Persistent Left Superior Vena Cava: Incidence and Management in Patients Undergoing Repair of Partial Anomalous Pulmonary Venous Connection

Minimally invasive redo tricuspid valve replacement in patient with persistent left superior vena cava

INTRODUCTION

The management of cardiopulmonary bypass (CPB) is still challenging in certain circumstances, especially for patients with anatomical variations. This challenge is even harder for reoperations, which are associated with increased morbidity and mortality risk.

CASE REPORT

We describe a minimally invasive, beating-heart redo tricuspid valve replacement in a 71-years old woman with persistent left superior vena cava.

DISCUSSION

Preoperative planning via CT-scan, teamwork and custom-made management of CPB are crucial for reoperations with anatomical variations. The perfusionist has a pivotal role in constructing and managing the CPB.

CONCLUSION

We describe a strategy achieving the benefits of minimally invasive endoscopic and beating-heart surgery (avoidance of resternotomy risk and associated morbidity, right ventricular protection) in reoperative tricuspid surgery with persistent upper left vena cava.

Left pulmonary veins draining into persistent left superior caval vein in presence of unroofed coronary sinus

We report a case of 5-year-old girl with double outlet right ventricle with a rare combination of partial anomalous pulmonary venous drainage into a persistent left superior caval vein in the presence of an unroofed coronary sinus while highlighting its possible embryological origins and therapeutic implications.

Intraoperative Collateral Drainage Evaluation Before Superior Caval Interruption in Partial Anomalous Pulmonary Venous Connection Repair

A superior sinus venosus atrial septal defect and partial anomalous pulmonary venous connection was corrected by a minimally invasive approach by permanently ligating the superior vena cava and a single pericardial patch for rerouting the flow through the enlarged interatrial communication. The patient had persistency of the left superior vena cava draining in the coronary sinus but no innominate vein. This anatomy poses a risk of developing right-sided superior vena cava syndrome. In this article, we describe our intraoperative strategy to assess the safety of this approach in such cases, which facilitates minimally invasive repair and avoids the most important complications of conventional repair.

Association of PLXND1 with a novel subtype of anomalous pulmonary venous return

Anomalous pulmonary venous return (APVR) is a potentially lethal congenital heart disease. Elucidating the genetic etiology is crucial for understanding its pathogenesis and improving clinical practice, while its genetic basis remains largely unknown due to complex genetic etiology. We thus performed whole-exome sequencing for 144 APVR patients and 1636 healthy controls and report a comprehensive atlas of APVR-related rare genetic variants. Novel singleton, loss-of-function and deleterious missense variants (DVars) were enriched in patients, particularly for genes highly-expressed in the developing human heart at the critical time point for pulmonary veins draining into the left atrium. Notably, PLXND1, encoding a receptor for semaphorins, represents a strong candidate gene of APVR (adjusted P = 1.1e-03, OR: 10.9-69.3), accounting for 4.17% of APVR. We further validated this finding in an independent cohort consisting of 82 case-control pairs. In these two cohorts, eight DVars were identified in different patients, which convergently disrupt the GTPase-activating protein-related domain of PLXND1. All variant carriers displayed strikingly similar clinical features, in that all anomalous drainage of pulmonary vein(s) occurred on the right side and incorrectly connected to the right atrium, may representing a novel subtype of APVR for molecular diagnosis. Studies in Plxnd1 knockout mice further revealed the effects of PLXND1 deficiency on severe heart and lung defects and cellular abnormalities related to APVR such as abnormal migration and vascular formation of vascular endothelial cells. These findings indicate the important role of PLXND1 in APVR pathogenesis, providing novel insights into the genetic etiology and molecular subtyping for APVR.

High origin of the right coronary artery with partial anomalous pulmonary venous connection to the left superior caval vein in tetralogy of Fallot

The prevalence of anomalous origin of coronary artery in tetralogy of Fallot has been reported to be around 4% to 6%. The association of high take-off of the right coronary artery from the distal part of the ascending aorta in tetralogy of Fallot in the presence of a partial anomalous pulmonary venous connection (PAPVC) to the left superior caval vein draining into the left atrium is not known to the best of our knowledge. We herein describe such a case when the anomalous right coronary artery and the PAPVC were detected incidentally during intracardiac repair; signifying the importance of a thorough assessment of the anatomy before surgery.