460
Articles
9.7K
Citations
2.8
avg. Impact Factor
51
h-index

Most Cited Articles of Cardiovascular Fluid Mechanics Laboratory in 1996

TitleJournalYearCitations
Near-tip fields and intensity factors for interfacial cracks in dissimilar anisotropic piezoelectric mediaInternational Journal of Fracture1996106
Velocity measurements and flow patterns within the hinge region of a Medtronic Parallel bileaflet mechanical valve with clear housingJournal of Heart Valve Disease199645
Experimental analysis of fluid mechanical energy losses in aortic valve stenosis: importance of pressure recoveryAnnals of Biomedical Engineering199633
The effect of aortic outflow on the quantification of mitral regurgitation by the flow convergence methodJournal of the American Society of Echocardiography199614
An in vitro investigation of the retrograde flow fields of two bileaflet mechanical heart valvesJournal of Heart Valve Disease199614
In vitro assessment of prosthetic valve function in mitral valve replacement with chordal preservation techniquesJournal of Heart Valve Disease199612
Computational simulations of mitral regurgitation quantification using the flow convergence method: comparison of hemispheric and hemielliptic formulaeAnnals of Biomedical Engineering19969
Comparison of magnetic resonance imaging and Laser Doppler Anemometry velocity measurements downstream of replacement heart valves: implications for in vivo assessment of prosthetic valve functionJournal of Heart Valve Disease19967
The influence of acoustic impedance mismatch on post-stenotic pulsed-Doppler ultrasound measurements in a coronary artery modelUltrasound in Medicine and Biology19965
Prediction of post-buckling strength of stiffened laminated composite panels based on the criterion of mixed-mode stress intensity factorsComputational Mechanics19964
A model based on dimensional analysis for non-invasive quantification of valvular regurgitation under confined and impinging conditionsJournal of Biomechanics19962
Quantification of Mitral and Tricuspid Regurgitation Using Jet Centerline Velocities: An In Vitro Study of Jets in an Ambient CounterflowEchocardiography19962
Quasisteady behavior of pulsatile, confined, counterflowing jets: implications for the assessment of mitral and tricuspid regurgitationJournal of Biomechanical Engineering19961
How sensitive are jet centerline velocities to an opposing flow? Implications for using the centerline method to quantify regurgitant jet flowJournal of Biomechanics19960