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Indexing Peak Rapid Filling Velocity to Both Relaxation and Filling Volume to Estimate Left Ventricular Filling PressuresLavine, Steven J., Sivaganam, Kamesh, Strom, Joel A. 01 June 2019 (has links)
Aims: The peak transmitral velocity/peak mitral annular velocity (E/e′) ratio has been used as a left ventricular (LV) filling pressure (LVFP) correlate. However, the E/e′ and its changes with haemodynamic alterations have not always correlated with changes in LVFP's. We hypothesized that indexing E/e′ to a measure of LV filling volume may enhance the correlation with LVFP and LVFP changes. Methods and results: We summarized previously obtained haemodynamic and Doppler echo data in 137 dogs with coronary microsphere embolization induced-chronic LV dysfunction prior to and following haemodynamic induced alterations in LVFP's. E/e′ values were obtained as E∗tau where tau is the inverse logarithmic LV pressure decay. E∗tau was indexed to LV filling volume by dividing by the diastolic time velocity integral (DVI) and correlated with LV mean diastolic pressure (LVmDP). Similarly, the relationship of E/e′ and E/e′/DVI to LV pre A wave pressure was evaluated in 84 patients by invasive haemodynamics and Doppler echo. Combining data from all interventions, LVmDP correlated with E∗tau (r = 0.408) but more strongly with E∗tau/DVI (r = 0.667, z = 3.03, P = 0.0008). The change in LVmDP correlated with the change in E∗tau/DVI (r = 0.742) more strongly than E∗Tau (r = 0.187, Z = 4.01, P < 0.0001). In the patient cohort, E/e′ was modestly correlated with LV pre A wave pressure (r = 0.301) but more strongly correlated with E/e′/DVI (r = 0.636, z = 2.36, P = 0.0161). Conclusion: Indexing E to both LV relaxation and filling volume results in a more robust relation with LVFP's and with LVFP changes.
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Adverse Cardiac Events and the Impaired Relaxation Left Ventricular Filling PatternLavine, Steven J., Al Balbissi, Kais 01 July 2016 (has links)
Increasing diastolic dysfunction (DD) grade is associated with increased heart failure (HF). Patients with preserved ejection fractions and grade 1 DD may have left atrial dilatation, e′ < 8 cm/sec, increased left ventricular (LV) mass, or variable E/e′ ratios. The aim of this study was to test the hypothesis that LV hypertrophy or E/e′ ratio > 8 may be associated with a greater incidence of HF. Methods Two hundred twelve patients with grade 1 DD and ejection fractions > 50% were retrospectively studied. Group 1 comprised 108 patients with E/A ratios < 0.8, without LV hypertrophy, e′ < 8 cm/sec, and E/e′ ratios < 8. Group 2 comprised 104 patients with LV hypertrophy or E/e′ ratios > 8. Patients with incident HF and valvular or coronary disease were excluded. Using two-dimensional Doppler echocardiography, LV and left atrial volumes and transmitral spectral and tissue Doppler were analyzed. Medical records were examined for laboratory data, HF admissions, and all-cause mortality from 2004 to 2012. Results Despite similar ejection fractions, patients in group 2 had greater LV and left atrial volumes, LV mass index values, and E/e′ ratios (P < .01 for all). HF incidence was greater in group 2 (30 vs 4, P < .001). Combined HF or all-cause mortality was greater in group 2 (46 vs 14, P < .001). Multivariate analysis revealed that HF was associated with E/e′ ratio (P < .0001), systolic blood pressure (P = .0123), and LV mass index (P = .042). Combined HF or all-cause mortality was associated with E/e′ ratio (P < .0001), LV mass index (P = .009), and lower calcium channel blocker use (P = .0011). Conclusions HF alone or HF and all-cause mortality were increased in patients with grade 1 DD in the presence of LV hypertrophy or elevated LV filling pressures.
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