Due to copyright restrictions, copies are not available through this website.

Nishinaka T, Yamazaki K, Saito S, et.al. Japanese Clinical Trial Results of an Implantable Centrifugal Blood Pump “EVAHEART”, ASAIO Journal. 54(2): 25A, March/April 2008

Yamazaki K, Saito S, Nishinaka T, et.al. Japanese Clinical trial results of an Implantable Centrifugal Blood Pump “EVAHEART”, Journal Heart and Lung Transl 27(2), S246, February 2008

Yamazaki K, Saito S, Kihara S, et al. Completely Pulsatile high flow circulatory support with a constant speed centrifugal blood pump: mechanisms and early clinical observations. General Thoracic and Cardiovascular Surgery 2007, Vol. 55, No. 4: 158-162.

Snyder TA, Tsukui H, Kihara S, et.al Preclinical biocompatibility assessment of the EVAHEART ventricular assist device: coating comparison and platelet activation. J Biomed Mater Res A. 2007 Apr;81(1):85-92.

Litwak K. Pre-clinical update on the EVAHEART LVAS, ASAIO Journal. 52(2):48A, March/April 2006.

Imachi K. Artificial Heart Research and Present Status of Clinical Application in Japan. ASAIO J 2006; 52: 9-16.

Takatani S, Matsuda H, et al. Mechanical circulatory support devices (MCSD) in Japan: current status and future directions J Artif Organs. 2005;8(1):13-27.

Yamazaki K, Kihara S, Saito S, et al. The EVAHEART an Implantable Centrifugal Blood Pump: Pre-IDE Results and Planned Clinical Trial in Japan. ASAIO J 2005; 51(2): 39A.

Yamane, T, Miyamoto, Y, Tajima, K and Yamazaki, K. A Comparative Study Between Flow Visualization and Computational Fluid Dynamic Analysis for the Sun Medical Centrifugal Blood Pump. Artificial Organs, 2004; 28(5):458-466.

Kihara S, Yamazaki K, Litwak KN, et al. Distal Thoracic Aorta Hemodynamics During Exercise with Continuous Flow Left Ventricular Assist System. Eur J Cardiothorac Surg 2003; 24(6):926-31.

Litwak K, Kihara S, Kamenva M, et al. Effects of Continuous Flow Left Ventricular Assist Device Support on Skin Tissue Microcirculation and Aortic Hemodynamics. ASAIO J 2003; 49:103-107.

Kihara S, Yamazaki K, Litwak KN, et al. In Vivo Evaluation of a MPC Polymer Coated Continuous Flow Left Ventricular Assist System. Artificial Organs 2003; 27(2):188-92.

Yamazaki K, Kihara S, Akimoto T, et al. EVAHEART: An Implantable Centrifugal Blood Pump for Long-Term Circulatory Support. Jpn J Thorac Cardiovasc Surg, 2002; 50(11):461-5.

Akimoto T, Litwak KN, Yamazaki K, et al. The Role of Diastolic Pump Flow in Centrifugal Blood Pump Hemodynamics. Artificial Organs 2001; 25(9):724-7.

Akimoto T, Yamazaki K, Litwak P, et al: Continuously Maintaining Positive Flow Avoids Endocardial Suction of a Rotary Blood Pump With Left Ventricular Bypass. Artificial Organs 2000 Aug; 24(8):606-10.

Akimoto T, Yamazaki K, et al: Relationship of Blood Pressure and Pump Flow in an Implantable Centrifugal Blood Pump during Hypertension. ASAIO J 2000; 46(5): 596-599.

Akimoto T, Yamazaki K, et al: Rotary Blood Pump Flow Spontaneously Increases During Exercise Under Constant Pump Speed: Results of a Chronic Study. Artificial Organs 1999; 23:797-801.

Yamazaki K, Litwak P, et al: An Implantable Blood Pump with a Recirculating Purge System (Cool-Seal system), Artificial Organs 1998; 22:466-474.

Tagusari O, Yamazaki K, Litwak P, et al: Effect of Pressure-Flow Relationship of Centrifugal Pump on in Vivo Hemodynamics: A Consideration for Design . Artif Organs ( United States ), May 1998, 22(5) p399-404.

Yamazaki K, Litwak P, Kormos RL, et al: An Implantable Centrifugal Blood Pump for Long Term Circulatory Support. ASAIO J ( United States ), Sep-Oct 1997, 43(5) pM686-91.

Yamazaki K, Mori T, Tomioka J, et al. The Cool Seal System: A Practical Solution to the Shaft Seal Problem and Heat Related Complications with Implantable Rotary Blood Pumps. ASAIO J ( United States ), Sep-Oct 1997, 43(5) pM567-71.