Russian versionEnglish version   
Volume 14   Issue 2   Year 2019
Isaev E.A.1, Pervukhin D.V.1, Kornilov V.V.1, Tarasov P.A.1, Grigoriev A.A.1, Rudyak Y.V.2, Rytikov G.O.2, Nazarov V.G.2

Platelet Adhesion Quantification to Fluorinated Polyethylene from the Structural Caracteristics of Its Surface

Mathematical Biology & Bioinformatics. 2019;14(2):420-429.

doi: 10.17537/2019.14.420.



  1. Zaramensky E.P., Isaev E.A., Korovkina N.L. Intellectualization of information processing in the electronic medical monitoring system. Mathematical Biology and Bioinformatics. 2016;2:288-298. doi: 10.17537/2016.11.288
  2. Nazipova N.N., Isaev E.A., Kornilov V.V., Pervukhin D.V., Ustinin M.N., Morozova A.A., Gorbunov A.A. Big data in bioinformatics. Mathematical Biology and Bioinformatics. 2017;12(1):102-119. doi: 10.17537/2017.12.102
  3. Rudyak Yu.V., Golinkov Yu.P. Automated generation of thematic collections of electronic documents based on a full-text database. News of Higher Educational Institutions. Problems of Printing and Publishing. 2003;2:57-61.
  4. Golinkov Yu.P., Margolin L.N., Rudyak Yu.V. Database of econometric analysis of the book market. News of Higher Educational Institutions. Problems of Printing and Publishing. 2007;1:181-189.
  5. Rudyak Yu.V. The principles of data organization in information testing systems. News of Higher Educational Institutions. Problems of Printing and Publishing. 2011;5:074-079.
  6. Rudyak Yu.V., Rytikov G.O., Nazarov V.G. The principles of data organization in automated systems for processing research results. News of Higher Educational Institutions. Problems of Printing and Publishing. 2017;4:48-60.
  7. Isaev E.A., Kornilov V.V. The problem of processing and storage of large amounts of scientific data and approaches to its solution. Mathematical Biology and Bioinformatics. 2013;8(1):49-65. doi: 10.17537/2013.8.49
  8. Kornilov V.V., Isaev E.A., Isaev K.A. Prospects for the use of data centers in solving problems of mathematical biology and bioinformatics. Mathematical Biology and Bioinformatics. 2015;10(1):60-71. doi: 10.17537/2015.10.60
  9. Isaev E.A., Tarasov P.A., Kornilov V.V., Detkov G.V. Using a three-tier client-server architecture in modern information processing systems. Proceedings of the Institute of Engineering Physics. 2015;3(37):38-43.
  10. Isaev E.A., Kornilov V.V., Tarasov P.A. Scientific computer networks - problems and successes in organizing the exchange of large amounts of scientific data. Mathematical Biology and Bioinformatics. 2013;8(1):161-181. doi: 10.17537/2013.8.161
  11. Nichiporovich L.N., Volkova T.V., Ryasensky S.S., Gorelov I.P. Electrochemical sensors based on films of electrically conductive polymer-poly (m-toluidine). Physical Chemistry of Polymers: Synthesis, Properties and Applications. 1998(4):107-112.
  12. Evtyugin G.A., Budnikov G.K., Ivanov A.N., Suprun E.V. Disposable amperometric biosensors in environmental and analytical control. Microsystem Technology. 2001;7:3.
  13. Soldatkin A.P., Dzyadevych S.V., Korpan Ya.I., Sergeyeva T.A., Arkhypova V.M., Biloivan O.A., Soldatkin O.O., Shkotova L.V., Zinchenko O.A., Peshkova V.M., Saiapina O.Ya., Marchenko S.V., El’skaya A.V. Biosensors. A quarter of a century of R&D experience. Biopolymers and Cell. 2013;29(3):188-206. doi: 10.7124/bc.000819
  14. Karaseva N.A., Soboleva I.G., Ermolaeva T.N. Mass-sensitive sensors for determining antibiotics based on polymers with molecular imprints obtained by electrochemical polymerization. Sorption and Chromatographic Processes. 2013;13(1):5-9.
  15. Shakirova E.M., Zemlyakova E.I. Assessment of blood tests in general medical practice. Practical Medicine. 2011;1(48):25-28.
  16. Sidorova M.A., Serzhantova N.A. Features of the use of biochemical blood tests in the screening diagnosis of pathologies of the cardiovascular system. XXI century: results of the past and problems of the present plus. 2013;1(9):121-126.
  17. Dolzhikov A.A., Schekina E.N. Information and computer support for making diagnostic decisions in the screening of liver diseases by blood analysis. Provincial Scientific Notes. 2016;2(4):162-170.
  18. Morugova T.V., Shestakova M.V. Individual and hospital glucometers: a balance between undeniable benefits and safety. Consilium Medicum. 2014;16(4):19-22.
  19. Biryukova E.V. Self-control of glycemia: the shelf life of test strips matters. Farmateka. 2017;5(338):21-27.
  20. Kolesnichenko O. Evolution of test strips for portable glucometers. Contour Plus: a glycemic monitoring system with innovative test strips. Remedium. Magazine on the Russian Market of Medicines and Medical Equipment. 2017;4:44-47.
  21. Sidorenko E.S., Fadeev A.A. Thrombosis of mechanical prosthetic heart valves: the dominant material or structural form? In: Byulleten' NTSSSKH im. A.N. Bakuleva RAMN «Serdechno-Sosudistyye Zabolevaniya» (Bulletin NTSSSH them. A.N. Bakuleva RAMS Cardiovascular diseases). 2012;13(S3):120 (in Russ.).
  22. Popova I.V., Stepanova A.O., Sergeevichev D.S., Akulov A.E., Zakharova I.S., Pokushalov A.A., Laktionov P.P., Karpenko A.A. A comparative study of three types of prostheses made by electrospinning in an in vitro and in vivo experiment. Circulatory Pathology and Cardiac Surgery. 2015;19(4):63-71.
  23. Sevastyanova V.V., Elgudin Y.A., Glushkova T.V., Vnek G., Lyubysheva T., Emancipator S., Kudryavtseva Yu.A., Borisov VV, Golovkin A.S., Barbarash L.S. The use of prostheses from polycaprolactone for vessels of small diameter. Angiology and Vascular Surgery. 2015;21(1):4-53.
  24. Sevastyanov V.I. Biomaterials, drug delivery systems and bioengineering. Bulletin of Transplantology and Artificial Organs. 2009;11(3):69-80.
  25. Bogdanova Yu.G., Dolzhikova V.D., Mazhuga A.G., Shapagin A.V., Chalykh A.E. Energy characteristics of the surfaces of polyolefin ketones at various interfaces. News of the Academy of Sciences. Chemical Series. 2010;7:1313.
  26. Datieva F.S., Khetagurova L.G. The effect of the BIORITM-E phytococktail and the SKVAAKAN shark liver experimental preparation on microcirculation, platelet aggregation, and vascular wall thromboresistance in the experiment. Bulletin of Experimental Biology and Medicine. 2012;154(8):183-187.
  27. Viktorova I.A., Grishechkina I.A., Kiseleva D.S. Diagnosis and treatment of type 2 diabetes mellitus on an outpatient basis: clinical recommendations and real practice. General Practitioner Guide. 2013;8:14-20.
  28. Kournikova I.A., Kochemasova T.V. Non-drug methods in the treatment of endocrine diseases: current state of the problem. Basic Research. 2014;10-9:1858-1865.
  29. Sevastyanov V.I., Nemets E.A., Stolyarov V.P., Baranov V.A., Bozhko N.N., Nazarov V.G. A comparative study of the influence of some methods of surface modification of polyethylene films on the interaction with blood components. Promising Materials. 2010;4:41-48.
  30. Bozhko N.N., Stolyarov V.P., Doronin F.A., Nazarov V.G. Plasma-chemical surface treatment of polymer films. In: Interaction of Ions with the Surface of VIP-2015 Proceedings of the XXII International Conference. 2015:214-217.
  31. Nazarov V.G., Stolyarov V.P., Evlampieva L.A., Baranov V.A., Gagarin M.V. Simulation of sulfonation and structure of surface layer in polyethylene. Polymer Science. Series A. 2009;51(3):340-349.
  32. Nazarov V.G., Kondratov A.P., Stolyarov V.P., Evlampieva L.A., Baranov V.A., Gagarin M.V. Morphology of the surface layer of polymers modified by gaseous fluorine. Polymer Science. Series A. 2006;48(11):1164-1170.
  33. Kopachev E.S., Nozdrachev S.A., Petrushin V.N., Rudyak Yu.V., Rytikov G.O., Nazarov V.G. A comprehensive method for characterizing surface images of polymer composite materials. Physical Mesomechanics. 2015;18(6):98-110.
  34. Drozdov S.A., Nazarov V.G., Nozdrachev S.A., Rudyak Yu.V., Rytikov G.O. The polymer composites’ morphological structure simulation. Nanosystems: Physics, Chemistry, Mathematics. 2017;8(1):137-145. doi: 10.17586/2220-8054-2017-8-1-137-145
Table of Contents Original Article
Math. Biol. Bioinf.
doi: 10.17537/2019.14.420
published in Russian

Abstract (rus.)
Abstract (eng.)
Full text (rus., pdf)


  Copyright IMPB RAS © 2005-2019