Closure of Atrial Septal Defects With the Amplatzer Occlusion Device: Preliminary Results (original) (raw)
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Comparison of Atrial Septal Defect Closure Using Amplatzer Septal Occluder with Surgery
Pediatric Cardiology, 2002
Our study reports the results of a comparison of closure of atrial septal defect (ASD) surgically with transcatheter closure using the Amplatzer septal occluder. Patients having an ASD and a surgical closure or transcatheter closure between January 1999 and July 2000 were selected. There were 103 patients who had ASD. All 64 patients in group 1 (surgery) had a successful operation, with only 2 patients with a mild residual shunt. There were 39 patients enrolled for transcatheter closure of the ASD (group 2). Four patients were excluded initially. The median age for group 1 was 25 years (range 2.3±64 years) compared to 11.7 years (range 2±69 years) in group 2 (p= 0.035). In group 1, the mean ASD diameter measured was 28.4 10.2 mm compared to 23.4 5.7 mm in group 2 (p = 0.003). In 29 patients, devices were deployed with sizes from 10 mm to 30 mm (median 24 mm). Three patients were excluded because a larger device (>30 mm) was not available and devices were not successfully deployed in another 3 patients. One patient had a device embolized into the right ventricle (surgical removal and closure of the ASD). Complications occurred in 13 patients in group 1 and 4 patients in group 2. Complete occlusion occurred in 27 of 28 group 2 patients (96.4%) during the follow-up period (10.2 5.4 months). The Amplatzer septal occluder is a new device for closure of dierent-sized ASDs. The intermediate-term follow-up demonstrated excellent closure results. The bene®t for each patient was demonstrated in less morbidity and less time spent in the hospital.
Cardiology in the Young, 1998
Device closure of oval fossa atrial scptal defects with the Amplatzer Septal Occluder was performed in 26 patients ranging in age from 0.89 to 60.44 years. In eight additional patients no device implant was performed because of the presence of multiple defects or because the defect was of a size unsuitable for closure with the devices currently available. The strectched diameter of the defects that were closed ranged from 4 to 23 mm (mean 14±5.4 mm) and device sizes ranged from 4 to 24 mm. Two devices were unstable, of which one embolized to the right atrium after release. Both devices were retrived at the same procedure. One of these parients subsequently underwent a successful device closure of his defect using a larger (24-mm) device. Three patients had multiple defects, which were successfully closed with a single device. At 1-month follow-up 23/26 (88%) and at 3-month follow-up 22/24 (92%) patients had complete closure of their defects, while two had residual shunts. One furthe...
Transcatheter closure of atrial septal defects in adults with the Amplatzer septal occluder
Heart, 1999
Objective-To review the safety and eYcacy of the Amplatzer septal occluder for transcatheter closure of interatrial communications (atrial septal defects (ASD), fenestrated Fontan (FF), patent foramen ovale (PFO)). Design-Prospective study following a common protocol for patient selection and technique of deployment in all participating centres. Setting-Multicentre study representing total United Kingdom experience. Patients-First 100 consecutive patients in whom an Amplatzer septal occluder was used to close a clinically significant ASD or interatrial communication. Interventions-All procedures performed under general anaesthesia with transoesophageal echocardiographic guidance. Interatrial communications were assessed by transoesophageal echocardiography with reference to size, position in the interatrial septum, proximity to surrounding structures, and adequacy of septal rim. Stretched diameter of the interatrial communications was determined by balloon sizing. Device selection was based on and matched to the stretched diameter of the communication. Main outcome measures-Success defined as deployment of device in a stable position to occlude the interatrial communication without inducing functional abnormality or anatomical obstruction. Occlusion status determined by transoesophageal echocardiography during procedure and by transthoracic echocardiography on follow up. Clinical status and occlusion rates assessed at 24 hours, one month, and three months. Results-101 procedures were performed in 100 patients (86 ASD, 7 FF, 7 PFO), age 1.7 to 64.3 years (mean (SD), 13.3 (13.9)), weight 9.2 to 100.0 kg (mean 32.5 (23.5)). Procedure time ranged from 30 to 180 minutes (mean 92.4 (29.0)) and fluoroscopy time from 6.0 to 49.0 minutes (mean 16.1 (8.0)). There were seven failures, all occurring in patients with ASD, and one embolisation requiring surgical removal. Immediate total occlusion rate was 20.4%, rising to 84.9% after 24 hours. Total occlusion rates at the one and three month follow up were 92.5% and 98.9%, respectively. Complications were: transient ST elevation (1), transient atrioventricular block (1), presumed deep vein thrombosis (1), presumed transient ischaemic attack (1). Conclusions-It appears feasible to close interatrial communications and atrial septal defects up to 26 mm stretched diameter safely with the Amplatzer septal occluder. Short term results confirm an early high occlusion rate with no major complications. Careful selection of cases based on the echocardiographic morphology of the ASD and accurate assessment of their stretched diameter is of utmost importance. Further experience with the larger devices and longer term results are required before a firm conclusion regarding its use can be made.