Echocardiogram Findings in Pulmonary Embolism
Echocardiogram Findings in Pulmonary Embolism
Echocardiogram Findings in Pulmonary Embolism
| # | Echocardiogram Findings in Pulmonary Embolism- Key Points |
|---|---|
| 1 | McConnell’s sign is specific for PE |
| RV free wall hypokinesia with apical sparing is seen in acute PE. | |
| 2 | Flattened interventricular septum indicates RV overload |
| Seen in parasternal short-axis view; caused by RV pressure overload. | |
| 3 | Right ventricular dilation is common in PE |
| Acute PE causes sudden pressure overload and RV chamber dilation. | |
| 4 | TR jet velocity >2.8 m/s indicates PH |
| High TR velocity reflects elevated pulmonary artery pressure. | |
| 5 | TAPSE <16 mm suggests RV dysfunction |
| TAPSE is a surrogate marker of RV longitudinal function. | |
| 6 | D-shaped LV in short axis = RV pressure overload |
| Due to septal shift during systole; seen in parasternal short-axis view. | |
| 7 | McConnell’s sign indicates acute (not chronic) RV strain |
| Helps differentiate acute PE from chronic pulmonary hypertension. | |
| 8 | IVC dilation without collapse = elevated RA pressure |
| Dilated IVC with < 50% inspiratory collapse suggests high right atrial pressure. | |
| 9 | RA/RV thrombus on echo suggests high embolic risk |
| TEE more sensitive than transthoracic echo for thrombi. | |
| 10 | RV:LV ratio > 1:1 indicates RV strain |
| Best seen in apical four-chamber view; indicates significant RV pressure overload. | |
| 11 | Mid-systolic notch on Doppler indicates pulmonary hypertension |
| Notch is seen on RVOT pulsed Doppler waveform. | |
| 12 | Reduced tricuspid S’ velocity suggests RV dysfunction |
| S’ < 10 cm/s measured by tissue Doppler. | |
| 13 | Septal flattening = RV pressure overload |
| Seen in systole on short-axis view; bowing toward LV. | |
| 14 | RV free wall motion abnormalities reflect dysfunction |
| Seen on 2D echo; especially apical views. | |
| 15 | RV hypertrophy suggests chronic rather than acute pressure overload |
| Helps distinguish chronic PH from acute PE. | |
| 16 | TEE is best for RA thrombus visualization |
| Provides higher resolution images of cardiac chambers. | |
| 17 | McConnell’s sign is more specific than sensitive |
| Highly specific but not always present in all PE cases. | |
| 18 | Reduced RV strain indicates worsening RV function |
| Measured via strain imaging in advanced echo settings. | |
| 19 | RV apical sparing is unique to McConnell’s sign |
| Basal hypokinesia with apical preservation is characteristic. | |
| 20 | Severe RV dilation and paradoxical septal motion = pre-collapse |
| Indicates RV failure and high risk of hemodynamic collapse. | |
Echocardiogram Findings in Pulmonary Embolism
- McConnell’s sign is specific for PE
RV free wall hypokinesia with apical sparing is seen in acute PE. - Flattened interventricular septum indicates RV overload
Seen in parasternal short-axis view; caused by RV pressure overload. - Right ventricular dilation is common in PE
Acute PE causes sudden pressure overload and RV chamber dilation. - TR jet velocity >2.8 m/s indicates PH
High TR velocity reflects elevated pulmonary artery pressure. - TAPSE <16 mm suggests RV dysfunction
TAPSE is a surrogate marker of RV longitudinal function. - D-shaped LV in short axis = RV pressure overload
Due to septal shift during systole; seen in parasternal short-axis view. - McConnell’s sign indicates acute (not chronic) RV strain
Helps differentiate acute PE from chronic pulmonary hypertension. - IVC dilation without collapse = elevated RA pressure
Dilated IVC with < 50% inspiratory collapse suggests high right atrial pressure. - RA/RV thrombus on echo suggests high embolic risk
TEE more sensitive than transthoracic echo for thrombi. - RV:LV ratio > 1:1 indicates RV strain
Best seen in apical four-chamber view; indicates significant RV pressure overload. - Mid-systolic notch on Doppler indicates pulmonary hypertension
Notch is seen on RVOT pulsed Doppler waveform. - Reduced tricuspid S’ velocity suggests RV dysfunction
S’ < 10 cm/s measured by tissue Doppler. - Septal flattening = RV pressure overload
Seen in systole on short-axis view; bowing toward LV. - RV free wall motion abnormalities reflect dysfunction
Seen on 2D echo; especially apical views. - RV hypertrophy suggests chronic rather than acute pressure overload
Helps distinguish chronic PH from acute PE. - TEE is best for RA thrombus visualization
Provides higher resolution images of cardiac chambers. - McConnell’s sign is more specific than sensitive
Highly specific but not always present in all PE cases. - Reduced RV strain indicates worsening RV function
Measured via strain imaging in advanced echo settings. - RV apical sparing is unique to McConnell’s sign
Basal hypokinesia with apical preservation is characteristic. - Severe RV dilation and paradoxical septal motion = pre-collapse
Indicates RV failure and high risk of hemodynamic collapse
