Smart Search 



Title of the article DEFINITION OF BIOMATERIALS' PROPERTIES ON BASE OF THE NANOINDENTATION TECHNOLOGIES. PART 3. CLINICAL TRIAL RESULTS
Authors

ZHURAVKOV M.A., Dr. Phys.-Math. Sc., Professor, Minister of Education of the Republic of Belarus, Ministry of Education of the Republic of Belarus, Minsk, Republic of Belarus
MITKOVSKAY N.P., Dr. Med. Sc., Professor, Head of the 3rd Department of Internal Diseases, Belarusian state Medical University, Minsk, Republic of Belarus
LASKINA O.V., Assistant of the 3rd Department of Internal Diseases, Belarusian State Medical University, Minsk, Republic of Belarus
ROMANOVA N.S., Research Associate of the Theoretical and Applied Mechanics Department, Belarusian State University, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.
PROHOROV N.A., Master's Student of the Mechanics and Mathematical Faculty, Belarusian State University, Minsk, Republic of Belarus, This email address is being protected from spambots. You need JavaScript enabled to view it.

In the section BIOMECHANICS
Year 2015 Issue 2 Pages 74-79
Type of article RAR Index UDK 539.2/.6+612.76+519.68: [5/6+3] Index BBK  
Abstract This paper is a part of the series of works which are devoted to development of analytical and experimental methods to estimate the physical and mechanical properties of biomaterials and biostructures. Proposed methods are designed on the basis of nanoindentation and atomic force microscopy (AFM). Results of hemorheological modifications study due to changes in the physico-mechanical properties of erythrocytes under the influence of coronary heart disease, acute coronary syndrome are presented this paper. The effectiveness of ultraviolet modifications and extracorporeal blood autogemomagnitoterapii for real patients is shown.
Keywords physical and mechanical properties of red blood cells (erythrocytes), hemorheological modifications, viscoelasticity model of fractional order modified algorithm Creek, UV modification of blood and extracorporeal autogemomagnitoterapiya, acute coronary syndrome
  You can access full text version of the article
Bibliography
  • World Health Statistics - Geneva (CH): World Health Organization, 2013. 172 p.
  • Laskina O.V., Zalesskay G.A., Mitkovskay N.P. Electrophoreticheskay podvignost u pacientov s ostrim koronarnim sindromom v prothesse provedeniya ultrafioletovoi modifikatsii krovi i ekstrakorporalnoi autogemomagnitoterapii [Electrophoretic mobility of erythrocytes in patients with acute coronary syndrome in the course of UV modification and extracorporeal blood autogemomagnitoterapii]. Antikoagulyantnya terapia na sovremennom urovne [Anticoagulation therapy at the present level], 2010, pp. 42-46.
  • Zhuravkov M., Romanova N. Fractional viscoelastic models in biomechanics. The First Workshop on fractional calculus and its applications. Al-Ain, United Arab Emirates, 2013.
  • Lyusov V.A., Parphenov A.S. Gemostaz i reologiya krovi pri razlichnix formax ishemicheskoi bolezni serdtsa [Hemostasis and blood rheology in various forms of ischemic heart disease]. Actualnie problemi gemostaziologii [Actual problems of Hemostasis]. Minsk, 1979. 140 p.
  • Roytman E.V. Klinicheskaya gemoreologiya [Clinical hemorheology]. Tromboz, gemostaz i reology [Thrombosis, hemostasis and rheology], 2003, no. 3(15), pp. 14-15.
  • Petrochenko E.P., Tixomirova I.A., Petrochenko A.S. Vliyanie aspirina na reologicheskie svoystva [Effect of aspirin on blood rheology in patients with coronary heart disease]. Matematicheskaya morfologia [Mathematical morphology], 2008, vol. 7(1).
  • Zhuravkov M., Drozd L., Romanova N., Krupoderov A. Mechanical-mathematical modelling of biological tissue behaviour. Analytic Methods in Interdisciplinary Applications. Springer Proccedings in Mathematics & Statistics, 2015, vol. 116, pp. 153-181.
  • Zhuravkov M., Romanova N., Prokhorov N. Ob opredelenii svoystv biomaterialov na osnove tekhnologii nanoindentirovania. Chast 1. Modifikatsia modeley kontaktnoy mekhaniki pri modelirovanii protsesov nanoindentirovanya [Definition of biomaterials' properties on base of the nanoindentation technologies. Part 1. Modification of classical contact mechanics models for the using in the modeling of nanoindentation processes]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and materials], 2015, vol. 1, pp. 47-57.
  • Zhuravkov M., Romanova N., Prokhorov N. Ob opredelenii svoystv biomaterialov na osnove tekhnologii nanoindentirovania. Chast 2. Metodiki opredeleniya tochki kontakta v metode silovoy spektroskopii [Definition of biomaterials' properties on base of the nanoindentation technologies. Part 2. Techniques for determining the point of contact in the method of force spectroscopy ]. Mekhanika mashin, mekhanizmov i materialov [Mechanics of machines, mechanisms and
    materials], 2015, vol. 1, pp. 58-65.
  • Laskina O.V., Mitkovskaya N.P., Zalesskaya G.A., Ulaschik V.S. Primenenie ultrafioletovoy modifikatsii krovi dlya lechenia bolnikh s ostrim koronarnim sindromom [Application of UV modification of blood for the treatment of patients with acute coronary syndrome]. Aktualnie voprosi kardiologii [Cardiology Update]. Minsk, 2010, pp. 167-175.
  • Zalesskay G.A., Akulich A.V., Marochkov A.V., Laskina O.V., Mitkovskaya N.P. Opticheskie metody korrektsii kislorodtransportnykh kharakteristik krovi i ikh biomeditsinskie primeneniya [Optical methods for correcting blood oxygen
    transport characteristics and their biomedical applications]. Zhurnal prikladnoy spektr. [Journal of Applied Spectroscopy], 2010, vol. 77(3), pp.451-459.