Pivot wear of a centrifugal blood pump developed for circulatory assist

被引:0
|
作者
Takashi Yamane
Katsunobu Nonaka
Hisashi Miyoshi
Osamu Maruyama
Masahiro Nishida
Ryo Kosaka
Yoshiyuki Sankai
Tatsuo Tsutsui
机构
[1] National Institute of Advanced Industrial Science and Technology,School of Engineering
[2] University of Tsukuba,School of Clinical Medicine
[3] University of Tsukuba,undefined
来源
Journal of Artificial Organs | 2008年 / 11卷
关键词
Artificial heart; Centrifugal pump; Pivot bearing; Durability; Hemocompatibility;
D O I
暂无
中图分类号
学科分类号
摘要
We are developing a monopivot centrifugal pump for circulatory assist for a period of more than 2 weeks. The impeller is supported by a pivot bearing at one end and by a passive magnetic bearing at the other. The pivot undergoes concentrated exposure to the phenomena of wear, hemolysis, and thrombus formation. The pivot durability, especially regarding the combination of male/female pivot radii, was examined through rotating wear tests and animal tests. As a result, combinations of similar radii for the male/female pivots were found to provide improved pump durability. In the extreme case, the no-gap combination would result in no thrombus formation.
引用
收藏
页码:232 / 237
页数:5
相关论文
共 50 条
  • [41] Simulation studies on the hemodynamics of a centrifugal ventricular assist pump
    Feng H.
    Wang D.
    Wang K.
    Zhu M.
    International Journal of Fluid Machinery and Systems, 2019, 12 (03) : 181 - 188
  • [42] Centrifugal blood pump with a hydraulically-levitated impeller for a permanently implantable biventricular assist device
    Watanabe, K
    Ichikawa, S
    Asai, T
    Motomura, T
    Hata, A
    Ito, S
    Shinohara, T
    Tsujimura, S
    Glueck, JA
    Oestmann, DJ
    Nosé, Y
    ARTIFICIAL ORGANS, 2004, 28 (06) : 556 - 563
  • [43] Evaluation of hemolysis in a pulsatile assist device for centrifugal pump
    Iwaya, F
    Igari, T
    Hoshino, S
    Hikichi, H
    ARTIFICIAL ORGANS, 1997, 21 (07) : 700 - 703
  • [44] Real-time studies of the pivot bearings in the NEDO gyro PI-710 centrifugal blood pump
    Asai, T
    Watanabe, K
    Ito, S
    Tsujimura, S
    Motomura, T
    Shinohara, T
    Glueck, JA
    Nosé, Y
    ARTIFICIAL ORGANS, 2004, 28 (10) : 899 - 903
  • [45] Performance of a new implantable cardiac assist centrifugal pump
    Tevaearai, HT
    Mueller, XM
    Jegger, D
    Augsburger, M
    Burki, M
    von Segesser, LK
    ARTIFICIAL ORGANS, 2001, 25 (01) : 67 - 69
  • [46] The CentriMag Centrifugal Blood Pump as a Benchmark for In Vitro Testing of Hemocompatibility in Implantable Ventricular Assist Devices
    Chan, Chris H. H.
    Pieper, Ina Laura
    Hambly, Rebecca
    Radley, Gemma
    Jones, Alyssa
    Friedmann, Yasmin
    Hawkins, Karl M.
    Westaby, Stephen
    Foster, Graham
    Thornton, Catherine A.
    ARTIFICIAL ORGANS, 2015, 39 (02) : 93 - 101
  • [47] Eccentric inlet port of the pivot bearing supported Gyro centrifugal pump
    Takami, Y
    Andrade, A
    Nakazawa, T
    Makinouchi, K
    Glueck, J
    Benkowski, R
    Nose, Y
    ARTIFICIAL ORGANS, 1997, 21 (04) : 312 - 317
  • [48] Design of a Centrifugal Blood Pump: Heart Turcica Centrifugal
    Demir, Onur
    Biyikli, Emre
    Lazoglu, Ismail
    Kucukaksu, Suha
    ARTIFICIAL ORGANS, 2011, 35 (07) : 720 - U138
  • [49] Complex Wear of Micro Centrifugal Pump under Deformable Wear Model
    Wang T.
    Li J.
    Nan L.
    Chen D.
    Cao D.
    Han W.
    Nongye Jixie Xuebao/Transactions of the Chinese Society for Agricultural Machinery, 2024, 55 (04): : 136 - 145
  • [50] Noninvasive pump flow estimation of a centrifugal blood pump
    Wakisaka, Y
    Okuzono, Y
    Taenaka, Y
    Chikanari, K
    Masuzawa, T
    Nakatani, T
    Tatsumi, E
    Nishimura, T
    Takewa, Y
    Ohno, T
    Takano, H
    ARTIFICIAL ORGANS, 1997, 21 (07) : 651 - 654
12345