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Journal of Medical Engineering & Technology Volume 31, 2007 - Issue 4
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Original

Effect of left ventricular shape alteration on contractility and function

L. Zhong School of Mechanical and Production Engineering, College of Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, Republic of Singapore
,
D. N. Ghista School of Mechanical and Production Engineering, College of Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, Republic of Singapore
,
E. Y. K. Ng School of Mechanical and Production Engineering, College of Engineering, Nanyang Technological University, 50 Nanyang Avenue, 639798, Republic of SingaporeCorrespondence[email protected]
,
S. T. Lim Department of Cardiology, National Heart Centre, SingHealth, Mistri Wing, 3rd Hospital Avenue, 168752, Republic of Singapore
,
T. S. J. Chua Department of Cardiology, National Heart Centre, SingHealth, Mistri Wing, 3rd Hospital Avenue, 168752, Republic of Singapore
&
C. N. Lee Department of Cardiac, Thoracic and Vascular Surgery, National University Hospital, Level 2, Linkway, Main and Kent Ridge Wing, 5 Lower Keng Ridge Road, 119074, Singapore
Pages 253-262 | Published online: 09 Jul 2009

References

  • Mason D. T., Braunwald E., Covell J. W., Sonnenblick E. H., Ross J. Assessment of cardiac contractility. Circulation 1971; 44: 47–58
  • Peterson K. L., Skloven D., Ludbrook P., Uther J. B., Ross J. Comparison of isovolumic and ejection phase indices of myocardial performance in man. Circulation 1974; 49: 88–101
  • Lambert C. R., Nichols W. W., Pepine C. J. Indices of ventricular contractile state: comparative sensitivity and specificity. American Heart Journal 1983; 106: 136–144
  • Kass D. A., Maughan W. L., Guo Z. M., Kono A., Sunagawa K., Sagawa K. Comparative influence of load versus inotropic states on indices of ventricular contractility: experimental and theoretical analysis based on pressure-volume relationships. Circulation 1987; 6: 1422–1436
  • Kass D. A., Beyer R. Evaluation of contractile state by maximal ventricular power divided by the square of end-diastolic volume. Circulation 1993; 84: 1698–1708
  • Greenberg N. L., Firstenberg M. S., Castro P. L., Main M., Travaglini A. T. Doppler-derived myocardial systolic strain rate is a strong index of left ventricular contractility. Circulation 2002; 105: 99–105
  • Bettett E. D., Barclay S. A., Davis A. L., Mannering D., Metha N. Ascending aortic blood velocity and acceleration using Doppler ultrasound in the assessment of left ventricular function. Cardiovascular Research 1984; 18: 323–329
  • Lazarus M., Dang T. Y., Gardin J. M., Allfie A., Henry W. L. Evaluation of age, heart rate and blood pressure changes and exercise conditioning on Doppler measured aortic blood flow acceleration and velocity during upright treadmill testing. American Journal of Cardiology 1988; 62: 439–443
  • Redaelli A., Montevecchi F. M. Intraventricular pressure drop and aortic blood acceleration as indices of cardiac inotropy: a compassion with the first derivative of aortic pressure based on computer fluid dynamics. Medical Engineering & Physics 1998; 20: 231–241
  • Tischler M. D., Niggel J., Norowski D. T., LeWinter M. M. Relationship between left ventricular shape and exercise capacity in patients with left ventricular dysfunction. Journal of the American College of Cardiology 1993; 22: 751–757
  • Devereus R. B. Left ventricular geometry, pathophysiology and prognosis. Journal of the American College of Cardiology 1995; 25: 885–887
  • Krumholz H. M., Larson M., Levy D. Prognosis of left ventricular geometric patterns in the Framingham Heart Study. Journal of the American College of Cardiology 1995; 25: 879–884
  • Juznic S. C.J.E., Juznic G., Knap B. Ventricular shape: spherical or cylindrical?. Analysis and assessment of cardiovascular function, G. Drzewiecki, J. K.-J. Li. Springer-Verlag, New York 1998; 156–171
  • Knap B., Juznic G., Bren A. F., Drzewiecki G., Noordergraaf A. Elongation as a new shape index for the left ventricle. International Journal of Cardiovascular Imaging 2002; 18: 421–430
  • Lee T. H., Hamilton M. A., Stevenson L. W. Impact of left ventricular cavity size on survival in advanced heart failure. American Journal of Cardiology 1993; 72: 601–612
  • De Anda A., Jr, Moon M. R., Nikolic S. A method to assess endocardial regional longitudinal curvature of the left ventricle. American Journal of Physiology 1995; 268: 2553–2560
  • Streeter D. D., Jr, Hanna W. T. Engineering mechanics for successive states in canine left ventricular myocardium: I. Cavity and wall geometry. Circulation Research 1973; 33: 639–655
  • Yeo S. Y. Mechanics of intra-left ventricular pressure development during systole. Nanyang Technological University, 2004, Master dissertation
  • Dodge H. T., Sandler H. Clinical applications of angiocardiography. Cardiac Mechanics, I. Mirsky, D. N. Ghista, H. Sandler. John Wiley & Sons Ltd, New York 1973; 171–201
  • Kyriazis J., Glotsos J., Bilirakis L., Smirnioudis N. The (dP/dt)max derived from arterial pulse waveforms: prospective applications in the haemodialysis setting. Nephrology Dialysis Transplantation 2001; 16: 1087–1088
  • Ghista D. N., Sandler H. An analytic plastic-visco-elastic model for the shape and forces of the left ventricle. Journal of Biomechanics 1969; 2: 35–47
  • Rankin J. S., McHale P. A., Arentzen C. E., Ling D., Greenfield J. C., Jr, Anderson R. W. The three-dimensional dynamic geometry of the left ventricle in conscious dog. Circulation Research 1976; 39: 304–313
  • Gaudron P., Eilles C., Kugler I., Trtl G. Progressive left ventricular dysfunction and remodeling after myocardial infarction. Circulation 1993; 87: 755–763
  • Kennedy J. W., Baxley W. A., Figley M. M., Dodge H. T., Blackmon J. R. Quantitative angiocardiography. The normal left ventricle in man. Circulation 1966; 34: 272–278
  • Graham T. P., Jr., Jarmakani J. M.M., Canent R. V., Capp M. P., Spach M. S. Characterization of left heart volumes and mass in normal children and in infants with intrinsic myocardial disease. Circulation 1968; 38: 826–837
  • Graham T. P., Jr., Jarmakani J. M.M., Canent R. V., Morrow N. M. Left heart volume estimation in infany and children. Circulation 1971; 43: 895–904

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