Abstract
Goal: The importance of the main impeller design parameters in bearingless centrifugal pumps with respect to hemolysis for cardiopulmonary bypass (CPB) and extracorporeal membrane oxygenation (ECMO) applications are studied in this work. Methods: Impeller prototypes were designed based on theoretical principles. They were manufactured and their hydraulic and hemolytic performance were analyzed experimentally. The cell compatibility is benchmarked against commercially available centrifugal blood pumps BPX-80 (Medtronic) and FloPump 32 (International Biophysics Corporation). Results: The developed prototypes outperform the BPX-80 and FloPump 32 with regard to hemocompatibility by more than a factor of 4.5. The implemented pump features reduced overall and priming volumes. A significant improvement of the cell compatibility is achieved by increasing the radial gap between the impeller and the pump head. The blade should be sufficiently high and a blade outlet angle of 90° provides favorable performance. No correlation between the hydraulic and hemolytic performance is observed. Conclusions: This work identified the most important geometrical parameters of the impeller for blood pumps with respect to cell compatibility. This provides valuable design guidelines for improving existing pumps.
Highlights
Extracorporeal life support (ECLS) is used during surgery and to support failing organ systems of the human body
Goal: The importance of the main impeller design parameters in bearingless centrifugal pumps with respect to hemolysis for cardiopulmonary bypass (CPB) and extracorporeal membrane oxygenation (ECMO) applications are studied in this work
The cell compatibility is benchmarked against commercially available centrifugal blood pumps BPX-80 (Medtronic) and FloPump 32 (International Biophysics Corporation)
Summary
Extracorporeal life support (ECLS) is used during surgery and to support failing organ systems of the human body. The cardiopulmonary bypass (CPB) technique is applied to temporarily take over the function of the heart and lungs. In case of acute respiratory diseases, a modified form. Compared to CPB, where 100% of the blood flow is directed through the pump, the heart function is only supported and approximately 20% of the volume flow still passes through the heart and lung to prevent stagnation and clotting. Due to the lower stress on these organs, they are able to regenerate more quickly [1]
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