Computational fluid dynamics analysis to establish the design process of a centrifugal blood pump: second report Y Miyazoe, T Sawairi, K Ito, Y Konishi, T Yamane, M Nishida, B Asztalos, ... Artificial organs 23 (8), 762-768, 1999 | 82 | 1999 |
Development of Design Methods of a Centrifugal Blood Pump with In Vitro Tests, Flow Visualization, and Computational Fluid Dynamics: Results inHemolysis Tests K Takiura, T Masuzawa, S Endo, Y Wakisaka, E Tatsumi, Y Taenaka, ... Artificial organs 22 (5), 393-398, 1998 | 69 | 1998 |
Computational fluid dynamic analyses to establish design process of centrifugal blood pumps Y Miyazoe, T Sawairi, K Ito, Y Konishi, T Yamane, M Nishida, T Masuzawa, ... Artificial organs 22 (5), 381-385, 1998 | 66 | 1998 |
Development of design methods for a centrifugal blood pump with a fluid dynamic approach: results in hemolysis tests T Masuzawa, T Tsukiya, S Endo, E Tatsumi, Y Taenaka, H Takano, ... Artificial organs 23 (8), 757-761, 1999 | 61 | 1999 |
Improvement of hemocompatibility in centrifugal blood pump with hydrodynamic bearings and semi‐open impeller: in vitro evaluation R Kosaka, O Maruyama, M Nishida, T Yada, S Saito, S Hirai, T Yamane Artificial organs 33 (10), 798-804, 2009 | 44 | 2009 |
Flow visualization study to improve hemocompatibility of a centrifugal blood pump M Nishida, B Asztalos, T Yamane, T Masuzawa, T Tsukiya, S Endo, ... Artificial organs 23 (8), 697-703, 1999 | 42 | 1999 |
New mechanism to reduce the size of the monopivot magnetic suspension blood pump: Direct drive mechanism T Yamane, M Nishida, T Kijima, J Maekawa Artificial Organs 21 (7), 620-624, 1997 | 39 | 1997 |
Flow visualization as a complementary tool to hemolysis testing in the development of centrifugal blood pumps T Yamane, B Asztalos, M Nishida, T Masuzawa, K Takiura, Y Taenaka, ... Artificial organs 22 (5), 375-380, 1998 | 36 | 1998 |
Simple in vitro testing method for antithrombogenic evaluation of centrifugal blood pumps O Maruyama, Y Tomari, D Sugiyama, M Nishida, T Tsutsui, T Yamane ASAIO Journal 55 (4), 314-322, 2009 | 31 | 2009 |
Hemolysis resulting from surface roughness under shear flow conditions using a rotational shear stressor O Maruyama, M Nishida, T Yamane, I Oshima, Y Adachi, T Masuzawa Artificial organs 30 (5), 365-370, 2006 | 31 | 2006 |
Geometric optimization for non-thrombogenicity of a centrifugal blood pump through flow visualization M Toyoda, M Nishida, O Maruyama, T Yamane, T Tsutsui, Y Sankai JSME International Journal Series C Mechanical Systems, Machine Elements and …, 2002 | 31* | 2002 |
Fluid dynamic characteristics of monopivot magnetic suspension blood pumps T Yamane, M Nishida, B Asztalos, T Tsutsui, T Jikuya ASAIO Journal 43 (5), M639, 1997 | 31 | 1997 |
Hemocompatibility of a hydrodynamic levitation centrifugal blood pump T Yamane, O Maruyama, M Nishida, R Kosaka, D Sugiyama, Y Miyamoto, ... Journal of Artificial Organs 10, 71-76, 2007 | 30 | 2007 |
Hemocompatibility evaluation with experimental and computational fluid dynamic analyses for a monopivot circulatory assist pump M Nishida, O Maruyama, R Kosaka, T Yamane, H Kogure, H Kawamura, ... Artificial Organs 33 (4), 378-386, 2009 | 28 | 2009 |
The most profitable use of flow visualization in the elimination of thrombus from a monopivot magnetic suspension blood pump T Yamane, O Maruyama, M Nishida, M Toyoda, T Tsutsui, T Jikuya, ... Artificial organs 28 (4), 390-397, 2004 | 27 | 2004 |
Flow visualization analysis for evaluation of shear and recirculation in a new closed‐type, monopivot centrifugal blood pump B Asztalos, T Yamane, M Nishida Artificial organs 23 (10), 939-946, 1999 | 26 | 1999 |
Geometric optimization of a step bearing for a hydrodynamically levitated centrifugal blood pump for the reduction of hemolysis R Kosaka, T Yada, M Nishida, O Maruyama, T Yamane Artificial organs 37 (9), 778-785, 2013 | 25 | 2013 |
Enhancement of hemocompatibility of the MERA monopivot centrifugal pump: toward medium‐term use T Yamane, R Kosaka, M Nishida, O Maruyama, Y Yamamoto, K Kuwana, ... Artificial organs 37 (2), 217-221, 2013 | 24 | 2013 |
Hemolysis caused by surface roughness under shear flow O Maruyama, Y Numata, M Nishida, T Yamane, I Oshima, Y Adachi, ... Journal of Artificial Organs 8, 228-236, 2005 | 24 | 2005 |
Effect of Impeller Geometry on Lift‐Off Characteristics and Rotational Attitude in a Monopivot Centrifugal Blood Pump M Nishida, K Nakayama, D Sakota, R Kosaka, O Maruyama, Y Kawaguchi, ... Artificial organs 40 (6), E89-E101, 2016 | 23 | 2016 |