References
- World Health Organization. The top ten causes of death. 2007, In Fact Sheet no. 310. February 2007
- Ohashi Y., Andrade A., Nose Y. Hemolysis in an electromechanical driven pulsatile total artifical heart. Artifical Organs 2003; 27(2)1089–1093
- Timms D., Hayne M., McNeil K., Galbraith A. A complete mock circulation loop for the evaluation of left, right, and biventricular assist devices. Artificial Organs 2005; 29: 564–572
- Patel S., Allaire P., Wood H., Adams J., Olsen D. Design and construction of a mock human circulatory system. Summer Bioengineering Conference. June, 25–29. Sonesta Beach Resort in Key Biscayne, Florida 2003; 965–966
- Pantalos G., Koenig S., Gillars K., Girdharan G., Ewert D. Characterization of an adult mock circulation for testing cardiac support devices. ASAIO Journal 2004; 50: 37–46
- Verdonck P., Dumont K., Segers P., Vandenberghe S., Van Nooten G. Mock loop testing of On-X prosthetic mitral valve with Doppler echocardiography. Artificial Organs 2002; 26: 872–878
- Naemura K., Umezu M., Dohi T. Preliminary study on the new self-closing mechanical mitral valve. Artificial Organs 1999; 23: 869–875
- Feng Z., Umezu M., Fujimoto T., Tsukahara T., Nurishi M., Kawaguchi D. In vitro hydrodynamic characteristics among three bileaflet valves in the mitral position. Artificial Organs 2000; 24: 346–354
- Grigioni M., Daniele C., D'Avenio G., Barbaro V. Hemodynamic performance of small-size bileaflet valves: pressure drop and laser doppler anemometry study comparison of three prostheses. Artificial Organs 2000; 24: 959–965
- Morsi Y. S., Sakhaeimanesh A. A. Flow characteristics past jellyfish and St. Vincent valves in the aortic position under physiological pulsatile flow conditions. Artificial Organs 2000; 24: 564–574
- Walther T., Lehmann S., Falk V., Kohler J., Doll N., Bucerius J., Gummert J., Mohr F. W. Experimental evaluation and early clinical results of a new low-profile bileaflet aortic valve. Artificial Organs 2002; 26: 416–419
- Litwak K. N., Koenig S. C., Cheng R. C., Giridharan G. A., Gillars K. J., Pantalos G. M. Ascending aorta outflow graft location and pulsatile ventricular assist provide optimal hemodynamic support in an adult mock circulation. Artificial Organs 2005; 29: 629–635
- Liu Y., Allaire P., Wood H., Olsen D. Design and initial testing of a mock human circulatory loop for left ventricular assist device performance testing. Artificial Organs 2005; 29: 341–345
- Pantalos G., Koenig S., Gillars K., Giridharan G., Ewert D. Characterization of an adult mock circulation for testing cardiac support devices. ASAIO 2004; 50: 37–46
- Swier P., Bos W., Mohammad S., Olsen D., Kolff W. An in vitro test model to study the performance and thrombogenecity of cardiovascular devices. ASAIO 1989; 35: 683–687
- Cassot F., Morvan D., Issarteir P., Pelissier R. New versatile physical model fitting the systemic circulation accurately. Medical & Biological Engineering & Computing 1985; 23: 511–516
- Vollkron M., Schima H., Huber L., Benkowski R., Morello G., Wieselthaler G. Development of a reliable automatic speed control system for rotary blood pumps. Journal of Heart and Lung Transplantation 2005; 24: 1878–1885
- Wieselthaler G., Schima H., Wolner E. Special considerations on the implantation technique for the MicroMed-DeBakey ventricular assist device axial pump. Annals of Thoracic Surgery 2003; 76: 2109–2111
- Votapka T., Swartz M., Dressler F., McBride L. Left ventricular cannula obstruction in a patient with previous ventricular aneurysmectomy. Annals of Thoracic Surgery 1994; 58: 1182–1184
- Pierce W. Clinical left ventricular bypass: Problems of pump inflow obstruction and right ventricular failure. ASAIO 1979; 2: 1–9