The Validity of Pulse Wave Tissue Doppler Imaging in Predicting Elevated left Ventricular end Diastolic Pressure in Patients with Coronary Artery Disease | ||
| Iraqi Postgraduate Medical Journal | ||
| Article 1, Volume 15, Issue 3, September 2016, Pages 296-302 PDF (0 K) | ||
| Authors | ||
| Edmon Khammo Benjamin; Kasim Abbas Ismail AL-Saedi; Ali Abdul-Amir Mohammad AL-Mousawi | ||
| Abstract | ||
| ABSTRACT: BACKGROUND: Elevated left ventricular filling pressures are the main physiological consequence of diastolic dysfunction and carry a prognostic significance in different cardiovascular diseases including coronary artery diseases, and cardiomyopathies. Filling pressures are considered elevated when the mean pulmonary capillary wedge pressure is >12mmHg or when the left ventricular end diastolic pressure is ≥ 16 mm Hg. a reliable noninvasive method for the estimation of LVEDP is needed. OBJECTIVE: The aim of this study was to evaluate the correlation between the Tissue Doppler Imaging derived E/é ratio, and Left Ventricular End Diastolic Pressure (measured during left ventricular catheterization) in patients with significant Coronary artery Disease, and to identify the optimal cutoff value of the E/é ratio to predict elevated LVEDP. PATIENTS AND METHODS: This study included 87 patients scheduled for elective coronary angiography at Ibn-Albitar Hospital catheterization laboratory between December 2012 and April 2013.Transthoracic echocardiography was performed to all patients within 2 hours before left heart catheterization, using Philips echocardiography system & S5-1 probe. Mitral valve inflow velocities were assessed by Pulsed-wave Doppler performed in the apical 4-chamber view. Ejection fraction (EF) was measured with biplane Simpson's method from the apical 4-chamber view. PW TDI was performed in the apical 4-chamber view to measure mitral annular velocities from the medial and lateral mitral annuli. RESULTS: The mitral inflow velocities (E, and A) were not correlated to LVEDP while the E/A ratio had a weak positive and the DT of the E wave had a weak negative correlations with LVEDP. E/é ratio showed intermediate to good positive correlation with LVEDP especially those derived from the medial mitral annulus. The correlation between E/é ratio and LVEDP was similar in the patients with or without significant CAD. The ROC curve showed that the cutoff point of E/ é ratio for predicting LVEDP higher than 15mm Hg was from medial mitral annulus > 15 (sensitivity 77.5 % , specificity 84.6%; P<0.001) and from lateral mitral annulus >10 (sensitivity 79 %, specificity 80.3 %; P < 0.001). On subgroup classification according to EFs, the E/é medial showed significant but weaker correlation with LVEDP in patients with EF ≥ 50%, as compared to patients with EF < 50 %. E/é lateral and E/é average had poor correlation with LVEDP in patients with EF ≥ 50 %, while they have intermediately significant correlation in patients with EF < 50%. CONCLUSION: The TDI derived E/é ratio is better than mitral inflow doppler velocities and intervals for predicting elevated LVEDP in patients with or without significant CAD, especially in patients with reduced EF. The E/é medial > 15 and E/é lateral > 10, predict LVEDP > 15 mm Hg with good sensitivity and specificity. | ||
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