Preliminary Study of a New Extracorporeal Membrane Oxygenator Development When Using Pulsatile Flow |
Lee, Sa-Ram
(Interdisciplinary Program in Medical and Biological Engineering Major, Seoul National University)
Lee, Kyung-Soo (Interdisciplinary Program in Medical and Biological Engineering Major, Seoul National University) Jung, Jae-Hoon (Interdisciplinary Program in Medical and Biological Engineering Major, Seoul National University) Mun, Cho-Hay (Interdisciplinary Program in Medical and Biological Engineering Major, Seoul National University) Min, Byoug-Goo (Interdisciplinary Program in Medical and Biological Engineering Major, Seoul National University) |
1 | H. Iwahashi, K. Yuri, Y. Nose, 'Development of the oxygenator: past, present, and future,' Journal of Artificial Organs, vol.7, pp.111-120, 2004 DOI |
2 | K. Tamesue, S. Ichiba, S. Nawa, N. Shimizu, 'An experimental study on pumpless extracorporeal membrane oxygenation (ECMO) support in a canine model,' Acta Medica Okayama, vol.60, pp.167-172, 2006 PUBMED |
3 | M. D. Veysel Kutay, M. D. Tevfik Noyan, M. D. Sedat Ozcan, M. D. Yasin Melek, M. D. Hasan Ekim, M. D. Cevat Yakut, 'Biocompatibility, of heparin-coated cardiopulmonary bypass circuits in coronary patients with left ventricular dysfunctin is superior to PMEA-coated circuits,' J. CARD. SURG., vol.21, pp.572-577, 2006 DOI ScienceOn |
4 | A. Undar, 'Pulsatile versus nonpulsatile cardiopulmonary bypass procedures in neonates and infants: from bench to clinical practice,' ASAIO Journal, vol.51, pp.vi-x, 2005 DOI ScienceOn |
5 | B. Ji, A. Undar, 'An evaluation of the benefits of pulsatile versus nonpulsatile perfusion during cardiopulmonary bypass procedures in pediatric and adult cardiac patients,' ASAIO Journal, vol.52, pp.357-361, 2006 DOI ScienceOn |
6 | F. Boschetti, K. E. Cook, C. E. Perlman, L. F. Mockros, 'Blood flow pulsatility effects upon oxygen transfer in artificial lungs,' ASAIO Journal, vol.49, pp.678-686, 2003 DOI ScienceOn |
7 | R. Bensberg, R. Dembinski, R. Kopp, R. Kuhlen, 'Artificial lung and extracorporeal gas exchange,' Panminerva Medica, vol.47, pp.11-17, 2005 PUBMED |
8 | E. Khoshbin, C. Westrope, S. Pooboni, D. Machin, H. Killer, G. J. Peek, A. W. Sosnowski, R. K. Firmin, 'Performance of polymethyl pentene oxygenators for neonatal extracorporeal membrane oxygenation: a comparison with silicone membrane oxygenators,' Perfusion, vol.20, pp.129-134, 2005 DOI |
9 | K. Lee, J. H. Jeong, C. H. Mun, J. C. Lee, B. G. Min, 'The Effect of Pulsatile Flow on Ultrafiltration In-Vitro Study and Comparison with Roller Pump,' J. Biomed. Eng. Res., vol.26, pp.337-341, 2005 과학기술학회마을 |
10 | G. Pennati, G. B. Fiore, F. Inzoli, F. Mastrantonio, D. Galavotti, M. Fini, 'Mass transfer efficiency of a commercial hollow fibre oxygenator during six-hour in vitro perfusion with steady and with pulsatile blood flow,' International Journal of Artificial Organs, vol.21, pp.97-106, 1998 |
11 | C. H. Lim, H. S. Son., 'Comparison of coronary artery blood flow and hemodynamic energy in a pulsatile pump versus a combined nonpulsatile pump and an intra-aortic balloon pump,' ASAIO Journal, vol.52, pp.595-597, 2006 |
12 | G. F. Cattaneo, H. Reul, T. Schmitz-Rode, U. Steinseifer, 'Intravascular blood oxygenation using hollow fibers in a disk-shaped configuration: experimental evaluation of the relationship between porosity and performance,' ASAIO Journal, vol.52, pp.180-185, 2006 DOI ScienceOn |
13 | H. K. Kim, H. S. Son, Y. H. Fang, S. Y. Park, C. M. Hwang, K. Sun, 'The effects of pulsatile flow upon renal tissue perfusion during cardiopulmonary bypass: a comparative study of pulsatile and nonpulsatile flow,' ASAIO Journal, vol.51, pp.30-36, 2005 DOI ScienceOn |
14 | D. Jegger, J. P. Revelly, J. Horisberger, I. Mallabiabarrena, I. Seigneul, M. Jachertz,L. K. Von Segesser, 'Ex vivo evaluation of a new extracorporeal lung assist device: NovaLung membrane oxygenator,' International Journal of Artificial Organs, vol.23, pp.985-999, 2005 |
15 | S. Agati, G. Ciccarello, 'Pulsatile ECMO and VAD: a dual use of a new device in pediatric cardiac patients,' ASAIO Journal, vol.52, pp.501-504, 2006 |
16 | M. W. Lim, 'The history of extracorporeal oxygenators,' Anaesthesia, vol.61, pp.984-995, 2006 DOI ScienceOn |
17 | S. Horton, C. Thuys, M. Bennett, S. Augustin, M. Rosenberg, C. Brizard, 'Experience with the Jostra Rotaflow and Quadrox oxygenator for ECMO,' Perfusion, vol.19, pp.17-23, 2004 DOI |
18 | G. Cattaneo, A. Strauss, H. Reul, 'Compact intra- and extracorporeal oxygenator developments,' Perfusion, vol.19, pp.251-255, 2004 DOI |
19 | X. M. Mueller, H. T. Tevaearai, M. Augstburger, J. Horisberger, L. K. von Segesser, 'Experimental evaluation of the Dideco D903 Avant 1.7 hollow-fibre membrane oxygenator,' Perfusion, vol.13, pp.353-359, 1998 DOI PUBMED ScienceOn |
20 | S. Agati, C. Mignosa, G. Ciccarello, S. Dario, A. Undar, 'Pulsatile ECMO in neonates and infants: first European clinical experience with a new device,' ASAIO Journal, vol.51, pp.508-512, 2005 DOI ScienceOn |
21 | J. B. Zwischenberger, C. M. Anderson, K. E. Cook, S. D. Lick, L. F. Mockros, R. H. Bartlett, 'Development of an implantable artificial lung: challenges and progress,' ASAIO Journal, vol.47, pp.316-320, 2001 DOI ScienceOn |
22 | K. E. Cook, C. E. Perlman, R. Seipelt, C. L. Backer, C. Mavroudis, L. F. Mockrost, 'Hemodynamic and gas transfer properties of a compliant thoracic artificial lung,' ASAIO Journal, vol.51, pp.404-411, 2005 DOI ScienceOn |
23 | H. Sato, I. Taga, 'In vitro evaluation of a newly developed implantable artificial lung.,' Acta Med Okayama, vol.60, pp.113-119, 2006 PUBMED |
24 | F. Mielck, M. Quintel, 'Extracorporeal membrane oxygenation,' Current Opinion in Critical Care, vol.11 , pp.87-93, 2005 DOI ScienceOn |