Repair of interrupted aortic arch and aortopulmonary window in an infant.

The diagnosis and repair in infancy of interrupted aortic arch and aortopulmonary window is described. Using deep hypothermia and circulatory arrest, aortic continuity was established with a prosthetic graft, which was anastomosed to the aortic orifice of the aortopulmonary window. The pulmonary artery side of the aortopulmonary window was closed directly. Postoperative cardiac catheterization demonstrated a good reconstruction. Previous experience with this rare variety of interrupted aortic arch complex is reviewed.     

One-stage repair of absence of the aortopulmonary septum and interrupted aortic arch

Absence of the aortopulmonary septum, interrupted aortic arch, aortic origin of the right pulmonary artery, intact ventricular septum, and patent ductus arteriosus is a rarely reported association. A 3-year-old boy underwent successful one-stage repair of this constellation of anomalies. A Dacron baffle was used both to close the huge aortopulmonary window and to direct blood to the right pulmonary artery. Type A interrupted aortic arch was repaired by direct anastomosis. Postoperatively, pulmonary artery pressure was less than half systemic pressure.     

Anomalous origin of left coronary artery from the right pulmonary artery in association with type III aortopulmonary window and interrupted aortic arch

Anomalous origin of the left coronary artery from the pulmonary artery, also known as Garland-Bland-White syndrome, usually occurs as an isolated condition. We report an infant with caudal regression sequence diagnosed with interrupted aortic arch type B and type III aortopulmonary window, who was found to have anomalous origin of the left coronary artery from the right pulmonary artery at surgical repair. Successful repair of the aortopulmonary window and interruption was performed with reimplantation of the left coronary artery into the ascending aorta. This report highlights the importance of closely assessing the coronary ostia in patients undergoing complex aortopulmonary window repair.     

Aortopulmonary window

Aortopulmonary window is a rare defect caused by failure of fusion of the two opposing conotruncal ridges that are responsible for separating the truncus arteriosus into the aorta and pulmonary artery. Aortopulmonary window may occur as an isolated lesion or it can be associated with other cardiac abnormalities in one third to one half of cases. The most common associated lesions are arch abnormalities, specifically interrupted aortic arch and coarctation of the aorta. Antenatal diagnosis is rare. In the current era, early mortality following repair of simple aortopulmonary window approaches zero and depends on the presence of associated lesions, especially interrupted aortic arch. Long-term outcome should be excellent. Early morbidity includes pulmonary artery stenosis and residual aortopulmonary septal defects. Long-term follow-up is indicated to look for recurrent lesions such as the development of branch pulmonary artery stenosis and arch obstruction.     

Repair of interrupted aortic arch and associated malformations in infancy: indications for complete or partial repair

There is uncertainty regarding the best method of repair of interrupted aortic arch. The question is whether to perform primary definitive repair of this anomaly plus the associated defects versus arch repair only and palliation of the intracardiac defects, usually by pulmonary artery banding. Since 1976, 16 infants with interrupted aortic arch have been treated surgically. They were seen at 5.2 +/- 3 days of age and weighed 3.2 +/- 0.7 kg. The interruption occurred between the left carotid and left subclavian arteries (type B) in 9 and between the left subclavian artery and the descending aorta in 7 (type A). Isolated ventricular septal defect (VSD) was the only associated anomaly in 7 and aortopulmonary window, in 4. Two patients had truncus arteriosus type 1. Three had transposition of the great arteries: 1 with VSD and 2 with single ventricle. Prior to 1980, our policy was to palliate all patients. Between 1976 and 1980, 4 infants underwent left thoracotomy with arch repair plus pulmonary artery banding (3, VSD; 7, transposition of the great vessels and single ventricle) with only 1 (25%) survivor. Because of this high mortality, 8 patients with interrupted aortic arch and VSD or aortopulmonary window, seen since 1980, received complete repair with median sternotomy, end-to-end arch anastomosis, and closure of the VSD or aortopulmonary window utilizing profound hypothermia and circulatory arrest. All 8 survived.(ABSTRACT TRUNCATED AT 250 WORDS)     

Surgical treatment of interrupted aortic arch in infants under three months of age

From March, 1982, through March, 1988, 8 infants less than 3 months of age underwent surgical treatment of interrupted aortic arch. Five patients had IAA type A and 3 patients had type B. Seven patients with associated VSD underwent staged operations and 1 infant with aortopulmonary window underwent primary repair off cardiopulmonary bypass. Aortic arch reconstruction was by subclavian aortic anastomosis (6) or large tube graft (8 mm) interposition (2) combined with pulmonary artery banding (5). All seven patients with associated VSD survived the first-stage operation. One patient subsequently underwent pulmonary artery banding, two underwent patch aortoplasty and four patients underwent intracardiac repair and removal of a pulmonary artery band, with six survivors (86%). The operative death occurred in an infant in whom modified Damus-Kaye-Stansel operation was carried out for severe subaortic stenosis, which rerouting all left ventricular blood through VSD and the main pulmonary artery into the ascending aorta and reconstructing right ventricular-distal pulmonary artery connection by a valved external conduit. All six surviving patients are doing well at present (mean follow up of 3 years) without any significant pressure gradient between the ascending and thoracic aorta. Based on these data we conclude: (1) Aortic arch reconstruction and pulmonary artery banding can be reliably performed even in critically ill infants with IAA and isolated VSD. (2) The primary repair will provide better chance of survival in infants with IAA associated with significant LVOTO, truncus arteriosus or aortopulmonary window that do not readily lend themselves to pulmonary artery banding.     

Anatomical reconstruction of aorta and pulmonary trunk in patients with an aortopulmonary window

We report a modified technique for repair of aortopulmonary window in which a native pulmonary artery flap is created and the aortopulmonary window is completely divided. The pulmonary artery flap is used to reconstruct the ascending aorta, and the defect in the pulmonary trunk is closed with an autologous pericardial patch. This repair avoids the use of a fabric patch with its inherent disadvantages and allows anatomical reconstruction of both the ascending aorta and the pulmonary trunk with low risk of early or late distortion of the aortic and pulmonary root structures.     

Surgical management of aortopulmonary window.

OBJECTIVE: Aortopulmonary window is a rare congenital malformation involving a window-like communication between the ascending aorta and the pulmonary artery. Here, we present our experience regarding the surgical repair of an aortopulmonary window, and also assess the long-term outcome. METHODS: Thirteen children with an aortopulmonary window associated with various congenital lesions underwent a repair of the defect. The age at operation ranged from 3 days to 1 year (median age, 19 days). The patient's weight ranged from 2.1 to 7.0 kg (mean weight, 3.6 kg). The associated lesions included an interrupted aortic arch (5 patients), a ventricular septal defect (2), an atrial septal defect (1), mitral valve regurgitation (1), and tricuspid atresia [Ic] with mitral valve regurgitation (1). The aortopulmonary window was repaired with a cardiopulmonary bypass in 11 patients, and 2 patients were ligated without a cardiopulmonary bypass. RESULTS: One patient associated with tricuspid atresia died (mortality rate of 7.7%). There has been no late death during a mean follow-up of 7 years and 3 months. CONCLUSIONS: The surgical results for an aortopulmonary window are encouraging, even if such patients are associated with major cardiac anomalies and an interrupted aortic arch. Most have shown a good long-term outcome.     

一期纠治主肺动脉窗或右肺动脉起源于升主动脉

目的总结主肺动脉窗或右肺动脉起源于升主动脉的外科纠治经验。方法17例病儿中单纯主肺动脉窗5例,右肺动脉起源于升主动脉4例,主肺动脉窗伴主动脉弓中断、法洛四联症、房室间隔缺损、二尖瓣反流和气管狭窄等8例。1例无手术指征,16例行解剖纠治,平均手术年龄1．7岁;平均体重8．5 kg。结果手术无死亡。2例延迟关胸;1例再进胸止血。随访无死亡,无主动脉瓣上狭窄及肺动脉狭窄。结论主肺动脉窗及右肺动脉起源于升主动脉易早期产生肺动脉高压,一经诊断需立即手术。手术方式首选与伴发畸形一期纠治。主肺动脉窗及右肺动脉起源于升主动脉尽管多有伴发畸形,但早期手术纠治可获得较佳中、长期疗效。     

One-stage repair of interrupted aortic arch and aortopulmonary window with an autologous arterial flap

Interrupted aortic arch associated with an aortopulmonary window is a rare congenital malformation that requires an early diagnosis and surgical treatment to avoid irreversible pulmonary vascular changes. We describe herein successful one-stage repair in a neonate without the use of pericardium or other prosthetic material. Use of a transaortic approach permitted both accurate planning of the appropriate size of pulmonary trunk flap and also facilitated easy repair of the aortopulmonary septal defect. The growth potential of both great arteries was optimized.     

Total anatomic correction of interrupted aortic arch complex. Experience in 4 infants

In two cases of interrupted aortic arch (IAA) of type A, one associated with a ventricular septal defect (VSD) and one with an aortopulmonary window, and two of type B, both associated with a VSD, total anatomic repair was performed at respective ages of 6 months and 24, 8 and 3 days. All four operations were performed through a median sternotomy, using profound hypothermia and circulatory arrest. The repair included resection of the patent ductus arteriosus, direct end-to-side anastomosis of the descending to the ascending aorta and closure of the VSD or, in one case, of the aortopulmonary window. The two oldest infants (with type A IAA) survived. Reexamination two years postoperatively demonstrated good width of the aortic anastomosis with no gradient. In the child who had had an aortopulmonary window there was a proximal tight stenosis of the right pulmonary artery, which was corrected at reoperation. Total anatomic correction of IAA through an anterior approach is technically feasible and the aortic anastomosis seems to grow satisfactorily. The management of very sick neonates with IAA remains a great challenge.     

Anterior translocation of the right pulmonary artery for relief of airway compression in the repair of distal aortopulmonary window and interrupted aortic arch

Airway compression by dilated right pulmonary artery (RPA) in infants with congenital heart disease can cause severe respiratory insufficiency and increase postoperative morbidity. Anterior aortopexy can be a good solution. However, in a case in which aortic arch repair is required, anterior aortopexy might not be effective or can be dangerous. Anterior translocation of the RPA can be a good option to avoid postoperative airway obstruction. We adopted this technique in a one-stage complete repair of distal aortopulmonary window, aortic origin of the RPA, interrupted aortic arch, and ventricular septal defect in a neonate with compression of both main bronchi. After 37 months of follow-up, no problem was encountered with her airway or RPA. We describe the technique used and the results obtained.     

Mirror image Berry syndrome: a case report of complex aortopulmonary malformation in viscero-atrial situs inversus

We report a very rare case of an infant with viscero-atrial situs inversus presenting mirror image Berry syndrome (aortopulmonary window, interrupted aortic arch, anomalous origin of the left pulmonary artery, and intact ventricular septum). Successful surgical treatment was accomplished 56 days following the initial rescue bilateral pulmonary artery banding.     

As originally published in 1992: new surgical technique for total-defect aortopulmonary window. Updated in 1999

A new technique is described to repair aortopulmonary window with total defect in an 8-day-old baby. Because we expected the future growth of aorta, we used the anterior wall of the pulmonary artery as a large flap to reconstruct the posterolateral aortic wall. An equine pericardial patch was used to repair the defect in the pulmonary artery. This is a logically effective method for aortic reconstruction in a neonate with a large aortopulmonary septal defect.     

New surgical technique for total-defect aortopulmonary window.

A new technique is described to repair aortopulmonary window with total defect in an 8-day-old baby. Because we expected the future growth of aorta, we used the anterior wall of the pulmonary artery as a large flap to reconstruct the posterolateral aortic wall. An equine pericardial patch was used to repair the defect in the pulmonary artery. This is a logically effective method for aortic reconstruction in a neonate with a large aortopulmonary septal defect.     

Report of a case of an atypical huge patent ductus arteriosus

An atypical huge patent ductus arteriosus (PDA) associated with extreme pulmonary hypertension in a 6-month old female infant was reported. The left 3rd intercostal thoracotomy revealed huge PDA which has an appearance of pulmonary-ductus-descending aorta-trunk (PDDT) on the left side. The right side of the ductus continued to the aortic arch without demarcation between the ductus and the aorta. The median sternotomy clarified the ascending aorta, normal aortic arch, and main pulmonary artery. However, the top of the main pulmonary artery seemed to be fused with the aortic arch. The diagnosis of distal type of aortopulmonary window with wide communication was made and the total circulatory arrest with deep hypothermia and the intracavitary patching for separation of systemic and pulmonary blood flow seemed to be required for the complete repair. Total repair was decided to be postponed one week later and the chest was closed. The patient died of multi-organ failure originating from acute respiratory failure 23 days after exploratory thoracotomy without being repaired. Postmortem examination revealed a huge PDA freely communicating with the ascending aorta and the aortic arch. This is a report of an atypical huge PDA rarely seen and the conventional division or ligation is unfeasible. The circulatory arrest with deep hypothermia and intracavitary patching are obligatory for the surgical repair.     

Reverse subclavian flap and aorto-pulmonary window technique for repair of interrupted aortic arch and truncus arteriosus

We report a surgical strategy for repairing an interrupted aortic arch (IAA) with truncus arteriosus (TA) by using a reverse subclavian flap and an aorto-pulmonary (A-P) window technique for preserving the pulmonary artery architecture. A 10-day-old neonate with type B IAA and type I TA with echocardiographic evidence of a significant distance between the ascending and descending aorta underwent surgical repair at the Bristol Royal Hospital for Children. The superior part of the arch was reconstructed using a reverse subclavian flap and the undersurface with a pulmonary homograft patch. The ascending aorta was separated from the pulmonary arteries using a Gore-Tex patch (A-P window type of repair) without disconnecting the branch pulmonary arteries, in order to preserve their architecture. The continuity between the right ventricle and the pulmonary artery bifurcation was established using a 12 mm Contegra conduit. The postoperative course was uneventful, and the neonate was discharged after 12 days. At follow-up, the patient remains well, gaining weight, with no echocardiographic evidences of obstruction. Reverse subclavian flap with homograft patch combined with and 'A-P window' technique for preservation of the pulmonary artery architecture is a useful and effective surgical strategy for neonates presenting with IAA associated with TA.     

Risk factors associated with mortality and interventions in 472 neonates with interrupted aortic arch: a Congenital Heart Surgeons Society study

OBJECTIVE: We sought to determine the prevalence of outcomes and associated patient and management factors for neonates with interrupted aortic arch. METHODS: From 1987 to 1997, a total of 472 neonates were enrolled prospectively from 33 institutions. Competing risks methodology was used to determine simultaneous risk and associated incremental risk factors for death, initial and subsequent left ventricular outflow tract procedures, and arch reinterventions. RESULTS: Overall survival was 59% at 16 years after study entry but improved with successive birth cohort. In general, risk factors for death in each of the competing risks analyses included lower birth weight, younger age at study entry, type B interrupted aortic arch, and major associated cardiac anomalies. Of 453 patients who had interrupted aortic arch repair, after 16 years 33% had died and 28% had undergone an arch reintervention. Reintervention was more likely for those who had truncus arteriosus repair, interrupted aortic arch repair by a method other than direct anastomosis with patch augmentation, and the use of polytetrafluoroethylene as either an interposition graft or a patch. From study entry, competing risks after 16 years showed that 28% had died and 34% had undergone an initial left ventricular outflow tract procedure. Initial left ventricular outflow tract procedure was more likely for those with single ventricle, type B interrupted aortic arch, bicuspid aortic valve, or anomalous right subclavian artery. Among those who had undergone an initial left ventricular outflow tract procedure, after 16 years 37% had died and 28% had undergone a second procedure. CONCLUSION: Anatomic features affect mortality and initial left ventricular outflow tract procedures, whereas characteristics of the arch repair affect arch reintervention.     

A denaturated venous homograft as an alternative material for shunts and other reconstructions in congenital cardiac surgery

A human venous homograft "Varivas R", in clinical use for 10 years for vascular access loops and femoropopliteal bypasses, has been used since December 1985 as a material for aortopulmonary shunts and other reconstructive procedures in congenital heart surgery. For this purpose vein segments 5 cm length, varying in diameter from 4 up to 10 mm by steps of 1 mm, were obtained. Our experience with Varivas is limited to 59 patients. Of 47 infants, 18 received a left, and 25 a right sided aortopulmonary shunt, 9 had bilateral aortopulmonary shunts, 2 right ventricle pulmonary conduits, 1 a pulmonary-pulmonary conduit, 3 interrupted aortic arch reconstructions and 4 a central aortopulmonary shunt, 1 with confluence reconstruction, 3 recidives of coarctation a patch repair. Among 11 adults 6 received coronary bypass and 6 others vascular reconstructions. In contrast to other artificial graft materials, the vein material offers easy manipulation similar to the daily routine of handling fresh vein material offers easy manipulation similar to the daily routine of handling fresh vein grafts in coronary surgery. The appropriate diameter sizes match better the infants anatomy, without the risk of kinking and/or anastomosis displacement. Peroperatively it was possible to confirm patency by electromagnetic flow measurement and the postoperative examinations were done by colour Doppler echocardiography. We had to reoperate upon 4 infants because of early thrombosis; on 1 infant for stenosis of the graft and on another 5 for late thrombosis. In an attempt to extend the indications for "inoperable" pulmonary hypoplasia/atresia we were not able to keep the shunt open in 4 infants.     

Operations for subaortic stenosis in univentricular hearts

Optimal prevention and treatment of subaortic stenosis (SAS) in the univentricular heart with subaortic outlet chamber and high pulmonary blood flow remains controversial, especially when complicated by aortic arch obstruction. Herein we analyze our surgical results. Group 1 consisted of 11 infants (mean age, 10 days) with univentricular heart and SAS. Ten required repair of interrupted aortic arch (n = 7) or coarctation with hypoplastic arch (n = 7). Four patients had relief of SAS by either Damus-Kaye-Stansel connection (n = 2) or aortopulmonary window (n = 2), with three operative deaths and one late death. Six had one-stage arterial switch and atrial septectomy with arch repair (5/6) with one operative death and one late death. Two survivors have progressed to bidirectional cavopulmonary shunt, a third has had a Fontan operation, and a fourth awaits Fontan. In group 2, 11 children required operation for acquired SAS after pulmonary artery banding. Nine have progressed to Fontan operation with either staged (n = 3) or concurrent (n = 6) relief of SAS by Damus-Kaye-Stansel connection or subaortic resection. Fontan mortality was 11% (70% confidence limits, 2% to 32%). Group 3 consisted of 3 patients without pulmonary artery banding who had SAS diagnosed at Fontan evaluation. All 3 survived Fontan operation and relief of SAS by Damus-Kaye-Stansel connection or subaortic resection. Group 4 consisted of 1 patient with previous pulmonary artery banding (no SAS) who underwent Fontan operation but required Damus-Kaye-Stansel connection 30 months later for SAS.(ABSTRACT TRUNCATED AT 250 WORDS)