Biventricular Repair of Atrioventricular Septal Defect With Common Atrioventricular Valve and Double-Outlet Right Ventricle

Can We Better Understand the Anatomy of Channels Between the Ventricles on the Basis of Knowledge of Their Development?

Surgeons usually close the channels described as "ventricular septal defects." When both arterial trunks arise from the right ventricle, however, the surgeon will be aware that it is not appropriate to close the channel most frequently described as the "ventricular septal defect." In this latter setting, furthermore, there is currently no name for the area usually closed during surgery to restore septal integrity. Our previous attempts to emphasize the logical problems created by this situation have not, thus far, been met with uniform approbation. This may reflect the fact that we have not always expressed our concepts using words that are easy to understand. But we continue to believe that words are important if we are to achieve optimal understanding. In this review, therefore, we illustrate those areas that can be closed surgically to restore septal integrity, making a comparison with the defects that provide an outlet for the left ventricle, and hence cannot be closed. To assist understanding, we draw further comparison with the situation in the developing heart, when an area that is initially part of the right ventricle becomes the left ventricular outflow tract subsequent to the completion of septation. We discuss all these features in the setting of the simple perimembranous ventricular septal defect, the defects found in tetralogy of Fallot, and those found in the various forms of double outlet right ventricle. We emphasize the importance to the surgeon of knowing the boundaries around which a patch, or baffle, must be placed to restore septal integrity.

A Comparison for Infantile Mortality of Crucial Congenital Heart Defects in Korea over a Five-Year Period

Background: Nearly half of congenital heart defects (CHDs) related to mortality occur during infancy although advancements in treatments have increased the survival rates. This study comprehensively examined overall and surgical mortality in CHD infants with the highest mortality rates in an effort to improve our understanding of CHD epidemiology. Methods: Participants were drawn from a dataset of 1,964,691 infants born between 2014 and 2018 in Korea. Crucial CHDs are defined here as including diverse categorical defects and classical critical CHDs but excluding simple shunt defects. Overall mortality (procedural and natural mortality) and procedural mortality (interventional and surgical mortality) for infants were analyzed. Results: The performance rate for multiple procedures in infants with crucial CHDs was 16%. The overall and surgical mortalities of crucial CHDs were 8% and 7%. The mortalities of palliative procedures were relatively high. Procedural mortalities for infants were significantly decreased in the tetralogy of Fallot (TOF), atrioventricular septal defects, and total anomalous pulmonary venous return (TAPVR) compared with overall mortalities for infants. Surgical mortalities for infants involving TOF and TAPVR were significantly lower, but those for infants involving hypoplastic left heart syndrome (HLHS) were higher than those for all ages. Conclusions: Palliative procedural techniques in infants must be improved to obtain better outcomes, particularly in the palliative surgery of HLHS. The infantile procedural outcomes for TOF and TAPVR are excellent and important in order to overcome disastrous circumstances during infancy. This comprehensive study of the overall and procedural mortalities of CHDs may have laid a cornerstone for CHD epidemiology in Korean infants.

Multicentre study on late outcomes of biventricular repair of double outlet right ventricle

OBJECTIVES

The goal of this retrospective multicentre study was to present late surgical outcomes of the treatment of children with double outlet right ventricle (DORV) coming from emerging countries.

METHODS

The Mécénat Chirurgie Cardiaque brings to France for surgery selected children with simple and complex congenital diseases, including DORV. The patients are operated on in 9 hospitals that specialize in paediatric cardiac surgery. Data are collected from the Mécénat Chirurgie Cardiaque comprehensive database, with a strict postoperative follow-up. The patients included only those who had biventricular repair of DORV with 2 viable ventricles. According to the classification of the Eleventh Revision of the International Classification of Diseases, DORV was defined as a congenital cardiovascular malformation in which both great arteries arise entirely or predominantly from the morphologically right ventricle.

RESULTS

From January 1996 to January 2022, a total of 81 consecutive DORV biventricular repair operations were performed. There were 6 subtypes of DORV divided into 2 groups: DORV-committed ventricular septal defect (VSD): DORV-VSD (n = 25), DORV-Fallot (n = 34), DORV-transposition of the great arteries (n = 5); and DORV-non-committed (nc) VSD: DORV-ncVSD-no pulmonary stenosis (PS) (n = 7), DORV-ncVSD-PS (n = 5) and DORV-atrioventricular septal defect (AVSD)-PS (n = 5). Four Fontan patients were excluded. Three patients were lost to follow-up (3.4%). The overall perioperative mortality was 7.4% ± 2.6%, 6/81 (95% confidence interval: 2.8%-15.4%) ranging from 0% in DORV-AVSD-PS to 14% for DORV-ncVSD-no PS. The overall 10-year survival was 86%. The early mortality of DORV-ncVSD at 5.9% ± 2.4% (1/17) was similar to that of DORV-committed VSD at 7.8% ± 2.7% (5/64) (P = 0.79). There was a trend towards an optimal outcome for the arterial switch operation and the DORV-AVSD-PS repair. VSD enlargement was significantly more frequent in DORV-ncVSD at 42% (5/12) (P = 0.001). There were low numbers in the complex groups. The number of Fontan cases was noticeably low. The aorta located entirely on the right ventricle represents the fundamental anomaly and the surgical challenge of DORV.

CONCLUSIONS

Overall survival at 10 years was 86%. This study shows a trend towards satisfactory early and late outcomes in BVR of simple DORV with committed VSD, compared to complex DORV with ncVSD.

Double outlet right ventricle in adults: Anatomic variability, surgical treatment, and late postoperative complications

Double outlet right ventricle (DORV) is a highly complex congenital heart disease (CHD) entity, gaining increasing interest due to the rapid progress of cardiac surgery. The number of patients operated for this congenital defect has been growing since 1980s and over following decades with active transitioning of this cohort into the adult medicine. However, the diversity of initial anomaly and performed interventions makes challenging the management of these patients. This is particularly important in the regions where specialized adult CHD cardiology still remains underdeveloped. In this review, we observe the basic principles of DORV nomenclature, main types of the operations and possible late complications. The article focuses on adult patients and offers illustrations from clinical practice.

Impact of concomitant complex cardiac anatomy in nonsyndromic patients with complete atrioventricular septal defect

OBJECTIVE

We studied a cohort of patients with nonsyndromic complete atrioventricular septal defect with and without concomitant complex cardiac anatomy and compared the outcomes after surgical repair.

METHODS

Between 1993 and 2018, 62 nonsyndromic patients underwent complete atrioventricular septal defect repair. Sixteen patients (26%) had complex complete atrioventricular septal defect with variables representing concomitant cardiac anatomic complexity: tetralogy of Fallot, double outlet right ventricle, total anomalous pulmonary venous return, concomitant aortic arch reconstruction, multiple ventricular septal defects, staged repair of coarctation of the aorta, and a persisting left superior vena cava. The mean follow-up was 12.7 ± 7.9 years. Baseline variables were retrospectively evaluated and analyzed using univariable logistic regression. Survival was studied using Kaplan-Meier estimates, and group comparisons were performed using the log-rank test. A competing-risk analysis estimated the risk of reoperation with death as the competing event. A Gray's test was used to test equality of the cumulative incidence curves between groups.

RESULTS

The perioperative mortality was 3.2% (2/62). Actuarial survival was 100% versus 66.7% ± 14.9% at 10 years in the noncomplex and complex groups, respectively (P < .01). There was no significant difference in the overall reoperation rate between the noncomplex group (7/46; 15%) and the complex group (4/16; 25%) (odds ratio, 1.86; 95% confidence interval, 0.46-7.45; P = .30). The competing-risk analysis demonstrated no significant difference in reoperation between the groups (P = .28).

CONCLUSIONS

Our data show that nonsyndromic patients without complex cardiac anatomy have a good long-term survival and an acceptable risk of reoperation similar to contemporary outcomes for patients with complete atrioventricular septal defect with trisomy 21. However, the corresponding group of nonsyndromic patients with concomitant complex cardiac lesions are still a high-risk population, especially regarding mortality.

Investigating the characteristics of echocardiogram, surgical treatment, chromosome and prognosis for fetal right heart enlargement: A STROBE-compliant article

The prognosis of right heart enlargement varies according to different etiologies. The purpose of this study was to investigate the characteristics of echocardiogram, surgical treatment, chromosome and prognosis for fetal right heart enlargement.The foetal echocardiogram was performed on 3987 pregnant women, and then 88 fetuses with right heart enlargement were identified. The data about prenatal and postnatal echocardiograms, postnatal cardiac surgical treatment, karyotype analysis and autopsy after induced labor were analyzed in the 88 fetuses.Except the 1111 cases that had loss of follow-up, 2876 cases had complete data. Among the 2876 cases, right heart enlargement was identified in 88 fetuses. Of the 88 fetuses, 15 had total atrioventricular septal defect (unbalanced type: right ventricular dominance), 15 Ebstein's anomaly, 18 fallot tetrad, 14 double outlet right ventricle, 13 total anomalous pulmonary venous drainage, and 13 premature closure of ductus arteriosus. Chromosomal abnormality was found in 12 cases.There are many etiological factors causing right heart enlargement. The prognosis is better in the fetuses with single heart malformation than in the fetuses who have extracardiac malformation or/and chromosomal abnormality besides heart malformation. Fetal echocardiography combined with karyotype analysis can provide important bases for evaluating the prognosis of fetuses with right heart enlargement.

Contemporary Outcomes After Repair of Isolated and Complex Complete Atrioventricular Septal Defect

BACKGROUND

Contemporary outcomes of complete atrioventricular septal defect (CAVSD) repair, particularly for defects with associated abnormalities, is unclear. The goal of this study is to report an all-inclusive experience of CAVSD repair using a consistent surgical approach.

METHODS

All patients undergoing CAVSD repair between 1995 and 2016 at our institution were included. Patients were divided into 2 groups: isolated and complex (tetralogy of Fallot, aortic arch repair, double outlet right ventricle, and total anomalous pulmonary venous return). Survival and reoperation were analyzed using log-rank test and Gray's test, respectively. Multivariable analysis was performed with Cox regression.

RESULTS

Overall, 406 patients underwent repair: 350 (86%) isolated and 56 (14%) complex CAVSD (tetralogy of Fallot: 34, double outlet right ventricle: 7, aortic arch repair: 12, total anomalous pulmonary venous return: 3). Median age at repair was 5 months (range, 10 days to 16 years); 339 (84%) had trisomy 21. A 2-patch repair was used in 395 (97%) and the zone of apposition was completely closed in 305 (75%). Perioperative mortality was 2% and 4% in the isolated and complex groups, respectively. Perioperative mortality since 2006 was 0.9%. Median follow-up was 7 years. Overall 10-year survival and incidence of any reoperation were 92% and 11%, respectively. Complex anatomy was not a risk factor for mortality (p = 0.35), but it was for reoperation (hazard ratio [HR]: 2.6; p < 0.01). Risk factors for left atrioventricular valve reoperation were a second bypass run (HR: 2.7) and preoperative moderate or worse regurgitation (HR: 2.3).

CONCLUSIONS

Mortality after CAVSD repair is low, yet reoperation remains a significant problem. Repair of complex CAVSD can be performed with similar mortality rates.

Biventricular Repair of Double Outlet Right Ventricle: Preoperative Echocardiography and Surgical Outcomes

OBJECTIVE

To discuss the key anatomic features of double outlet right ventricle (DORV) assessed by preoperative echocardiography among patients treated with different types of biventricular repair.

METHODS

Surgical and echocardiographic databases were queried to identify patients who had undergone biventricular repair for DORV and had adequate preoperative echocardiographic imaging. All patients underwent pre- and postoperative echocardiography and clinical evaluation following discharge.

RESULTS

Two hundred sixty-two patients with DORV met the inclusion criteria of the study. The patients were divided into two groups-intraventricular tunnel repair (IVR) to the aorta (194 [74%] patients) or to the pulmonary artery with either concomitant arterial switch operation or double-root translocation (68 [26%] patients). Among 68 patients undergoing IVR to the pulmonary artery, 50 patients with transposition of the great arteries (TGA) type of DORV and 7 patients with remote ventricular septal defect (VSD) type underwent IVR plus arterial switch operation and 6 patients with TGA type and 5 patients with remote VSD type underwent IVR plus double-root translocation. There were three hospital deaths and one late death (overall operative mortality: 1.5%).

CONCLUSION

Preoperative echocardiography provided crucial data to estimate the feasibility of intraventricular tunnel creation to either the aorta or the pulmonary artery and to guide the selection of either arterial switch or double-root translocation. Biventricular repair could be achieved with favorable outcomes in most patients with DORV.

Surgical Treatment for Double Outlet Right Ventricle With Pulmonary Outflow Tract Obstruction

BACKGROUND

Double outlet right ventricle (DORV) is a conotruncal anomaly that is a defining element of many types of complex congenital heart disease. Because of a big variety of pathology, there are still some controversies with respect to the definition, classification, and surgical treatment. We report our experience with surgical treatment for DORV (as defined by the "90% rule") with pulmonary outflow tract obstruction (POTO).

METHODS

From July 2005 to July 2015, 90 patients underwent surgical treatment of DORV with POTO at the First Hospital of Tsinghua University. There were 55 males and 35 females whose age varies from 3 months to 36 years (mean age 7.1 ± 9.0 years old), and body weights ranged from 5 to 63 kg (mean weight 20.4 ± 16.6 kg). Besides DORV, ventricular septal defect, and POTO, this group of patients includes some with additional associated cardiac abnormalities.

RESULTS

Fourteen patients (15.6%) died. The main cause of death was low cardiac output syndrome.

CONCLUSIONS

The DORV is usually associated with a variety of cardiac abnormalities and POTO is a common defining feature. Acceptable surgical results can be achieved by individualized surgical treatment of most patients. Some patients may require reoperation, and a close follow-up is needed.

Echocardiographic Classification and Surgical Approaches to Double-Outlet Right Ventricle for Great Arteries Arising Almost Exclusively from the Right Ventricle

Selecting an appropriate surgical approach for double-outlet right ventricle (DORV), a complex congenital cardiac malformation with many anatomic variations, is difficult. Therefore, we determined the feasibility of using an echocardiographic classification system, which describes the anatomic variations in more precise terms than the current system does, to determine whether it could help direct surgical plans. Our system includes 8 DORV subtypes, categorized according to 3 factors: the relative positions of the great arteries (normal or abnormal), the relationship between the great arteries and the ventricular septal defect (committed or noncommitted), and the presence or absence of right ventricular outflow tract obstruction (RVOTO). Surgical approaches in 407 patients were based on their DORV subtype, as determined by echocardiography. We found that the optimal surgical management of patients classified as normal/committed/no RVOTO, normal/committed/RVOTO, and abnormal/committed/no RVOTO was, respectively, like that for patients with large ventricular septal defects, tetralogy of Fallot, and transposition of the great arteries without RVOTO. Patients with abnormal/committed/RVOTO anatomy and those with abnormal/noncommitted/RVOTO anatomy underwent intraventricular repair and double-root translocation. For patients with other types of DORV, choosing the appropriate surgical approach and biventricular repair techniques was more complex. We think that our classification system accurately groups DORV patients and enables surgeons to select the best approach for each patient's cardiac anatomy.

The independence of the infundibular building blocks in the setting of double-outlet right ventricle

It has long been contentious as to whether the presence of bilateral infundibulums, or conuses, is a prerequisite for the diagnosis of double-outlet right ventricle. As the use of such a criterion would abrogate the so-called "morphological method", which correctly states that one variable entity should not be defined on the basis of another entity that is itself variable, it is now accepted that double outlet can exist in the setting of fibrous continuity between the leaflets of the atrioventricular and arterial valves. Although this debate has now been resolved, there are other contentious areas still requiring clarification in the setting of hearts unified because of the presence of this particular ventriculo-arterial connection - for example, it is questionable whether the channel between the ventricles should be described as a "ventricular septal defect", whereas it is equally arguable that the mere presence of fibrous continuity between the leaflets of the arterial valves does not necessarily place the channel in a doubly committed location. In this review, we describe a series of autopsied hearts in which the anatomical features serve to illuminate these various topics. We then discuss recent findings regarding cardiac development that point to the individuality of the building blocks of the ventricular outflow tracts, specifically the outlet septum, the inner heart curvature, or ventriculo-infundibular fold, and the septomarginal trabeculation, or septal band.

How should we diagnose and differentiate hearts with double-outlet right ventricle?

Many, if not most, of the controversies regarding the description of the congenitally malformed heart have been resolved over the turn of the 20th century. A group of lesions that remains contentious is the situation in which both arterial trunks, in their greater part, are supported by the morphologically right ventricle. It was considered, for many years, that presence of bilateral infundibulums, or conuses, was a necessity for such a diagnosis. It has now been appreciated that this suggestion founders on many counts. In the first instance, such bilateral infundibulums are to be found in patients with other ventriculo-arterial connections, including the otherwise normal heart. In the second instance, it is clear that such an approach abrogates the important principle now known as the morphological method. This states that entities should be defined in terms of their intrinsic morphology and not on the basis of other variable features. It is now also clear that, when assessed simply on the basis of the ventricular origin of the arterial trunks, a significant number of patients fulfil the criteria for so-called "200%" origin of the trunks from the right ventricle when there is fibrous continuity between the leaflets of the atrioventricular and arterial valves. In this review, we show how attention to the morphology of the channel between the ventricles now provides the key to accurately diagnose the ventriculo-arterial connection in patients with suspected double-outlet right ventricle. This is because, when both arterial trunks arise exclusively or predominantly from the morphologically right ventricle, the outlet septum, of necessity, is itself a right ventricular structure. The channel between the ventricles, therefore, is roofed by the inner heart curvature, whether that structure is fibrous or muscular. Our observations then confirm that it is the attachment of the outlet septum, which itself can be muscular or fibrous, which determines the commitment of the interventricular communication to the subarterial outlets. The interventricular communication itself, when directly committed to the ventricular outlets, opens between the limbs of the septomarginal trabeculation or septal band. The defect is subaortic when the outlet septum is attached to the cranial limb of the trabeculation, subpulmonary when attached to the caudal limb, and doubly committed when attached to the inner heart curvature in the roof of the defect. Non-committed defects are no longer positioned within the limbs of the septomarginal trabeculation. Although readily demonstrable by a skilled echocardiographer, we show how these anatomical features are more easily demonstrated with added accuracy when using CT data sets.

Fetal Complete Common Atrioventricular Canal Defect

Background:

We describe in utero anatomic evolution and postnatal outcome of complete common atrioventricular canal defect (CCAVCD).

Methods:

Retrospective data on 31 fetuses with CCAVCD were analyzed. We reviewed prenatal and postnatal echocardiograms, karyotype, and postnatal outcomes.

Results:

A total of 20 fetuses had complete data, 18 with serial fetal echocardiograms and postnatal data and 2 terminations. At initial examination, isolated CCAVCD was seen in 12 (67%) fetuses while 6 (33%) were associated with heterotaxy syndrome. On follow-up, 4 fetuses (22%) had spontaneous closure of the inlet ventricular septal defect (VSD) component of the CCAVCD, seen both at 30 to 35 weeks of gestation and on postnatal echocardiograms. These 4 fetuses had previously demonstrated CCAVCD between 18 and 25 weeks of gestation. A total of 15 (83%) patients underwent operative correction, 10 with isolated complete atrioventricular septal defect and 5 with heterotaxy had surgical repair. Four infants in whom spontaneous intrauterine closure of the VSD component was observed had no VSD noted at surgery and underwent closure of primum atrial septal defect and repair of the left atrioventricular (AV) valve cleft.

Conclusions:

Our data demonstrate that CCAVCD diagnosed during fetal life is not a static anomaly. In our series, an inlet VSD less than 4 mm and Rastelli type A anatomy (AV valve attachment to septal crest) during second trimester may evolve during third trimester by formation of AV sulcus pouch and spontaneous closure of the VSD. To the best of our knowledge, this is the first study to report such anatomic evolution of CCAVCD in the fetus. This information is vital for appropriate counseling for expectant parents.

Anatomical repair of double outlet right ventricle associated with complete atrioventricular septal defect and pulmonary stenosis: extending the indications for aortic translocation

The combination of double outlet right ventricle (DORV) and complete atrioventricular septal defect (CAVSD) remains a surgical challenge for anatomical repair. Inasmuch as the ventricular septal defect is noncommitted in this combination, the major concern regarding anatomical repair is the reconstruction of the unobstructed left ventricular outflow tract without compromising right ventricular volume and the right ventricular outflow tract. We report on a patient who underwent an anatomical repair using aortic root translocation for DORV with CAVSD and pulmonary stenosis (PS).

Surgical Management of the Neonate With Heterotaxy and Long-Term Outcomes of Heterotaxy

A review of the many challenges facing the neonate with heterotaxy has identified total anomalous pulmonary venous connection, atrioventricular valve abnormalities, pulmonary atresia, and arrhythmias including heart block as particular risk factors for the child who will pursue a single-ventricle pathway. Experience varies widely between different centers as to the percentage of patients who are suitable for biventricular repair, ranging from less than 20% to greater than 50%. Biventricular repair may only require simple baffling of anomalous systemic or pulmonary veins or may involve complex intraventricular baffle repair of double-outlet right ventricle with common atrioventricular valve. The long-term complications of heterotaxy include accelerated development of pulmonary arteriovenous malformations after the Kawashima procedure, high mortality and morbidity for the Fontan procedure (although improving results have been reported more recently), and the development of late arrhythmias. Extracardiac problems include a high risk of volvulus if malrotation is present, suggesting the need for an elective Ladd procedure. The presence of associated ciliary dyskinesia appears to be associated with an increased risk of postoperative morbidity, particularly ventilator dependence and other respiratory complications. The child with heterotaxy faces many challenges that are often underappreciated by both caregivers and families.