dr prasanth s. 3d echo basics concept - early 1980s. conventional 2d echo requires cognitive 3d...
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3D Echo
Dr Prasanth S
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3D Echo BasicsConcept - Early 1980s. Conventional 2D echo requires cognitive 3D reconstruction of
cardiac structures. Real time 3D echo provides anatomically realistic visualization
of structures. Decrease the time required for complete image acquisition. 3D Echo can be viewed from various projections by rotation of
images. A limitation- the information acquired as 3D dataset, must be
displayed as 2D image.
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Linear scanning approach
• Earliest approach to dynamic 3D echo.• Based on 3D concepts used in CT and MR imaging.• Acquiring parallel and equidistantly placed 2D images
using transducer mounted on a sliding carriage.• Movement of transducer by a computer controlled
stepper motor.
Fan- like scanning approach • Transducer moved in a fan like arc at prescribed
angles.( manually or by stepper motor)
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Hardware used for fanlike acquisition
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Rotational scanning approach
• Transducer is rotated in a semicircle around the central axis of imaging plane.
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Disadvantages of Initial models– Time consuming– High Cost– Large Machines– Slow processor
RT3DE in 2002– Dense Matrix Array Transducer – 3000 elements– Fast processor
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Real Time 3D – Pyramidal Volume
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3D volumetric probe- Pyramidal Volume
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Technical Issues in Real Time 3D
Full volume images are typically obtained at frame rate of 20-40 Hz.( vary as a
function of depth & size of the volume.)
Either sacrifice frame rate for image quality (spatial resolution) or spatial resolution
for frame rate
Min Frame rate required 20 Hz – 20 frames per sec
Each frame contains beams
1 beam requires .2ms for scanning
If 100 beams / frame – 20 ms time – frame rate – 50Hz
250 beams / frame – 50 ms time – 20 Hz.
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Innovations to overcome the limitations
1. Increase the distance between beams.
Blurring of structures that are not adequately sampled.
2. Parallel receive beam processing – Increase frame rate
• 4 or more simultaneous receive beams for each transmitted beam
3. Limit the total number of beams by scanning a smaller volume - 3D
zoom mode
4. Use the patient’s ECG signal to acquire smaller subvolumes for each
R-R interval, and then stitch these subvolumes to produce the
larger volume -full volume dataset
5. Broaden the transmit beam
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Transducers
Phased array transducer
Sparse Matrix Array Transducer
Microbeam Former
Dense Matrix Array Transducer
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Sparse Matrix Array Transducer:
• Only a small percentage of 2500 (50х50) elements are electrically connected or acoustically active.
• Usually strategically placed 256 elements will be active.
• Loss of signal to noise ratio.• THI not supported- incapable of creating sufficient MI
necessary to create tissue harmonic image.
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Micro-beam forming
• Electrically group, small arrays of elements (patches).
• Typical patch contain approx 25 elements(5х5).
• 128 micro-beamformer with 128 wires connecting the transducer to mainframe beamformer- provide a fully sampled array of 3200 elements.
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Matrix Array TEE Transducer distal tip
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Modes
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Real time Mode
• Narrow angle 600:300
• Higher Resolution(high line density
& narrow scan volume)
• No stitching Artifact
• Visualisation of valves,small masses,
vegetations.
• Real time Interventional guidance
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Zoom Mode
• Focused – 300: 300
• Enface view of MV
• Masses-
Thrombi,vegetations
• Eliminate need for cropping.
• Low spatial resolution due
to low line density.
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Full volume mode
• Covers wider region 900:900 upto
1040 .
• 4 or 7 live 3D subvolumes stitched
together.
• Near real time
• Higher temporal resolution
• Spatial relationship of cardiac
structures
• Chamber Quantification
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Colour Flow Mode
• Limited angle 60:60
• Limited Temporal resolution
• Shape & extention of jets
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Basic 3D analysis
• 3D orientation
– manual free rotation of the dataset to provide the best perspective
of the structures of the heart
• Cropping
– manually moving a cutting plane from outside the 3D volume
towards its center- provide a view from the cutting plane
– cropping can be performed either before (during) or after data
acquisition
• Slicing
– extraction of image planes from the 3D volume in different modes
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Full Volume
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Artifacts
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Stitch artifact
• Lines of disagreement between two neighboring subvolumes.
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Dropout artifacts
•Losses of 3D surface information due to poor echo signal intensity.•Structures- too thin to reflect.•Appropriate gain settings, colour doppler can identify false defects.
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Blurring and blooming artifacts
• Blurring refers to unsharp or hazy representation of thin structures- appear thicker.
• Eg: Mitral leaflets, mitral valve apparatus.• Blooming: thickened or excessive representation of
high echo density structures like mechanical prosthesis, pacemaker leads.
• Strongly related to the line density.
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Blurring and blooming artifacts
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Gain artifacts
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Protocols
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Protocols
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Applications
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Left ventricular function
• Unlike 2D echo, there is no geometrical assumptions.
• Left ventricular volume can be calculated by,
• 1. Method of discs
• 2. Directly sum the volumetric picture elements enclosed by
endocardial borders of 3D structure.
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Global LV function - EDV measurement
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Global LV function - ESV measurement
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LV Mass
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• Currently, 3D TTE and TEE assessment of LV volumes and ejection fraction is recommended over the use of 2D echocardiography, as it has been clearly demonstrated to provide more accurate and reproducible measurements.
European Heart Journal – Cardiovascular Imaging (2012) 13, 1–46 .(EAE/ASE RECOMMENDATIONS)
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Parametric imaging
• Assessing segmental contraction of LV.
• 800 endocardial data points - to develop a polar map of
endocardial surface of LV.
• Endocardial motion is displayed as shades of
– Blue - positive excursion values - inward motion
– Red - negative excursion values - outward motion
– Black - no motion
• Akinetic or dyskinetic myocardium - black or red color
• Normal or hypokinetic segment - shades of light to dark blue
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Parametric imaging
Normal Apical MI
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LA Volume
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RV volume & function
• RV has a complex geometrical shape.• RV inflow, outflow and apex do not align in a single 2D plane.• More heavily trabeculated. Normal reference values
Indexed RV EDV 49±10 ml/m²
Indexed RV ESV 16±6 ml/m²
RV EF 67±8%
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Valvular Disease
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MVP - Mitral Regurgitation
• Accurate anatomy – Scallop
• Surgical View
• Vena contracta area – direct measurement
• TTE is good enough
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Important parameters derived by RT3DE before MV repair
1. Anterior-posterior diameter (DAP)
2. Anterolateral-posteromedial diameter (DAlPm)
3. 3D curvilinear length of posterior and anterior leaflet
4. Exposed area of leaflets (A3DE)
5. Minimal area of leaflets within the saddle-shaped annulus (A3Dmin)
6. Volume of leaflet prolapse (VProl)
7. Maximal prolapse height (HProl)
8. Length of antero-lateral and postero-medial chordae tendinae
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MVP Multiple jets
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Mitral Stenosis
• MVA at smallest orifice
• Better assessment for BMV
• Planimetry from Apical window
• More accurate than Gorlin
• New GOLD STANDARD
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Localizing smallest orifice
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Aortic Regurgitation
TEE is better
Vena contracta area
Better delineation of Etiology
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Aortic Regurgitation
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Aortic Stenosis
• AVA measurement
• Assess the noncircular LVOT area
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BCAV
DEGENERATIVE
RHEUMATIC
NORMAL
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Other Applications
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Dysynchrony
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VSD
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ASD
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Thrombus
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Myxoma
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Intervention
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References
• Feigenbaum’s Echocardiography
• Clinical Echocardiography;Otto
• 3D Echo Thomas Buck, Andreas Franke,Mark J. Monaghan
• ASE 2012 Guidelines
• ESC – 3D Echobox
• Cardiology clinics 2007 vol 25