Дмитрий Викторович Телышев, канд. техн. наук, доцент, кафедра биомедицинских систем, Национальный исследовательский университет «МИЭТ», г. Москва, г. Зеленоград, e-mail: telyshev@bms.zone
1. Moazami N., Fukamachi K., Kobayashi M. et al. Axial and centrifugal continuous-flow rotary pumps: A translation from pump mechanics to clinical practice // The Journal of Heart and Lung Transplantation. 2013. Vol. 32. № 1. PP. 1-11. 2. Salamonsen R.F., Mason D.G., Ayre P.J. Response of rotary blood pumps to changes in preload and afterload at a fixed speed setting are unphysiological when compared with the natural heart // Artificial Organs. 2011. Vol. 35. № 3. PP. 47-53. 3. Fukamachi K., Shiose A., Massiello A. et al. Preload sensitivity in cardiac assist devices // The Annals of Thoracic Surgery. 2013. Vol. 95. № 1. PP. 373-380. 4. Gregory S.D., Stevens M., Timms D., Pearcy M. Replication of the Frank-Starling response in a mock circulation loop / IEEE EMBS Conference proceedings. 2011. P. 6825. 5. Khalil H.A., Cohn W.E., Metcalfe R.W., Frazier O.H. Preload sensitivity of the Jarvik 2000 and HeartMate II left ventricular assist devices // American Society for Artificial Internal Organs Journal. 2008. Vol. 54. № 3. PP. 245-248. 6. Petukhov D.S., Telyshev D.V. Analysis of the preload and afterload sensitivity of the Sputnik rotary blood pump // Biomedical Engineering. 2016. Vol. 49. № 6. PP. 362-365. 7. Camboni D., Zerdzitzki M., Hirt S. et al. Reduction of INCOR® driveline infection rate with silicone at the driveline exit site // Interactive Cardiovascular and Thoracic Surgery. 2016 (в пе- чати). 8. Frazier O.H., Gemmato C., Myers T.J. et al. Initial clinical experience with the HeartMate® II Axial-Flow left ventricular assist device // Texas Heart Institute Journal. 2007. Vol. 34. PP. 275-281. 9. Selishchev S., Telyshev D. Ventricular assist device Sputnik: Description, technical features and characteristics // Trends in Biomaterials and Artificial Organs. 2015. Vol. 29. № 3. PP. 207-210. 10. Selishchev S.V., Telyshev D.V. Optimisation of the Sputnik- VAD design // The International Journal of Artificial Organs. 2016 (в печати). 11. Larose J.A., Tamez D., Ashenuga M., Reyes C. Design Concepts and Principle of Operation of the HeartWare Ventricular Assist System // American Society for Artificial Organs Journal. 2010. Vol. 56. № 4. PP. 285-289. 12. Nojiri C., Kijima T., Maekawa J. et al. Recent progress in the development of Terumo implantable left ventricular assist system // American Society for Artificial Organs Journal. 1999. Vol. 45. PP. 199-203. 13. Salamonsen R.F., Mason D.G., Ayre P.J. Response of rotary blood pumps to changes in preload and afterload at a fixed speed setting are unphysiological when compared with the natural heart // Artificial Organs. 2011. Vol. 35. № 3. PP. 47-53. 14. Fukamachi K., Shiose A., Massiello A. et al. Preload sensitivity in cardiac assist devices // The Annals of Thoracic Surgery. 2013. Vol. 95. № 1. PP. 373-380. 15. Moazami N., Fukamachi K., Kobayashi M. et al. Axial and centrifugal continuous-flow rotary pumps: A translation from pump mechanics to clinical practice // The Journal of Heart and Lung Transplantation. 2013. Vol. 32. № 1. PP. 1-11.