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Journal Abstract Search

200 related items for PubMed ID: 1617778

  • 1. Noninvasive measurement of the time constant of left ventricular relaxation using the continuous-wave Doppler velocity profile of mitral regurgitation.
    Chen C, Rodriguez L, Levine RA, Weyman AE, Thomas JD.
    Circulation; 1992 Jul; 86(1):272-8. PubMed ID: 1617778
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  • 2. Continuous wave Doppler echocardiography for noninvasive assessment of left ventricular dP/dt and relaxation time constant from mitral regurgitant spectra in patients.
    Chen C, Rodriguez L, Lethor JP, Levine RA, Semigran MS, Fifer MA, Weyman AE, Thomas JD.
    J Am Coll Cardiol; 1994 Mar 15; 23(4):970-6. PubMed ID: 8106704
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  • 3. Noninvasive assessment of left ventricular relaxation using continuous-wave Doppler aortic regurgitant velocity curve. Its comparative value to the mitral regurgitation method.
    Yamamoto K, Masuyama T, Doi Y, Naito J, Mano T, Kondo H, Nagano R, Tanouchi J, Hori M, Kamada T.
    Circulation; 1995 Jan 01; 91(1):192-200. PubMed ID: 7805202
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  • 4. Noninvasive estimation of the instantaneous first derivative of left ventricular pressure using continuous-wave Doppler echocardiography.
    Chen C, Rodriguez L, Guerrero JL, Marshall S, Levine RA, Weyman AE, Thomas JD.
    Circulation; 1991 Jun 01; 83(6):2101-10. PubMed ID: 2040059
    [Abstract] [Full Text] [Related]

  • 5. Noninvasive measurement of rate of left ventricular relaxation by Doppler echocardiography. Validation with simultaneous cardiac catheterization.
    Nishimura RA, Schwartz RS, Tajik AJ, Holmes DR.
    Circulation; 1993 Jul 01; 88(1):146-55. PubMed ID: 8319326
    [Abstract] [Full Text] [Related]

  • 6. [Evaluation of left ventricular relaxation by mitral regurgitant curve].
    Doi Y, Tanouchi J, Yamamoto K, Naito J, Uematsu M, Masuyama T, Kitabatake A, Kamada T.
    J Cardiol Suppl; 1992 Jul 01; 28():39-43; discussion 44-5. PubMed ID: 1418878
    [Abstract] [Full Text] [Related]

  • 7. Doppler reconstruction of left ventricular pressure from functional mitral regurgitation: potential importance of varying orifice geometry.
    Xiao HB, Jin XY, Gibson DG.
    Br Heart J; 1995 Jan 01; 73(1):53-60. PubMed ID: 7888262
    [Abstract] [Full Text] [Related]

  • 8. Noninvasive assessment of left ventricular isovolumic contraction and relaxation with continuous wave Doppler aortic regurgitant velocity signals: an in vivo validation study.
    Mori Y, Jones M, Rusk RA, Irvine T, Sahn DJ.
    J Am Soc Echocardiogr; 2001 Jul 01; 14(7):715-22. PubMed ID: 11447418
    [Abstract] [Full Text] [Related]

  • 9. Dynamics of mitral regurgitant flow and orifice area. Physiologic application of the proximal flow convergence method: clinical data and experimental testing.
    Schwammenthal E, Chen C, Benning F, Block M, Breithardt G, Levine RA.
    Circulation; 1994 Jul 01; 90(1):307-22. PubMed ID: 8026013
    [Abstract] [Full Text] [Related]

  • 10. Hemodynamic determinants of the mitral annulus diastolic velocities by tissue Doppler.
    Nagueh SF, Sun H, Kopelen HA, Middleton KJ, Khoury DS.
    J Am Coll Cardiol; 2001 Jan 01; 37(1):278-85. PubMed ID: 11153752
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  • 18. Rates of left ventricular isovolumic pressure rise and fall from the aortic regurgitation velocity signal: description of the method and validation in human beings.
    Pai RG, Stoletniy LN.
    J Am Soc Echocardiogr; 1998 Jun 01; 11(6):631-7. PubMed ID: 9657402
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  • 19. Noninvasive estimation of transmitral pressure drop across the normal mitral valve in humans: importance of convective and inertial forces during left ventricular filling.
    Firstenberg MS, Vandervoort PM, Greenberg NL, Smedira NG, McCarthy PM, Garcia MJ, Thomas JD.
    J Am Coll Cardiol; 2000 Nov 15; 36(6):1942-9. PubMed ID: 11092668
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