CONTRIBUTION OF COMPOSITE AND STRUCTURAL CHANGES OF THE VASCULAR WALL TO THE ARTERIAL STIFFNESS INCREASE
https://doi.org/10.29235/1814-6023-2018-15-2-146-150
Abstract
The dependence of increase in arterial stiffness on changes in the intima-media thickness and elasticity of material of a vascular wall is established. On the basis of this dependence it is shown that for the common carotid artery of healthy people, the contribution of changes in the intima-media thickness to the general change in arterial stiffness is 2−3 times more than the contribution of changes in elasticity of material of a vascular wall.
About the Authors
E. I. Gaishun
1th City Hospital.
Belarus
Belarus
Elena I. Gaishun – Ph. D. (Med.), Head of the Department.
64, Nezavisimosti Ave., 220072, Minsk.
I. V. Gaishun
Institute of Mathematics of the National Academy of Sciences of Belarus.
Belarus
Belarus
Ivan V. Gaishun – Academician, Director.
11, Surganov Str., 220072, Minsk.
I. I. Zaradey
1th City Hospital.
Belarus
Belarus
Igor I. Zaradey – Ph. D. (Med.), cardiologist.
64, Nezavisimosti Ave., 220072, Minsk.
References
1. Ageev F. T., Orlova Ya. A., Nuraliev E. Yu., Baldina O. N., Fofanova T. V., Yarovaya E. B. Pulse wave velocity − predictor of cardiovascular complications in men with coronary heart disease. Kardiologicheskii vestnik [Cardiologic Herald], 2007, vol. 2, no. 1, pp. 17-22 (in Russian).
2. Orlova Ya. A., Ageev F. T. Arterial stiffness as an integral indicator of cardiovascular risk: physiology, assessment methods and drug correction. Serdtse [Heart], 2006, vol. 5, no. 2, pp. 65-69 (in Russian).
3. Kingwell B. A., Gatzka C. D. Arterial stiffness and prediction of cardiovascular risk. Journal of Hypertension, 2002 20, no. 12, pp. 2337-2340. DOI: 10.1097/00004872-200212000-00006
4. Mattace-Raso F. U. S., van der Cammen T. J.M., Hofman A., van Popele N. M., Bos M. L., Schalekamp M. A. D. H., Asmar R., Reneman R. S., Hoeks A. P. G., Breteler M. M. B., Witteman J. C. M. Arterial stiffness and risk of coronary heart and stroke: the Rotterdam Study. Circulation, 2006, vol. 113, pp. 657-663. DOI: 10.1161/CIRCULATIONAHA.105.555235
5. Weber T., Auer J., O’Rourke M. F., Kvas E., Lassnig E., Berent R., Eber B. Arterial stiffness, wave reflections and risk of coronary artery diseases, 2004, vol. 109, pp. 184-189. DOI: 10.1161/01.CIR.0000105767.94169.E3
6. Gaishun E. I., Gaishun I. V., Pristrom A. M. Arterial damping function and non-invasive methods of its evaluation. Minsk, Belaruskaya navuka Publ., 2016. 92 r. (in Russian).
7. Manak N. A., Pristrom A. M., Gaishun E. I. Interrelation of different indices of elasticity of arterial vessels. Zdravookhranenie [Health care], 2010, no. 6, pp. 36-38 (in Russian).
8. Kawasaki T., Sasyama S., Yagi S.-I., Asakawa T., Hirai T. Noninvasive assessment of the age related changes in stiffness of major branches of human arteries. Cardiovascular, 1987, vol. 21, no. 9, pp. 678-687. DOI: 10.1093/cvr/21.9.678
Review
For citations:
Gaishun E.I., Gaishun I.V., Zaradey I.I. CONTRIBUTION OF COMPOSITE AND STRUCTURAL CHANGES OF THE VASCULAR WALL TO THE ARTERIAL STIFFNESS INCREASE. Proceedings of the National Academy of Sciences of Belarus, Medical series. 2018;15(2):146-150. (In Russ.) https://doi.org/10.29235/1814-6023-2018-15-2-146-150
Views: 515
Email this article 