Stent implantation in the ductus arteriosus for pulmonary blood supply in congenital heart disease
Indications for catheter-based interventions in patent ductus arteriosus (PDA)-dependent pulmonary blood flow have yet to be defined. The aim of this study was to assess the acute and midterm outcome after stent implantation in the PDA. Between 1996 and 2002, ductal stenting was performed in 21 neonates and infants (14 females/7 males) to maintain pulmonary blood supply in cyanotic congenital heart disease (CHD). Balloon-expandable stents were implanted in the PDA with a final diameter of 4-5 mm without procedural deaths. Stent patency was achieved for 8-1,130 days (median, 142). Reintervention was necessary in nine patients. Overall survival rate after 6 years was 86%. Two neonates died a few days after the procedure due to right heart failure not related to PDA stenting. Corrective surgery was possible in six patients. An additional aortopulmonary shunt was needed in three patients; Fontan type operations were performed in six. One patient died after bidirectional Glenn shunt, another five reached palliation by additional perforation of the atretic valve/balloon valvuloplasty, and two are awaiting surgery. We conclude that in many patients with cyanotic CHD, especially in those with ductal pulmonary perfusion and additional forward flow from the right ventricle, ductal stenting is an effective transcatheter approach. Morphology of the PDA predicts the risk of restenosis and necessity of reintervention. Growth of the pulmonary vascular bed allows corrective or palliative surgery, and some patients can be cured by the intervention alone.
Objective: To present an institutional experience with stent placement in the arterial duct combined with bilateral banding of the pulmonary artery branches as a basis for various surgical strategies in newborns with hypoplastic left heart obstructive lesions. Design: Observational study. Setting: Paediatric heart centre in a university hospital. Patients: 20 newborns with various forms of left heart obstructive lesions and duct dependent systemic blood flow. Interventions: Patients underwent percutaneous ductal stenting and surgical bilateral pulmonary artery banding. Atrial septotomy by balloon dilatation was performed as required, in one premature baby by the transhepatic approach. Main outcome measures: Survival; numbers of and reasons for palliative and corrective cardiac surgery. Results: One patient died immediately after percutaneous ductal stenting. One patient died in connection with the surgical approach of bilateral pulmonary banding. Stent and ductal patency were achieved for up to 331 days. Two patients underwent heart transplantation and two patients died on the waiting list. Ten patients had a palliative one stage procedure with reconstruction of the aortic arch and bidirectional cavopulmonary connection at the age of 3.5-6 months. There was one death. One patient is still awaiting this approach. Two patients received biventricular repair. In one, biventricular repair will soon be provided. Conclusions: Stenting the arterial duct combined with bilateral pulmonary artery banding in newborns with hypoplastic left heart or multiple left heart obstructive lesions allows a broad variation of surgical strategies depending on morphological findings, postnatal clinical conditions, and potential ventricular growth.T he management of newborns with multiple left heart hypoplastic or obstructive lesions is complex. A broad morphological spectrum can be observed, ranging from mild lesions that do not require any intervention to severely obstructive or hypoplastic left heart anatomy necessitating single ventricle palliation or heart transplantation. Decisions regarding surgical management have to be made mostly in the newborn period. Moreover, the surgical strategy is rarely reversible. The outcome of patients planned for heart transplantation depends primarily on the availability of a donor heart. In our institution the mean waiting time for a donor heart for infants is 53 days; therefore, many patients die while waiting for an organ.
Background-Outcome of patients with hypoplastic left heart (HLH) is mainly influenced by the successful first-step palliation according to the Norwood procedure. An alternative approach is heart transplantation (HTX). The feasibility of ductal stenting in newborns with duct-dependent systemic blood flow and bilateral pulmonary artery banding has been reported. But it remains to be elucidated whether this approach allows a new strategy for patients with HLH. (nϭ11) and prostaglandin E-1 administration, ductal stenting was performed with balloon expandable Jo stents or Saxx stents. Bilateral pulmonary artery banding was surgically accomplished 1 to 3 days after the transcatheter procedure. Unrestricted blood flow through the interatrial septum was secured by balloon dilatation atrial septotomy, as required. Interventional procedures were performed with no mortality. Stent and ductal patency were achieved for up to 331 days. Two patients underwent HTX, and 8 patients had a palliative 1-stage procedure with reconstruction of the aortic arch and bidirectional cavopulmonary connection at the age of 3.5 to 6 months. There were 2 deaths. One patient with preoperative right heart failure died after the reconstructive surgery, and 1 patient died 4 months after ductal stenting and bilateral banding awaiting HTX. Conclusions-The present study is the first clinical trial showing that stenting the duct followed by bilateral pulmonary artery banding in newborns with HLH allows the combination of neoaortic reconstruction, which is part of first-stage palliation of HLH, with the establishment of a bidirectional cavopulmonary connection. Additionally, it allows the chance for HTX after extended waiting periods. Methods and Results-In patients with various forms of HLH
The outcome of patients with hypoplastic left heart (HLH) is determined by many factors, particularly by the first-step palliative procedure in newborns undergoing the Norwood procedure, its Sano modification, or, rarely, through challenging biventricular repairs. Duct stenting combined with bilateral pulmonary artery banding (PAB) is a new method employed as an alternative first-step approach in a number of centers worldwide. We describe this interventional-surgical "hybrid approach" as an additional strategy for the treatment of newborns with HLH syndrome and HLH complex. Between 1998 and April, 2006, 58 newborns underwent ductal stenting and bilateral PAB. These patients underwent surgical bilateral PAB initially, followed by percutaneous duct stenting; the only exception to this were patients in whom duct stenting was performed as a rescue procedure. Various balloon-expandable and self-expandable stents with different widths and lengths were used during the 8-year period of this study. Balloon dilatation of the atrial septum was performed when indicated. This included 5 patients in whom the atrial septum was stented. Aortic arch reconstruction (AAR) combined with a bidirectional cavopulmonary connection (BCPC) was performed at a median age of 4.8 months (range, 2.6-7.5), and total cavopulmonary connection (TCPC) was performed at a median age of 3.1 years (range, 2.5-4). Nine patients were listed for heart transplantation (HTX) and transplanted with AAR when a donor heart was available. Depending on growth of left ventricular structures, biventricular repair (BVR) was performed at a median age of 7.1 months (range, 3.5-10). Overall, 8 of 58 patients (13.8%) treated by the transcatheter-surgical hybrid approach died during the study period. The mortality rate for duct stenting was 1.7% (l/58), and it was 1.7% for bilateral PAB as well. Twenty-seven patients received an AAR/BCPC; 2 of them died (7.4%). Additionally, 1 of 2 patients with AAR/BCPC died while on the waiting list for HTX, resulting in a total mortality rate of 11% with an actuarial survival rate of 89%. One patient is still awaiting AAR + BCPC. Three patients died while on the waiting list for HTX despite successful bilateral PAB and duct stenting. The 30-day mortality rate for TCPC (n = 11), HTX (n = 8), and 18 patients with BVR was 0. The actuarial survival rate for patients with BVR is 93%. Postnatal transcatheter-surgical hybrid palliation expands the surgical options for newborns with HLH. Using hybrid palliation, Norwood stage I operation can be avoided in the neonatal period, the waiting period for children scheduled for cardiac transplantation can be extended, and observation for left ventricular growth suitable for biventricular repair as well.
Fenestration in Extracardiac Conduits in Children After Modified Fontan Operation by Implantation of Stent Grafts
Three patients (ages 3, 5, and 8 years) with various forms of functionally univentricular heart lesions received a total cavopulmonary connection with an extracardiac conduit as a final reconstructive procedure. Failure of the Fontan circulation occurred immediately after surgery because of spontaneous closure of surgical fenestrations in two children and absent fenestration in one. As an emergency procedure, in all patients the conduit was perforated by transcatheter intervention in order to create a connection to the anatomical right atrium. Following balloon dilatation of the perforated conduit, in all three patients covered stent grafts were placed in the newly created defect to attain a reliable communication. Patency of the fenestration was demonstrated by angiogram and any leakage was ruled out. Cardiac output improved and severe pleural effusion and ascites subsided. Right-to-left shunt could be demonstrated by echocardiography at follow-up after 7 months (median) in all three patients. Oxygen saturation remained stable between 85 and 90%. These preliminary results suggest that stent graft fenestration can serve as a valuable tool in failing Fontan circulation, particularly in patients with an extracardiac conduit. Covered stents have the potential to reduce the acute risk of bleeding and they help to prevent early spontaneous closure of the newly created fenestration.
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