Development of an Atraumatic Small Centrifugal Pump for Second‐Generation Cardiopulmonary Bypass

Tomoaki Jikuya; Tatsuya Sasaki; Takeshi Aizawa; Motomi Shiono; Julia A. Glueck; Charles P. Smith; Louis Feldman; Ichiro Sakuma; Mike E. Sekela; Toshiaki Noda; Setsuo Takatani; George P. Noon; Yukihiko Nosé; Michael E. DeBakey

doi:10.1111/j.1525-1594.1992.tb00558.x

Development of an Atraumatic Small Centrifugal Pump for Second‐Generation Cardiopulmonary Bypass

Tomoaki Jikuya, Tatsuya Sasaki, Takeshi Aizawa, Motomi Shiono, Julia A. Glueck, Charles P. Smith, Louis Feldman, Ichiro Sakuma, Mike E. Sekela, Toshiaki Noda, Setsuo Takatani, George P. Noon, Yukihiko Nosé, Michael E. DeBakey

Research output: Contribution to journal › Article › peer-review

27 Scopus citations

Abstract

Abstract: A small and light direct‐drive centrifugal pump has been developed for cardiopulmonary bypass. In the development process, blood compatibility studies including a hemolysis study, an in vitro fluid dynamic performance study, and in vivo durability and feasibility studies were performed. The centrifugal pump with a 50 mm diameter impeller resulted in almost the same index of hemolysis value as did a Bio‐Medicus centrifugal pump. Heat dissipation from the motor was prevented by using a flexible drive cable. Forty‐eight‐hour sealing durability around the driving axis was accomplished by using a fluoro‐rubber V‐ring that connected to the hard chrome‐plated stainless steel. In vitro and in vivo performances of the pump were satisfactory. Thrombus formation behind the impeller was prevented by using a holed impeller that generated blood flow from the back to the surface of the impeller. Elimination of air during priming procedures was also easier with this modification. This centrifugal pump has one‐quarter of the priming volume, size, and weight of magnetically coupled centrifugal pump systems.

Original language	English
Pages (from-to)	599-606
Number of pages	8
Journal	Artificial Organs
Volume	16
Issue number	6
DOIs	https://doi.org/10.1111/j.1525-1594.1992.tb00558.x
State	Published - Dec 1992

Keywords

Cardiopulmonary bypass
Centrifugal pump

ASJC Scopus subject areas

Medicine (miscellaneous)
Bioengineering
Biomaterials
Biomedical Engineering

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10.1111/j.1525-1594.1992.tb00558.x

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Jikuya, T., Sasaki, T., Aizawa, T., Shiono, M., Glueck, J. A., Smith, C. P., Feldman, L., Sakuma, I., Sekela, M. E., Noda, T., Takatani, S., Noon, G. P., Nosé, Y., & DeBakey, M. E. (1992). Development of an Atraumatic Small Centrifugal Pump for Second‐Generation Cardiopulmonary Bypass. Artificial Organs, 16(6), 599-606. https://doi.org/10.1111/j.1525-1594.1992.tb00558.x

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abstract = "Abstract: A small and light direct‐drive centrifugal pump has been developed for cardiopulmonary bypass. In the development process, blood compatibility studies including a hemolysis study, an in vitro fluid dynamic performance study, and in vivo durability and feasibility studies were performed. The centrifugal pump with a 50 mm diameter impeller resulted in almost the same index of hemolysis value as did a Bio‐Medicus centrifugal pump. Heat dissipation from the motor was prevented by using a flexible drive cable. Forty‐eight‐hour sealing durability around the driving axis was accomplished by using a fluoro‐rubber V‐ring that connected to the hard chrome‐plated stainless steel. In vitro and in vivo performances of the pump were satisfactory. Thrombus formation behind the impeller was prevented by using a holed impeller that generated blood flow from the back to the surface of the impeller. Elimination of air during priming procedures was also easier with this modification. This centrifugal pump has one‐quarter of the priming volume, size, and weight of magnetically coupled centrifugal pump systems.",

keywords = "Cardiopulmonary bypass, Centrifugal pump",

author = "Tomoaki Jikuya and Tatsuya Sasaki and Takeshi Aizawa and Motomi Shiono and Glueck, \{Julia A.\} and Smith, \{Charles P.\} and Louis Feldman and Ichiro Sakuma and Sekela, \{Mike E.\} and Toshiaki Noda and Setsuo Takatani and Noon, \{George P.\} and Yukihiko Nos{\'e} and DeBakey, \{Michael E.\}",

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doi = "10.1111/j.1525-1594.1992.tb00558.x",

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AU - Sasaki, Tatsuya

AU - Aizawa, Takeshi

AU - Shiono, Motomi

AU - Glueck, Julia A.

AU - Smith, Charles P.

AU - Feldman, Louis

AU - Sakuma, Ichiro

AU - Sekela, Mike E.

AU - Noda, Toshiaki

AU - Takatani, Setsuo

AU - Noon, George P.

AU - Nosé, Yukihiko

AU - DeBakey, Michael E.

PY - 1992/12

Y1 - 1992/12

N2 - Abstract: A small and light direct‐drive centrifugal pump has been developed for cardiopulmonary bypass. In the development process, blood compatibility studies including a hemolysis study, an in vitro fluid dynamic performance study, and in vivo durability and feasibility studies were performed. The centrifugal pump with a 50 mm diameter impeller resulted in almost the same index of hemolysis value as did a Bio‐Medicus centrifugal pump. Heat dissipation from the motor was prevented by using a flexible drive cable. Forty‐eight‐hour sealing durability around the driving axis was accomplished by using a fluoro‐rubber V‐ring that connected to the hard chrome‐plated stainless steel. In vitro and in vivo performances of the pump were satisfactory. Thrombus formation behind the impeller was prevented by using a holed impeller that generated blood flow from the back to the surface of the impeller. Elimination of air during priming procedures was also easier with this modification. This centrifugal pump has one‐quarter of the priming volume, size, and weight of magnetically coupled centrifugal pump systems.

AB - Abstract: A small and light direct‐drive centrifugal pump has been developed for cardiopulmonary bypass. In the development process, blood compatibility studies including a hemolysis study, an in vitro fluid dynamic performance study, and in vivo durability and feasibility studies were performed. The centrifugal pump with a 50 mm diameter impeller resulted in almost the same index of hemolysis value as did a Bio‐Medicus centrifugal pump. Heat dissipation from the motor was prevented by using a flexible drive cable. Forty‐eight‐hour sealing durability around the driving axis was accomplished by using a fluoro‐rubber V‐ring that connected to the hard chrome‐plated stainless steel. In vitro and in vivo performances of the pump were satisfactory. Thrombus formation behind the impeller was prevented by using a holed impeller that generated blood flow from the back to the surface of the impeller. Elimination of air during priming procedures was also easier with this modification. This centrifugal pump has one‐quarter of the priming volume, size, and weight of magnetically coupled centrifugal pump systems.

KW - Cardiopulmonary bypass

KW - Centrifugal pump

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Development of an Atraumatic Small Centrifugal Pump for Second‐Generation Cardiopulmonary Bypass

Abstract

Keywords

ASJC Scopus subject areas

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