Showing papers in "Journal of The American Society of Echocardiography in 2004"

Two-dimensional strain-a novel software for real-time quantitative echocardiographic assessment of myocardial function.

Abstract: Objectives We sought to assess the feasibility of 2-dimensional strain, a novel software for real-time quantitative echocardiographic assessment of myocardial function Methods Conventional and a novel non-Doppler–based echocardiography technique for advanced wall-motion analysis were performed in 20 patients with myocardial infarction and 10 healthy volunteers from the apical views Two-dimensional strain is on the basis of the estimation that a discrete set of tissue velocities are present per each of many small elements on the ultrasound image This software permits real-time assessment of myocardial velocities, strain, and strain rate These parameters were also compared with Doppler tissue imaging measurements in 10 additional patients Results In all, 803% of infarct and 978% of normal segments could be adequately tracked by the software Peak systolic strain, strain rate, and peak systolic myocardial velocities, calculated from the software, were significantly higher in the normal than in the infarct segments In the 10 additional patients, velocities, strain, and strain rate obtained with the novel software were not significantly different from those obtained with Doppler tissue imaging Conclusion Two-dimensional strain can accomplish real-time wall-motion analysis, and has the potential to become a standard for real-time automatic echocardiographic assessment of cardiac function

Global longitudinal strain: a novel index of left ventricular systolic function.

Abstract: Background Echocardiographic estimation of global left ventricular (LV) function is subjective and time consuming. Our aim was to develop a novel approach for assessment of global LV function from 2-dimensional echocardiographic images Methods Novel computer software for tissue tracking was developed and applied as follows: digital loops were acquired from apical 2-, 3-, and 4-chamber views and a line was loosely traced along the LV endocardium at the frame wherein it was best defined. Around this line, the software selected natural acoustic markers moving with the tissue. Automatic frame-by-frame tracking of these markers during the heart cycle yielded a measure of contractility along the selected region of interest. Global longitudinal strain (GLS) and GLS rate (GLSR) were calculated for the entire U-shaped length of LV myocardium (basal, mid, and apical segments of 2 opposite walls in each view). To test this software, computer-derived GLS and GLSR were analyzed by a nonechocardiographer, blinded to the echocardiographic interpretation, in 27 consecutive patients after myocardial infarction (MI) (age 64.4 ± 12.9 years; 19 men; mean wall-motion score index of 1.79 ± 0.44) and compared with those obtained in 12 consecutive control patients (age 59.0 ± 9.7 years; 8 women), with a normal echocardiographic study. Results GLS and GLSR, averaged from the 3 apical views, differed significantly in patients post-MI compared with control patients (GLS −14.7 ± 5.1% vs −24.1 ± 2.9% and GLSR −0.57 ± 0.21/s vs −1.02 ± 0.09/s for patients post-MI vs control patients, respectively; both P R = 0.68 and R = 0.67, respectively; both P Conclusions GLS and GLSR are novel indices for assessment of global LV function from 2-dimensional echocardiographic images. Early validation studies with the method are suggestive of high sensitivity and specificity in the detection of LV systolic dysfunction in patients post-MI.

Strain and strain rate imaging: a new clinical approach to quantifying regional myocardial function.

Abstract: On the basis of color Doppler myocardial motion data, 1-dimensional regional natural strain rate and strain curves can now be calculated by comparing local myocardial velocity profiles. Such deformation data sets may be an important, new, and more sensitive approach to quantifying both regional radial and long-axis function of the left or right ventricle in both acquired and congenital heart disease. The normal ranges of regional velocity, strain rate, and strain values have already been determined in both adults and children. This review will focus both on the potential clinical applications of these new ultrasound-based deformation parameters and the current limitations inherent in implementing the technique in everyday practice.

Left ventricular hypertrabeculation/noncompaction

Abstract: In normal human hearts the left ventricle (LV) has up to 3 prominent trabeculations and is, thus, less trabeculated than the right ventricle. Rarely, more than 3 prominent trabeculations can be found at autopsy and by various imaging techniques in the LV. For this abnormality, different synonyms are used such as spongy myocardium, LV noncompaction, and LV hypertrabeculation (LVHT). In this review it is stated that: (1) LVHT has a higher prevalence than previously thought and the prevalence of LVHT seems to increase with the improvement of cardiac imaging; (2) because LVHT is most frequently diagnosed primarily by echocardiography, echocardiographers should be aware and trained to recognize this abnormality; (3) LVHT is frequently associated with other cardiac and extracardiac, particularly neuromuscular, disorders; (4) there are indications that the cause of LVHT is usually a genetic one and quite heterogeneous; and (5) controversies exist about diagnostic criteria, nomenclature, prognosis, origin, pathogenesis, and the necessity to classify LVHT as a distinct entity and cardiomyopathy by the World Health Organization.

A practical approach to the echocardiographic evaluation of diastolic function

Abstract: A number of recent community-based epidemiologic studies suggest that 40% to 50% of the cases of heart failure have preserved left ventricular systolic function. Although diastolic heart failure is often not well clinically recognized, it is associated with marked increases in morbidity and all-cause mortality. Doppler echocardiography has emerged as the principal clinical tool for the assessment of left ventricular diastolic function. Doppler mitral inflow velocity-derived variables remain the cornerstone of the evaluation of diastolic function. Pulmonary venous Doppler flow indices and mitral inflow measurements with Valsalva's maneuver are important adjuncts for differentiating normal and pseudonormal mitral inflow patterns. Unfortunately, these Doppler flow variables are significantly influenced by loading conditions and, therefore, the results from these standard techniques can be inconclusive. Recently, color M-mode and Doppler tissue imaging have emerged as new modalities that are less affected by preload and, thus, provide a strong complementary role in the assessment of diastolic function. This review will discuss the diastolic properties of the left ventricle, Doppler echocardiographic evaluation, and grading of diastolic dysfunction.

The relation between quantitative right ventricular ejection fraction and indices of tricuspid annular motion and myocardial performance

Abstract: Background Assessment of right ventricular (RV) function remains challenging because of complex RV chamber geometry and a paucity of easily derived and objective functional methods. Methods Visual 2-dimensional echocardiographic estimates of RV ejection fraction (EF), tricuspid annular plane systolic excursion, Doppler tissue imaging, and myocardial performance index (MPI) were compared with biplanar Simpson's rule RV EF in 101 consecutive patients. Data were analyzed using simple linear regression and receiver operating characteristic curves. Results RV EF was significantly correlated with tricuspid annular plane systolic excursion ( r = 0.48, P r = 0.45, P r = −0.38, P = .006). Using a Simpson's RV EF Conclusions Measurements of tricuspid annular motion are easy to obtain, correlate with Simpson's RV EF, and have a high specificity and negative predictive value for detecting abnormal RV systolic function; and the MPI, although not specific, has high sensitivity and negative predictive value for detecting abnormal RV systolic function.

American society of echocardiography guidelines and standards for performance of the fetal echocardiogram

Abstract: Fetal echocardiography is the ultrasonic evaluation of the human fetal cardiovascular system. General antepartum obstetrical ultrasound has become a standard part of gestational care and is commonly used for the determination of fetal age, size, gender, or well-being and for the detection of congenital anomalies. A variety of maternal or fetal disorders may result in abnormality of the fetal cardiovascular system to a degree which demands evaluation at a level above and beyond that attainable with standard antepartum obstetrical ultrasound. In these circumstances, a fetal echocardiogram should be performed. Improved operator skill amongst physicians performing general antepartum obstetrical ultrasound, in combination with increased sensitivity of present day ultrasound systems, has resulted in improved detection of fetal cardiovascular abnormalities and increased requirements for more detailed evaluation. Congenital heart disease is the most common congenital anomaly found in the human. As the detection rates for congenital anomalies continue to increase, the demand for fetal echocardiography has grown. Accurate diagnosis of congenital heart disease via fetal echocardiography provides many benefits. It allows for a smooth transition between the preand post-natal states, with the opportunity to provide immediate care at birth, thereby avoiding the onset of hemodynamic compromise. Recent

Impact of cardiac growth on Doppler tissue imaging velocities: a study in healthy children.

Abstract: Background Doppler tissue imaging (DTI) is a useful modality to quantitatively assess regional myocardial function. Studies attempting to establish reference values for DTI velocities in healthy children have been limited by small sample sizes and limited age distribution. In addition, the clinical effect of cardiac growth and other demographic and echocardiographic parameters on DTI velocities during childhood has not been adequately evaluated. Methods Pulsed wave DTI velocities were obtained in 325 healthy children at the lateral mitral annulus, interventricular septum, and lateral tricuspid annulus during early diastole, late diastole, and ventricular systole and were compared with demographic and echocardiographic study variables. Results In healthy children, parameters of cardiac growth, most notably left ventricular end-diastolic dimension, have the most significant correlation with the majority of DTI velocities. Age was also significantly correlated with most DTI velocities whereas sex, heart rate, and other echocardiographic parameters demonstrated minimal or no correlation. Conclusions This study establishes reference values for DTI velocities and demonstrates the important clinical effects of cardiac growth and age on DTI velocities in neonates and children.

Noninvasive quantification of regional myocardial function using Doppler-derived velocity, displacement, strain rate, and strain in healthy volunteers: effects of aging

Abstract: Quantification of regional function can be performed using Doppler tissue echocardiography to evaluate myocardial velocity, tissue displacement, strain, and strain rate. Although these techniques have been validated in animal experiments and early clinical trials, there are only limited measurements in healthy populations to use as reference data. In 100 healthy volunteers, left ventricular myocardial velocity, displacement, strain, and strain rate were measured using Doppler tissue echocardiography. Measurements were obtained from basal, mid, and apical segments of walls visualized from left ventricular apical 4- and 2-chamber views. Analysis of covariance was used to examine the effects of age and wall segment position. All parameters showed a strong dependence on wall segment position. Although myocardial velocities and strain rate showed significant dependence on age, displacement and peak systolic strain measures were less affected. Like pulsed Doppler mitral inflow velocity, tissue velocity and strain rate show age-related changes.

Persisting eustachian valve in adults: relation to patent foramen ovale and cerebrovascular events.

Abstract: Background The eustachian valve (EV) (valvula venae cavae inferioris) is a remnant of the embryonic right valve of the sinus venosus. Embryologically, the EV directs oxygenated blood from the inferior vena cava across the patent foramen ovale (PFO) into the systemic circulation. Transthoracic echocardiography shows the EV in the majority of newborns, but the prevalence of EV in adults studied with transesophageal echocardiography is unknown. We studied whether the presence of an EV is associated with PFO or with cryptogenic stroke. Methods The frequency and size of the EV was studied in 211 consecutive patients undergoing transesophageal echocardiography after a cryptogenic stroke and in 95 consecutive patients without cerebrovascular events. In all 306 patients, the presence of a PFO was studied with 2-dimensional transesophageal echocardiographic, color Doppler, and contrast echocardiographic studies. Results An EV was seen in 174 of 306 patients overall (57%). The mean size was 1.0 ± 0.4 cm (range: 0.5-2.0); 70% of patients with an EV had a PFO (Cohen's κ = 0.75; P P P P = .24). Conclusion A persisting EV is a frequent finding in patients with a PFO. By directing the blood from the inferior cava to the interatrial septum, a persisting EV may prevent spontaneous closure of PFO after birth and may, therefore, indirectly predispose to paradoxical embolism.

Baseline echocardiographic values for adult male rats

Abstract: Background Because of safety, repeatability, and portability, clinical echocardiography is well established as a standard for cardiac anatomy, cardiac function, and hemodynamics. Similarly, application of echocardiography in commonly used rat experimental models would be worthwhile. The use of noninvasive ultrasound imaging in the rat is a potential replacement for more invasive terminal techniques. Although echocardiography has become commonly used in the rat, normal parameters for cardiac anatomy and function, and comparison with established human values, have not been reported. Methods A total of 44 Sprague-Dawley male rats had baseline echocardiography replicating a protocol for clinical echocardiography. Results Complete 2-dimensional echocardiography for cardiac anatomy and function was obtained in 44 rats. Hemodynamic parameters could be recorded in 85% of rats. The ejection fraction and fractional shortening values of the left ventricle were similar to those reported for healthy human beings. Pulsed Doppler velocities of atrial systole for mitral valve inflow, pulmonary vein reversal, and Doppler tissue of the lateral mitral valve annulus also had similar means as healthy human beings. The calculated left ventricular mass was at the same order of magnitude as a proportion of body weight of rat to man. All other observations in the clinical protocol were different from those reported in healthy human beings. Conclusion The use of echocardiography for assessment of cardiac anatomy, function, and hemodynamics can be consistently applied to the rat and replicates much of the information used routinely in human echocardiography.

Left atrial volume and the risk of paroxysmal atrial fibrillation in patients with hypertrophic cardiomyopathy

Abstract: Paroxysmal atrial fibrillation (PAF) is a common complication of patients with hypertrophic cardiomyopathy, often leading to acute or progressive heart failure and cerebral infarction. We assessed the echocardiographic data of 141 consecutive patients with hypertrophic cardiomyopathy, with and without PAF. In all, 31 patients (22%) had a history of PAF with spontaneous conversion to in sinus rhythm. Left atrial volume and left atrial volume indexed to body surface area were significantly increased for patients with PAF compared with those without PAF. Maximum left atrial volume was the most sensitive and specific parameter for the occurrence of PAF in patients with hypertrophic cardiomyopathy.

Strain rate and strain: a step-by-step approach to image and data acquisition.

Abstract: The advent of strain and strain rate imaging in clinical echocardiography prompted an examination of proper techniques for image acquisition and analysis. For this promising and relatively new method of assessing myocardial performance to be successful in diagnostic echocardiography, close adherence to a standardized method is imperative. This article provides the echocardiographer with a step-by-step approach.

Left and right ventricular adaptation assessed by Doppler tissue echocardiography in athletes.

Abstract: Background Changes induced by intensive training in the morphology and kinetics of both ventricles in athletes (soccer players) were assessed by 2-dimensional echocardiography and Doppler tissue echocardiography (DTE). DTE has yet to find widespread application in sports medicine, and the right ventricle (RV) is often neglected in the examination of athletes. DTE-determined velocities were measured along the short and long axis in the left ventricle (LV) and over the long axis in the RV. Wall displacements (systolic shortenings and diastolic elongations) were computed at each site as time-velocity integrals. Normalized velocities and excursions were calculated with reference to the long and short diastolic dimensions. Methods A total of 20 athletes and 15 age- and sex-matched control subjects were enrolled in the study. All participants underwent history screening, physical examination, electrocardiogram, and blood analysis. Results The athletes had significantly greater RV long-axis dimension and LV short-axis dimension than control subjects. LV ejection fraction was similar in the 2 groups. In athletes, peak systolic velocities were significantly increased along the LV short axis and the RV long axis. Early diastolic velocities were significantly increased for the LV short axis and nonsignificantly increased at all other sites. The ratio of these peak velocities to the proper diastolic dimension (fractional or normalized velocities) did not significantly differ between the groups. Time-velocity integrals (ie, wall tissue displacements) were increased in all directions examined in both ventricles, both in systole and early diastole. However, normalized or percent shortenings and elongations were similar in athletes and control subjects. Conclusion These data suggest that an increase in RV and LV cavity size is associated with higher DTE-reported velocities in athletes. These higher velocities correspond to greater excursions of the muscle segments involved. Normalized velocities and excursions, however, indicate an unchanged fractional shortening, so that contractility has to be considered unaffected in these athletes. We suggest that DTE is instructive in unveiling functional adaptations of the heart in athletes, but questions of data interpretation have to be settled. For example, one should be cautious in comparing absolute velocities between chambers of different size. Nonnormalized velocities may be an objectionable index in the presence of cardiac enlargement.

Myocardial acceleration during isovolumic contraction as a new index of right ventricular contractile function and its relation to pulmonary regurgitation in patients after repair of tetralogy of Fallot

Abstract: Background Myocardial acceleration during isovolumic contraction (IVA) by Doppler tissue imaging has been proposed to be a new index of right ventricular contractile function that is unaffected by ventricular shape or loading conditions. Objectives We sought to assess the use of IVA to evaluate right ventricular contractile function. Methods In all, 22 pediatric patients with pulmonary regurgitation (PR) after repair of tetralogy of Fallot (TOF) (8 ± 3 years) and 27 age-matched children were examined. The degree of PR (mild, moderate, and severe) for patients with TOF was on the basis of pulsed and color Doppler findings. Using Doppler tissue imaging, the peak myocardial velocities during early diastole, late diastole, systole, and isovolumic contraction were recorded. Results Compared with healthy children, Doppler tissue imaging velocities for patients with TOF showed decreased myocardial velocities during early diastole ( P = .007), late diastole ( P P P P r = −0.86, P Conclusion The analysis of IVA allows the assessment of right ventricular contractile function for patients with repaired TOF and various degrees of PR.

Influence of preload alterations on parameters of systolic left ventricular long-axis function: a Doppler tissue study.

Abstract: The study examined the influence of preload alterations on parameters of left ventricular (LV) long-axis function during systole. Doppler tissue echocardiography was performed in 32 healthy volunteers at rest who were placed in the Trendelenburg position after administration of 0.8 mg of nitroglycerin sublingually. In a 16-segment LV model, long-axis myocardial strain and systolic velocities were assessed. Isovolumic acceleration was assessed in the lateral mitral annulus. Mean LV strain and systolic velocity were unchanged during the different load conditions. In the mitral annulus, strain was also uninfluenced by preload alterations, whereas the peak systolic velocities seemed influenced by preload reduction. The isovolumic acceleration of the mitral annulus was found to be load dependent (enhanced preload 1.38 ± 0.50 vs baseline 1.6 m/s 2 ± 0.60, P 2 , P

Estimation of aortic valve effective orifice area by Doppler echocardiography: effects of valve inflow shape and flow rate.

Abstract: Background The effective orifice area (EOA) is the standard parameter for the clinical assessment of aortic stenosis severity. It has been reported that EOA measured by Doppler echocardiography does not necessarily provide an accurate estimate of the cross-sectional area of the flow jet at the vena contracta, especially at low flow rates. The objective of this study was to test the validity of the Doppler-derived EOA. Methods Triangular and circular orifice plates, funnels, and bioprosthetic valves were inserted into an in vitro aortic flow model and were studied under different physiologic flow rates corresponding to cardiac outputs varying from 1.5 to 7 L/min. For each experiment, the EOA was measured by Doppler and compared with the catheter-derived EOA and with the EOA derived from a theoretic formula. In bioprostheses, the geometric orifice area (GOA) was estimated from images acquired by high-speed video recording. Results There was no significant difference between the EOA derived from the 3 methods with the rigid orifices (Doppler vs catheter: y=0.97x +0.18 mm 2 , r 2 = 0.98; Doppler vs theory: y=1.00x −3.60 mm 2 , r 2 = 0.99). Doppler EOA was not significantly influenced by the flow rate in rigid orifices. As predicted by theory, the average contraction coefficient (EOA/GOA) was around 0.6 in the orifice plates and around 1.0 in the funnels. In the bioprosthetic valves, both EOA and GOA increased with increasing flow rate whereas contraction coefficient was almost constant with an average value of 0.99. There was also a very good concordance between EOA and GOA (y = 0.94x +0.05 mm 2 , r 2 = 0.88). Conclusions In rigid aortic stenosis, the Doppler EOA is much less flow dependent than generally assumed. Indeed, it depends mainly on the GOA and the inflow shape (flat vs funnel-shaped) of the stenosis. The flow dependence of Doppler EOA observed in clinical studies is likely a result of a variation of the valve GOA or of the valve inflow shape and not an inherent flow dependence of the EOA derived by the continuity equation.

Noncompacted myocardium in ebstein's anomaly: initial description in three patients

Abstract: Exercise intolerance in Ebstein's anomaly is usually attributed to desaturation secondary to right-to-left shunting as a result of a small or distorted left ventricle (LV), significant tricuspid valve regurgitation, right ventricular dysfunction, or a combination of these. We observed one boy (age 15 years) and two women (ages 20 and 29 years) with severe Ebstein's anomaly and strikingly abnormal LV myocardium resembling the features described for LV noncompaction. LV size and systolic function were normal in the two women; the boy had a dilated LV with severely diminished ejection fraction. The LV myocardium was found to be unusually coarse and hypertrabeculated, with small intertrabecular recesses and an irregular endocardial surface. The findings in these 3 patients represent the whole spectrum of mild to severe LV noncompaction. Diastolic dysfunction was present in 2 of the 3 patients. Exercise tolerance was diminished in all. There was no mitral or aortic valve disease. The 15-year-old boy underwent heart transplantation 6 months later for biventricular failure. Thus, Ebstein's anomaly does not seem to be a pathology confined to the right ventricle, but may rarely lead to LV noncompacted myocardium. This LV pathology may be an additional explanation for exercise intolerance or signs of left heart failure in patients with Ebstein's anomaly.

Prevalence, clinical characteristics, quality of life, and prognosis of patients with congestive heart failure and isolated left ventricular diastolic dysfunction.

Abstract: Prevalence of isolated left ventricular (LV) diastolic dysfunction has been reported to be as high as one-third of all heart failure (HF) cases, with an increasing prevalence in the elderly population. However, there is a paucity of prospective data about the prevalence and prognosis of isolated LV diastolic dysfunction in an unselected population of patients hospitalized with HF. Therefore, we prospectively evaluated 179 consecutive patients discharged from our hospital with HF to assess the prevalence of systolic versus diastolic LV dysfunction among patients hospitalized with HF and to compare their demographics, clinical features, self-perceived quality of life (QOL), and 6-month readmission rate and mortality. Among them, 133 (59% men, median age 74 years) showed in sinus rhythm and had no significant primary valvular disease. LV diastolic dysfunction was diagnosed on the basis of the European Study Group on Diastolic HF echocardiographic criteria. QOL was assessed at hospital discharge and 6-month follow-up visit using the Minnesota Living with HF questionnaire. Survival of patients with HF was compared with that of age- and sex-matched general population. In all, 29 patients (22%) had isolated LV diastolic dysfunction and 102 (78%) had prevalent LV systolic dysfunction (ie, LV ejection fraction

Assessment of right ventricular function during exercise with quantitative Doppler tissue imaging in children late after repair of tetralogy of Fallot

Abstract: Doppler tissue imaging (DTI) has been developed to assess ventricular wall-motion velocity quantitatively for patients with various types of heart disease. This technique has a possibility of assessing right ventricular (RV) function reserve during exercise. To investigate RV function during exercise using DTI, 21 patients (9.3 +/- 3.3 years) who had undergone operation for tetralogy of Fallot at 1 to 3 years of age and 19 age-matched healthy children were studied. Echocardiography combined with DTI was performed at rest and during supine bicycle submaximal exercise. DTI of tricuspid annulus movement during systole (Sa) was obtained from a 4-chamber view. RV pressure was estimated by maximal tricuspid regurgitation (TR) velocity. The peak value of the first derivation of RV pressure (peak dP/dt) was measured from the continuous wave Doppler-derived TR profile. Adequate spectral Doppler recordings of TR were obtained in all participants. However, 9 healthy children and 2 patients with tetralogy of Fallot were excluded from the study because of an inability to determine the entire spectral TR velocity envelope during exercise. Therefore, data were analyzed in 29 participants. At rest, the mean RV pressure for patients was higher than that in control subjects (27 +/- 4 vs 18 +/- 3 mm Hg, P <.01). The mean Sa and RV peak dP/dt for patients were lower than those in control subjects (6.7 +/- 1.6 vs 8.8 +/- 1.7 cm/s and 464 +/- 77 vs 550 +/- 80 mm Hg/s, P <.01, respectively). Sa and RV peak dP/dt in the two groups increased significantly during exercise. However, the magnitude of increases in Sa and peak dP/dt was significantly less for patients than in control subjects (37 +/- 16 vs 66 +/- 19% and 42 +/- 10 vs 80 +/- 13%, P <.01, respectively). The magnitude of increase in Sa correlated with that in RV peak dP/dt (r = 0.84, P <.01). Results of DTI show high correlation with RV peak dP/dt during exercise. This technique has a potential as a useful indicator of the effect of exercise on RV systolic function. An insufficient increase in Sa suggests impaired response to exercise of RV in patients with tetralogy of Fallot.

Quantitative assessment of right ventricular function using doppler tissue imaging in fetuses with and without heart failure

Abstract: Background Previous reports have established the use of Doppler tissue imaging (DTI) for noninvasive assessment of ventricular function, but the technique has not been validated for diagnosis of fetal cardiac failure. Objective The purpose of this study was to assess right ventricular (RV) function in fetuses with heart failure using DTI. Methods In all, 43 fetuses (36 control, 7 heart failure) were assessed using pulsed Doppler echocardiography combined with DTI. RV peak myocardial velocities during early diastole (Ea), atrial contraction, and systole were measured; and tricuspid peak velocities during early diastole (E) and atrial contraction. The ratio of E/Ea was used as an index of filling pressure were measured. From DTI, a Doppler-derived index of combined systolic/diastolic myocardial performance (DTI-Tei index) was measured. Results Compared with control fetuses, the mean Ea was significantly lower and the mean E was significantly higher in fetuses with heart failure, although these parameters did overlap between the 2 groups. The mean RV myocardial wall-motion velocity during atrial contraction, ratio of Ea/RV myocardial wall-motion velocity during atrial contraction, and RV myocardial wall-motion velocity during systole did not differ between the 2 groups. Compared with control fetuses, the mean E/Ea was significantly higher (9.71 ± 0.91 vs 6.20 ± 0.97; P P z score was >2 in all fetuses with heart failure. Conclusions This study demonstrated a clinically important application of DTI-derived tricuspid annular velocities in fetuses with heart failure. Although DTI velocities were not sufficiently sensitive to identify fetuses with heart failure versus control fetuses, DTI-Tei index and E/Ea were useful and sensitive indicators of global RV dysfunction.

Assessment of Regional Myocardial Strain by a Novel Automated Tracking System from Digital Image Files

Abstract: Myocardial strain imaging by Doppler tissue echocardiography is a useful method to quantify regional left ventricular function. However, this method has a problem of its Doppler angle dependency. We attempted to quantify myocardial strain by a newly developed automated tracking system from digital image files. In 6 anesthetized open-chest dogs, a pair of ultrasonic crystals was implanted at the inner site and outer site of the left ventricular wall to measure myocardial radial strain. B-mode echocardiographic images and trajectories of crystals were recorded simultaneously. Three conditions were examined by intravenous infusion of dobutamine. We used a pattern matching algorithm, which allowed us to track objects from one frame to the next. In 18 image sequences obtained in the 6 dogs, there was an excellent correlation in maximal myocardial strain between the two methods ( r = 0.92, P

Decreased right ventricular function after coronary artery bypass grafting and its relation to exercise capacity: A tricuspid annular motion–based study

Abstract: Background Decreased right ventricular (RV) function is a known echocardiographic finding after coronary artery bypass grafting (CABG). For patients with heart failure, RV dysfunction is a predictor of poor exercise capacity. The significance and time course of RV dysfunction and its relation to exercise capacity after CABG have not been elucidated, however. Objectives In this prospective study, we assessed RV function measured from echocardiographic tricuspid annular motion (TAM) before and after CABG and its relation to exercise capacity. Methods In 99 patients accepted for CABG, we did a baseline echocardiographic investigation before operation, followed by repeated echocardiograms 3 months and 1 year after CABG. RV function was assessed using the magnitude of TAM measured at the RV free wall. An exercise stress test and coronary angiography were performed before and 3 months after CABG. Results RV function assessed by TAM was significantly reduced 3 months after CABG (22.4 vs 14.5 mm, P P P Conclusions One year after CABG, RV function remained depressed and septal motion remained paradoxical compared with the preoperative investigation, suggesting that these postoperative findings might be permanent in the majority of patients. Despite the reduced RV function, exercise performance 3 months after CABG was improved. The depressed RV function, measured from TAM after CABG, probably lacks clinical significance.

Peak atrial systolic mitral annular velocity by Doppler tissue reliably predicts left atrial systolic function.

Abstract: Left atrial (LA) function assessment is important in clinical practice. We studied peak atrial tissue velocity (A') and quantitative echocardiographic methods of LA function in 120 patients (54 men; mean age 58 years) who were in sinus rhythm. Patients were divided into 2 groups: patients with increased left ventricular mass; and healthy subjects. There was no difference for peak late filling velocity (A) and A velocity time integral between groups. Patients with increased left ventricular mass had higher A', LA ejection fraction, LA ejection force, and LA kinetic energy. A' correlated well with LA ejection fraction (r = 0.8), LA ejection force (r = 0.87), and LA kinetic energy (r = 0.87). A' could also assess LA function for patients with depressed left ventricular function. Subsequently, we assessed A' in 16 patients with restrictive physiology and found that A' also correlated well with quantitative methods of LA function. A' correlates well with quantitative methods of LA function, and could be readily applied for quantifying LA contribution to diastolic performance in clinical practice.

Comparison of real-time 3-dimensional echocardiography with conventional 2-dimensional echocardiography in the assessment of structural heart disease.

Abstract: We evaluated the diagnostic use of a real-time 3-dimensional (3D) echocardiographic system in 106 patients referred for echocardiography during a 4-month period. Real-time 3D echocardiography was performed and recorded in parallel with a routine, comprehensive 2-dimensional (2D) study. The diagnoses were exclusively on the basis of 2D findings. The 3D volumes were sliced offline in the 3 dimensions to selectively display specific cardiac structures and reviewed independent of the 2D findings. The 3D studies were graded as: A, new finding not on 2D studies; B, useful anatomic perspective; C, equivalent to 2D studies; or D, missed 2D findings. Compared with 2D echocardiography, 3D echocardiography was graded A in 7 (7%), B in 19 (18%), C in 65 (61%), and D in 15 (14%) cases. In the 26 grade-A and grade-B studies, mitral valve disease and congenital heart disease accounted for 16 (61%) cases. Suboptimal image quality was present in 7 (47%) of the 15 grade-D studies. Thus, real-time 3D echocardiography yields anatomic information comparable with conventional 2D echocardiography in the majority of patients. It can provide new and useful anatomic insight, particularly in patients with mitral valve disease and congenital heart disease. Suboptimal image quality remains a problem for real-time 3D echocardiography in some patients.

Absent posteroinferior and anterosuperior atrial septal defect rims: factors affecting nonsurgical closure of large secundum defects using the amplatzer occluder

Abstract: Using transesophageal echocardiography, we sought to determine the anatomic characteristics of the secundum atrial septal defects (ASDs) that extend into the inferior sinus venosus and have no posteroinferior (PI) rim, to determine the factors related to potential closure with an Amplatzer occluder. We also sought to understand why large secundum ASDs with a PI but without an anterosuperior (AS) rim may require special techniques to reorient the left atrial disk before deployment of the waist and right atrial disk. We measured the lengths of 5 separate rims of the circumferences of 76 secundum ASDs, including anteroinferior, AS, superior, posterosuperior, and PI rims. We also measured anteroposterior and superoinferior defect diameters, total septal lengths, and the ratios of defect diameter to total septal length. The atrial depth was measured at the axial angle of the delivery sheath in 5 defects with no AS rim for which special techniques were required to achieve successful closure. Of 76 secundum ASDs, 13 (17%) had no PI rim. Each defect extended from the fossa ovalis into the inferior sinus venosus. Compared with defects with a PI rim, the factors related to potential closure included 100% larger defect diameters, shorter posterosuperior rim lengths, larger defect to total septal length ratios, and completely flat posterior atrial walls. When the AS rim was absent the factors related to the need for special techniques included diameters >/= 22 mm, atrial depth < the calculated Amplatzer occluder left atrial disk diameter, rigid wire/disk interface, and obligatory left atrial disk orientation more or less perpendicular to the atrial septal plane.

Triphasic mitral inflow velocity with middiastolic filling: clinical implications and associated echocardiographic findings

Abstract: To explore underlying mechanisms and clinical implications of middiastolic filling, we measured early and late mitral inflow velocities, deceleration time of early mitral inflow velocity, and early diastolic mitral annular velocity (E′) recorded by pulsed wave Doppler echocardiography in 3 cardiac cycles of 35 patients with prominent mitral inflow (middiastolic flow velocity ≥ 0.2 m/s). E′ was measured at the septal corner of the mitral annulus by Doppler tissue echocardiography from the apical 4-chamber view and was found to be reduced (E′ 10 in all but 1 patient. Valsalva maneuver unmasked delayed relaxation in 15 (88%) of 17 patients and abolished middiastolic filling in 10 (59%). Triphasic mitral inflow with middiastolic flow is related to elevated filling pressure, delayed myocardial relaxation, and slow heart rate, indicating advanced diastolic dysfunction.

Longitudinal Myocardial Velocity Gradient Derived from Pulsed Doppler Tissue Imaging in AL Amyloidosis: A Sensitive Indicator of Systolic and Diastolic Dysfunction

Abstract: Objective This study was performed to clarify whether the longitudinal myocardial velocity gradient could give new insights into the features of congestive heart failure in patients with primary amyloidosis. Methods A total of 33 consecutive patients with biopsy specimen–proven primary amyloidosis were examined by pulsed Doppler tissue imaging. Results In all, 22 had evidence of heart involvement, of whom 11 had clinical congestive heart failure. Sample volumes were placed on basal and midventricle in the apical 2- and 4-chamber views. Peak systolic, and peak early and late diastolic wall-motion velocities were measured at each site. Longitudinal myocardial velocity gradients were calculated as the difference between basal and midmyocardial velocities. Single-point analysis of pulsed Doppler tissue imaging could not distinguish any difference among groups, whereas the longitudinal myocardial velocity gradients in systole and early diastole were significantly impaired in the patients with congestive heart failure compared with both the patients without cardiac involvement and those with cardiac amyloidosis without congestive heart failure. Conclusion Longitudinal myocardial velocity gradient is a sensitive method for detecting systolic and diastolic dysfunction in cardiac amyloidosis and is superior to single-point analysis Doppler tissue imaging.

Incidence and characteristics of left ventricular false tendons and trabeculations in the normal and pathologic heart by second harmonic echocardiography.

Abstract: We sought to review echocardiographic incidence of anomalous images (AI) as false tendons and trabeculations of the left ventricle (LV) in light of recent advancements in echocardiographic evaluation of heart anatomy. In 1580 patients the presence of false tendons, trabeculations, or thrombi was evaluated with transthoracic echocardiography and correlated to clinical characteristics and echocardiographic parameters. Incidence of AI was 46.7% (75% false tendons, 23% trabeculations, 2% thrombi), slightly higher in pathologic (48.9%) than in normal hearts (40.8%). AI were more frequent in male patients (52%) than in female patients (39.7%) and associated with LV dilatation, hypertrophy, and systolic dysfunction. False tendons and trabeculations were not related to age. Male sex was the most significant independent predictor of AI. In 2 patients, isolated LV noncompaction of myocardium was diagnosed and confirmed by magnetic resonance imaging. This study shows a high prevalence of AI for patients with and without pathologic hearts suggesting the need of updating LV echocardiographic anatomy. It also emphasizes the necessity for an awareness of these anatomic variants when evaluating patients for mural thrombi and cardiomyopathies.