Impact of gap size and groove design of hydrodynamic bearing on plasma skimming effect for use in rotary blood pump-Reference-Cited by-同舟云学术

Impact of gap size and groove design of hydrodynamic bearing on plasma skimming effect for use in rotary blood pump

Published:2022-01-28 Issue:3 Volume:25 Page:195-203
ISSN:1434-7229
Container-title:Journal of Artificial Organs
language:en
Short-container-title:J Artif Organs

Author:

Jiang Ming,Sakota Daisuke^ORCID,Kosaka Ryo,Hijikata Wataru

Funder

Japan Society for the Promotion of Science

Publisher

Springer Science and Business Media LLC

Subject

Cardiology and Cardiovascular Medicine,Biomedical Engineering,Biomaterials,Medicine (miscellaneous)

Link

https://link.springer.com/content/pdf/10.1007/s10047-021-01308-x.pdf

Reference23 articles.

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2. Hijikata W, Maruyama T, Murashige T, Sakota D, Maruyama O. Detection of thrombosis in a magnetically levitated blood pump by vibrational excitation of the impeller. Artif Organs. 2020;44:594–603.

3. Tsukiya T, Mizuno T, Takewa Y, Tatsumi E, Taenaka Y. Preclinical study of a novel hydrodynamically levitated centrifugal pump for long-term cardiopulmonary support: in vivo performance during percutaneous cardiopulmonary support. J Artif Organs. 2015;18:300–6.

4. Kosaka R, Yada T, Nishida M, Maruyama O, Yamane T. Geometric optimization of a step bearing for a hydrodynamically levitated centrifugal blood pump for the reduction of hemolysis. Artif Organs. 2013;37:778–85.

5. Kosaka R, Maruyama O, Nishida M, Yada T, Saito S, Hirai S, Yamane T. Improvement of hemocompatibility in centrifugal blood pump with hydrodynamic bearings and semi-open impeller: in vitro evaluation. Artif Organs. 2009;33:798–804.

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1. Spiral groove bearing design for improving plasma skimming in rotary blood pumps;Journal of Artificial Organs;2023-12-28

2. A Model of Hydrodynamic Bearings With Circumferential Parallel Arranged Grooves;Journal of Tribology;2023-08-16