Real-time three-dimensional transoesophageal echocardiography during percutaneous transcatheter occlusion of mitral periprosthetic paravalvular leak.

We present the case of an 86-year-old female patient with a history of mitral valve replacement due to relevant stenosis. After surgery, an increasing periprosthetic valvular leak (PVL) became obvious causing regurgitation and an increasing haemolysis. Conventional two-dimensional transoesophageal echocardiography (2D TEE) showed a defect of 15 mm length located from the lateral to the posterior circumference subdivided by two surgical sutures into three parts. The patient refused additional surgical therapy. Hence, we suggested a percutaneous transcatheter occlusion of the leakage with a 12 × 5 mm Amplatzer(®) Vascular Plug III device (AVP) (AGA Medical Corporation, Plymouth, MA, USA). The placement of the device was supported indispensably by real-time three-dimensional TEE. The device occluded the leakage nearly completely and downgraded the regurgitation from moderate to neglectable. Also haemolytic parameters improved significantly. V-wave decreased promptly from 70 to 35 mmHg after placing AVP. Percutaneous closure of PVL by AVP, a self-expandable nitinol device approved for peripheral vessel occlusion, is described in limited cases with more or less successful results. It is graded as a technically demanding procedure reserved to poor surgical candidates. The main challenge is finding and intubating the leakage and the correct placement of the device. Three-dimensional TEE seems to be superior to conventional 2D TEE as it allows an easier guidance of the device into the defect. Hence, it is strongly recommended for this intracardiac intervention.