The safe closure of atrial septal defect with deficient posterior-inferior or inferior vena cava rim is a controversial issue. Few studies have been conducted on the closure of atrial septal defect with deficient posterior-inferior or inferior vena cava rim without fluoroscopy. This study evaluated the feasibility and safety of echocardiography-guided transcatheter closure of atrial septal defect with deficient posterior-inferior or inferior vena cava rim.

The data of 136 patients who underwent transcatheter atrial septal defect closure without fluoroscopy from March 2017 to March 2020 were retrospectively analysed. The patients were classified into the deficient (n = 45) and sufficient (n = 91) posterior-inferior or inferior vena cava rim groups. Procedure and the follow-up results were compared between the two groups.

Atrial septal defect indexed diameter and the device indexed diameter in the deficient rim group were both larger than that in the sufficient rim group (22.12 versus 17.38 mm/m2, p < 0.001; 24.77 versus 21.21 mm/m2, p = 0.003, respectively). There was no significant difference in the success rate of occlusion between two groups (97.78% in the deficient rim group versus 98.90% in the sufficient rim group, p = 1.000). During follow-up, the incidence of severe adverse cardiac events was not statistically significant (p = 0.551).

Atrial septal defect with deficient posterior-inferior or inferior vena cava rim can safely undergo transcatheter closure under echocardiography alone if precisely evaluated with transesophageal or transthoracic echocardiography and the size of the occluder is appropriate. The mid-term results after closure are similar to that for an atrial septal defect with sufficient rim.

Neonatal coarctation has to be diagnosed and treated urgently. Actually, the surgical treatment is the main option. The coarctation dilatation is usually achieved under fluoroscopy guidance whenever indicated. Balloon angioplasty could be an alternative approach or transient measure in difficult cases with cardiogenic shock or severe cardiac insufficiency.

In the reported case, we prove and discuss the major role of transthoracic echocardiography, which is used solely to guide the coarctation dilatation in neonate environment.

The reported case aims to assess the safety and the efficiency of two-dimensional TEE to guide the dilatation of aortic coarctation in neonate.

We describe successful dilatation of neonatal coarctation done exclusively using echocardiography in neonatal ICU at the bed. The procedure duration was 40 minutes (from the puncture to sheath removal). The coarctation was diagnosed easily and well described using TTE with good image quality obtained from supra-sternal plane and upper and left lateral view. TayShak balloon measuring 6 and 8 mm were used with a 0.018 French guided exchange wire.

Complete relief of the coarctation was checked by TTE without recording any complication. The follow-up in the third month (the submission time of this manuscript) showed very good results without requiring any surgical intervention or additional restenosis.

Our initial experience confirmed the safety and efficiency of coarctation dilatation using TTE as the only guidance tool at the bed in neonatal stage, especially in a case presenting severe metabolic and cardiac failure. This report suggests and encourages other potential applications in neonatology intensive care.