Coronary compression exclusion during right ventricle outflow tract stenting is recommended and potential oversight may be fatal. Balloon inflation in right ventricle outflow tract with simultaneous aortography can be inconclusive or falsely negative. We present a case of 27-year-old male post Ross operation qualified for percutaneous pulmonary valve implantation. Neither of the conventional views obtained provided a definite exclusion of coronary compression, therefore an intravascular ultrasound of the left coronary artery before and during balloon inflation in right ventricle outflow tract was performed. Acquired images allowed excluding potential constriction, thus a covered stent and pulmonary valve were implanted and the procedure was concluded. Two hours later, the patient complained of chest pain. Transthoracic echocardiography demonstrated a significant pericardial effusion. Retrospective analysis of the final angiogram revealed a possibility of subtle extravasation at the distal part of the homograft. A hybrid procedure consisting of additional covered stent implantation, pericardial drainage, and second pulmonary valve implantation was performed with an acceptable result. To conclude, in case of doubtful or unconvincing images obtained from aortography or selective angiography during balloon inflation in right ventricle outflow tract, intravascular ultrasound might be a feasible and useful technique. Signs of homograft rupture may be subtle, whereas symptoms of cardiac tamponade delayed. In selected patients percutaneous treatment of homograft rupture is achievable and beneficial.

We report three-dimensional imaging of a rare finding of Ebstein’s anomaly of the tricuspid valve in a patient with hypoplastic left heart syndrome, which has been previously reported only by two-dimensional echocardiography. A fetal echocardiogram was performed at 19 weeks that showed a moderately hypoplastic left ventricle, severely hypoplastic mitral valve, a severely hypoplastic aortic valve, and a dysplastic tricuspid valve. Post Caesarean delivery at 40 weeks of gestation, a transthoracic echocardiogram confirmed the findings seen on the fetal echocardiogram. A three-dimensional echocardiogram was then performed, which demonstrated an Ebstein tricuspid valve with apical displacement of the septal leaflet, chordal attachments of the valve to the right ventricular outflow tract, and moderate tricuspid regurgitation. The patient underwent a successful heart transplantation.

Diaphragm excursion method is unsuitable for diagnosis of diaphragm paralysis during positive pressure ventilation. We diagnosed diaphragm paralysis in a neonate, without interrupting positive pressure respiratory support after cardiac surgery, using the diaphragm thickness fraction, which could be evaluated during mechanical ventilation and was unaffected by bowel gases. The diaphragm thickness fraction method can help diagnose diaphragm dysfunction using only echography.

Simulation is used in many aspects of medical training but less so for echocardiography instruction in paediatric cardiology. We report our experience with the introduction of simulator-based echocardiography training at Weill Cornell Medicine for paediatric cardiology fellows of the New York–Presbyterian Hospital of Columbia University and Weill Cornell Medicine. Knowledge of CHD and echocardiographic performance improved following simulation-based training. Simulator training in echocardiography can be an effective addition to standard training for paediatric cardiology trainees.