| Linear |
M-mode |
Yes |
|
Assumes an ellipsoid shaped ventricle Needs perpendicular parasternal imaging Depends on acoustic window Therefore, least accurate method |
| 2D |
Simpson's biplane |
Yes |
|
Assumes an ellipsoid shaped ventricle Needs unforeshortened orthogonal views Depends on acoustic window and operator experience Endocardium often not fully visualized in a single frame used for manual tracing |
| 2D contrast |
Simpson's biplane |
Yes |
|
|
| 3D biplane |
Simpson's biplane |
Yes |
|
Assumes an ellipsoid shaped ventricle Depends on acoustic window and operator experience Full volume recordings require stable heart rhythm and breath hold (usually 4 beats) otherwise stitching artifacts Real time acquisition reduces image quality Lower spatial and temporal resolution than 2D |
| 3D |
Voxel count |
Partial |
Avoids off-axis views and foreshortening Automatic border delineation following minimal landmark allocations More accurate than 2D and 3D biplane |
Depends on acoustic window and operator experience Full volume recordings require stable heart rhythm and breath hold (usually 4 beats) otherwise stitching artifacts Real time acquisition reduces image quality Lower spatial and temporal resolution than 2D Has problems fitting to some abnormal LV shapes (i.e. apical infarcts) |
| 3D contrast |
Voxel count |
Partial |
|
Few studies available Artifacts from apical contrast destruction and attenuation Lowest spatial and temporal resolution Not all software packages can perform LV assessment with the addition of contrast |
