68–76
© Khaybullina Z. R., Abdullaeva S. D., Sobirov J. G., 2015
UDC: 
616.13 + 004.6 + 002

Comparative evaluation of inflammation factors at the peripheral and coronary atherosclerosis

Khaybullina Z. R. 1 (Tashkent, Republic of Uzbekistan), Abdullaeva S. D. 1 (Tashkent, Republic of Uzbekistan), Sobirov J. G. 1 (Tashkent, Republic of Uzbekistan)
1 V. Vakhidov Republican Specialized Center of Surgery, Tashkent, Uzbekistan
Full text (Open Access) — Downloaded 3220
Abstract: 

The inflammation is a basis of pathogenesis of an atherosclerosis and destabilization of the atherosclerotic plaque. However ways of liquidation of inflammatory process at this disease are not found. Heterogeneity of initiation of the system inflammatory answer at an atherosclerosis causes necessity of studying factors of an inflammation and its correlation with traditional metabolic disorders at an atherosclerosis of various localizations.
Proteins of acute phase of an inflammation, general blood count and markers of oxidizing stress are analyzed in this article. Materials and methods of research included the analysis of the clinic and laboratory data at 30 patients with a peripheral (in iliac-femoral arterial pool) atherosclerosis (PA) and at 43 patients with coronary atherosclerosis (CA). It is established, that all patients have high level of C-reactive protein (CRP) in blood serum. It increases more, then 2 times concerning the control at all patients, but relationships of cause and effect of this increase at PА and CА were various.
There are strong and positive correlation between CRP and blood glucose level, between CRP and low density lipoprotein cholesterol, CRP and triglycerides at CA patients. There was found correlation between CRP and body mass index, CRP and systolic blood pressure (SBP) at CA patients. This data suggest that the inflammation at CА is closely connected with metabolic disorders. On the contrary, at a peripheral atherosclerosis this dependence is not revealed. Correlation between CRP and total white blood cells (WBC) was (r = 62, p > 0,05), its specifies the contribution of local inflammatory reaction of peripheral tissues after chronic ischemia at PA patients. Expressed correlation between blood glucose, SBP and an inflammation, testifies to importance of metabolic syndrome in inflammation development at CA patients.
Comparative estimation of inflammatory factors at peripheral and coronary atherosclerosis has shown that PA is characterized by the inflammatory reaction with high CRP level which correlates with a WBC accumulation; the oxidizing stress has the compensated character. CA is characterized by high CRP level which correlates with components of a metabolic syndrome; oxidizing stress is strong and accompanied by activation of antioxidant systems.

Keywords: 

A coronary atherosclerosis, an atherosclerosis in iliac-femoral arterial pool, a metabolic syndrome, oxidizing stress, an inflammation

https://elibrary.ru/item.asp?id=23917476

For citation:
Khaybullina Z. R., Abdullaeva S. D., Sobirov J. G. Comparative evaluation of inflammation factors at the peripheral and coronary atherosclerosis. Novosibirsk State Pedagogical University Bulletin, 2015, vol. 5, no. 4, pp. 68–76. DOI: http://dx.doi.org/10.15293/2226-3365.1504.07
References: 
  1. Pavlunina T. O., Shuvalova J. A., Chimney V. I. Association between interleykin-6, high density lipoproteins cholesterol levels and atherosclerotic damage degree in coronary arteries. The Atherosclerosis and dyslipidemia. 2013, no. 4, pp. 57–62. (In Russian)
  2. Barbarash O. L., Avramenko O. E., Osokina A. V., Sumin A. N., Veremeev A. V. The role of proinflammatory factors in an estimation of the forecast of patients with a progressing stenocardia in a combination to a  types  2 diabetes. Diabetes. 2012, no. 4, pp. 39–45.  (In Russian)
  3. Niy V. A. Optimization of surgical treatment of patients with obliterating atherosclerosis of arteries of legs by application of enterosorbtion. Novosibirsk, 2005. (In Russian).
  4. Chen S., Crother T., Arditi M. Emerging role of  IL-17 in Atherosclerosis. J. Innate Immun. 2010, no. 2, pp. 325–333.
  5. Gurevich V. S. Modern concepts of the pathogenesis of atherosclerosis. Cardiovascular diseases. 2006, no. 4, pp. 4–8.
  6. Szodoray P., Timar O, Veres K et all. TH1/TH2 imbalance, measured by circulating and intracytoplasmic imflammatoty cytokines-immunological alteration in acute coronary syndrome and stable coronary artery disease.  Scand  J. immunol. 2006, no. 64(3), pp. 336–344.
  7. Kishkun A. A. Management on laboratory methods of diagnostics. Moscow, GEOTAR-Media Publ., 2007. (In Russian).
  8. Barkagan Z. S., Momot A. P. Diagnostics and controllable therapy of clotting disturbances.  Moscow,  Newdiamed Publ., 2001. (In Russian).
  9. Ivchenko O. A. Clinical-pathogenesis bases of methods of correction of Lerish syndrome  and atherosclerotic occlusions of arteries of the legs. Moscow, 1990. (In Russian).
  10. Khaybullina Z. R., Kosnikova I. V. Metabolic disorders at patients with ischemic heart disease at various types of myocardium vascularization disturbances. Universum: Medicine and fharmacology: electron scientific journal. 2014, no. 4 (5).  Available at: http://7universum.com/ru/med/archive/item/1226 (accessed 13.04.2015) (In Russian)
  11. Mishalov V. G., Litvinova N. Ju. Feature of surgical treatment of atherosclerotic defeat in brachio-cephalic arteries at patients with accompanying ischemic heart desease. Heart and vessels. 2003, no. 1, pp. 90–96. (In Ukraine).
  12.  Nikolaev Ju. A., Seljatitskaja V. G., Mitrofanov I. M., Poles In. I., Lutov  J. V. Dynamics of prevalence dislipidemya at workers in Yakut industrial region.  An atherosclerosis. 2012, no. 1, pp. 21–26. (In Russian).
  13. Mit'kovskaja N. P., Grigorenko E. A., Patekzh I. V., Statkevich T. V., Kurak T. A., Terehov V. I., Shved M. V., Shumskaya E. N. Early diagnostics of an atherosclerosis (lecture). Cardiology in Belorussia. 2012, no. 6 (25), pp. 134–155. (In Russian).
  14. Udachkina E. V., Novikova D. S., Popkova T. V., Nasonov E. L. Role of IL-6 in development of an atherosclerosis at rheumatoidal arthritis. Modern rheumatology. 2013, no. 3, pp. 25–32. (In Russian).
  15. Carriere V., Roussel L., Ortega N., Lacorre D., Americh L., Aguilar L., Bouche G., Girard J.
    IL-33, the IL-1-like cytokine ligand for ST2 receptor is a chromatin-associated nuclear factor in vivoPNAS. 2007, no. 104, pp. 282–287.

Alarconi P. I. M., Moore-Carrascol R., Argiles J. M. Hemostasis alterations in metabolic syndrome (Review). International journal of molecular medicine. 2006, no. 18, pp. 969–974. 

Date of the publication 13.08.2015