Muhammed Riyas K Rahmath1, Mohammed Numan2, Muhammad Dilawar3. 1. Division of Pediatric Cardiac Surgery, Hamad General Hospital, Doha, Qatar. 2. Division of Pediatric Cardiology, University of Texas, Houston, TX, USA. 3. Pediatric cardiology, Dept of pediatrics, HGH,Doha, Qatar dilawarmd@yahoo.com.
Abstract
OBJECTIVE: We aimed to assess the medium to long-term results of echocardiographic follow-up of perimembranous and muscular ventricular septal defect closure with various Amplatzer devices. METHODS: We successfully closed ventricular septal defects percutaneously in 45/49 patients. There were 35 perimembranous and 10 muscular ventricular septal defects. The median age and weight was 8.50 years (range 2-36.70 years) and 24 kg (range 10-106 kg), respectively. The median size of the ventricular septal defect was 7 mm (range 3-14 mm) on transthoracic echocardiography, 6 mm (range 4-15 mm) on transesophageal echocardiography, and 6 mm (range 3-14 mm) on left ventricular angiography. The median pulmonary-to-systemic blood flow ratio was 1.40 (range 1.0-3.0). RESULTS: In the 49 attempted cases, the procedure was successful in 45, with a success rate of 91.84%. At a mean follow-up of 54.50 months, echocardiography showed complete closure in 41 (91%) patients and 4 (9%) had a tiny (1-2 mm) residual defect. New-onset aortic regurgitation was seen in 6 (13.3%) patients at 54.50 months, but it was mild in nature. Tricuspid valve regurgitation was observed in 13 (29%) patients at 54.50 follow-up, of whom 10 (22%) had mild and 3 (7%) had moderate regurgitation. CONCLUSION: Transcatheter closure of perimembranous and muscular ventricular septal defects is effective, however, these patients need to be followed up regularly to detect device-related problems, specifically, aortic and tricuspid valve regurgitation.
OBJECTIVE: We aimed to assess the medium to long-term results of echocardiographic follow-up of perimembranous and muscular ventricular septal defect closure with various Amplatzer devices. METHODS: We successfully closed ventricular septal defects percutaneously in 45/49 patients. There were 35 perimembranous and 10 muscular ventricular septal defects. The median age and weight was 8.50 years (range 2-36.70 years) and 24 kg (range 10-106 kg), respectively. The median size of the ventricular septal defect was 7 mm (range 3-14 mm) on transthoracic echocardiography, 6 mm (range 4-15 mm) on transesophageal echocardiography, and 6 mm (range 3-14 mm) on left ventricular angiography. The median pulmonary-to-systemic blood flow ratio was 1.40 (range 1.0-3.0). RESULTS: In the 49 attempted cases, the procedure was successful in 45, with a success rate of 91.84%. At a mean follow-up of 54.50 months, echocardiography showed complete closure in 41 (91%) patients and 4 (9%) had a tiny (1-2 mm) residual defect. New-onset aortic regurgitation was seen in 6 (13.3%) patients at 54.50 months, but it was mild in nature. Tricuspid valve regurgitation was observed in 13 (29%) patients at 54.50 follow-up, of whom 10 (22%) had mild and 3 (7%) had moderate regurgitation. CONCLUSION: Transcatheter closure of perimembranous and muscular ventricular septal defects is effective, however, these patients need to be followed up regularly to detect device-related problems, specifically, aortic and tricuspid valve regurgitation.