Transcatheter closure of congenital perimembranous ventricular septal defect (VSD) has always been a problem for cardiologists in the past decade because of the risks for interference with the valves and conduction ...Transcatheter closure of congenital perimembranous ventricular septal defect (VSD) has always been a problem for cardiologists in the past decade because of the risks for interference with the valves and conduction system. Some devices designed for other lesions have been used for closure of perimembranous VSD,^1-3 but the result is unsatisfactory because they are difficult to use and have a high incidence of complications. Until 2002,展开更多
Background In the 21st century, minimally invasive treatment is one of the main developmental directions of medical sciences. It is well known that the echocardiography plays an important role during interventional tr...Background In the 21st century, minimally invasive treatment is one of the main developmental directions of medical sciences. It is well known that the echocardiography plays an important role during interventional treatments of some structural heart diseases. Because the ruptured right sinus of the Valsalva aneurysm (RRSVA) is a rare disease, there were few reports about percutaneous catheter closure of RRSVA. This study aimed to sum up our experience with transthoracic echocardiography (TTE) during percutaneous catheter closure of RRSVA.Methods Five RRSVA cases were treated with percutaneous catheter closure. The whole procedure was guided and monitored by TTE and fluoroscopy. The maximum diameter of the RRSVA was measured by TTE before and after the catheter passed through the rupture site. A duct occluder 2 mm larger than the maximum diameter was chosen. The closure effects were evaluated with TTE and fluoroscopy immediately after the occluding device was deployed. All patients were followed up by TTE for 8 to 30 months.Results Before the catheter passed through the rupture site the maximum diameter of the RRSVA measured with TTE and aortography were (7.9 ±2.1) mm and (7.8 ± 1.8) mm. After the catheter passed through the rupture site the maximum diameter measured with TTE was (11.2 ± 3.2) mm, which was significantly larger than before the procedure (P 〈0.05). The percutaneous catheter closure was successful in four cases and failed in one. Compared to the aortography the TTE was better at distinguishing residual shunts from aortic valve regurgitation immediately after the occluding device was deployed. There were no complications during 8 to 30 months of follow-up.Conclusion Transthoracic echocardiography can play an important role during percutaneous catheter closure of RRSVA,especially for estimating the size of the RRSVA after the catheter passes through the rupture site, and differentiating residual shunt from aortic valve regurgitation immediately after the occluding device is deployed展开更多
文摘Transcatheter closure of congenital perimembranous ventricular septal defect (VSD) has always been a problem for cardiologists in the past decade because of the risks for interference with the valves and conduction system. Some devices designed for other lesions have been used for closure of perimembranous VSD,^1-3 but the result is unsatisfactory because they are difficult to use and have a high incidence of complications. Until 2002,
文摘Background In the 21st century, minimally invasive treatment is one of the main developmental directions of medical sciences. It is well known that the echocardiography plays an important role during interventional treatments of some structural heart diseases. Because the ruptured right sinus of the Valsalva aneurysm (RRSVA) is a rare disease, there were few reports about percutaneous catheter closure of RRSVA. This study aimed to sum up our experience with transthoracic echocardiography (TTE) during percutaneous catheter closure of RRSVA.Methods Five RRSVA cases were treated with percutaneous catheter closure. The whole procedure was guided and monitored by TTE and fluoroscopy. The maximum diameter of the RRSVA was measured by TTE before and after the catheter passed through the rupture site. A duct occluder 2 mm larger than the maximum diameter was chosen. The closure effects were evaluated with TTE and fluoroscopy immediately after the occluding device was deployed. All patients were followed up by TTE for 8 to 30 months.Results Before the catheter passed through the rupture site the maximum diameter of the RRSVA measured with TTE and aortography were (7.9 ±2.1) mm and (7.8 ± 1.8) mm. After the catheter passed through the rupture site the maximum diameter measured with TTE was (11.2 ± 3.2) mm, which was significantly larger than before the procedure (P 〈0.05). The percutaneous catheter closure was successful in four cases and failed in one. Compared to the aortography the TTE was better at distinguishing residual shunts from aortic valve regurgitation immediately after the occluding device was deployed. There were no complications during 8 to 30 months of follow-up.Conclusion Transthoracic echocardiography can play an important role during percutaneous catheter closure of RRSVA,especially for estimating the size of the RRSVA after the catheter passes through the rupture site, and differentiating residual shunt from aortic valve regurgitation immediately after the occluding device is deployed
