Modeling of Virtual Mechanical Circulatory Hemodynamics for Biventricular Heart Failure Support
Author:
Publisher
Springer Science and Business Media LLC
Subject
Cardiology and Cardiovascular Medicine,Biomedical Engineering
Link
http://link.springer.com/content/pdf/10.1007/s13239-020-00501-y.pdf
Reference16 articles.
1. Dandel, M., T. Krabatsch, and V. Falk. Left ventricular vs. biventricular mechanical support: decision making and strategies for avoidance of right heart failure after left ventricular assist device implantation. Int. J. Cardiol. 198:241–250, 2015.
2. Fukamachi, K., D. J. Horvath, A. L. Massiello, H. Fumoto, T. Horai, S. Rao, and L. A. Golding. An innovative, sensorless, pulsatile, continuous-flow total artificial heart: device design and initial in vitro study. J. Heart. Lung Transplant 29:13–20, 2010.
3. Fukamachi, K., J. H. Karimov, D. J. Horvath, G. Sunagawa, N. A. Byram, B. D. Kuban, and N. Moazami. Initial in vitro testing of a paediatric continuous-flow total artificial heart. Interact. Cardiovasc. Thorac. Surg. 26:897–901, 2018.
4. Horvath, D., N. Byram, J. H. Karimov, B. Kuban, G. Sunagawa, L. A. R. Golding, N. Moazami, and K. Fukamachi. Mechanism of self-regulation and in vivo performance of the Cleveland Clinic continuous-flow total artificial heart. Artif. Organs 41:411–417, 2017.
5. Horvath, D. J., K. Fukamachi, and J. H. Karimov. Options for modeling and simulation used in mechanical circulatory support development. In: Mechanical Support for Heart Failure, Current Solutions and New Technologies, edited by J. H. Karimov, and et al. New York: Springer, 2020. https://doi.org/10.1007/978-3-030-47809-4.
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