Case report

A 29-week gestation fetus was diagnosed with severe Ebstein’s anomaly and circular shunt by fetal echocardiogram. The displacement of the septal, inferior, and part of the anterior leaflets caused massive tricuspid regurgitation (Fig 1a–c) (Supplementary videos S1–S2). The tricuspid valve was extremely rotated into the right ventricle outflow tract resulting in a small functional right ventricle. The atrialised RV and right atrium had severe dilation, causing ventricular septal paradoxical movement. Severe pulmonary insufficiency and an enlarged and unrestrictive ductus arteriosus were associated with continuous pattern torrential flow on Doppler (Fig 1d) (Supplementary video S3). The cardiothoracic area ratio was 0.42, and there was no fetal hydrops. Considering the risk of fetal demise, we initiated NSAIDs transplacental treatment to promote ductal constriction by giving dipyrone 3 g/day, orally to the mother. However, cardiomegaly progressed (CTAR = 0.50), and we noted mild ascites and pleural effusion after 6 days. At 30 weeks, indomethacin was started at 100 mg/day with a lower dipyrone dose (2 g/day), resulting in ductal constriction and reduced heart size (CTAR = 0.39), and resolution of ascites and pleural effusion. Two weeks later, cardiomegaly worsened again, and we replaced dipyrone with 300 mg/day of ibuprofen and a higher dose of indomethacin (300 mg/day), which accentuated the ductal constriction (Fig 2 a, b) (Supplementary video S4). On the 34th gestational week, a C-section was indicated due to oligohydramnios. Based on the fetal echocardiography findings, which indicated a high risk of early neonatal death, we planned immediate surgical intervention in a side-by-side operating room. A 2110 g female with Apgar scores of 9/9 was delivered, presenting with rapid deterioration and acidosis. A postnatal echocardiogram confirmed EA with a massive circular shunt. A marked paradoxical movement of the ventricular septum was impinging the left ventricle, resulting in an LV ejection fraction of 16% (Simpson method). We performed an urgent Starnes procedure, consisting of RV exclusion using a fenestrated patch over the tricuspid valve annulus, patch occlusion of the proximal main pulmonary artery, and placement of a 3.5 PTFE shunt from the innominate artery to the distal main pulmonary artery. After the procedure, the patient’s haemodynamics improved dramatically by interrupting the circular shunt and the ventricular septum paradoxical movement (Fig 2c). The patient was discharged from the hospital on the 56th post-operative day, weighing 2645 kg. Thereafter, her cyanosis gradually increased, and serial 3D echocardiograms showed progressive RV involution. At 4 months old, she presented with low 3D RV indexed diastolic volume (15.3 ml/m²) and ejection fraction (7%), but normal RV free wall longitudinal strain of −23.3% (normal = −18.7% ± 6.6)^{Reference Houard, Benaets and de Ravenstein5} (Supplementary Table S5). At 5 months old, we proceeded with the Starnes takedown and performed a two-ventricle repair using the Da Silva cone technique, fenestrated patch closure of atrial septal defect, and intraoperative assessment on the need for adjunctive Glenn procedure. Off cardiopulmonary bypass, her oxygen saturation was 92%, averting the Glenn procedure. In the ICU, she had presented with moderate RV dysfunction and oxygen saturation levels in the range of 78%–87%, requiring inotropic support with low dose epinephrin and milrinone. Afterwards, she had gradual clinical and echocardiographic improvement (Fig 2d). On the 20th post-operative day, her 3D echocardiogram showed progressive recovery of the RV indexed diastolic volume (from 15.3 ml/m² to 31.0 ml/m²) and the ejection fraction went from 7% to 55%, though the RV function based on its free wall longitudinal strain was mildly decreased (−12%). Currently, 8 months after the cone repair, she is asymptomatic, thriving well, and presenting with oxygen saturation of around 94%.

Figure 1. Fetal echocardiogram at 29-week gestation of Ebstein’s anomaly with a large circular shunt. (a) End-systolic phase shows near-complete atrialisation of the right atrium caused by the severe displacement of the tricuspid septal and posterior leaflets into the inlet portion of the right ventricle (asterisk). No tricuspid valve leaflets are seen in this view. (b) Tridimensional reconstruction of the four-chamber view using spatiotemporal image correlation with render mode HD live silhouette, which produces a shadowing effect that clearly delineates the enlarged right atrium with the atrialised inlet portion of the right ventricle (asterisk). (c) End-systolic phase shows significant tricuspid regurgitation, which reaches the posterior wall of the RA, filling it completely (blue). Atrialised inlet portion of the right ventricle (asterisk). (d) Colour flow imaging of the circular shunt shows a large retrograde jet (red) from the aorta to the pulmonary artery through a large patent ductus arteriosus, then to the right ventricle, where we can see the pulmonary regurgitation jet. Desc AO=descending aorta; DA=ductus arteriosus; LA=left atrium; LV=left ventricle; PR=pulmonary regurgitation; RA=right atrium; RV=right ventricle.

Figure 2. Fetal and transthoracic postnatal echocardiography studies depict the results of fetal and postnatal medical and surgical therapies. (a) Initial fetal echocardiogram done on the 29-week gestation shows the enlarged ductus arteriosus during systole (in red), and the correspondent Doppler tracing of the ductus arteriosus displays low velocities (peak systolic, 1.36 m/s; diastolic, 0.35 m/s) and a pulsatility index of 1.74. (b) Fetal colour Doppler image obtained on the 34-week gestation after 5 weeks of fetal treatment with dipyrone, indomethacin, and ibuprofen shows that the ductus arteriosus is narrow and tortuous during systole (the colour Doppler is inverted to be comparable with Fig 2a). The correspondent Doppler tracing on the 34-week gestation confirms the ductus constriction with significantly increased flow velocities (peak systolic, 2.27 m/s; diastolic, 1.14 m/s) and a lower pulsatility index of 0.75. (c) Transthoracic echocardiogram at 3 months after the modified Starnes procedure shows fenestrated patch over the tricuspid valve with diastolic flow, ventricular septum deviated to the right, and globular shaped left ventricle with normal function. (d) Transthoracic echocardiogram at 20 days after the two-ventricle repair shows a good size right ventricle, the tricuspid valve positioned at the normal atrioventricular junction opens well in diastole. Desc AO=descending aorta; DA=ductus arteriosus; FP=fenestrated patch; LA=left atrium; LV=left ventricle; S=ventricular septum.