Velocity-time Integral Ratio Research Articles

The mitral to aortic/pulmonary velocity-time integral ratio is a simple, feasible and accurate discriminator for echocardiographic evaluation of severe isolated mitral regurgitation.

Echocardiographic quantification of mitral regurgitation (MR) remains challenging, requiring dedicated image acquisition, and is limited by potential error from geometric assumptions of annular dimensions. Volume is a product of area and flow and assuming proportional mitral/aortic areas, an increased mitral-inflow volume compared to LV/RV-outflow semi-quantitatively represents greater MR regurgitant volume. Therefore, we investigated the feasibility and diagnostic performance of the mitral-aortic velocity-time integral(VTI) ratio in isolated MR. We also investigated the use of the mitral-pulmonary VTI ratio as an alternative in clinical situations where the LV outflow tract(LVOT) VTI could not be used. We reviewed 166 consecutive patients (33%, n = 54 severe MR by multi-parameter integrated expert opinion). Pulsed wave Doppler VTI at the mitral leaflet tips and the left ventricular outflow and continuous-wave Doppler of the RV outflow tract were measured individually and independently by blinded readers(expert and trainee status) to derive the ratio. Receiver operator characteristic area under the curve(AUC) comparison was calculated and compared with effective regurgitant orifice area(EROA > 40mm), regurgitant volume(RVol > 60mL), vena contracta(VC > 0.7cm), E-velocity > 1.2cm, systolic flow reversal(SFR), left atrial and ventricular dilatation. Increasing ratio was associated with severe MR(AUC 0.94) with optimal threshold defined at 1.3. This provided significant discrimination for severe MR(AUC 0.81) compared to EROA(0.68), VC(0.52), LV dilatation(0.69), LA dilatation(0.70), SFR(0.73), E-velocity(0.68) all p < 0.05, with sensitivity 82% and specificity 94%. The mitral-pulmonary VTI ratio demonstrated similar discrimination(AUC 0.92) with optimal threshold defined at 1.14. Excellent inter-observer reproducibility(intra-class correlation 0.97) was seen between trainee and expert readers. There was no difference in AUC comparison by MR mechanism or patient rhythm. The mitral-aortic and mitral-pulmonary VTI ratios are simple, geometric-free parameters feasibly reproducible from routine echocardiographic datasets and are excellent discriminative tools for severe MR. Readers should consider integration of this parameter in routine reporting.

Association between echocardiographic velocity time integral ratio of mitral valve and left ventricular outflow tract and clinical outcomes post transcatheter edge-to-edge mitral valve repair

BackgroundResidual mitral regurgitation (MR) is frequent after transcatheter edge-to-edge repair (TEER). There is controversy regarding the clinical impact of residual MR and its quantitative assessment by transthoracic echocardiography (TTE), which is often challenging with multiple eccentric jets and artifact from the clip. The utility of the velocity time integral (VTI) ratio between the mitral valve (MV) and left ventricular outflow tract (LVOT), (VTIMV/LVOT), a simple Doppler measurement that increases with MR, has not been assessed post TEER. MethodsBaseline characteristics, clinical outcomes, and TTE data from patients who underwent TEER between 2014 and 2021 across three academic centers were retrospectively analyzed. Post-procedure TTEs were evaluated for VTIMV/LVOT in the first three months after TEER. One-year outcomes including all-cause and cardiac mortality, major adverse cardiac events, and MV reintervention were compared between patients with high VTIMV/LVOT (≥2.5) and low (<2.5). ResultsIn total, 372 patients were included (mean age 78.7 ± 8.8 years, 68 % male, mean pre-TEER ejection fraction of 50.5 ± 14.7 %). Follow up TTEs were performed at a median of 37.5 (IQR 30–48) days post-procedure. Patients with high VTIMV/LVOT had significantly higher all-cause mortality (HR 2.10, p = 0.003), cardiac mortality (HR 3.03, p = 0.004) and heart failure admissions (HR 2.28, p < 0.001) at one-year post-procedure. There was no association between raised VTIMV/LVOT and subsequent MV reintervention. ConclusionHigh VTIMV/LVOT has clinically significant prognostic value at one year post TEER. This tool could be used to select patients for consideration of repeat intervention.

Left Ventricular Strain, Arch Angulation, and Velocity-Time Integral Ratio Improve Performance of a Clinical Pathway for Fetal Diagnosis of Neonatal Coarctation of the Aorta

Plain Language SummaryCoarctation of the aorta is challenging to diagnosis in fetal life. New fetal echocardiographic techniques have been developed to help predict the development of surgical coarctation of the aorta after birth but have not been externally validated or compared to each other. We sought to validate these metrics and compare their utility in predicting surgical coarctation of the aorta in a retrospective cohort of previously identified fetuses at risk for coarctation of the aorta. We found that among fetuses with prenatal concern for coarctation of the aorta, novel metrics were significantly different between surgical and non-surgical cases. Our results indicate that the incorporation of novel metrics can add diagnostic value for fetal coarctation of the aorta with higher specificity than previous high-risk criteria, without compromising the sensitivity of the low-risk group. The ability to identify fetuses at the highest risk for surgical coarctation may improve prenatal counseling, allow for more consistent surgical planning, and ultimately optimize hospital resource allocation.

Pulmonary venous flow changes after Mitraclip implantation is predictor of mid-term right ventricular function improvement

Abstract Background Percutaneous mitral valve repair with Mitraclip has become an effective therapeutic alternative to mitral valve surgery in high-risk surgical patients with severe mitral regurgitation. Pulmonary venous flow assessment by pulsed Doppler is widely used to determine the severity of mitral regurgitation and apparently is the best method to evaluate mitral regurgitation after the procedure because device artifacts do not affect it. The main objective of this study was to assess the impact of pulmonary venous flow changes after Mitraclip implantation in right ventricular function in the follow up at 6 months after the procedure. Methods This single-center, retrospective study included all consecutive patients with mitral regurgitation ≥ III/IV undergoing percutaneous mitral valve repair with the MitraClip device at our institution between 2010 and 2023. We analyzed the changes in the systolic/diastolic flow velocity time integral ratio in pulmonary veins pre and postprocedure. The tricuspid annular plane systolic excursion (TAPSE) was the method used to assess the right ventricular function in the follow up. Results A total of 158 consecutive patients that underwent Mitraclip implantation at our institution were included. Men age was 77 years ±10.3, and 82 patients (52.5%) were women. The etiology of mitral regurgitation was degenerative in 70 patients (44.3%), functional in 60 patients (37.9%) and mixed in 28 patients (17.7%). Preprocedurally, tridimensional effective regurgitant orifice was 0.63 ±0.33cm2, left ventricular end-diastolic volume 145.19 ± 66.14 ml (indexed 80.33 ± 59.59 ml/m2), left ventricular ejection fraction 45.90 ± 15.99%, pulmonary artery systolic pressure (PASP) 48.79 ± 18.12 mmHg and TAPSE 18.59 ± 4.43mm. The change in the pulmonary venous flow assessed by the systolic/diastolic flow velocity time integral ratio, was predictor of a right ventricular function improvement at 6 months (y = -2.7169 + 3.0171 x, r= 0.45, p= 0,006 see figure 1). Conclusions Pulmonary venous flow changes after Mitraclip implantation assessed by the systolic/diastolic flow velocity time integral ratio is predictor of mid-term right ventricular function improvement.Figure 1

Echocardiography evaluation of neonatal vein of Galen aneurysmal malformation.

In neonatal vein of Galen aneurysmal malformation, vein of Galen aneurysmal malformation echocardiography remains the mainstay for early detection and explains various haemodynamic changes occurring due to a large systemic arterio-venous shunt. However, there is limited evidence of echocardiography in risk stratifying neonatal vein of Galen aneurysmal malformation vein of Galen aneurysmal malformation. The objective of this study was to identify echocardiographic parameters that could be associated with major outcomes and guide timing of neuro-intervention. In this retrospective chart review, infants < 28 days of age with the diagnosis of vein of Galen aneurysmal malformation vein of Galen aneurysmal malformation were included. Demographic, clinical, and echocardiographic parameters were compared in neonates who survived or died with neonatal presentation. A risk algorithm model based on key echocardiographic parameters was developed to determine those who are at risk of early death. Of the 19 neonates included, with median birth weight 3.1 kg (IQR 2.58-3.36), nine (47%) neonates died at median age of 5 days (IQR 4-17). All neonates showed retrograde diastolic flow at the level of descending aorta by colour Doppler on the first post-natal echocardiogram at median age of 2 days (IQR 1-5.5). An aortic antegrade-to-retrograde velocity time integral ratio of < 1.5 and supra-systemic pulmonary artery pressure had 100% positive predictive value of death (p = 0.029), whereas aortic antegrade-to-retrograde velocity time integral ratio of > 1.5 and sub-systemic pulmonary artery pressure had 100% positive predictive value of survival (p = 0.029). Combination of aorta antegrade-to-retrograde velocity time integral ratio and degree of pulmonary hypertension on the first post-natal echocardiogram may help stratify the severity of disease and guide optimal timing for neuro-intervention for neonatal vein of Galen aneurysmal malformation.

Ductus arteriosus flow predicts outcome in neonates with congecsion.

To investigate whether the pattern of flow through the ductus arteriosus (DA) is associated with the need for extracorporeal membrane oxygenation support (ECMO) or death in neonates with congenital diaphragmatic hernia (CDH). Retrospective observational study. German level III Neonatal Intensive Care Unit. One hundred and nine CDH neonates were born between March 2009 and May 2021. DA flow pattern was assessed in echocardiograms obtained within 24 h of life by measuring flow time and velocity time integral (VTI) for both left-to-right (LR) and right-to-left (RL) components of the ductal shunt. A VTI ratio (VTILR/VTIRL) < 1.0 and an RL relative flow time (flow timeRL/(Flow timeLR+Flow timeRL)) >33% were defined as markers of abnormal flow patterns. The primary outcome was the need for ECMO. The secondary outcome was death. Seventy-two patients (51.8%) had a VTI ratio <1.0, 73 (52.5%) an RL relative flow time >33%. Fifty-nine patients (42.4%) had an alteration of both values. Need for ECMO was present in 37.4% (n = 52), while 19.4% (n = 27) died. A VTI ratio <1.0 had the highest diagnostic accuracy for the need for ECMO, (sensitivity 82.7%, specificity 66.7%, negative predictive value [NPV] 86.6%, and positive predictive value [PPV] 59.7%) as well as for death (sensitivity 77.8%, specificity 54.5%, NPV 91.0%, and PPV 29.2%). Patients with VTI ratio <1.0 were 4.7 times more likely to need ECMO and 3.3 times more likely to die. VTI ratio values correlated significantly with pulmonary hypertension (PH) severity (r = -0.516, p < 0.001). A VTI ratio <1.0 is a valuable threshold to identify high-risk CDH neonates. For improved risk stratification, other parameters-for example, left ventricular cardiac dysfunction-should be combined with DA flow assessment.

Association between Hepatic Venous Congestion and Adverse Outcomes after Cardiac Surgery.

Hepatic venous flow patterns reflect pressure changes in the right ventricle and are also markers of systemic venous congestion. Fluid management is crucial in patients undergoing cardiac surgery. Our goal was to determine which factors are associated with the increased congestion of the liver as measured by Doppler ultrasound in patients undergoing cardiac surgery. This prospective, observational study included 41 patients without preexisting liver disease who underwent cardiac surgery between 1 January 2021 and 30 September 2021 at a tertiary heart center. In addition to routine echocardiographic examination, we recorded the maximal velocity and velocity time integral (VTI) of the standard four waves seen in the common hepatic vein (flow profile) using Doppler ultrasound preoperatively and at the 20-24th hour of the postoperative period. The ratios of the retrograde and anterograde hepatic venous waves were calculated, and the waveforms were compared to the baseline value and expressed as a delta ratio. Demographic data, pre- and postoperative echocardiographic parameters, intraoperative variables (procedure, cardiopulmonary bypass time), postoperative factors (fluid balance, vasoactive medication requirement, ventilation time and parameters) and perioperative laboratory parameters (liver and kidney function tests, albumin) were used in the analysis. Of the 41 patients, 20 (48.7%) were males, and the median age of the patients was 65.9 years (IQR: 59.8-69.9 years). Retrograde VTI growth showed a correlation with positive fluid balance (0.89 (95% CI 0.785-0.995) c-index. After comparing the postoperative echocardiographic parameters of the two subgroups, right ventricular and atrial diameters were significantly greater in the "retrograde VTI growth" group. The ejection fraction and decrement in ejection fraction to preoperative parameters were significantly different between the two groups. (p = 0.001 and 0.003). Ventilation times were longer in the retrograde VTI group. The postoperative vs. baseline delta VTI ratio of the hepatic vein correlated with positive fluid balance, maximum central venous pressure, and ejection fraction. (B = -0.099, 95% CI = -0.022-0.002, p = 0.022, B = 0.011, 95% CI = 0.001-0.021, p = 0.022, B = 0.091, 95% CI = 0.052-0.213, p = 0.002, respectively.) Conclusion: The increase of the retrograde hepatic flow during the first 24 h following cardiac surgery was associated with positive fluid balance and the decrease of the right ventricular function. Measurement of venous congestion or venous abdominal insufficiency seems to be a useful tool in guiding fluid therapy and hemodynamic management.

Abstract 9260: Rate of Progression of Aortic Stenosis in Patients With Cirrhosis

Introduction: There is currently no published data studying the effect that cirrhosis may have on the rate of progression of aortic stenosis (AS). We hypothesize that AS may have accelerated progression in patients with cirrhosis compared with the general population due to high stroke volumes, hyperdynamic left ventricular function, and a pro-inflammatory state. The aim of this study is to determine the rate of progression of AS in patients with cirrhosis, elucidate risk factors, and assess progression based on the severity of cirrhosis as determined by Model for End Stage Liver Disease (MELD-Na) scores. Methods: This single center retrospective study included 48 patients with the diagnosis of cirrhosis and at least mild AS confirmed by two or more transthoracic echocardiograms (TTEs) taken ≥ 6 months apart. Historical data describing rates of AS progression in non-cirrhotic patients were used for comparison. Results: There was not a significant difference in the rate of AS progression between patients with cirrhosis and those without (table). Using univariate regression analysis, the yearly rate of aortic valve area (AVA) decline was positively correlated with the diagnosis of hyperlipidemia (HLD) (r=.228, P=0.047, B=0.116), initial AVA (r=0.504, P&lt;0.001, B=0.224), initial left ventricular outflow track to aortic valve velocity time integral ratio (LVOT:AV VTI) (r=0.519, P&lt;0.001, B=0.75) and initial left-ventricular stroke volume index (LV-SVI) (r=0.385, P=0.0070, B=0.0070). The yearly decrease of the LVOT:AV peak velocity ratio was inversely correlated with beta-blocker use (r=0.313, P=0.030, B=-0.047). There was not a significant relationship between MELD-Na scores and the rate of AS progression. Conclusion: Patients with cirrhosis can expect a similar rate of AS progression compared with those without cirrhosis. A higher initial LV-SVI and a history of HLD were both associated with faster AS progression in our study cohort.

The mitral to aortic/pulmonary velocity-time integral ratio is a simple, feasible and accurate discriminator for echocardiographic evaluation of severe isolated mitral regurgitation

Abstract Background Echocardiographic quantification of mitral regurgitation (MR) remains challenging, requiring dedicated image acquisition, and is limited by potential error from geometric assumptions of annular dimensions. Volume is a product of area and flow and assuming proportional mitral/aortic areas, an increased mitral-inflow volume compared to LV/RV-outflow semi-quantitatively represents greater MR regurgitant volume. Therefore, we investigated the feasibility and diagnostic performance of the mitral-aortic velocity-time integral (VTI) ratio in isolated MR. We also investigated the use of the mitral-pulmonary VTI ratio as an alternative in clinical situations where the LV outflow tract (LVOT) VTI could not be used. Methods We reviewed 166 consecutive patients (54 (33% severe MR by multi-parameter integrated expert opinion)). Pulsed-Doppler VTI at the mitral leaflet tips and the left ventricular outflow and continuous-wave Doppler of the right ventricular outflow tract were measured individually and independently by blinded readers (expert and trainee status) to derive the ratio. Receiver operator characteristic area under the curve (AUC) comparison was calculated and compared with effective regurgitant orifice area (EROA &amp;gt;40 mm), regurgitant volume (RVol &amp;gt;6 0mL), vena contracta (VC &amp;gt;0.7 cm), E-velocity &amp;gt;1.2 cm, systolic flow reversal (SFR), left atrial and ventricular dilatation. Results Increasing ratio was associated with severe MR (AUC 0.94) with optimal threshold defined at 1.3. This provided significant discrimination for severe MR (AUC 0.81) compared to EROA (0.68), VC (0.52), LV dilatation (0.69), LA dilatation (0.70), SFR (0.73), E-velocity (0.68) all p&amp;lt;0.05, with sensitivity 82% and specificity 94%. The mitral-pulmonary VTI ratio demonstrated similar discrimination (AUC 0.92) with optimal threshold defined at 1.14. Excellent inter-observer reproducibility (intra-class correlation 0.97) was seen between trainee and expert readers. There was no difference in AUC comparison by MR mechanism or patient rhythm. Conclusions The mitral-aortic or mitral-pulmonary VTI ratio is a simple, geometric-free parameter feasibly reproducible from routine echocardiographic datasets and is an excellent discriminative tool for severe MR. Readers should consider integration of this parameter in routine reporting. Funding Acknowledgement Type of funding sources: None.

Association of Systemic Vascular Resistance Analog and Cardiovascular Outcomes: The Heart and Soul Study.

BackgroundSystemic vascular resistance (SVR) is an integral component of the hemodynamic profile. Previous studies have demonstrated a close correlation between an estimated SVR analog (eSVR) based on echocardiographic methods and SVR by direct hemodynamic measurement. However, the prognostic impact of eSVR remains unestablished.Methods and ResultsStudy participants with established coronary artery disease from the Heart and Soul Study formed this study cohort. We defined Doppler‐derived eSVR as the ratio of systolic blood pressure to left ventricular outflow tract velocity time integral. Study participants were separated based on baseline eSVR tertile: <5.6, 5.6 to <6.9, and ≧6.9. An elevated eSVR was defined as an eSVR in the third tertile (≧6.9). Follow‐up eSVR was calculated at the fifth year of checkup. Cardiovascular outcomes included heart failure, major cardiovascular events, and all‐cause death. Among the 984 participants (67±11 years old, 82% men), subjects with the highest baseline eSVR tertile were the oldest, with the highest systolic blood pressure and lowest left ventricular outflow tract velocity time integral. A higher eSVR was associated with increased risk of heart failure, major cardiovascular events, and death. The hazard ratio for major cardiovascular events was 1.38 (95% CI, 1.02–1.86, P=0.03) for subjects with the highest eSVR tertile compared with the lowest. In addition, those with a persistently elevated eSVR during follow‐up had the most adverse outcomes.ConclusionsAn elevated eSVR, derived by the ratio of systolic blood pressure and left ventricular outflow tract velocity time integral, was more closely correlated with cardiovascular events than systolic blood pressure alone. Repeatedly elevated eSVR was associated with more adverse outcomes.

Association between Preoperative Retrograde Hepatic Vein Flow and Acute Kidney Injury after Cardiac Surgery.

Key questions: Is there a predictive value of hepatic venous flow patterns for postoperative acute kidney injury (AKI) after cardiac surgery? Key findings: In patients who underwent cardiac surgery, retrograde hepatic venous waves (A, V) and their respective ratio to anterograde waves showed a strong association with postoperative AKI, defined as the percentage change of the highest postoperative serum creatinine from the baseline preoperative concentration (%ΔCr). The velocity time integral (VTI) of the retrograde A wave and the ratio of the retrograde and anterograde waves’ VTI were independently associated with AKI after adjustment for disease severity. Take-home message: A higher ratio of retrograde/antegrade waves in hepatic venous retrograde waves, which are related to hepatic stasis, may predict AKI after cardiac surgery. Introduction: Hepatic venous flow patterns reflect pressure changes in the right ventricle and are also markers of systemic venous congestion. Pulsatility of the inferior caval vein was used to predict the risk of acute kidney injury (AKI) after cardiac surgery. Aims: Our objective was to evaluate the association between preoperative hepatic venous flow patterns and the risk of AKI in patients after cardiac surgery. Methods: This prospective, observational study included 98 patients without preexisting liver disease who underwent cardiac surgery between 1 January 2018, and 31 March 2020, at a tertiary heart center. In addition to a routine echocardiographic examination, we recorded the maximal velocity and velocity time integral (VTI) of the standard four waves in the common hepatic vein with Doppler ultrasound. Our primary outcome measure was postoperative AKI, defined as the percentage change of the highest postoperative serum creatinine from the baseline preoperative concentration (%ΔCr). The secondary outcome was AKI, defined by KDIGO (Kidney Disease Improving Global Outcomes) criteria. Results: The median age of the patients was 69.8 years (interquartile range [IQR 25–75] 13 years). Seventeen patients (17.3%) developed postoperative AKI based on the KDIGO. The VTI of the retrograde A waves in the hepatic veins showed a strong correlation (B: 0.714; p = 0.0001) with an increase in creatinine levels after cardiac surgery. The velocity time integral (VTI) of the A wave (B = 0.038, 95% CI = 0.025–0.051, p < 0.001) and the ratio of VTI of the retrograde and anterograde waves (B = 0.233, 95% CI = 0.112–0.356, p < 0.001) were independently associated with an increase in creatinine levels. Conclusions: The severity of hepatic venous regurgitation can be a sign of venous congestion and seems to be related to the development of AKI.

Evaluation by ultrasound of the velocity time integral in carotid stenosis

Abstract Funding Acknowledgements Type of funding sources: None. Introduction Atherosclerotic disease is one of the main causes of cerebrovascular accident. Doppler ultrasound is one of the most important tools in the diagnosis and quantification of such issues. The classics variables to assess through this method are peak systolic velocity (PSV) at the highest stenosis carotid level, diastolic velocity at such level and the PSV rate between the PSV at the stenosis level of the internal carotid artery (ICA) respect the PSV at the common carotid artery (CCA). Objectives Compare the correlation of the velocity time integral (VTI) and the ratio between VTI of ICA and CCA to identify carotid stenosis by carotid ultrasound. Material and methods We included patients that assist at the institution for a carotid ultrasound to identify a carotid stenosis, between 2017 and 2020. Correlation tests between continuous variables were applied according to the type of distribution. Pearson"s test for continuous variables with normal distribution and Spearman"s for those with abnormal distribution.Fig. 1 Results Three hundred and forty two patients were included, 78% male, mean age 67 ± 8. According to its distribution, the VTI ACI / CCA ratio obtained as the median is 5 cm (1.27-8). By dividing the VTI ratio by quartiles, we observe that the percentage of individuals with a higher degree of carotid obstruction, increase significantly as the quartile increase: 0%, 36.5%, 94.2%, 98.8 %. p: 0.0001. Likewise, a high correlation value between the classical quantitative values and VTI and ratio of VTI at different grade of carotid stenosis was seen by carotid ultrasound (Table 1). Conclusions VTI and VTI ratio are parameters that show good correlation with the classical variables to assess a carotid stenosis by carotid ultrasound. In future investigations, the evaluation of these parameters could lead the estimation of the stenosis area, considering the principles of the continuity equation. Abstract Figure. Fig 1 Abstract Table. 1

The Mitral to Pulmonary Velocity–Time Integral Ratio is a Simple, Feasible and Accurate Discriminator for Echocardiographic Evaluation of Severe Isolated Mitral Regurgitation

Echocardiographic quantification of mitral regurgitation (MR) remains challenging and traditional quantitative methods are prone to measurement errors. An increased mitral–aortic VTI ratio has been described for MR severity assessment. RVOT and LVOT flow should be equal (excluding pulmonary valve dysfunction). We investigated the mitral–pulmonary VTI ratio as an alternative in clinical situations where the LVOT VTI could not be used.

Maternal Hyperoxygenation Testing in Fetuses with Hypoplastic Left-Heart Syndrome: Association with Postnatal Atrial Septal Restriction

Introduction: In fetuses with hypoplastic left-heart syndrome (HLHS), maternal hyperoxygenation (MHO) may aid risk stratification. We hypothesized that pulmonary vein (Pvein) velocity time integral (VTI) change with MHO would more reliably identify neonates who undergo emergent atrial septoplasty (EAS) than changes in pulmonary arterial pulsatility index (PA PI). Methods: Fetuses with HLHS who underwent MHO testing at our institution between 2014 and 2019 were identified. Data were reviewed in a blinded, retrospective manner. Pvein VTI ratio (prograde:retrograde) was calculated. The primary outcome was neonatal EAS. Results: Twenty-seven HLHS fetuses underwent MHO, and 5 (19%) underwent EAS. Without MHO, a Pvein VTI ratio <3 conferred 60% sensitivity and 100% specificity for EAS. With MHO, a Pvein VTI ratio <6.5 conferred 100% sensitivity and specificity. For an intermediate group of fetuses with a baseline Pvein VTI ratio 3–7, the ratio decrease with MHO conferred 100% sensitivity and specificity. Compared to the Pvein VTI ratio, PA PI was less accurate in identifying EAS neonates. Discussion/Conclusion: Addition of MHO appears to improve the diagnostic ability of the Pvein VTI ratio to identify HLHS fetuses who undergo EAS. The Pvein VTI ratio change may more accurately identify fetuses who undergo EAS than change in PA PI and has less interobserver variability.

Tricuspid Annular Systolic Velocity to Left Ventricular Outflow Velocity Time Integral Ratio: Proof of Concept Utility Analysis.

BackgroundThe tricuspid annular plane systolic excursion (TAPSE) / pulmonary artery systolic pressure (PASP) ratio has been a useful marker of right ventricular (RV)-pulmonary artery coupling. However, given the intricate functional and mechanical interdependence of the right and left ventricles, we believe this ratio would be less useful when assessing reduced left ventricular (LV) systolic function. Instead, we proposed using the tricuspid annular tissue Doppler imaging systolic velocity to LV outflow tract velocity time integral ratio (TA TDI s’ / LVOT VTI r) for this purpose. MethodsFor this proof-of-concept study, a retrospective analysis was conducted on 60 patients with complete echocardiographic studies while in sinus rhythm. The population was divided as follows; Group 1 included 20 individuals with normal left ventricular ejection fraction (LVEF) as well as normal RV and PASP. Group 2 was composed of 20 patients known to have been evaluated or treated for pulmonary hypertension, while group 3 was comprised of 20 patients treated for heart failure (HF). ResultsTAPSE/PASP ratios were no different from any of the studied groups. However, the proposed TA TDI s' /LVOT VTI r was statistically different among all three groups (Group 1: 0.6 ± 0.1*; Group 2: 0.5 ± 0.1°; and Group 3: 0.8 ± 0.3#; p < 0.001).ConclusionsBased on these results, there is now a need for additional prospective studies to explore the overall utility of using this TA TDI s' / LVOT VTI r in day-to-day routine assessments not only for diagnostic purposes but also to determine how this ratio correlates with symptoms and changes with therapy.

Impact of chronic mitral regurgitation on 3D atrial size and mechanics. Insights from the prospective 3D-PRIME study

Abstract Background Chronic mitral regurgitation (MR) leads to progressive left atrial (LA) dilation. Its relative contribution to 3-dimensional (3D) LA structural and functional remodelling and the impact of concomitant clinical and hemodynamic factors, has been less explored. Aims To assess 3D LA size and mechanics, as well as mean LA pressure estimated from the pulmonary vein flow, in relation to chronic MR severity. Methods In the prospective 3D-PRIME (3D Echocardiography and Cardiovascular Prognosis in Mitral Regurgitation) study, 46 patients with chronic MR (69±13 years, body mass index (BMI) 26.2±4.3kg/m2, 50% women, 26% with atrial fibrillation, 30% with severe MR) recruited at one heart valve center were investigated with 2D and 3D transthoracic and transesophageal echocardiography. MR severity was quantified by the regurgitant volume (RV) and MR classified as organic, atrial functional or ventricular functional, as by current recommendations. LA size was measured by 3D maximum volume (LAV) indexed for body surface area (LAVI), LA mechanics by 3D peak relative increase in longitudinal volume in the reservoir phase (Sr), and mitral size by 3D annulus area and total leaflet area. Pulmonary vein Doppler flow profile was recorded in both right and left upper veins, and mean LA pressure was estimated from the average pulmonary vein systolic/diastolic velocity time integral ratio. Results Average mitral RV was 38±26ml, LAVI 53ml/m2, and Sr 17±11%. Increased mitral RV correlated with higher LAV and mean LA pressure (Figure 1), larger mitral annulus area (r=0.42) and total leaflet area (r=0.38) (all p&amp;lt;0.01), but not with Sr. In backward stepwise multivariate linear regression analyses, increased LAVI was independently predicted by larger mitral RV, higher age and atrial fibrillation (R2=0.62), higher mean LAP by larger mitral RV, body mass index and atrial fibrillation (R2=0.55), while lower Sr was associated with higher age and atrial fibrillation (R2=0.62) (all p&amp;lt;0.001). Patients with atrial functional MR (30% of the total group) had the largest LAVs and lowest Sr despite slightly lower mitral RV (Figure 2). Conclusion Chronic MR is associated with progressive increase in LA volume, mean LA pressure, and mitral annulus and total leaflet area. While MR is accompanied by low 3D LA longitudinal deformation, impaired LA mechanics is multifactorial and related closely to age and history of atrial arrythmias. Funding Acknowledgement Type of funding sources: Public hospital(s). Main funding source(s): Haukeland University Hospital Figure 1Figure 2

THE ASSOCIATION BETWEEN PREOPERATIVE AND POSTOPERATIVE HEPATIC VENOUS FLOW AND THE OUTCOME AFTER CARDIAC SURGERY

Introduction The hepatic venous flow reflects the pressure changes of the right ventricle. (1) Therefore, it starts to appear as a part of the echocardiographic examinations. Moreover, the back-and-forth link between the cardiovascular state and the liver is well-known for several years. (2,3) Our objective was to evaluate the association between preoperative and postoperative hepatic venous flow and the outcome of patients who underwent cardiac surgery. Methods Our prospective, observational study included 30 patients who underwent cardiac surgery between 2021 January and June at our Heart and Vascular Centre. Beside the routine echocardiographic examination, we also measured the venous blood flow in the common hepatic vein before the influx into the Inferior Vena Cava with Doppler ultrasound before and after the surgical procedure. We recorded the standard four waves’ (V, D, S, A) maximal speed and velocity time integral (VTI). In our database we recorded the patients’ demographic data, preoperative and postoperative hemodynamic and hepatobiliar markers and the EuroSCORE. We collected the length of stay (LOS), the intensive care unit stay, the vasopressor and inotrope need, and the occurrence of acute kidney injury (AKI). Our primary outcome was AKI, it was defined by the Kidney Disease Improving Global Outcomes (KDIGO) guidelines, which is one of the first signs of circulation problems. We used the SPSS 22 program to analyse our data, with descriptive parameters and Cox-regression analyses. Results Median age was 67.9 (IQR 25-75: 60.6-73.6), none of them had any liver or renal disease in their medical history. Most common surgical procedure was AVR (atrial valve repair) (40%). During the first postoperative week 6 patients developed AKI. Between the AKI and non-AKI subgroups with Inverse Probability Weighting we found a significant difference at the postoperative A and D waves’ VTI, (p=0,031 and 0,022) and the preoperative retrograde/anterograde waves’ VTI ratio after adjustment for age, Euroscore, diabetes and GFR. (p=0,001). With paired-samples T test the V waves’ VTI's difference was significant between the preoperative and postoperative measurement. Discussion The increment in the hepatic venous retrograde waves, which are related to hepatic stasis, can predict worse outcomes among cardiac patients. Therefore, we might include this potentially useful tool in routine echocardiographic examinations and monitoring through the whole hospital stay.

Echocardiography and cardiac magnetic resonance in children with repaired tetralogy of fallot and their correlations with exercise capacity

Abstract Background Severe pulmonary regurgitation (PR) and progressive right ventricular (RV) dilation and disfunction are common in patients with repaired Tetralogy of Fallot (r-TOF) and should be carefully monitored during the follow up of these patients. In this contest, Echocardiography and Cardiac Magnetic Resonance (CMR) have a complementary diagnostic role. Purpose To correlate Echo and CMR parameters in children (&amp;lt;18 years) with r-TOF with at least moderate PR assessed by Echocardiography and to analyse which parameter was associated with peak oxygen consumption (Vo2). Methods Paediatric patients with r- TOF with at least moderate PR at the echo evaluation who underwent a CMR study within six months were included by using hospital databases. All patients underwent standard echo-Doppler study including RV end-diastolic area (RVEDA), end-systolic area (RVESA), fractional area change (FAC) and TAPSE; PR was assessed by Color Doppler, continuous-wave (CW) Doppler and derived parameters such as pressure half time (PHT), PR index, ratio of diastolic and systolic time-velocity integrals (DSTVI) of the main pulmonary artery. By speckle tracking we measured also RV global longitudinal strain (RVGLS) and right atrial strain (RAS). All the patients underwent CMR to assess PR and right ventricular volumes and ejection fraction (EF). Of these, 36 patients underwent cardiopulmonary exercise test (CPET). Results Fourty-six children (aged 13.7±3.0 years) were included. Echo derived RV areas correlated significantly with CMR RV volumes (r=0.72, p&amp;lt;0.0001). RVEDA &amp;gt;21.9 cm2/m2 had a good sensitivity (83.3%) and specificity (73.5%) to identify a RV end-diastolic volume (RVEDV) ≥150 ml/m2. No correlation was found among TAPSE, FAC, RVGLS and RVEF calculated by CMR nor between PHT, PR index and DSTVI and PR-RF. Only A' wave velocity showed a significant but modest correlation with CMR RF (r=0.57, p&amp;lt;0.0001). Flow reversal in pulmonary branches showed a sensitivity of 95.8% and a specificity of 59.1% to identify PR RF ≥35%. RVEF by CMR was preserved in all patients, while TAPSE was reduced in 78.2% and RVGLS in 60.8%. None of the CMR parameters correlated with peak Vo2. At the multivariate analysis RAS was the best independent predictor of peak Vo2 (p&amp;lt;0.0001). Conclusion In children, flow reversal in pulmonary branches identifies hemodynamically significant PR at CMR. RV area by echocardiogram is a valid first-line parameter to screen RV dilation. Our study suggests that, also for the RV, there is longitudinal systolic dysfunction in presence of preserved RV EF. RAS is the best predictor of peak Vo2 and should be added in the follow up of these patients. Funding Acknowledgement Type of funding source: None

Usefullness of peak mitral regurgitation velocity to left ventricular outflow tract time velocity integral ratio as a new prognostic marker for one year and long term mortality in failing heart

Abstract Background and aim Systemic vascular resistance (SVR) is useful for risk estimation and therapy guidance in HF. It has been showed that the ratio of peak mitral regurgitation velocity (MRV) to left ventricular outflow tract velocity-time integral (LVOT VTI) correlated positively with SVR. We aimed to assess the association of MRV/LVOT VTI ratio with established prognostic markers and its prognostic role for predicting one year and long term composite end-points in patients with HF and reduced ejection fraction (HFrEF). Material and methods We prospectively enrolled a total of 72 patients with HFrEF and 10 control subjects. Patients were followed up patients for median 40.5 months. Primary composite endpoint (CEP) was defined as any of these outcomes including requiring mechanical circulatory support, cardiac transplantation and all-cause mortality. Results CEP(+) patients had higher MRV/LVOT VTI ratio than others (0.48±0.15 vs. 0.39±0.18 p=0.012). MRV/LVOT VTI ratio was positively correlated with functional status (β=0.539, p=0&amp;lt;001), serum BNP level (β=0.479, p&amp;lt;0.001),troponin I (β=0.415, p&amp;lt;0.001), and Uric acid level (β=0.235 p=0.018) and negatively correlated with SEATTLE score derived life expectancy (β=−0.248, p=0.032). Adjusted with other parameters, every 0.1 increase in MRV/LVOT VTI ratio increased the one-year CEP risk by 27% and long-term CEP risk by 24.6%. In Kaplan Meier analysis, patients with MRV/LVOTVTI ratio ≥0.39 had more long-term CEP compared to others. Conclusion MRV/LVOT VTI ratio seemed to be useful predictor of poor prognosis associated with other established HF prognostic markers. Figure 1 Funding Acknowledgement Type of funding source: None

P1753 Echocardiographic assessment of prosthetic aortic valve in children

Abstract Introduction Although the diagnostic utility of Doppler-derived hemodynamic parameters of prosthetic aortic valve (PAV) for detecting prosthetic dysfunction has been demonstrated in adults, interpreting these parameters in children is difficult, as the relative size of PAV varies more greatly in them than in adults. We aimed to elucidate how the Doppler-derived hemodynamic parameters change as the PAV size decreases relative to the somatic growth of children. Methods We reviewed 11 echocardiographic examinations of 9 mechanical PAVs in 8 children. The median age at echocardiographic examination was 10.2 (0.5-17.7) years. Underlying diagnoses leading to aortic valve replacement were aortic regurgitation due to dysplastic aortic valve in 3 children, Marfan syndrome in 1, persistent truncus arteriosus in 1, and aortic stenosis associated with interrupted aortic arch/coarctation of the aorta in 3. The PAV functioned normally in all examinations. PAV size was 19 mm in 8 examinations and 17 mm in 3 examination, which was standardized to body surface area at the examination by calculating z-scores based on previously published normative data of aortic valve diameter. We assessed the Doppler-derived hemodynamic parameters, namely peak velocity, mean pressure gradient, and accerelation time of the transprosthetic flow, the velocity-time integral (VTI) ratio of the left ventricular outflow to the transprosthetic flow, and effective orifice area (EOA) of the PAV calculated by using the continuity equation. The Pearson correlation coefficients between the PAV size z-score and Doppler-derived hemodynamic parameters of the normally functioning PAVs were evaluated. A p-value of &amp;lt;0.05 was considered statistically significant. Results All the Doppler-derived hemodynamic parameters except for EOA had a statistically significant correlation with PAV size z-score (Pearson correlation coefficients: peak velocity, -0.76; mean pressure gradient, -0.70; acceleration time, -0.66; and VTI ratio, 0.76). Multivariate analysis revealed that VTI ratio was the sole parameter that independently correlated with PAV size z-score. Conclusions VTI ratio, which is theoretically less dependent on cardiac preload than other hemodynamic parameters, strongly reflects BSA-indexed PAV size. Disproportionately decreased VTI ratio in relation to PAV size might indicate prosthetic obstruction in children with PAV. Abstract P1753 Figure. Correlation of PAV size and VTI ratio