Mechanical circulation support of the treatment for children with end-stage chronic heart failure
Russian Journal of Transplantology and Artificial Organs
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Mechanical circulation support of the treatment for children with end-stage chronic heart failure
Механическая поддержка кровообращения в лечении детей с терминальной сердечной недостаточностью |
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S. Gautier V.; V.I. Shumakov National Medical Research Center of Transplantology and Artificial Organs of the Ministry of Healthcare of the Russian Federation I.M. Sechenov First Moscow State Medical University of the Ministry of Healthcare of the Russian Federation G. Itkin P.; V.I. Shumakov National Medical Research Center of Transplantology and Artificial Organs of the Ministry of Healthcare of the Russian Federation Moscow Institute of Physics and Technology (State University) O. Dmitrieva Yu.; V.I. Shumakov National Medical Research Center of Transplantology and Artificial Organs of the Ministry of Healthcare of the Russian Federation V. Kozlov A.; V.I. Shumakov National Medical Research Center of Transplantology and Artificial Organs of the Ministry of Healthcare of the Russian Federation С. Готье В.; ФГБУ «Национальный медицинский исследовательский центр трансплантологии и искусственных органов имени академика В.И. Шумакова» Минздрава России ФГАОУ ВО «Первый Московский государственный медицинский университет имени И.М. Сеченова» Минздрава России (Сеченовский университет) Г. Иткин П.; ФГБУ «Национальный медицинский исследовательский центр трансплантологии и искусственных органов имени академика В.И. Шумакова» Минздрава России Московский физико-технический институт (государственный университет) О. Дмитриева Ю.; ФГБУ «Национальный медицинский исследовательский центр трансплантологии и искусственных органов имени академика В.И. Шумакова» Минздрава России В. Козлов А.; ФГБУ «Национальный медицинский исследовательский центр трансплантологии и искусственных органов имени академика В.И. Шумакова» Минздрава России Московский физико-технический институт (государственный университет) |
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heart transplantation; waiting list; congenital heart diseases; cardiomyopathy; pediatric mechanical circulatory support; extracorporeal membrane oxygenation; left ventricular bypass; biventricular bypass; pulsatile flow pumps; nonpulsatile flow pumps
трансплантация сердца;лист ожидания;врожденные пороки сердца;кардиомиопатия;педиатрическая механическая поддержка кровообращения;экстракорпоральная мембранная оксигенация;левожелудочковый обход;бивентрикулярный обход;насосы пульсирующего потока;насосы непульсирующего потока |
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| Description |
Over the last decades mechanical circulation support has become one of the most effective treatment methods for patients with terminal heart failure. Unfortunately, in pediatrics this method is generally used on a short-term basis and includes, first of all, extracorporeal membranous oxygenation and left ventricular bypass by means of the extracorporeal centrifugal pumps. Nevertheless, using of these methods in children allowed considerably reducing mortality on the waiting list for heart transplant. Today, practically the only method of long term mechanical circulatory support in newborns and children at an early age being used is the system of paracorporeal artificial ventricles EXCOR, the usage of which results in larger problems of thrombosis. There is little clinical experience in using of the fully implanted systems developed for adults in older children. Therefore, as shown in the present review, the problem of creating long term circulatory support systems for newborns and younger children on the basis of the implanted pumps continues to be relevant.
Механическая поддержка кровообращения за последние десятилетия стала одним из наиболее эффективных средств лечения больных с терминальной сердечной недостаточностью. К сожалению, в педиатрии данный метод в основном используется для кратковременного подключения, и к нему относятся прежде всего экстракорпоральная мембранная оксигенация и левожелудочковый обход с помощью экстракорпорального подключения центробежных насосов. При этом применение данных методов у детей позволило значительно уменьшить смертность в листе ожидания на трансплантацию сердца. На сегодняшний день практически единственным методом длительной механической поддержки кровообращения у новорожденных и детей младшего возраста является система паракорпорального подключения искусственных желудочков EXCOR, применение которых связано с большими проблемами тромбоосложнений. Имеется относительно небольшой клинический опыт использования полностью имплантируемых систем, разработанных для взрослых, у детей старшего возраста. Поэтому, как показано в настоящем обзоре, задача создания систем длительной поддержки кровообращения для новорожденных и детей младшего возраста на основе имплантируемых насосов является актуальной. |
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| Publisher |
Academician V.I.Shumakov National Medical Research Center of Transplantology and Artificial Organs", Ministry of Health of the Russian Federation
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| Date |
2017-09-17
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info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion — — |
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application/pdf
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| Identifier |
http://journal.transpl.ru/vtio/article/view/785
10.15825/1995-1191-2017-3-93-103 |
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Russian Journal of Transplantology and Artificial Organs; Том 19, № 3 (2017); 93-103
Вестник трансплантологии и искусственных органов; Том 19, № 3 (2017); 93-103 2412-6160 1995-1191 10.15825/1995-1191-2017-3 |
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rus
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http://journal.transpl.ru/vtio/article/view/785/656
Christianson A, Howson CP, Modell B. March of Dimes Global Report on Birth Defects: The Hidden Toll of Dying and Disabled Children. March of Dimes Birth Defects Foundation; 2006. Boucek MM, Aurora P, Edwards LB, Taylor DO, Trulock EP, Christie J et al. Registry of the International Society for Heart and Lung Transplantation: tenth official pediatric heart transplantation report – 2007. J. Heart Lung Transplant. 2007; 26 (8): 796–807. doi: 10.1016. Almond CSD., Ravi R, Thiagarajan RR, Piercey GE, Gary EP, Gauvreau K, Blume ED, Bastardi HJ et al. Waiting list mortality among children listed for hearttransplantation in the United States. Circulation. 2009; 119: 717–727. Mah D, Singh TP, Thiagarajan RR, Gauvreau K, Piercey G, BS, Blume ED et al. Incidence and risk factors for mortality in infants awaiting heart transplantation in the USA. J. Heart Lung Transplant. 2009; 28: 1292–1298. Cohen G, Permut L. Decision making for mechanical cardiac assistrance in pediatric cardiac surgery. Semin.Thorac. Cardiovasc. Surg. Pediatr. Card. Surg. Annu. 2005; 8: 41–50. Brancaccio G, Filippelli S, Michielon G et al. Ventricular assist devices as a bridgetoheart transplantation or as destination therapy in pediatric patients. Transplant. Proc. 2012; 44: 2007–2012. Zafar F, Castleberry C, Khan MS, Mehta V, Bryant R, Lots A et al. Pediatric heart transplant waiting list mortality in the era of ventricular devices assist. J. Heart Lung Transplant. 2015; 34 (1): 82–88. doi: 10.1016. Dipchand AI, Edwards LB, Kucheryavaya AY, Benden C, Dobbels F, Levvey BJ et al. The Registry of the International Society for Heart and Lung Transplantation: Seventeenth Official Pediatric Heart Transplantation Report – 2014; Focus Theme: Retransplantation. J. Heart Lung Transplant. 2014 Oct; 33 (10): 985–995. doi: 10.1016. Rosenthal DN, Dubin AM, Chin C, Falco D, Gamberg P, Bernstein D. Outcome while awaiting heart transplantation in children: a comparison of congenital heart disease and cardiomyopathy. J. Heart Lung Transplant. 2000 Aug; 19 (8): 751–755. Throckmorton AL, Lopez-Isaza S, Downs EA, Chopski SG, Gangemi JJ, Moskowitz WA. Viable therapeutic option: mechanical circulatory support of the failing Fontan physiology. Pediatr. Cardiol. 2013; 34: 1357– 1365. Blume ED, Naftel DC, Bastardi HJ, Duncan BW, Kirklin JK, Webber SA. Outcomes of children bridged to heart transplantation with ventricular assist devices: a multi- institutional study. Circulation. 2006; 113 (19): 2313–2319. Gupta S, Woldendorp K, Muthiah K, Robson D, Prichard R, Macdonald PS et al. Normalisation of haemodynamics in patients with end-stage heart failure with continuous-flow left ventricular assist device therapy. Heart Lung Circ. 2014; 23: 963– 969. Philip T, Thrush PT, Canter CE. Looking to the future of ventricular assist devices in pediatric cardiomyopathy. Progress in Pediatric Cardiology. 2015; 39: 21–23. Fan Y, Weng YG, Xiao YB, Huebler M, Franz N, Potapov E et al. Outcomes of ventricular assist device support inyoung patients with small body surface area. Eur. J. Cardiothorac. Surg. 2011; 39: 699–704. doi: 10.1016. Bartoli CR, Koenig SC, Ionan C, Gillars KJ, Mitchell ME, Austin EH et al. Extracorporeal membrane oxygenation versus counterpulsatile, pulsatile, and continuous left ventricular unloading for pediatric mechanical circulatory support. Pediatr. Crit. Care Med. 2013 Nov; 14 (9): e424–37. doi: 10.1097. Canter CE, Simpson K. Diagnosis and treatment of myocarditis in children in thecurrent era. Circulation. 2014; 129: 115–128. doi: 10.1161. Chang AC, McKenzie ED. Mechanical cardiopulmonary support in children and young adults: extracorporeal membrane oxygenation, ventricular assist devices, and long-term support devices. Pediatr. Cardiol. 2005; 26: 2–28. doi: 10.1007. Baldwin JT, Brian W, Duncan BW. Ventricular assist devices for children. Pediatric. Cardiology. 2006; 21: 173–184. Bryant R 3rd, Zafar F, Castiederry C, Jeffeies J, Lots A, Chin C, Morales DL. Transplant survival after Berlin Heart EXCOR support. ASAIO Journal. 2017; 63: 80– 85. doi: 10.1097. Pennington GD, Swartz MT. Circulatory support in infants and children. Ann. Thorac. Surg. 1993; 35: 233–237. Throckmorton AL, Allaire PE, Gutgesell HP, Matherne GP, Olsen DB. et al. Pediatric Circulatory Support Systems. ASAIO Journal. 2002; 48: 216–221. Konertz W, Hotz H, Schneider M, Redlin M, Reul H. Clinical experience with the MEDOS HIA-VAD system in infants and children: A preliminaryreport. Ann. Thorac. Surg. 1997; 63: 1138–1144. Duncan BW. Pediatric Mechanical Circulatory Support. ASAIO Journal. 2005; 51: ix–xiv. Jacobs JP, Ojito JW, McConaghey TW, Boden BD, Chang A, Aldousany A et al. Rapid cardiopulmonary support for children with complex congenital heart disease. Ann. Thorac. Surg. 2000; 70: 742–750. Mascio CE. The use of ventricular assist device support in children: the state of the art. Artif. Organs. 2015; 39: 14–20. doi: 10.1111aor.12439. Duncan BW, Ibrahim AE, Hraska V, del Nido PJ, Laussen PC, Wessel DL et al. Use of rapid-deployment extracorporeal membrane oxygenation for the resuscitation of pediatric patients with heart disease after cardiac arrest. J. Thorac. Cardiovasc. Surg. 1998 Aug; 116 (2): 305– 311. Karl TR. Extracorporeal circulatory support in infants and children. Semin. Thorac. Cardiovasc. Surg. 1994; 6 (3): 154–160. Готье СВ, Попцов ВН, Спирина ЕА. Экстракорпоральная мембранная оксигенация в кардиохирургии и трансплантологии. М.–Тверь: Триада, 2013. 272. Goutier SV, Popcov VN, Spirina EA. Extracorporeal membrane oxygenation in cardiosurgery and transplantology. M.–Tver: Triada, 2013. 271. Wang DHJ, Smith DE, Bacha EA, Hijazi M, Magovern JA. Development of percutaneous pediatric venricle assist device. ASAIO J. 2005; 51: 551–556. doi: 10.1097/01.mat.oooo181635.70527.c1. Wu Z.J,, Gellman B., Zhang T., Taskin M.E., Dasse K.A., Griffith B.P. Computational Fluid Dynamics and Experimental Characterization of the Pediatric Pump-Lung. Cardiovasc. Eng. Technol. 2011 Dec 1; 2 (4): 276–287. doi: 10.1007. Philipp A, Arlt M, Amann M et al. First experience with the ultra compact mobile extracorporeal membrane oxygenation system Cardiohelp in interhospital transport. Interact. Cardiovasc. Thorac. Surg. 2011; 12: 978–981. Moat NE, Pawade A, Levis BC, Shore G, Lamb RK, Monro JJ. Circulatory support in infants with post-cardiopulmonary bypass left ventricular dysfunction using a left ventricular assist device. Eur. J. Cardiothorac. Surg. 1994; 4: 649–652. Scheinin SA, Radovancevic B, Parnis SM, Ott DA, Bricker JT, Towbin JA et al. Mechanical circulatory support in children. J. Cardiol. Thorac. Surg. 1994; 8: 537–540. Karl TR, Sano S, Horton S, Mee RB. Centrifugal pump left heart assist in pediatric cardiac operations. J. Thorac. Cardiovasc. Surg. 1991; 102: 624–630. Conway J, Al-Aklabi M, Granoski D, Islam S, Ryerson L, Anand V et al. Supporting pediatric patients with shortterm continuous-flow devices. J. Heart Lung Transplant. 2016 May; 35 (5): 603–609. doi: 10.1016. Wang DHJ, Smith DE, Bacha EA, Hijaz ZM, Magovern JA. Development of a percutaneous pediatric ventricular assistdevice. ASAIO Journal. 2005; 51: 551–556. Hetzer R, Loebe M, Potapov E, Weng Y, Stiller B, Hennig E et al. Circulatory supportwith pneumatic paracorporeal ventricular assist device in infants andchildren. The Annals of Thoracic Surgery. 1998; 66: 1498–1506. Rockett SR, Bryant JC, Morrow WR, Frazier EA, Fiser WP, McKamie WA et al. Preliminary single center North American experience with the Berlin Heart pediatric EXCOR device. ASAIO Journal. 2008; 54: 479–482. doi: 10.1097. Duncan B, Hraska V, Jonas R, Wessel D, Del Nido P, Laussen P et al. Mechanical circulatory support in children with cardiac disease. J. Thorac. Cardiovasc. Surg. 1999; 117: 529–542. doi: 10.1016. Ibrahim AE, Duncan BW, Blume ED, Jonas RA. Longterm follow-up of pediatric cardiac patients requiring mechanical circulatory support. Ann. Thorac. Surg. 2000; 69 (1): 186–192. Baldwin JT, Borovetz HS, Duncan BW, Gartner MJ, Jarvik RK, Weiss W.J. The national heart, lung, and blood institute pediatric circulatory support program: a summary of the 5-year experience. Circulation. 2006; 123 (11): 147–155. doi: 10.1161. Johnson CA Jr, Vandenberghe S, Daly AR, Woolley JR, Snyder ST, Verkaik JE et al. Biocompatibility assessment of the first generation PediaFlow pediatric ventricular assist device. Artif. Organs. 2011 Jan; 35 (1): 9–21. doi: 10.1111. Duncan BW, Dudzinski DT, Gu L, Mielke N, Noecker AM, Kopcak MW et al. The PediPump: development status of a new pediatric ventricular assist device: update II. ASAIO J. 2006 Sep-Oct; 52 (5): 581–587. Wei X, Li T, Li S, Son HS, Sanchez PG, Niu S et al. Preclinical evaluation of the infant Jarvik 2000 heart in a neonate piglet model. J. Heart Lung Transplant. 2013 Jan; 32 (1): 112–119. doi: 10.1016. Stein ML, Dao DT, Doan LN, Reinhartz O, Maeda K, Hollander SA et al. Ventricular assist devices in a contemporary pediatric cohort: Morbidity, functional recovery, and survival. J. Heart Lung Transplant. 2016; 35 (1): 92–98. doi: 10.1016/j.healun.2015.06.006. Zafar F, Castleberry C, Khan MS, Mehta V, Bryant R, Lorts A et al. Pediatric heart transplant waiting list mortality in the era of ventricular devices assist. J. Heart Lung Transplant. 2015; 34 (1): 82–88. Wehman B, Stafford KA, Bittle GJ, Kon ZN, Charles F, Evans CF et al. Circulatory Support as a Bridge to Pediatric Heart Transplantation. Ann. Thorac. Surg. 2016; 101 (6): 2321–2327. doi: 10.1016. Davies RR, Haldeman S, McCulloch MA, Pizarro C. Ventricular assist devices as a bridge-to-transplant improve early post-transplant outcomes in children. J. Heart Lung Transplant. 2014; 33: 704–712. doi: 10.1016. Merkle F, Boettcher W, Stiller B, Hetzer R. Pulsatile mechanical cardiac assistance in pediatric patients with the Berlin heart ventricular assist device. J. Extra Corpor. Technol. 2003; 35: 115–120. Stiller B, Weng Y, Hübler M et al. Pneumatic pulsatile ventricular assist devices in children under 1 year of age. Eur. J. Cardiothorac. Surg. 2005; 28: 234–239. Gandhi SK, Huddleston CB, Balzer DT, Epstein DJ, Boschert TA, Canter CE. Biventricular assist devices as a bridge to heart transplantation in small children. Circulation. 2008; 118 (suppl 14): S89–S93. Rockett SR, Bryant JC, Morrow WR et al. Preliminary single center North American experience with the Berlin Heart pediatric EXCOR device. ASAIO J. 2008; 54: 479–482. Dipchand AI, Kirk R, Edwards LB et al. International Society for Heart and Lung Transplantation: The Registry of the International Society for Heart and Lung Transplantation: Sixteenth Official Pediatric Heart Transplantation Report – 2013; focus theme: Age. J. Heart Lung Transplant. 2013; 32: 979–988. Jordan LC, Ichord RN, Reinhartz O, Humpl T, Pruthi S et al. Neurological complications and outcomes in the Berlin Heart EXCOR® pediatric investigational device exemption trial. J. Am. Heart Assoc. 2015; 4: e001429. doi: 10.1161/JAHA.114.001429. Duncan B, Bohn D, Atz A, French J, Laussen P, Wessel D. Mechanical circulatory support for the treatment of children with acute fulminantmyocarditis. J. Thorac. Cardiovasc. Surg. 2001; 122: 440–448. doi: 10.1067/mtc.2001.115243. Chen Y, Yu H, Huang S, Chiu K, Lin T, Lai L et al. Experience and result of extracorporeal membrane oxygenation in treating fulminant myocarditis with shock: What mechanical support should be considered first? J. Heart Lung Transplant. 2005; 24: 81–87. doi: 10.1016/j.healun.2003.09.038. Grinda J, Chevalier P, D’Attellis N, Bricourt M, Berrebi A et al. Fulminant myocarditis in adults and children: bi-ventricular assist device for recovery. Eur. J. Cardiothorac. Surg. 2004; 26: 1169–1173. doi: 10.1016/j.ejcts.2004.05.059. Morales DL, Dibardino DJ, McKenzie ED, Heinle JS, Chang AC, Loebe M et al. Lessons learned from the first application of the DeBakey VAD Child: anintracorporeal ventricular assist device for children. J. Heart Lung Transplant. 2005; 24: 331–337. Cabrera AG, Sundareswaran KS, Samayoa AX et al. Outcomes of pediatric patients supported by the Heart- Mate II left ventricular assist device in the United States. J. Heart Lung Transplant. 2013; 32: 1107–1113. Frazier OH, Myers TJ, Jarvik RK, Westaby S, Pigott DW, Gregoric ID et al. Research and development of an implantable axial-flow left ventricular assist device: the Jarvik 2000. Heart. Ann. Thorac. Surg. 2001; 71: S125–S132. Rosenthal DN, Almond CS, Jaquiss RD, Peyton CE, Auerbach SR, Morales DR et al. Adverse events in children implanted with ventricular assist devices in the United States: Data from the Pediatric Interagency Registry for Mechanical Circulatory Support (PediMACS). J. Heart Lung Transplant. 2016: 35 (5): 569–77. doi: 10.1016/j. Di Molfetta A, Gandolfo F, Filippelli S, Perri G, Di Chiara L et al. The Use of Berlin Heart EXCOR VAD in children less than 10 kg: A single center experience. Front Physiol. 2016 Dec 6; 7: 614. doi: 10.338. |
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