Проблема биосовместимости и тромбогенности устройств вспомогательного кровообращения

сердечная недостаточность, трансплантация сердца, вспомогательное кровообращение, тромбоз, устройства механической поддержки кровообращения

1. Barnard CN. Human cardiac transplant: An interim report of a successful operation performed at Groote Schuur Hospital, Cape Town. South African Medical Journal. 1967; 41 (48): 1271–1274.

2. Blood N.H.S. Transplant. Organ Donation and Transplantation activity figures for the UK as at 12 April 2013. 2014.

3. Messer S, Ardehali A, Tsui S. Normothermic donor heart perfusion: current clinical experience and the future. Transplant International. 2015; 28 (6): 634–642.

4. Canadian Institute for Health Information. Canadian Organ Replacement Register Annual Report: Treatment of End-Stage Organ Failure in Canada, 2004 to 2013. Ottawa, ON: Canadian Institute for Health Information; (2015).

5. National Center for Health Statistics (US et al. Health, United States, 2018. 2019.

6. Готье СВ, Хомяков CМ. Донорство и трансплантация органов в Российской Федерации в 2018 году. XI сообщение регистра Российского трансплантологического общества. Вестник трансплантологии и искусственных органов. 2019; 21 (3): 7–32.

7. Ammar KA, Jacobsen SJ, Mahoney DW, Kors JA, Redfield MM, Burnett Jr JC, Rodeheffer RJ. Clinical perspective. Circulation. 2007; 115 (12): 1563–1570.

8. Englert JAR, Davis JA, Krim SR. Mechanical circulatory support for the failing heart: Continuous-flow left ventricular assist devices. Ochsner Journal. 2016; 16 (3): 263–269.

9. Mehta PA, Dubrey SW, McIntyre HF, Walker DM, Hardman SM, Sutton GC, Cowie MR. Improving survival in the 6 months after diagnosis of heart failure in the past decade: population-based data from the UK. Heart. 2009; 95 (22): 1851–1856.

10. Rogers JG, Pagani FD, Tatooles AJ, Bhat G, Slaughter MS, Birks EJ, Gregoric ID. Intrapericardial left ventricular assist device for advanced heart failure. New England Journal of Medicine. 2017; 376 (5): 451–460.

11. Massad MG, McCarthy PM, Smedira NG, Cook DJ, Ratliff NB, Goormastic M, Stewart RW. Does successful bridging with the implantable left ventricular assist device affect cardiac transplantation outcome? The Journal of thoracic and cardiovascular surgery. 1996; 112 (5): 1275–1283.

12. Simon MA, Kormos RL, Murali S, Nair P, Heffernan M, Gorcsan J, McNamara DM. Myocardial recovery using ventricular assist devices: prevalence, clinical characteristics, and outcomes. Circulation. 2005; 112 (9_supplement): I-32–I-36.

13. Kirklin JK et al. The fourth INTERMACS annual report: 4,000 implants and counting. The Journal of Heart and Lung Transplantation. 2012; 31 (2): 117–126.

14. Парашин ВБ, Иткин ГП, Щукин СИ. Биомеханика кровообращения. М.: Изд-во МГТУ, 2005. Parashin VB, Itkin GP, Shchukin SI. Biomechanics of blood circulation. M.: Publishing house of MSTU, 2005.

15. Жульков МО, Головин АМ, Головина ЕО, Гренадеров АС, Фомичев АВ, Альсов СА, Чернявский АМ. Исследование гемолитических свойств насоса дискового типа. Патология кровообращения и кардиохирургия. 2020; 24 (1): 87–93.

16. Medvedev AE, Fomin VM, Chernyavskiy AM, Prikhodko YM, Zhulkov MO, Golovin AM. Implanted system of mechanical support of the disk-based heart pump viscous friction. AIP Conference Proceedings. AIP Publishing LLC, 2018; 2027 (1): 030149.

17. Holman WL, Pae WE, Teutenberg JJ, Acker MA, Naftel DC, Sun BC, Kirklin JK. INTERMACS: interval analysis of registry data. Journal of the American College of Surgeons. 2009; 208 (5): 755–761.

18. Rafii S, Oz MC, Seldomridge JA, Ferris B, Asch AS, Nachman RL, Levin HR. Characterization of hematopoietic cells arising on the textured surface of left ventricular assist devices. The Annals of thoracic surgery. 1995; 60 (6): 1627–1632.

19. Menconi MJ, Pockwinse S, Owen TA, Dasse KA, Stein GS, Lian JB. Properties of blood-contacting surfaces of clinically implanted cardiac assist devices: Gene expression, matrix composition, and ultrastructural characterization of cellular linings. Journal of cellular biochemistry. 1995; 57 (3): 557–573.

20. Kirklin JK, Naftel DC, Pagani FD, Kormos RL, Stevenson L, Miller M, Young JB. Long-term mechanical circulatory support (destination therapy): on track to compete with heart transplantation? The Journal of thoracic and cardiovascular surgery. 2012; 144 (3): 584–603.

21. Maltais S, Kilic A, Nathan S, Keebler M, Emani S, Ransom J, Entwistle III JW. PREVENtion of HeartMate II pump thrombosis through clinical management: the PREVENT multi-center study. The Journal of Heart and Lung Transplantation. 2017; 36 (1): 1–12.

22. Kreuziger LB, Slaughter MS, Sundareswaran K, Mast AE. Clinical relevance of histopathologic analysis of HeartMate II thrombi. ASAIO journal (American Society for Artificial Internal Organs: 1992). 2018; 64 (6): 754.

23. Maltais S, Kilic A, Nathan S, Keebler M, Emani S, Ransom J, Entwistle III JW. PREVENtion of HeartMate II pump thrombosis through clinical management: the PREVENT multi-center study. The Journal of Heart and Lung Transplantation. 2017; 36 (1): 1–12.

24. Hamaguchi S, Hirose T, Akeda Y, Matsumoto N, Irisawa T, Seki M, Tomono K. Identification of neutrophil extracellular traps in the blood of patients with systemic inflammatory response syndrome. Journal of international medical research. 2013; 41 (1): 162–168.

25. Büller HR, Bethune C, Bhanot S, Gailani D, Monia BP, Raskob GE, Weitz JI. Factor XI antisense oligonucleotide for prevention of venous thrombosis. New England Journal of Medicine. 2015; 372 (3): 232–240.

26. Zimpfer D, Netuka I, Schmitto JD, Pya Y, Garbade J, Morshuis M, Sood P. Multicentre clinical trial experience with the HeartMate 3 left ventricular assist device: 30-day outcomes. European Journal of Cardio-Thoracic Surgery. 2016; 50 (3): 548–554.

27. Netuka I, Sood P, Pya Y, Zimpfer D, Krabatsch T, Garbade J, Damme L. Fully magnetically levitated left ventricular assist system for treating advanced HF: a multicenter study. Journal of the American College of Cardiology. 2015; 66 (23): 2579–2589.

28. Krabatsch T, Netuka I, Schmitto JD, Zimpfer D, Garbade J, Rao V, Pya Y. Heartmate 3 fully magnetically levitated left ventricular assist device for the treatment of advanced heart failure – 1 year results from the Ce mark trial. Journal of cardiothoracic surgery. 2017; 12 (1): 23.

29. Zhigalov K, Mashhour A, Szczechowicz M, Mkalaluh S, Karagezian S, Gogia I, Eichstaedt HC. Clinical Outcome and Comparison of three different left ventricular assist devices in a high-risk cohort. Artificial organs. 2018; 42 (11): 1035–1042.

30. Smedira NG, Blackstone EH, Ehrlinger J, Thuita L, Pierce CD, Moazami N, Starling RC. Current risks of HeartMate II pump thrombosis: non-parametric analysis of Interagency Registry for Mechanically Assisted Circulatory Support data. The Journal of Heart and Lung Transplantation. 2015; 34 (12): 1527–1534.

31. Medvedev AE, Fomin VM, Samsonov VI. Mathematical modeling of the blood flow in blood vessels. Circulatory System and Arterial Hypertension: Experimental Investigation, Mathematical and Computer Simulation. 2012: 55–114.

32. Медведев АЕ. Двухфазная модель течения крови. Российский журнал биомеханики. 2013; 4. Medvedev AE. Two- phase model of blood flow. Russian journal of biomechanics. 2013; 4.

33. Izraelev V et al. A passively-suspended Tesla pump left ventricular assist device. ASAIO journal (American Society for Artificial Internal Organs: 1992). 2009; 55 (6): 556.

34. Grenadyorov AS, Solovyev АА, Oskomov KV, Onischenko SA, Chernyavskiy AM, Zhulkov MO, Kaichev VV. Modifying the surface of a titanium alloy with an electron beam and aC: H: SiOx coating deposition to reduce hemolysis in cardiac assist devices. Surface and Coatings Technology. 2020; 381: 125113.

35. Жульков МО, Головин АМ, Головина ЕО, Гренадеров АС, Фомичев АВ, Альсов СА, Чернявский АМ. Исследование гемолитических свойств насоса дискового типа. Патология кровообращения и кардиохирургия. 2020; 24 (1): 87–93.