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This review pays tribute to those pioneers in Doppler flow during an early and exciting period ranging from the end of the 1960s to the 1990s. Three major 'approaches' contributed to what is nowadays built into every patient's inv...
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This review pays tribute to those pioneers in Doppler flow during an early and exciting period ranging from the end of the 1960s to the 1990s. Three major 'approaches' contributed to what is nowadays built into every patient's investigation. The source was Daniel Kalmanson, who developed flow directionality, assigning a physiological meaning to the recordings. This was the first time Doppler flow was used on the heart, providing new insights in cardiac pathophysiology. The second approach relied on the Norwegian group who applied the laws of physics to fluid dynamics. Simplification of the formula provided a new non-invasive approach enabling quantification of valvular lesions and haemodynamic measurements. This new tool pushed back previous routine catheterisation. To crown it all, the introduction of colour Doppler flow, mainly relying on the Japanese groups, overcame the long-lasting scepticism of the scientific community: cardiologists started to 'believe' in the Doppler technique. Other innovative pioneers around the world joined the three groups to develop this new field of cardiology. At the turning of the new millennium, the Doppler technique is mature, through a strong methodology. Convergence of the three original approaches for mutual benefit, constant update of examination modalities according to improved technology, and new insights into cardiac dynamics, are the three cornerstones supporting this methodology. They should contribute to keep it alive and efficient, independently of the imaging modality of the future.
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Cardiac examination has evolved over centuries. The goal of cardiac evaluation, regardless the era, is to "see" inside the heart to diagnose congenital and acquired intra-cardiac structural and functional abnormalities. This artic...
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Cardiac examination has evolved over centuries. The goal of cardiac evaluation, regardless the era, is to "see" inside the heart to diagnose congenital and acquired intra-cardiac structural and functional abnormalities. This article briefly reviews the history of cardiac examination and discusses contemporary best, evidence-based methods of cardiac inspection.
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Pulmonary hypertension (PH) is a clinical condition characterised by elevated pulmonary artery pressure (PAP) and vascular resistances. At the onset of the disease, symptoms are frequently atypical so that PH diagnosis is usually ...
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Pulmonary hypertension (PH) is a clinical condition characterised by elevated pulmonary artery pressure (PAP) and vascular resistances. At the onset of the disease, symptoms are frequently atypical so that PH diagnosis is usually made when the disease is advanced, which often is too late for efficacious treatment. As a consequence the prognosis is poor. Echo-Doppler evaluation allows: (a) an early identification of patients with PH, (b) to establish a patient's prognosis and (c) to evaluate a proper patient's follow-up. In patients with PH echocardiography provides information about right heart dimensions, pulmonary artery pressures, right ventricle systolic and diastolic function and left and right ventricle interdependence. Most importantly Echo-Doppler evaluation has became a major diagnostic tool for PH allowing evaluation of changes with time and with different treatments which are aimed at reducing pulmonary artery pressure and right heart dimensions and at improving right heart function.
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BACKGROUND: Standard echocardiographic assessment of right ventricular (RV) function is problematic due to the complex RV geometry. We used tissue Doppler imaging to identify RV dysfunction in patients with pulmonary hypertension ...
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BACKGROUND: Standard echocardiographic assessment of right ventricular (RV) function is problematic due to the complex RV geometry. We used tissue Doppler imaging to identify RV dysfunction in patients with pulmonary hypertension (PH). METHODS: Study population consisted of 44 patients (mean age 52+/-11; 30 females) with PH who underwent color tissue Doppler imaging of the RV and right heart catheterization within 2 days of each other. Peak systolic velocity and strain were measured at the RV free wall and correlated with invasive measures of PH and RV function. Myocardial velocity and strain was also measured in 20 healthy volunteers who served as normal controls (mean age 47+/-13; 13 females). RESULTS: PH patients had significantly reduced RV free wall velocity (6.4+/-2.1 cm/s vs. 8.2+/-2.1 cm/s; p<0.05) and RV strain (-18+/-7% vs. -28+/-6%; p<0.001) versus controls. RV peak strain demonstrated excellent correlation with transpulmonary gradient (r=0.72; p<0.001), pulmonary vascular resistance (r=0.73; p<0.001), and significant inverse correlation with cardiac index (r=-0.69; p<0.001). RV velocity had a significant, but weaker, correlation with cardiac index (r=0.33; p<0.05) and no association with transpulmonary gradient or pulmonary vascular resistance. In a multivariate model, RV strain but not RV velocity was independently associated with cardiac index. CONCLUSIONS: RV myocardial strain demonstrated excellent correlation with hemodynamic variables indicative of RV performance in PH patients.
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Quantification of pulmonary regurgitation (PR) is essential in the management of patients with repaired tetralogy of Fallot (TOF). We sought to evaluate the accuracy of first-line Doppler echocardiography in comparison with cardia...
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Quantification of pulmonary regurgitation (PR) is essential in the management of patients with repaired tetralogy of Fallot (TOF). We sought to evaluate the accuracy of first-line Doppler echocardiography in comparison with cardiac magnetic resonance imaging (MRI) to identify hemodynamic significant PR. Paired cardiac MRI and echocardiographic studies (n = 97) in patients with repaired TOF were retrospectively analyzed. Pressure half time (PHT) and pulmonary regurgitation index (PRi) were measured using continuous wave Doppler. The ratio of the color flow Doppler regurgitation jet width to pulmonary valve (PV) annulus (jet/annulus ratio) and diastolic to systolic time velocity integral (DSTVI; pulsed wave Doppler) were assessed. Accuracy of echocardiographic measurements was tested to identify significant PR as determined by phase-contrast MRI (PR fraction [PRF] ae 20%). Mean PRF was 29.4 +/- 15.7%. PHT < 100 ms had a sensitivity of 93%, specificity 75%, positive predictive value (PPV) 92% and negative predictive value (NPV) 78% for identifying significant PR (C-statistic 0.82). PRi < 0.77 had sensitivity and specificity of 66% and 54%, respectively (C-statistic 0.63). Jet/annulus ratio ae1/3 had sensitivity 96%, specificity 75%, PPV 92% and NPV 82% (C-statistic 0.87). DSTVI had sensitivity 84%, specificity 33%, PPV 84% and NPV 40%, (C-statistic 0.56). Combined jet/annulus ratio ae1/3 and PHT < 100 ms was highly accurate in identifying PRF ae 20%, with sensitivity 97% and specificity 100%. PHT and jet/annulus ratio on Doppler echocardiography, especially when combined, are highly accurate in identifying significant PR and therefore seem useful in the follow-up of patients with repaired TOF.
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We evaluated whether analysis of aortic flow could be useful for determining the functional significance of left ventricular outflow gradients and for optimizing pacing therapy in patients with hypertrophic cardiomyopathy (HOCM). ...
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We evaluated whether analysis of aortic flow could be useful for determining the functional significance of left ventricular outflow gradients and for optimizing pacing therapy in patients with hypertrophic cardiomyopathy (HOCM). Methods: Doppler echocardiography was performed in 32 patients with HOCM. Eleven patients with pacemakers (PPM) also underwent treadmill and quality-of-life (QOL) testing in a randomized crossover trial (1 month of backup pacing (AAI at 30 beats per minute), 1 month with an atrioventricular interval (AVI) of 30 ms (DDD30), and 1 month with an "optimized" AVI (DDDop) that maximized the descending aortic Doppler velocity time integral. Results: Patients with HOCM displayed a notch in the aortic Doppler flow profile. The location of the notch in systole corresponded with the development of the peak left ventricular outflow gradient. Aortic flow after the notch was variable ranging from 6-48% of the total flow. In patients with pacemakers, improved response to pacing was noted in those patients that developed the notch early in systole and had subsequent attenuation of aortic flow. Optimizing the AVI was associated with improved exercise tolerance (AAI: 4.6 +/- 2.3 min., DDD30: 5.5 +/- 2.2 min., and DDDop: 7.7 +/- 2.5 min.; p < 0.05) and improved QOL. Conclusions: Patients with HOCM have a notch in their aortic Doppler flow profile. The location of the notch correlates with the development of the peak left ventricular outflow gradient and flow after the notch is variable. Patients with an early notch and attenuated flow after the notch appear to have the greatest response to pacing therapy.
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Surgical repair of Tetralogy of Fallot (ToF) is usually performed in the first months of life with low early postoperative mortality. During long-term follow-up, however, both right (RV) and left ventricular (LV) performances may ...
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Surgical repair of Tetralogy of Fallot (ToF) is usually performed in the first months of life with low early postoperative mortality. During long-term follow-up, however, both right (RV) and left ventricular (LV) performances may deteriorate. Tissue Doppler imaging (TDI) and speckle tracking echocardiography (ST) can unmask a diminished RV and LV performance. The objective of the current study was to assess the cardiac performance before and shortly after corrective surgery in ToF patients using conventional, TDI and ST echocardiographic techniques. Thirty-six ToF patients after surgery were included. Transthoracic echocardiography including TDI and ST techniques was performed preoperatively and at hospital discharge after surgery (10 days to 4 weeks after surgery). Median age at surgery was 7.5 months [5.5-10.9]. Regarding the LV systolic function there was a significant decrease in interventricular septum (IVS) S ' at discharge as compared to preoperatively (pre IVS S ' = 5.4 +/- 1.4; post IVS S ' = 3.9 +/- 1.2; p < 0.001) and in global longitudinal peak strain (GLS) (pre = - 18.3 +/- 3.4; post = - 14.2 +/- 4.1; p = 0.003); but not in the fractional shortening (FS). Both conventional and TDI parameters showed a decrease in diastolic function at discharge. Tricuspid Annular Plane Systolic Excursion and RV S ' were significantly lower before discharge. When assessing the RV diastolic performance, only the TDI demonstrated a RV impairment. There was a negative correlation between age at surgery and postoperative LV GLS (R = - 0.41, p = 0.031). There seems to be an impairment in left and right ventricle performance at discharge after ToF corrective surgery compared to preoperatively. This is better determined with TDI and ST strain imaging than with conventional echocardiography.
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