3D-stress echocardiography Bernard Cosyns, MD, PhD

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3D-stress echocardiography Bernard Cosyns, MD, PhD No Disclosure

The Pro-Technology bias Sicari et al. Cardiovascular Ultrasound 2006, 4:11

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Main limitations of 2D-stress echo Image quality during transthoracic scanning with insufficient visualization of left ventricle (LV) walls Probe positioning difficulties resulting in inadequate image planes Time-consuming serial acquisition of different image planes which has to be performed in a narrow time window during peak stress while wall motion abnormalities exist Data analysis: subjectivity of image interpretation still is the major problem, which leads to poor inter-observer agreement and causes a relevant examiner-dependency

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

3D echocardiography: incremental value Avoid foreshortening More accurate evaluation of LV volumes and LVEF Time saving for acquisition LV dyssynchrony 3D stress map contraction

3DE to avoid foreshortening: Reproducibility of the scan planes between stages Mor-Avi et al JACC 2008 and Circulation 2009

3D echocardiography: incremental value Avoid foreshortening More accurate evaluation of LV volumes and LVEF Time saving for acquisition LV dyssynchrony 3D stress map contraction

Evaluation of LV volumes and LVEF Changes in ejection fraction and ventricular volume = stress-induced regional wall motion abnormalities for diagnosis of the extent of coronary disease and predictive of outcome Arruda et al Am J Cardiol 2001;87:1069-73. Chuah et al Circulation 1998;97:1474-80

Need for accuracy and reproducibility Agreement of 2D vs RT3D compared to MRI Jacobs Eur Heart J 2006; 27: 460-468

RT3D improves reproducibility 2D 3D Jenkins JACC 2004

Reproducibility in serial fup (1y) Jenkins AJC 2007

3D echocardiography: incremental value Avoid foreshortening More accurate evaluation of LV volumes and LVEF Time saving for acquisition LV dyssynchrony 3D stress map contraction

Stress 3DE : Time saving No need to change the transducer position during apical scanning once the echo window is found Acquisition easier and faster for both the beginner and the expert echocardiographer The narrow time window at peak stress (especially in exercise stress echo) can be used much more effectively when acquiring two or even three image planes simultaneously

Stress 3DE : Acquisition Time Saving A shorter time needed for scanning at peak stress More complete monitoring (more segments can be observed on-line during stress testing) Also reduces the potential risk of prolonged myocardial ischaemia for the individual patient. Eroglu et al Eur Heart J 2006: 27, 1719 1724

3D echocardiography: incremental value Avoid foreshortening More accurate evaluation of LV volumes and LVEF Time saving for acquisition LV dyssynchrony 3D stress map contraction

LV 3D - stress dynamic contraction map Accurately localize and estimate the severity of stress-induced ischemia by identifying areas of delayed contraction

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Accuracy of 3D stress echocardiography 2D 3D Aggeli et al Heart 2007;93:672-75

Accuracy of Dipyridamole-3DE Badano et al J Am Soc Echocardiogr 2010;23:628-35

Improved apical visualization Lang et al, EJCI in press

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Modalities of 3D echo during stress Lang et al, EJCI in press

Tri-plane 3D stress echo

Full 3D stress echo

Contrast 3D stress echo

Contrast perfusion 3D stress echo Is feasible Low spatial resolution Lower frame rate (volume rate) No flash destruction of bubbles Only adenosine (lower heart rates) Courtesy of I. Felekos

Perfusion Contrast 3D stress echo SVD MVD Aggeli et al European Journal of Echocardiography (2011) 12, 648 655

3D stress STI

Rationale For 3D Speckle Myocardial deformation is 3D Better geometric description of LV with 3D Avoid out-of-plane motion artifacts Speckle de-correlation (measurement artifacts) False motion / deformation Courtesy of J. Crosby

Challenges for 3D speckle tracking Increased FOV at the cost of both spatial and temporal resolution Speckle pattern has less details and de-correlation between subsequent volumes is high 3D strain normal values depending on the method used (block matching vs elastic registration) Same information 2D in less time J. Crosby et al., Ultrasound in Medicine & Biology 2008 K. Saito et al. Journal Am. Soc.Echocardiography 2009

3D stress STI vs Sonomicrometry X = dobutamine infusion Seo et al Circ Cardiovasc Imaging. 2009;2:451-459.

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Which Stress? Pratali et al Cardiovascular Ultrasound 2010, 8:10

Stress 3D- Echocardiography Advantages 1) better visualization of the LV apex, which is frequently foreshortened on standard 2DE apical images 2) rapid acquisition of peak stress images before the heart rate declines in recovery 3) evaluation of multiple segments from different planes from a single dataset. Disadvantages 1) lower spatial resolution 2) lower frame rates (tardokinesia can be missed) 3) Learning curve required 4) No side-by-side display of rest and stress images for comparison * *Recently overcome

Overview 2D stress echocardiography: main limitations 3D echocardiography: potential incremental value Accuracy of 3D stress echocardiography Which modalities of 3D echo during stress Which modalities of stress during 3D - echo Do we have to throw the baby out with the bath water?

Do we have to throw the baby out with the bath water? Sicari et al. European Journal of Echocardiography 2008

Feasibility of 3D stress echo Badano et al J Am Soc Echocardiogr 2010;23:628-35 Pratali et al Cardiovascular Ultrasound 2010, 8:10

Prolonged Analysis Time? 2D ECHO 3D ECHO P Acquisition time 65 +/- 30 16 +/- 3 P<0.0001 Analysis time 176 +/- 63 91 +/- 5 P<0.0001 Varnero Cardiovascular ultrasound 2008 Badano et al J Am Soc Echocardiogr 2010;23:628-35

Additional value of 3D > 2D-stress echo Image quality during transthoracic scanning with insufficient visualization of left ventricle (LV) walls Probe positioning difficulties resulting in inadequate image planes Time-consuming serial acquisition of different image planes which has to be performed in a narrow time window during peak stress while wall motion abnormalities exist Data analysis: subjectivity of image interpretation still is the major problem, which leads to poor inter-observer agreement and causes a relevant examiner-dependency

Fully automated segmentation Real-time segmentation Real-time volume measurements! D. Barbosa et al. IEEE-TIP 2011 (In press) D. Barbosa et al. JASE 2011 (Submitted)

Limitations still to overcome 3D stress echo is still work in progress Further quality image improvement Higher Frame Rates, less stitching (tachycardia, arrhythmias) More well validated automated algorithms Side by side analysis and synchronization (different stages) Implementation and validation of other echo- modalities (STI) Validation in various indications and non selected patients

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