709 Is Left Atrial Volume Index Assessed By Cardiac Computed Tomography During Left Ventricular Diastasis an Incremental Predictor of Adverse Events?

2012 ◽  
Vol 28 (5) ◽  
pp. S370-S371
Author(s):  
K.E. Boczar ◽  
M. Alam ◽  
G. Dwivedi ◽  
B.J. Chow
Keyword(s):  
Computed Tomography ◽  
Adverse Events ◽  
Left Atrial ◽  
Cardiac Computed Tomography ◽  
Left Atrial Volume ◽  
Left Ventricular ◽  
Volume Index ◽  
Atrial Volume ◽  
Left Atrial Volume Index

scholarly journals Predicting Left Atrial Appendage Thrombus from Left Atrial Volume and Confirmation by Computed Tomography with Delayed Enhancement

2020 ◽  
Vol 47 (2) ◽  
pp. 78-85
Author(s):  
Kazuhiro Osawa ◽  
Rine Nakanishi ◽  
Indre Ceponiene ◽  
Negin Nezarat ◽  
William J. French ◽  
...  
Keyword(s):  
Computed Tomography ◽  
Atrial Fibrillation ◽  
Left Atrial ◽  
Left Atrial Appendage ◽  
Cardiac Computed Tomography ◽  
Left Atrial Volume ◽  
Atrial Appendage ◽  
Volume Index ◽  
Atrial Volume ◽  
Left Atrial Appendage Thrombus

Assessing thromboembolic risk is crucial for proper management of patients with atrial fibrillation. Left atrial volume is a promising predictor of cardiac thrombosis. To determine whether left atrial volume can predict left atrial appendage thrombus in patients with atrial fibrillation, we conducted a prospective study of 73 patients. Left atrial and ventricular volumes were evaluated by cardiac computed tomography with retrospective electrocardiographic gating and then indexed to body surface area. Left atrial appendage thrombus was confirmed or excluded by cardiac computed tomography with delayed enhancement. Seven patients (9.6%) had left atrial appendage thrombus; 66 (90.4%) did not. Those with thrombus had a significantly higher mean left atrial end-systolic volume index (139 ± 55 vs 101 ± 35 mL/m2; P =0.0097) and mean left atrial end-diastolic volume index (122 ± 45 vs 84 ± 34 mL/m2; P =0.0077). On multivariate logistic regression analysis, left atrial end-systolic volume index (per 10 mL/m2 increase) was significantly associated with left atrial appendage thrombus (odds ratio [OR]=1.24; 95% CI, 1.03–1.50; P =0.02); so too was the left atrial end-diastolic volume index (per 10 mL/m2 increase) (OR=1.29; 95% CI, 1.05–1.60; P =0.02). These findings suggest that increased left atrial volume increases the risk of left atrial appendage thrombus. Therefore, patients with atrial fibrillation and an enlarged left atrium should be considered for cardiac computed tomography with delayed enhancement to confirm whether thrombus is present.

Abstract 4205: Left Atrial Volume Index and Left Ventricular Geometry Independently Predict Mortality in 47,865 Patients with Preserved Ejection Fraction

Circulation ◽  
2008 ◽  
Vol 118 (suppl_18) ◽  
Author(s):  
Dharmendrakumar A Patel ◽  
Carl J Lavie ◽  
Richard V Milani ◽  
Hector O Ventura
Keyword(s):  
Ejection Fraction ◽  
Left Atrial ◽  
Left Atrial Volume ◽  
Left Ventricular ◽  
Mortality Prediction ◽  
Volume Index ◽  
Left Ventricular Geometry ◽  
Preserved Ejection Fraction ◽  
Atrial Volume ◽  
Left Atrial Volume Index

Background: LV geometry predicts CV events but it is unknown whether left atrial volume index (LAVi) predicts mortality independent of LV geometry in patients with preserved LVEF. Methods: We evaluated 47,865 patients with preserved EF to determine the impact of LAVi and LV geometry on mortality during an average follow-up of 1.7±1.0 years. Results: Deceased patients (n=3,653) had significantly higher LAVi (35.3 ± 15.9 vs. 29.1 ± 11.9, p<0.0001) and abnormal LV geometry (60% vs. 41%, p<0.0001) than survivors (n=44,212). LAVi was an independent predictor of mortality in all four LV geometry groups [Hazard ratio: N= 1.007 (1.002–1.011), p=0.002; concentric remodeling= 1.008 (1.001–1.012), p<0.0001; eccentric hypertrophy= 1.012 (1.006 –1.018), p<0.0001; concentric hypertrophy=1.017 (1.012–1.022), p<0.0001; Figure ]. Comparison of models with and without LAVi for mortality prediction was significant suggesting increased mortality prediction by addition of LAVi to other independent predictors (Table ). Conclusion: LAVi is higher and LV geometric abnormalities are more prevalent in deceased patients with preserved systolic function and are independently associated with increased mortality. LAVi predicts mortality independent of LV geometry and has synergistic influence on all cause mortality prediction in large cohort of patients with preserved ejection fraction.

P1486Semi-automated volume-strain loops: a new tool in TTE to assess diastolic dysfunction

2019 ◽  
Vol 40 (Supplement_1) ◽  
Author(s):  
A Hubert ◽  
V Le Rolle ◽  
E Galli ◽  
A Hernandez ◽  
E Donal
Keyword(s):  
Left Atrial ◽  
Global Longitudinal Strain ◽  
Left Atrial Volume ◽  
Left Ventricular ◽  
Volume Index ◽  
Atrial Volume ◽  
Volume Strain ◽  
Left Atrial Volume Index ◽  
Loop Area ◽  
Lv Volume

Abstract Aim This work aims to evaluate a novel semi-automatic tool for the assessment of volume-strain loops by transthoracic echocardiography (TTE). The proposed method was evaluated on a typical model of left ventricular (LV) diastolic dysfunction: the cardiac amyloidosis. Method 18 patients with proved cardiac amyloidosis were compared to 19 controls, from a local database. All TTE were performed using Vivid E9 or E95 ultrasound system. The complete method includes several steps: 1) extraction of LV strain full traces from apical 4 and 2 cavities views, 2) estimation of LV volume from these two traces by spline interpolations, 3) resampling of LV strain curves, determined for the same cardiac beat, (in apical 4-, 2- and 3- cavities views) as a function of pre-defined percentage increments of LV-volume and 4) calculation of the LV volume-strain loop area. (Figure 1, panel B) Results (Table 1): LVEF was similar between both groups whereas global longitudinal strain was significantly lower in amyloidosis group (−14.4 vs −20.5%; p<0.001). Amyloidosis group had a worse diastolic function with a greater left atrial volume index (51 vs 22ml/m2), a faster tricuspid regurgitation (2.7 vs 2.0 m/s), a greater E/e' ratio (17.3 vs 5.9) with a p<0.001 for all these indices. Simultaneously, the global area of volume-strain loop was significantly lower in amyloidosis group (36.5 vs 120.0%.mL). This area was better correlated with mean e' with r=0.734 (p<0.001) than all other indices (Figure 1, panel A). Table 1 Amyloidosis (N=18) Controls (N=19) p Global strain-volume loop area (%.mL) 36.5±21.3 120.0±54.2 <0.001 Global longitudinal strain (%) −14.4±3.8 −20.5±1.8 <0.001 Left ventricular ejection fraction (%) 62±7 65±5 0.08 Left atrial volume index (ml/m2) 51±22 22±5 <0.001 E/A 1.72±0.97 2.07±0.45 0.17 Mean e' 5.5±1.3 14.4±2.8 <0.001 Mean E/e' 17.3±5.4 5.9±1.4 <0.001 Tricuspid regurgitation velocity (m/s) 2.7±3.8 2.0±0.3 <0.001 Figure 1 Conclusion LV volume-strain loop area appears a very promising new tool to assess semi-automatically diastolic function. Future applications will concern the integration of LV volume-strain loop area as novel feature in machine-learning approach.

Very Small Left Atrial Volume as a Marker for Mortality in Patients Undergoing Nongated Computed Tomography Pulmonary Angiography

Cardiology ◽  
2017 ◽  
Vol 139 (1) ◽  
pp. 62-69 ◽  
Author(s):  
Zach Rozenbaum ◽  
Yoav Granot ◽  
Paul Turkeltaub ◽  
Dotan Cohen ◽  
Tomer Ziv-Baran ◽  
...  
Keyword(s):  
Computed Tomography ◽  
Left Atrial ◽  
Left Atrial Volume ◽  
Volumetric Analysis ◽  
Pulmonary Angiography ◽  
Volume Index ◽  
Study Cohort ◽  
Atrial Volume ◽  
Computed Tomography Pulmonary Angiography ◽  
Left Atrial Volume Index

Objectives: To evaluate the association between very small left atria (VSLA) on nongated computed tomography pulmonary angiography (CTPA) and mortality in patients without pulmonary embolism (PE). Methods: Patients who underwent nongated CTPA between 2011 and 2015 in order to rule out PE, and had an echocardiogram within 24 h of the CTPA, were retrospectively identified. The left atrial volume of nongated CTPA was calculated using automatic 4-chamber volumetric analysis software. The association between the lowest 5th percentile of the left atrial volume index, referred to as the VSLA group, and mortality was investigated after adjustment for age, gender, background diseases, and laboratory values. Results: The study cohort included 241 patients. Patients with VSLA had a left atrial volume index <24 mL/m2 (n = 11). Demographics and background diseases did not differ between the study groups. The median follow-up was 22.7 months (IQR 0.03-54.3). VSLA was an independent predictor of mortality (HRadj = 3.6; 95% CI 1.46-8.87; p = 0.005), along with malignancy (HRadj = 2.28; 95% CI 1.32-3.93; p = 0.003) and lower hemoglobin (HRadj = 0.86; 95% CI 0.76-0.99; p = 0.032). Conclusions: Our findings suggest that VSLA on nongated CTPA may serve as a marker for mortality. The use of CTPA volumetric analysis can help risk stratification in patients with dyspnea and no PE.

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