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Journal of Medical Engineering & Technology Volume 31, 2007 - Issue 1
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Original

Novel totally implantable trans-ventricular and cross-valvular cannular pump with rolling bearings and purge system for recovery therapy

K. X. Qian Biomedical Engineering Institute of Jiangsu University, PR ChinaCorrespondence[email protected]
,
D. F. Wang Medical Branch of Texas University, USA
,
S. Topaz Medical Branch of Texas University, USA
,
W. M. Ru Biomedical Engineering Institute of Jiangsu University, PR China
,
P. Zeng Biomedical Engineering Institute of Jiangsu University, PR China
,
H. Y. Yuan Biomedical Engineering Institute of Jiangsu University, PR China
&
J. B. Zwischenberg Medical Branch of Texas University, USA
 show all
Pages 10-13 | Published online: 09 Jul 2009

References

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  • Qian K. X., Zeng P., Ru W. M., Yuan H. Y. A durable impeller pump with rolling bearing and purge system. Journal of Medical Engineering & Technology 2001; 25: 273–275
  • Qian K. X., Yuan H. Y., Ru W. M., Zeng P. Experimental method to reveal the effect of rotor magnet size and air-gap on artificial heart driving motor torque and efficiency. Journal of Medical Engineering & Technology 2002; 26: 199–201
  • Qian K. X., Zeng P., Ru W. M., Yuan H. Y., Feang Z. G., Li L. Toward a durable impeller pump with mechanical bearings. ASAIO Journal 2002; 48: 290–292
  • DeBakey M. E. Development of a ventricular assist device. Artificial Organs 1997; 21: 1149–1153
  • Kerkhoffs W., Schumachen O., Meyns B., Verbeken E., Leunens V., Bollen H., Reul H. Design, development, and first in vivo results of an implantable ventricular assist device, MicroVad. Artificial Organs 2004; 28: 904–910

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