There is limited data on the organisation of paediatric echocardiography laboratories in Europe.

A structured and approved questionnaire was circulated across all 95 Association for European Paediatric and Congenital Cardiology affiliated centres. The aims were to evaluate: (1) facilities in paediatric echocardiography laboratories across Europe, (2) accredited laboratories, (3) medical/paramedical staff employed, (4) time for echocardiographic studies and reporting, and (5) training, teaching, quality improvement, and research programs.

Respondents from forty-three centres (45%) in 22 countries completed the survey. Thirty-six centres (84%) have a dedicated paediatric echocardiography laboratory, only five (12%) of which reported they were European Association of Cardiovascular Imaging accredited. The median number of echocardiography rooms was three (range 1–12), and echocardiography machines was four (range 1–12). Only half of all the centres have dedicated imaging physiologists and/or nursing staff, while the majority (79%) have specialist imaging cardiologist(s). The median (range) duration of time for a new examination was 45 (20–60) minutes, and for repeat examination was 20 (5–30) minutes. More than half of respondents (58%) have dedicated time for reporting. An organised training program was present in most centres (78%), 44% undertake quality assurance, and 79% perform research. Guidelines for performing echocardiography were available in 32 centres (74%).

Facilities, staffing levels, study times, standards in teaching/training, and quality assurance vary widely across paediatric echocardiography laboratories in Europe. Greater support and investment to facilitate improvements in staffing levels, equipment, and governance would potentially improve European paediatric echocardiography laboratories.

The goal of this single-centre study was to evaluate long-term results of percutaneous closure of secundum-type atrial septal defect using Amplatzer Septal Occluder with the follow-up to 25 years.

A retrospective analysis of patients who underwent percutaneous closure of secundum-type atrial septal defect between September 1995 and October 2012 in our institution was performed. All procedures were performed after fulfilling strict indication criteria. More than 5 years follow-up was reached in 651/803 patients (81%) with median follow-up time of 12 (5–25) years.

The mean stretched defect diameter was 14,0 ± 5,2 mm. Early reintervention due to moderate or severe residual atrial septal defect had to be performed in 3/803 patients (0,03%). The incidence of long-term moderate or severe residual atrial septal defect was 0,0%. The complete closure rate at 10-year follow-up was 98,5%, as trivial residual shunts persisted in 8/508 patients (1,5%). A significant rate of the echocardiographic right ventricular end-diastolic diameter post-procedural normalisation (p < 0,05) was encountered. The rate of major complications was 0,5%. One device embolisation, one thrombus formation at the occluder surface, and one cardiac erosion in periprocedural or short post-procedural course were experienced. Only one late complication of infective endocarditis at the region of implanted occluder and the aortic valve was detected. The survival rate of all followed patients was 100%.

Percutaneous closure of secundum-type atrial septal defect using Amplatzer Septal Occluder is a safe and effective procedure accounting for a very low incidence of major complications in the long-term follow-up.