The Effect of Pulsatile Flow on Ultrafiltration In-Vitro Study and Comparison with Roller Pump |
Lee K.
(Interdisciplinary Program in Medical and Biomedical Engineering Major, Seoul National University, Institute of Medical Engineering, Medical Research Center, Seoul National University, Cancer Research Center, Seoul National University Hospital, Korea Artificial Organ Center, Korea University)
Jeong J. H. (Interdisciplinary Program in Medical and Biomedical Engineering Major, Seoul National University, Institute of Medical Engineering, Medical Research Center, Seoul National University, Cancer Research Center, Seoul National University Hospital, Korea Artificial Organ Center, Korea University) Mun C. H. (Interdisciplinary Program in Medical and Biomedical Engineering Major, Seoul National University, Institute of Medical Engineering, Medical Research Center, Seoul National University, Cancer Research Center, Seoul National University Hospital, Korea Artificial Organ Center, Korea University) Lee J. C. (Interdisciplinary Program in Medical and Biomedical Engineering Major, Seoul National University, Institute of Medical Engineering, Medical Research Center, Seoul National University, Cancer Research Center, Seoul National University Hospital, Korea Artificial Organ Center, Korea University) Min B. G. (Department of Biomedical Engineering, College of Medicine, Seoul National University, Institute of Medical Engineering, Medical Research Center, Seoul National University, Cancer Research Center, Seoul National University Hospital, Korea Artificial Organ Center, Korea University) |
1 | F. Dapper, H. Neppl, G. Wozniak, I. Strube, B. Zickmann, F. W. Hehrlein, et al., 'Effects of pulsatile and nonpulsatile perfusion mode during extracorporeal circulation- comparative clinical study', Thorac Cardiovasc Surg, Vol.40, pp.345-51, 1992 DOI ScienceOn |
2 | A. Undar, N. Henderson, G. B. Thurston, T. Masai, E. A. Beyer, O. H. Frazier, et al., 'The effects of pulsatile versus non pulsatile perfusion on blood viscoelasticity before and after deep hypothermic circulatory arrest in a neonatal piglet model', Artif Organs, Vol.23, pp.717-21, 1999 DOI ScienceOn |
3 | J. T. Daugirdas and J. C. Van Stone, 'Physiologic principles and urea kinetic modeling. In: Daugirdas JT, Blake PG, Ing TS, eds. Handbook of dialysis', Lippincott Williams & Wilkins, pp.15-45, 2000 |
4 | A. Undar, O. H. Frazier and C. D. Fraser, Jr., 'Defining pulsatile perfusion: quantification in terms of energy equivalent pressure', Artif Organs, Vol.24, pp.712-6, 1999 |
5 | A. Undar, T. Masai, S. Q. Yang, H. C. Eichstaedt, M. C. McGarry, W. K. Vaughn, et al., 'Pulsatile perfusion improves regional myocardial blood flow during and after hypothermic cardiopulmonary bypass in a neonatal piglet model', Asaio J, Vol.48, pp.90-5, 2002 DOI ScienceOn |
6 | A. Undar, T. Masai, O. H. Frazier and C. D. Fraser, Jr., 'Pulsatile and non pulsatile flows can be quantified in terms of energy equivalent pressure during cardiopulmonary bypass for direct comparisons', Asaio J, Vol.45, pp.610-4, 1999 DOI PUBMED |
7 | I. S. Chiu, S. H. Chu and C. R. Hung, 'Pulsatile flow during routine cardiopulmonary bypass', J Cardiovasc Surg, Vol.25, pp.530-6, 1984 |
8 | L. W. Henderson, 'Biophysics of ultrafiltration and hemofiltration. In: Jacobs C, Kjellstrand CM, Koch KM, Winchester JF, eds. Replacement of Renal Function By Dialysis', Dordrecht; Boston Kluwer Academic Publishers, pp.113-145, 1996 |
9 | T. M. Runge, J. C. Briceno, M. E. Sheller, C. E. Moritz, L. Sloan, F. O. Bohls, et al., 'Hemodialysis: evidence of enhanced molecular clearance and ultrafiltration volume by using pulsatile flow', Int J Artif Organs, Vol.16, pp.645-52, 1993 |
10 | M. Ruperez, C. Sanchez, C. Garcia, E. Garcia, J. Lopez-Herce, F. J. Del Canizo, et al., 'Continuous venovenous renal replacement therapy using a pulsatile blood pump', Pediatr Nephrol, Vol.18, pp.29-32, 2003 DOI ScienceOn |
11 | A. Undar, 'Fundamentals of pulsatile versus nonpulsatile flow during chronic support', Asaio J, Vol.49, pp.139-40, 2003 DOI |
12 | H. Matsuda, H. Hirose, S. Nakano, R. Shirakura, M. Ohtani, M. Kaneko, et al., 'Results of open heart surgery in patients with impaired renal function as creatinine clearance below 30 ml/min. The effects of pulsatile perfusion', J Cardiovasc Surg, Vol.27, pp.595-9, 1986 |
13 | L. A. Pedrini and V. De Cristofaro, 'On-line mixed hemodiafiltration with a feedback for ultrafiltration control: effect on middle-molecule removal', Kidney Int, Vol.64, pp.1505-13, 2003 DOI ScienceOn |
14 | A. Sezai, M. Shiono, Y. Orime, K. Nakata, M. Hata, M. Iida, et al., 'Microcirculation of kidney and skin during left ventricular assisted circulation--comparative studies of pulsatile and nonpulsatile assists', Jpn J Thorac Cardiovasc Surg, Vol.46, pp.1239-46, 1998 DOI PUBMED ScienceOn |
15 | A. Sezai, M. Shiono, Y. Orime, K. Nakata, M. Hata, H. Yamada, et al., 'Renal circulation and cellular metabolism during left ventricular assisted circulation: comparison study of pulsatile and non pulsatile assists', Artif Organs, Vol.21, pp.830-5, 1997 DOI ScienceOn |
16 | B. Krause, M. Storr, T. Ertl, R. Buck, H. Hildwein, R. Deppisch, et al., 'Polymetric Membranes for Medical applications', Chemie Ingenieur Technik, Vol. 75, pp.1725-1732, 2003 DOI ScienceOn |
17 | A. Undar, 'Controversy over the benefits of pulsatile perfusion', Int J Artif Organs, Vol.27, pp.509-10; author reply 511-2, 2004 |
18 | K. M. Taylor, G. S. Wright, J. M. Reid, W. H. Bain, P. K. Caves, M. S. Walker, et al., 'Comparative studies of pulsatile and nonpulsatile flow during cardiopulmonary bypass. II. The effects on adrenal secretion of cortisol', J Thorac Cardiovasc Surg, Vol.75, pp.574-8, 1978 PUBMED |
19 | Y. Orime, M. Shiono, H. Hata, S. Vagi, S. Tsukamoto, H. Okumura, et al., 'Cytokine and endothelial damage in pulsatile and nonpulsatile cardiopulmonary bypass', Artif Organs, Vol.23, pp.508-12, 1999 DOI ScienceOn |
20 | Y. R. Rho, H. Choi, J. C. Lee, S. W. Choi, Y. M. Chung, H. S. Lee, et al., 'Applications of the pulsatile flow versatile ECLS; in vivo studies', Int J Artif Organs, Vol.26, pp.428-35, 2003 |
21 | A. Undar, 'Energy equivalent pressure formula is for precise quantification of different perfusion modes', Ann Thorac Surg, Vol.76, pp.1777-8, 2003 PUBMED |
22 | A. Undar and C. D. Fraser, Jr., 'Influence of pulsatile and non pulsatile left heart bypass on the hormonal circadian rhythm', Asaio J, Vol.47, pp.305-7, 2001 DOI ScienceOn |
23 | S. Troyanov, J. Cardinal, D. Geadah, D. Parent, S. Courteau, S. Caron, et al., 'Solute clearances during continuous venovenous haemofiltration at various ultrafiltration flow rates using Multiflow-100 and HF1000 filters', Nephrol Dial Transplant, Vol.18, pp.961-6, 2003 DOI ScienceOn |
24 | K. Nakata, M. Shiono, Y. Orime, M. Hata, A. Sezai, T. Saitoh, et al., 'Effect of pulsatile and nonpulsatile assist on heart and kidney microcirculation with cardioqenic shock', Artif Organs, Vol.20, pp.681-4, 1996 DOI ScienceOn |
25 | A. Undar and C. D. Fraser, Jr., 'The alphabet of research on pulsatile and nonpulsatile (continuous flow) perfusion during chronic support', Artif Organs, Vol.26, pp.812-3; author reply 813-5, 2002 DOI ScienceOn |