Validation of isovolumic relaxation flow propagation velocity as an index of ventricular relaxation

To test the applicability of isovolumic relaxation flow propagation velocity (IRFPV) as an indicator of relaxation, 38 patients undergoing cardiac catheterization for chest pain were included. The time constant of isovolumic left ventricular (LV) pressure decline (tau) had a significant correlation with the LV end-diastolic pressure, the peak negative dp/dt, the LV end-diastolic dimension, the fractional shortening, the late diastolic transmitral flow velocity, the early and late diastolic mitral annular velocities, the rapid filling flow propagation velocity, and the natural logarithms of heart rate, ejection fraction, LV end-systolic dimension and IRFPV (r = -0.773, p < 0.001). IRFPV was selected as the major independent determinant of tau, explaining 46% of its variance. In prediction of tau > or =42 ms, the sensitivity and specificity were 100% and 83% for IRFPV < or =104 cm/s, 77% and 67% for the rapid filling flow propagation velocity < or =50 cm/s, and 58% and 67% for the early diastolic mitral annular velocity < or =8 cm/s, respectively. In conclusion, our data suggest that IRFPV could be a better marker of LV relaxation than other parameters, as the rapid filling flow propagation velocity or the early diastolic mitral annular velocity.     

Characteristics of mitral and tricuspid annular velocities determined by pulsed wave Doppler tissue imaging in healthy subjects.

Assessment of myocardial velocities by Doppler tissue imaging is gaining in importance. However, generally accepted reference values are still missing. In this study we examined 62 consecutive healthy subjects (mean age 46, range 22-82 years) by pulsed wave Doppler tissue imaging to characterize the systolic and diastolic velocity profiles of the left and right ventricles. The subjects were divided into 3 different age-groups: group I, younger than 40 years; group II, 40 to 59 years; and group III, 60 years and older. Recordings were made along the long axis in the apical 4- and 2-chamber views by using 4 sites (septal, anterior, lateral, and inferior) at the mitral annulus and 1 site at the tricuspid annulus. Systolic mitral annular velocity (10.3 +/- 1.4 cm/s) correlated strongly with global left ventricular function determined by M-mode echocardiographic mitral annular displacement (r = 0.70, P <.001). The systolic velocity was significantly lower in group III than in group I (9.6 vs 10.8 cm/s, P <.01). A relatively weak, but significant, correlation was found between systolic velocity and the age of the subjects (r = -0.43, P <.001). Mitral annular early diastolic velocity was also lower in group III compared with group I (11.3 vs 17.7 cm/s, P <.001), with a strong correlation with age (r = -0.81, P <.001) and other conventional Doppler diastolic parameters. Both the systolic and early diastolic mitral annular velocities at the septum were lower than at other left ventricular sites. Tricuspid annular systolic velocity (15.2 +/- 1.9 cm/s) was higher than mitral annular systolic velocity (P <.001). Unlike mitral annular velocity, systolic tricuspid annular velocity was not correlated with age. However, the diastolic tricuspid annular velocities correlated well with transtricuspid Doppler diastolic parameters. The method of recording the annular velocities was feasible in all subjects, simple and highly reproducible.     

Isovolumic relaxation flow propagation velocity: a promising load-independent relaxation parameter in hemodialysis patients

The aim of this study is to evaluate whether isovolumic relaxation flow propagation velocity (IRFPV), a newly proposed relaxation parameter, is independent of load alterations. Thirty-nine uremic patients (21 men; age 62 ± 10 y) who underwent echocardiography 1 h before and 1 h after hemodialysis (HD) were included. After HD, body weight, systolic blood pressure, early transmitral filling wave velocity (E), early diastolic mitral annular velocity (Ea) and early diastolic inflow propagation velocity (EPV) decreased significantly (p ≤ 0.007), while IRFPV kept constant (p = 0.550). A subgroup analysis showed that in patients with body weight reduction <2.5 kg, E (p = 0.005) decreased significantly, but Ea (p = 0.078), EPV (p = 0.155) and IRFPV (p = 0.324) did not change after HD. In patients with body weight reduction ≥2.5 kg, E (p < 0.001), Ea (p = 0.001) and EPV (p = 0.001) decreased significantly but IRFPV (p = 0.715) was still constant after HD. In conclusion, IRFPV may be a load-independent parameter in assessing left ventricular diastolic function. However, Ea and EPV are load-independent only at minor load alterations. In evaluating left ventricular diastolic function in HD patients whose loading conditions frequently vary with time, IRFPV seems to be more adequate than Ea and EPV. (E-mail: wcvoon@giga.net.tw)     

Usefulness of the ratio of transmitral E wave velocity to isovolumic relaxation flow propagation velocity for predicting left ventricular end-diastolic pressure

Transmitral E wave velocity was reported to be positively related to left ventricular (LV) filling pressure and negatively related to LV relaxation constant, and isovolumic relaxation flow propagation velocity (IRFPV) was proven recently to be negatively related to LV relaxation constant and independent of preload alterations. Therefore, the combination index, E/IRFPV, may eliminate the influence of LV relaxation and bring the LV filling pressure into focus. However, it is unknown whether E/IRFPV is a useful index in prediction of LV filling pressure. The aim of this study is to evaluate the correlation between E/IRFPV and LV end-diastolic pressure (LVEDP). Forty-three patients with suspected coronary artery disease who underwent a Doppler echocardiographic study and cardiac catheterization were included. LVEDP was determined by a micromanometer-tipped catheter. In a univariate analysis, LVEDP had a positive correlation with left atrial dimension, LV end-diastolic dimension, LV end-systolic dimension, the ratio of E to E wave propagation velocity (EPV) (r = 0.408, p = 0.007), the ratio of E to early diastolic mitral annular velocity (Ea) (r = 0.439, p = 0.003) and E/IRFPV (r = 0.686, p < 0.001). It had a negative correlation with diastolic blood pressure, E wave deceleration time, LV ejection fraction, EPV, Ea and IRFPV. After stepwise multiple linear regression analysis, only the E/IRFPV was the independent predictor of LVEDP (beta = 0.667, p < 0.001). In conclusion, E/IRFPV is a useful parameter in prediction of LVEDP.     

Assessment of left ventricular systolic and diastolic function by Doppler tissue imaging in patients with preinfarction angina.

BACKGROUND: The aim of this study was assessment of left ventricular (LV) systolic and diastolic function by pulsed wave Doppler tissue imaging (DTI) in patients with or without preinfarction angina in acute myocardial infarction. METHODS: We prospectively evaluated 31 consecutive patients (4 women, 27 men; age 58 +/- 10 years) with a first acute myocardial infarction. LV systolic and diastolic function was assessed by classic methods and DTI on the third day during acute myocardial infarction. Patients were divided into 2 groups according to the presence (group 1; n = 10) or absence (group 2; n = 21) of preinfarction angina. Mitral inflow velocities and early diastolic mitral annular velocity (Em), late diastolic mitral annular velocity (Am), peak systolic mitral annular velocity, Em/Am, the ratio of early diastolic mitral inflow velocity (E) to Em, and myocardial performance index were calculated by DTI. RESULTS: Group 1 had significantly higher Em and Em/Am than group 2 (11.3 +/- 3.34 cm/s vs 7.4 +/- 2.07 cm/s, P <.0001; 1.01 +/- 0.38 cm/s vs 0.6 +/- 0.2 cm/s, P =.001, respectively). The E/Em ratio and myocardial performance index were significantly lower in group 1 than in group 2 (5.1 +/- 2.92 vs 8.10 +/- 3.15, P=.018; 0.49 +/- 0.15 vs 0.65 +/- 0.24, P =.042, respectively). Wall-motion score index was lower in those with preinfarction angina than in those without (1.6 +/- 0.36 vs 1.9 +/- 0.39; P =.04, respectively). Peak systolic mitral annular velocity and Am were not statistically different between groups (9.4 +/- 1.84 vs 8.3 +/- 2.03, P =.172; 11.7 +/- 3.07 vs 12.1 +/- 3.34, P =.72, respectively). There were no significant differences between the 2 groups regarding transmitral E velocity, atrial contraction mitral inflow velocity (A), E/A ratio, isovolumetric relaxation time, and deceleration time of the mitral E wave (P =.91, P =.08, P =.58, P =.81, and P =.71, respectively). CONCLUSION: LV diastolic function was better in patients with preinfarction angina than in patients without. This condition could not be detected by conventional mitral inflow Doppler velocities, but could be detected by DTI. This preliminary evidence shows that DTI is better than conventional mitral Doppler indices in the assessment of a favorable LV diastolic function in patients with preinfarction angina.     

Color M-mode and Doppler tissue evaluation of diastolic function in children: simultaneous correlation with invasive indices.

OBJECTIVE: The purpose of this study was to explore the validity of diastolic indices derived from color M-mode Doppler and Doppler tissue imaging in a heterogeneous group of pediatric patients by comparing them with simultaneously obtained invasive indices of diastolic function. METHODS: A total of 20 children undergoing left heart catheterization had echocardiographic images recorded simultaneously with high-fidelity left ventricular (LV) pressure tracings. Transmitral Doppler, pulmonary vein Doppler, Doppler tissue imaging, and color M-mode Doppler flow propagation velocity were recorded. LV peak negative dP/dt, the time constant of isovolumic relaxation, and LV end-diastolic pressure were compared with the echocardiographic indices. RESULTS: The ratio of peak E-wave mitral velocity/propagation velocity correlated significantly with LV end-diastolic pressure (r = 0.71; P <.001). Propagation velocity correlated with the time constant of isovolumic relaxation (r = -0.56; P =.01) and peak negative dP/dt (r = 0.50; P <.03). Septal mitral annular myocardial velocity correlated significantly with the time constant of isovolumic relaxation (r = -0.58, P =.01). CONCLUSION: The newer diastolic indices derived from color M-mode Doppler and Doppler tissue imaging appear to be a helpful adjunct in the noninvasive assessment of diastolic function in children.     

The mechanism of emergence and clinical significance of apically directed intraventricular flow during isovolumic relaxation.

The mechanism of emergence and the clinical significance of apically directed intraventricular flow during isovolumic relaxation were investigated. The relation between the spatial distribution of the flow and left ventricular (LV) apical wall motion abnormality, as well as LV performance, was studied in 97 patients who underwent cardiac catheterization for evaluation of chest pain. According to the distribution of the flow, the patients were classified into the following 3 groups: flow observed in the whole area between the tip of the papillary muscle and the apex (spread flow) (n = 38), flow observed in the same area that did not fill the whole area (localized flow) (n = 15), and no apparent flow observed in the area (without flow) (n = 44). An absence of flow disclosed apical asynergy with a sensitivity of 97% and specificity of 87%. The time constant of LV relaxation was significantly shorter in patients with spread flow than in those without flow. A significant difference was also observed in end-systolic volume index (18.8 +/- 6.8 vs 30.9 +/- 7.7 vs 42.3 +/- 20.2 mL/m(2), spread flow < localized flow < without flow, P <.05) among the 3 groups. The propagation velocity of LV early diastolic filling flow was significantly greater in patients with spread flow (47.0 +/- 8.3 cm/s) than in those with localized flow (30.7 +/- 7.8 cm/s) or without flow (28.6 +/- 7.8 cm/s) (P <.001). These findings indicate that the greater magnitude of LV elastic recoil and the faster LV relaxation in patients without LV apical asynergy produce apically directed intraventricular flow during isovolumic relaxation, enhancing the speed of LV early diastolic filling. Apically directed intraventricular flow during isovolumic relaxation may play an important role as a mediator of better LV systolic performance and LV relaxation to LV early diastolic filling. Absence of apically directed intraventricular flow during isovolumic relaxation is a manifestation of LV apical asynergy and global LV dysfunction from end systole to early diastole.     

Assessment of left ventricular function using mitral annular velocities in patients with congestive heart failure with or without the presence of significant mitral regurgitation.

Myocardial velocities in patients with congestive heart failure (CHF) were studied using pulsed wave Doppler tissue imaging. Velocities were recorded at the mitral and tricuspid annulus. Four sites at the mitral annuli were selected corresponding to the septal, lateral, inferior, and anterior walls of the left ventricle from apical 4- and 2-chamber views. A mean value from the above 4 sites was selected to describe the mitral annular velocities. Only one site of the tricuspid annulus was selected, corresponding to the right ventricular free wall. Three different annular velocities were recorded: the peak systolic, and the peak early and late diastolic velocities. A total of 96 patients were compared with 12 age-matched healthy participants. Patients with CHF had significantly decreased mitral and tricuspid systolic velocities compared with healthy participants (4.9 vs 9.3 cm/s, P <.001, for the mitral annulus and 10.4 vs 14.6 cm/s, P <.001, for the tricuspid annulus). The early diastolic velocity was also reduced in patients compared with healthy participants (5.9 vs 10.9 cm/s, P <.001, for the mitral annulus and 8.6 vs 12.9 cm/s, P <.001, for the tricuspid annulus). Patients with CHF had a severely depressed left ventricular ejection fraction (EF) (27%). The correlation the between systolic mitral annular velocity and EF was relatively good (r = 0.59 and P <.001). The patients with CHF were divided into 2 subgroups depending on the presence or absence of significant mitral regurgitation. There was a correlation between EF and the systolic mitral annular velocity both in patients with (r = 0.61, P <.001) and without (r = 0.59, P <.001) significant mitral regurgitation. In conclusion, compared with healthy participants, the mitral and tricuspid annular velocities are significantly decreased in patients with CHF. The correlation between EF and the systolic mitral annular velocity is relatively good irrespective of the presence or absence of significant mitral regurgitation. Measurements of annular velocities constitute a simple and useful method for evaluating patients with CHF.     

Effects of percutaneous mitral commissurotomy on longitudinal left ventricular dynamics in mitral stenosis: quantitative assessment by tissue velocity imaging.

OBJECTIVE: We hypothesized that mitral annular velocities would improve immediately after relief of mitral stenosis and that serial assessment could be used as an index for quantifying functional changes after percutaneous mitral commissurotomy (PMC). METHODS: Longitudinal left ventricular annular velocities were quantified by spectral pulsed wave Doppler tissue velocity imaging in 25 patients (16 women; mean age [+/-SD], 29.2 +/- 8.6 years) who had isolated mitral stenosis and were in sinus rhythm, and were compared with 30 age- and sex-matched control subjects. Echocardiography was performed 1 to 24 hours before PMC and 48 to 72 hours after, and changes in velocities from the lateral and septal corners of the mitral annulus in early diastole, late diastole, isovolumic contraction, and ejection were recorded. RESULTS: Systolic and diastolic mitral annular velocities were significantly less in patients with mitral stenosis than in control subjects. After PMC, peak annular velocity of systolic excursion in ejection and peak annular velocity in early diastole showed significant improvement. The change in peak annular velocity in early diastole in the lateral wall correlated well with improvement in the mitral valve orifice area by planimetry (ratio of mitral valve orifice area, 1.92 +/- 0.42; ratio of peak annular velocity in early diastole, 1.36 +/- 0.22; r = 0.65; P <.001). CONCLUSION: Serial evaluation of changes in mitral annular velocities by Doppler tissue imaging aids clinical assessment of immediate improvement in left ventricular function after PMC.     

Doppler tissue analysis of mitral annular velocities: evidence for systolic abnormalities in patients with diastolic heart failure.

BACKGROUND: The presence of signs and symptoms of heart failure (HF), abnormal diastolic function and an ejection fraction > 45%, have been defined as diastolic HF (DHF). However, a cut-off value of 45% for ejection fraction seems arbitrary as mild systolic dysfunction may be overlooked. It was the goal of this study to assess the additive information derived from Doppler tissue imaging for patients with DHF. METHODS: As a measure of left ventricular (LV) long-axis function, systolic and diastolic velocities of the mitral annulus (peak, peak early, and peak late) derived from pulsed Doppler tissue imaging were assessed in 36 asymptomatic control subjects, 36 patients with DHF, and 35 patients with systolic HF (SHF). As a measure of overall LV performance, the Tei index (isovolumic contraction time and isovolumic relaxation time divided by ejection time) was assessed. RESULTS: In the DHF group, peak systolic annular velocity was reduced (7.1 +/- 1.2 cm/s) as compared with the control group (9.0 +/- 1.2 cm/s, P <.05), and was even lower in the SHF group (5.0 +/- 0.7 cm/s, P <.01 SHF group vs DHF/control groups). The Tei index was increased in the DHF group (0.53 +/- 0.14) in comparison with the control group (0.39 +/- 0.07, P <.05), and was highest in the SHF group (0.94 +/- 0.43, P <.01 SHF group vs control/DHF groups). Using peak systolic annular velocity < 7.95 cm/s as a cut-off value (derived from receiver operating characteristic curve analysis), patients with DHF were separated from control subjects with a sensitivity of 83% and a specificity of 83%. A Tei index > 0.43 separated patients with DHF and control subjects with a sensitivity of 79% and a specificity of 72%. CONCLUSION: Systolic long-axis LV function is also impaired in patients with DHF, resulting in feasible diagnosis of DHF by Doppler tissue imaging analysis of LV long-axis function and overall LV function with the Tei index.     

The role of left and right ventricular early diastolic Doppler tissue echocardiographic indices in the evaluation of acute rejection in orthotopic heart transplant.

BACKGROUND: The aim was to evaluate whether Doppler tissue echocardiographic early diastolic indices of both the right and left ventricle (LV) may assist in the detection of acute heart transplant (HT) rejection. METHODS: In all, 44 consecutive patients with HT (mean age 52.0 +/- 9.6 years, 39 men) were divided into group 1 with no rejection (histopathology grade < or = 2) and group 2 with acute (severe) rejection (grade > or = 3A). In group 2, echocardiographic examinations were performed before (A), during (B), and after (C) acute rejection. RESULTS: Although patients with HT in group 2B compared with group 1 had lower early diastolic velocities at medial/septal (E Med ) and tricuspid/lateral (E Tric ) annulus, as a result of substantial data overlapping this finding did not allow for the detection of patients with acute rejection. In group 2B, both onsets of E Med and E Tric were delayed and LV early diastolic mitral/lateral annulus velocities (E Mitr ) markedly preceded E Tric (E Tric -E Mitr 68 +/- 45 milliseconds for group 2B vs 7 +/- 43 milliseconds for group 1 and 14 +/- 40 milliseconds for group 2A; P < .01). Additionally, patients with HT in group 2B had pathologically positive late isovolumic relaxation myocardial velocity gradient of LV posterior wall compared with group 1 or group 2A (1.5 +/- 1.4 s -1 vs -0.3 +/- 2.0 s -1 or 0.3 +/- 1.8, respectively; P < .01). Late isovolumic relaxation myocardial velocity gradient greater than 0.1 s -1 and timing differences between onsets of: (1) mitral early diastolic velocity (E wave) and E Med greater than -35 milliseconds; and (2) E Tric -E Mitr greater than 15 milliseconds allowed for the distinction of patients with acute HT rejection (group 2B vs 1) with sensitivity and specificity greater than 0.80. CONCLUSIONS: For patients with HT and acute rejection abnormal Doppler tissue echocardiographic indices may be caused by both: (1) altered early diastolic untwist of the oblique LV fibers; and (2) the delay in early diastolic right ventricular relaxation. Late isovolumic relaxation myocardial velocity gradient and early diastolic timing intervals (mitral E wave-E Med and E Tric -E Mitr ) are promising new echocardiographic markers that can be used in the surveillance for acute rejection in patients with HT.     

Doppler tissue echocardiographic features of cardiac amyloidosis.

The purpose of the study was to assess whether quantification of myocardial involvement by Doppler tissue echocardiography (DTE) enhances the accuracy of echocardiographic characterization of cardiac amyloidosis (CA). A group of 36 patients with CA (mean age 58 +/- 13 years; 22 male) and 40 age-matched control patients were studied. Patients with CA were divided into CA-1 subgroup with nonrestrictive (n = 22) and CA-2 with restrictive left ventricular (LV) filling pattern (n = 14). Peak lateral and medial mitral annulus velocities by pulsed wave DTE were measured in systole, early diastole, and late diastole. Using color M-mode DTE of the LV posterior wall, mean myocardial velocities (MMV) and myocardial velocity gradient (MVG) were measured during ventricular ejection, early and late isovolumic relaxation (IVR), rapid ventricular filling, and atrial contraction. In both CA-1 and CA-2 groups, mitral annulus velocities, MMV, and all MVG were lower than those measured in control patients, with the exception of peak late diastolic annulus velocities at lateral side and MMV in atrial contraction. MVGs in both early IVR and rapid ventricular filling were lower in the CA-1 as compared with the CA-2 group. Late IVR-MVG was negative in control patients and positive in patients with CA indicating a faster movement of the subendocardium rather than the subepicardium during late IVR in patients with CA (0.88 +/- 0.50 s(-1) vs -0.40 +/- 1.59 s(-1); P <.001). The following parameters: peak early diastolic annulus velocities at lateral side < or = -12 cm/s, peak early diastolic annulus velocities at medial side < or = -10 cm/s, early IVR-MMV < or = -2.5 cm/s, early IVR-MVG < or = -0.7 s(-1), and late IVR-MVG > or = 0.5 s(-1) differentiated patients with CA from control patients with an overall accuracy of 0.82, 0.83, 0.81, 0.87, and 0.81, respectively. In patients with CA, reduction in early IVR-MMV was independent of patients' age and LV mass. DTE indices proved helpful in differentiating patients with CA from control patients including those patients with CA who had borderline conventional echocardiographic features and nonrestrictive LV filling pattern.     

Mid-diastolic mitral annular motion: a useful marker in the evaluation of left ventricular relaxation and end-diastolic pressure

Various patterns of mid-diastolic mitral annular motion may imply different left ventricular (LV) diastolic function and filling pressure. To be a reliable marker in the evaluation of LV diastolic function and filling pressure, these findings must be validated by invasive method. Hence, this study was designed to compare the LV diastolic properties among different patterns of mid-diastolic mitral annular motion by invasive method. Fifty-five patients undergoing elective cardiac catheterization were included. Study subjects were classified into three groups according to mid-diastolic mitral annular motion patterns. Upward and downward La waves were respectively defined as a clear apically- and atrially-directed mid-diastolic annular motion on at least three consecutive beats with the average peak velocity >or=2 cm/s. Subjects with upward La wave, with downward but without upward La wave, and without La wave were categorized as groups 1, 2 and 3, respectively. The time constant of isovolumic LV pressure decline (tau) and LV end-diastolic pressure (LVEDP) were obtained from a micromanometer-tipped catheter. The tau was shorter and LVEDP was lower in group 1 than in groups 2 and 3 (p < 0.047) but these parameters were comparable between groups 2 and 3. In conclusion, patients with upward La wave had better LV relaxation function and lower LVEDP than patients without it. However, these diastolic properties were comparable between patients with only downward La wave and those without La wave. Therefore, mid-diastolic mitral annular motion is a useful and promising marker in the evaluation of LV relaxation and LVEDP.     

The role of apically directed intraventricular isovolumic relaxation flow in speeding early diastolic left ventricular filling

Left ventricular (LV) systolic performance has been acknowledged to have a close relation to LV early diastolic filling and LV relaxation. However, the mechanism showing how good LV systolic function enhances the LV early diastolic filling has not been fully elucidated from the viewpoint of intraventricular flow dynamics. Thus, we investigated this issue in 82 patients with suggested coronary artery disease who underwent cardiac catheterization. Apically directed intraventricular isovolumic relaxation flow (IRF) and the propagation velocity of early diastolic filling flow were measured using pulsed and color Doppler echocardiography. LV ejection fraction and LV relaxation time constant tau were obtained in cardiac catheterization. As we were not able to measure the IRF velocity less than 14 cm/s that was limited by a Doppler low-cut filter, we analyzed the data collected from 78 patients with measurable IRF velocity. The IRF velocity significantly correlated with LV ejection fraction (r = 0.74, P <.001) and with LV relaxation time constant tau (r = -0.31, P <.01). The propagation velocity of early diastolic filling flow significantly correlated with the IRF velocity (r = 0.73, P <.001) and also significantly correlated with LV ejection fraction (r = 0.70, P <.001). Good LV systolic performance augments LV early diastolic filling directly, mediated by IRF. A faster IRF velocity may play a role in delivering good LV systolic performance to LV early diastolic filling.     

Effects of first myocardial infarction on left ventricular systolic and diastolic function with the use of mitral annular velocity determined by pulsed wave doppler tissue imaging.

This study was undertaken to assess the effect of a first myocardial infarction (MI) on the systolic and diastolic velocity profiles of the mitral annulus determined by pulsed wave Doppler tissue imaging and thereby evaluate left ventricular (LV) function after MI. Seventy-eight patients with a first MI were examined before discharge. Peak systolic, peak early diastolic, and peak late diastolic velocities were recorded at 4 different sites on the mitral annulus corresponding to the septum, anterior, lateral, and inferior sites of the left ventricle. In addition, the amplitude of mitral annular motion at the 4 above LV sites, the ejection fraction, and conventional Doppler diastolic parameters were recorded. Nineteen age-matched healthy subjects served as controls. Compared with healthy subjects, the MI patients had a significantly reduced peak systolic velocity at the mitral annulus, especially at the infarction sites. A relatively good linear correlation was found between the ejection fraction and the mean systolic velocity from the 4 LV sites (r = 0.74, P <.001). The correlation was also good when the mean peak systolic mitral annular velocity was tested against the magnitude of the mean mitral annular motion (r = 0.77, P <.001). When the patients were divided into 2 different groups with respect to an ejection fraction > or =0.50 or <0.50, a cutoff point of mean systolic mitral annular velocity of > or =7.5 cm/s had a sensitivity of 79% and a specificity of 88% in predicting a preserved global LV systolic function. Similar to systolic velocities, the early diastolic velocity was also reduced, especially at the infarction sites. The peak mitral annular early diastolic velocity correlated well with both LV ejection fraction (r =.66, P <.001) and mean systolic mitral annular motion (r = 0.68, P <.001). However, no correlation existed between the early diastolic velocity and conventional diastolic Doppler parameters. The reduced peak systolic mitral annular velocity seems to be an expression of regionally reduced systolic function. The peak early diastolic velocity is also reduced, especially at the infarction sites, and reflects regional diastolic dysfunction. Thus, quantification of myocardial velocity by Doppler tissue imaging opens up a new possibility of assessing LV function along its long axis.     

Differentiation of abnormal relaxation pattern with aging from abnormal relaxation pattern with coronary artery disease in transmitral flow with the use of tissue Doppler imaging of the mitral annulus.

An abnormal relaxation pattern in transmitral flow velocity waveforms has been observed in older healthy subjects as well as in patients with heart disease. Accordingly, we investigated whether the hemodynamic differences between patients with coronary artery disease (CAD) with an abnormal relaxation pattern in transmitral flow (ratio of E-wave to A-wave velocities < 1.0) and healthy older subjects with an abnormal relaxation pattern can be distinguished with the use of mitral annular velocity (MAV) during early diastole. We measured MAV in the longitudinal direction of the heart during early diastole by M-mode color tissue Doppler imaging in 24 patients with atypical chest pain (defined as healthy subjects in this study) and 70 patients with CAD who underwent cardiac catheterization. In all patients a time constant of left ventricular pressure decay (tau) and the left ventricular (LV) end-systolic volume index were also measured. Twenty-one healthy subjects and 59 patients with CAD had an abnormal relaxation pattern in their transmitral flow. The age, heart rate, mean blood pressure, and ratio of E-wave to A-wave velocities were not different between the two groups. However, the tau was longer and the LV end-systolic volume index was greater in patients who had an abnormal relaxation pattern with CAD than in healthy subjects with an abnormal relaxation pattern. The MAV during early diastole was lower in the former than in the latter (5.8 +/- 1. 9 vs 9.8 +/- 1.9 cm/s, P <.001). Mitral annular velocity during early diastole by M-mode color tissue Doppler imaging can detect the differences in LV relaxation and LV systolic performance between the abnormal relaxation pattern with CAD and the physiologically abnormal relaxation pattern with aging, providing further information regarding the meaning of an LV abnormal relaxation pattern.     

The mitral L wave: a marker of pseudonormal filling and predictor of heart failure in patients with left ventricular hypertrophy.

OBJECTIVES: We sought to examine the relationship of the mitral L wave with echocardiographic indexes of diastolic function and heart failure (HF) events in patients with left ventricular (LV) hypertrophy (LVH). BACKGROUND: The L wave, representing middiastolic transmitral flow, is of unknown clinical and prognostic significance in patients with LVH. Methods Consecutive echocardiograms performed during a 6-month period were screened for patients with LVH, normal LV ejection fraction, in sinus rhythm, and no significant valvular disease. Clinical and echocardiographic characteristics were analyzed, and patients were followed up for incident HF. RESULTS: Of 177 patients, the L wave was present in 35 (20%) (group I) and absent in 142 (group II). Patients in group I had higher early (E) to late (A) transmitral flow velocity (E/A) ratio (1.2 vs 0.8), shorter mitral E wave deceleration time (201 vs 225 milliseconds), lower pulmonary venous systolic/diastolic velocity ratio (1.1 vs 1.6), shorter LV isovolumic relaxation time (83 vs 94 milliseconds), larger left atrial volume (36 vs 23 mL/m 2 ), and higher E to early mitral annular velocity (E/E') ratio (septal E/E', 12.2 vs 9.1; lateral annular E/E', 10.9 vs 7.8) compared with group II (all P < .05). The difference between pulmonary venous atrial reversal and mitral A wave durations was > or = 30 milliseconds in more patients of group I (70% vs 6%, P < .001). During a mean follow-up of 12.0 months, 11 patients were hospitalized for HF. The L wave was associated with a hazard ratio of 4.7 ( P = .011) for incident HF, and remained a significant predictor (hazard ratio 4.2, P = .026) after adjustment for cardiovascular risk factors. CONCLUSIONS: In patients with LVH, the mitral L wave appears to be a marker of pseudonormal LV filling and predictor of future HF events.     

Female children and adolescents with type 1 diabetes have more pronounced early echocardiographic signs of diabetic cardiomyopathy

OBJECTIVE: This study was designed to assess whether children and adolescents with type 1 diabetes have early echocardiographic signs of subclinical cardiac dysfunction and whether sex, state of metabolic control, and diabetes duration are of influence. RESEARCH DESIGN AND METHODS: Systolic and diastolic blood pressure in supine and upright positions and echocardiographic parameters, including tissue Doppler measurements of the septal mitral annulus, were evaluated in 80 children and adolescents with stable type 1 diabetes and 52 age- and sex-matched control subjects. A possible correlation was examined for age, sex, HbA(1c), and diabetes duration with univariate and multivariate regression analysis. RESULTS: Female diabetic patients showed significantly larger left ventricular wall dimensions (left ventricular posterior wall in diastole 0.54 +/- 0.08 vs. 0.48 +/- 0.11 cm) and signs of significant diastolic filling abnormalities on conventional and tissue Doppler echocardiography (mitral valve-atrial contraction velocity 0.47 +/- 0.12 vs. 0.40 +/- 0.09 m/s; tricuspid valve-atrial contraction velocity 0.35 +/- 0.09 vs. 0.30 +/- 0.07 m/s; early filling velocity/myocardial velocity during early filling 7.15 +/- 1.47 vs. 6.17 +/- 1.07; isovolumetric relaxation time [IVRT] 66 +/- 8 vs. 58 +/- 8 ms) compared with female control subjects, suggesting delayed myocardial relaxation. Male diabetic patients only differed significantly from their control subjects for IVRT (66 +/- 9 vs. 59 +/- 8 ms). The measured parameters showed an expected correlation with age and BMI standard deviation scores in the control group. This correlation was significantly weaker in the diabetic population; only a weak influence was found for diabetes duration and glycosylated hemoglobin levels. CONCLUSIONS: Young diabetic patients already have significant changes in left ventricular dimensions and myocardial relaxation, with the girls clearly being more affected. Tissue Doppler proved to have additional value in the evaluation of ventricular filling in this population. Almost no correlation was found for diabetes duration and HbA(1c) with the cardiovascular changes.     

Effect of preload reduction by haemodialysis on new indices of diastolic function

Assessment of mitral annular motion diastolic velocities by M-mode or tissue Doppler imaging and the propagation velocity of early diastolic filling (Vp) by colour M-mode have been proposed as preload-independent indices of diastolic function. The aim of the present study was to determine the effects of preload reduction by haemodialysis on these new echocardiographic indices and to assess the relationship between these indices. The study group comprised 17 patients with chronic renal failure in sinus rhythm with normal left ventricular systolic function who underwent echocardiography 30 min prior to and 30 min following haemodialysis. Following dialysis there were significant reductions in weight (P<0.001), left atrial diameter (P=0.001), the peak Doppler velocity of early diastolic transmitral flow (P=0.005) and the ratio of Doppler velocities of early to late diastolic transmitral flow (P=0.02), consistent with a reduction in intravascular volume. There was no change after dialysis in early diastolic mitral annular velocity using M-mode (P=0.19) or tissue Doppler imaging from either the septal or lateral walls (P=0.88 and P=0.15 respectively), but there was a reduction in Vp after dialysis (55 to 49 cm/s; P=0.04). There were only weak correlations between Vp and the early diastolic mitral annular velocities (r<0.6 for all). We conclude that the assessment of diastolic function by the mitral annular early diastolic velocity appears to be preload-independent, that Vp may be affected by preload and that there is only a weak relationship between Vp and the early diastolic mitral annular velocity.     

应变率成像评估左心室不同舒张功能状态患者左心房功能

目的探讨应变率成像（SRI）评估左心室不同舒张功能状态下左心房功能的价值。方法128例受检者根据左心室不同舒张功能状态分成正常组、顺应性降低组、假性正常化组及限制性充盈障碍组。采集心尖四腔观、三腔观和二腔观组织速度图,SRI测量并计算左心室收缩期左心房平均峰值应变率（mSRs）、左心室舒张早期左心房平均值峰应变率（mSRe）、左心房收缩期左心房平均峰值应变率（mSRa）;测量包括二尖瓣口舒张早期前向血流峰值速度（E）与二尖瓣前瓣环纽织多普勒E比值（E／E′）及E与二尖瓣口M型彩色多普勒峰值血流速度Vp比值（E／Vp）等左心室舒张功能相关参数。将SRI所测左心房功能相关参数与反映左心室舒张功能相关参数作对比。结果E／Vp及E／E′随舒张功能障碍加重而增高,1．1±0．3vs1．6±0．2vs2．1±0．3VS2．6±0．4和7．4±2．4 vs 10．4±2．9VS17．6±4．2vs22．8±4．8（均P〈0．05）;4组患者mSRs、mSRe、mSRa差异有统计学意义（P〈0．05）;mSRe随舒张功能障碍加重而降低,（3．73±0．92）^-1 vs（2．84±0．54）^-1 vs（1.94±0．23）s^-1 vs（1．85±0．30）s。（均P〈0．05）,mSRs及mSRa在舒张功能降低组最高,而在限制性充盈障碍组中最低;E／E′、E／Vp与mSRe呈良好负相关（r=0．813,P〈0．01;r=-0．793,P〈0．01）。结论SRI可准确评价左心室不同舒张功能状态患者左心房功能。