대한의용생체공학회:의공학회지 (Journal of Biomedical Engineering Research)

  • 제22권4호
  • /
  • Pages.349-358
  • /
  • 2001
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  • 1229-0807(pISSN)
  • /
  • 2288-9396(eISSN)
대한의용생체공학회 (The Korean Society of Medical and Biological Engineering)
권호 표지

전기-기계식 이식형 좌심실 보조 시스템의 개발 및 평가

Development and Evaluation of a Novel Electro-mechanical Implantable Ventricular Assist System

  • 조한상 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 김원곤 (서울대학교 의과대학 흉부외과) ;
  • 이원용 (한림대학교 강동성심병원 흉부외과) ;
  • 곽승민 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 김삼성 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 김재기 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 김준택 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 류문호 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층) ;
  • 류은숙 ((주)바이오메드랩, 서울시 종로구 동숭동 1-49번지 동숭빌딩 4층)
  • 발행 : 2001.08.01
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초록

A novel electro-mechanical implantable ventricular assist system is developed as a bridge to transplantation or recovery for patients with end-stage heart failure. The developed system is composed of an implanted blood pump, an external monitoring system which stores data, and a wearable system including a portable external driver and a portable power supply system. The blood pump is designed to be implanted into the left upper abdominal space and provides blood flow from the left ventricular apex to the aorta. The pulsatile blood flow is generated by a double cylindrical cam. There was mo excessive heat emission from the blood pump into the temperature-controlled chamber in the heat test and no stagnated flow within the blood sac by the observation in the flow visualization test. Animal experiments were performed using sheep and calves. The maximum assist flow rate reached 7.85L/min in the animal experiment. The evaluation results showed that the developed system was feasible for the implantable ventricular assist system. The long-term in vitro durability test and mid-term in vivo experiments are in progress and mow the modified next model is under development.

키워드

참고문헌

  1. Can.J.Cardiol. v.12 no.10 Mechanical circulatory support as a bridge to transplantation: Past, present and future Wilbert J.Keon;Donald B.Olsen
  2. Artificial organs v.11 no.3 Implantable ventricular assist systems Frank D.Altieri;John T.Watson
  3. ASAIO J. Ventricular assist and total artificial heart devices for clinical use in 1993 John R.Rowles;Bradley J.Mortimer;Danald B.Olsen
  4. American J Surgery v.140 Development of a totally implantable electrically actuated left ventricular assist system Philip E.Oyer;Edward B.Stinson;Peer M.Portner;Allen K.Ream;Norman E.Shumway
  5. J Thorac Cardiovasc Surg v.88 Investigation with an implantable, electrically actuated ventricular assist device William F.Bernhard;Warren C.Clay;Robert Burgeson;Anthony J.Melaragno
  6. Ann Thorac Surg v.68 Progress with the HeartSaver ventricular assist device Tofy Mussivand;Paul J.Hendry;Roy G.Masters;Mike King;Kevin S.Holmes;Wilbert J.Keon
  7. Ann Thorac Surg v.71 Research and development of an implantable axial-flow left ventricular assist device: the Jarvik 2000 heart O.H.Frazier;Timothy J.Myers;Robert K.Jarvik;Stephen Westaby;David W.Pigott;Igor D.Gregoric;Tehreen Khan;Daniel W.Tames;Jeff L.Conger;Michael P.Macris
  8. ASAIO J v.46 no.2 Development of a new implantable ventricular assist device H.Cho;W.W.Choi;J.Kim;B.G.Min
  9. ASAIO J v.47 no.2 An outomatic driving method for a pulsatile implantable ventricular assist device M.H.Ryu;J.S.Choi;J.Kim;B.G.Min
  10. ASAIO J v.47 no.2 Development of an implantable ventricular assist system with a cylindrical cam H.Cho;W.Kim;J.Kim;B.G.Min
  11. Cardiovascular Engineering, Part Ⅳ: Protheses, assist and artificial organs D.N.Chista;Hamilton,Ont.
  12. The CIBA Collection of Medical Illustration v.5-Heart F.H.Netter