Home » Persistent left superior vena cava: a case report and review of literature

Persistent left superior vena cava: a case report and review of literature

Abstract

Persistent left superior vena cava is rare but important congenital vascular anomaly. It results when the left superior cardinal vein caudal to the innominate vein fails to regress. It is most commonly observed in isolation but can be associated with other cardiovascular abnormalities including atrial septal defect, bicuspid aortic valve, coarctation of aorta, coronary sinus ostial atresia, and cor triatriatum. The presence of PLSVC can render access to the right side of heart challenging via the left subclavian ,left internal jugular approach  which is a common site of access utilized when placing pacemakers and Swan-Ganz catheters. Incidental notation of routine post-procedural chest X-ray, an unusual course of the catheter was identified (Figure ​(Figure1) or  dilated coronary sinus on echocardiography should raise the suspicion of PLSVC. The diagnosis should be confirmed by saline contrast echocardiography.

Background:

Persistent left superior vena cava (PLSVC) is an uncommon vascular anomaly; however, it is the most common congenital anomaly of thoracic venous system. It is usually asymptomatic and is detected when cardiovascular imaging is performed for unrelated reasons. When a left subclavian or left internal jugular approach is used for vascular access, its presence can complicate catheter placement within the right side of heart. Here we present a case that highlights the practical implications PLSVC. Further, we review a diagnostic approach and provide insight into the embryonic basis of this anomaly.

Case presentation:

A 68 years old male patient k/c/o HTN/DM/CAD Post PTCA /CKD/ Poor LVEF 25% admitted with C/O of fever/poor oral intake/ drowsyness. ABG showing metabolic acidosis/lactate 1.8,  patient was haemodynamically unstable was put on noradrenaline , In view of his poor LV advanced haemodynamic monitoring considered ,Pulmunary artery catheter( Swan-Ganz catheter) inserted under usg guidience in left internal jugular vein , on routine post-procedural chest X-ray, an unusual course of the catheter was identified (Figure ​2). PLSVC was suspected, and a follow-up echocardiogram demonstrated the catheter passing through the coronary sinus (Figure ​(Figure2).  Diagnosis was well established on an echocardiogram showing catheter traversing the coronary sinus, a saline contrast echocardiography and subsequently confirmed with saline contrast echocardiography.

 

Figure 2  Transthoracic echocardiogram, parasternal long axis view, illustrating a dilated coronary sinus (CS). Other chambers visible are the left ventricle (LV), aorta (Ao), and left atrium (LA)

Discussion:

Persistent left SVC is the most common congenital thoracic venous anomaly with a prevalence of 0.3–0.5% in general population [1]. The thoracic embryonic venous system is composed of two large veins (the superior cardinal veins) which return blood from cranial aspect of embryo, and the inferior cardinal vein, which returns blood from the caudal aspect. Both pairs of veins join to form right and left common cardinal veins before entering the embryological heart. The left common cardinal vein persists to form coronary sinus and oblique vein of left atrium. During the 8th week of gestation, an anastomosis forms between right and left superior cardinal veins resulting in the innominate (or brachiocephalic) vein. The cephalic portion of superior cardinal veins form the internal jugular veins. The caudal portion of right superior vein forms the normal right-sided superior vena cava, while the portion of the left superior cardinal vein caudal to the innominate vein normally regresses to become “ligament of Marshall”. If this normal regression of the left superior cardinal vein fails to occur, a persistent left-sided vascular structure that empties into the coronary sinus, results (the PLSVC). The innominate vein may or may not degenerate in these cases leading to variations in anatomy.

The most common subtype of PLSVC results in the presence of both left and right SVCs. A bridging innominate vein may or may not be present. Webb et al [2] reported that a PLSVC is associated with absence of the innominate vein in 65% cases. More rarely, the caudal right superior cardinal vein regresses leading to an absent right SVC with PLSVC. In this case, the left SVC returns all the blood from cranial aspect of the body. Variations have also been reported in the insertion of left SVC. In 80–90% of individuals, the persistent LSVC drains into the right atrium via the coronary sinus and is of no hemodynamic consequence. In the remaining cases, it may drain in left atrium resulting in a right to left sided shunt.

Diagnosis of left SVC is usually made as an incidental finding during cardiovascular imaging or surgery. Placement of Swan-Ganz catheter via the left subclavian approach as in this case of PLSVC demonstrates an unusual course of the catheter on chest X-ray [Fig ​[Fig1].1]. Transthoracic echocardiography reveals a dilated coronary sinus and diagnosis can be confirmed by use of saline contrast (“bubble study”) echocardiography. PLSVC is not the only cause of a dilated coronary sinus, however, with other etiologies including elevated right atrial pressure (most common), coronary arterio-venous fistula, partial anomalous pulmonary venous return, or an “unroofed” coronary sinus affording shunt flow between the left atrium and coronary sinus. The following diagnostic criteria can be used with echocardiography: (1) the presence of a dilated coronary sinus on two-dimensional echocardiography in the absence of evidence of elevated right sided filling pressures; (2) enhancement of the dilated coronary sinus before the right atrium (RA) after contrast material infusion into a left arm vein; (3) normal transit of contrast with RA opacification before the coronary sinus with contrast injected from the right arm. Multislice computed tomography  or magnetic resonance venography can also be employed to establish the diagnosis, and is useful to rule out variations in the typical anomalous venous course. Single or multiplane transesophageal echocardiography [3] and radionuclide angiocardiography have also been used to establish diagnosis.

Almost 40% of patients with PLSVC can have a variety of associated cardiac anomalies, [4,5] such as atrial septal defect, bicuspid aortic valve, coarctation of aorta, coronary sinus ostial atresia, and cor triatriatum. The presence of associated anomalies is more common with concomitant absence of right SVC the notation of which warrants appropriate investigation to rule out other anomalies. The PLSVC has been associated with anatomical and architectural abnormalities of the sinus node and conduction tissues. Both sinus and AV node can have persistent fetal dispersion in the central fibrous body in subjects with PLSVC[6].

PLSVC has various practical implications when the left subclavian vein is used for access to the right side of the heart or pulmonary vasculature. Swan-Ganz catheter placement can be challenging as it is performed without imaging under many circumstances, such as at the bedside. PLSVC can also complicate permanent pacemaker and implantable cardioverter defibrillator (ICD) placement (the latter of which is always done under fluoroscopic guidance thus the anomaly is typically detected during the procedure). Serious complications such as arrhythmia, cardiogenic shock, cardiac tamponade, and coronary sinus thrombosis have been reported when pacemaker leads or catheters have been inserted via PLSVC. Fortunately, the incidence of such complications is relatively low, and permanent pacemaker leads for single chamber pacing have been successfully placed via PLSVC as early as 1971 [7].

Improvements in catheter types and technique over time have permitted the successful placement of right atrial and right ventricular leads for dual-chamber pacing [8]. In addition, cardiac resynchronization therapy for advanced chronic heart failure requires the placement of third pacing lead in left posterolateral vein of the heart. Several operators have successfully placed a cardiac resynchronization system, and therefore a lead via the coronary sinus, in individuals with PLSVC with good intermediate term results [9].

During cardiac surgery, the presence of PLSVC is a relative contraindication to the administration of retrograde cardioplegia. It may be possible to clamp the PLSVC to prevent the cardioplegia solution from perfusing retrograde up the PLSVC and its branches with inadequate myocardial protection [10]. However, there is a possibility that there may be some steal of cardioplegia solution through an accessory vein. During heart transplantation in a patient with PLSVC, the coronary sinus must be dissected carefully to permit reanastomosis of PLSVC to right atrium[11].

Conclusion:

Incidental notation of routine post-procedural chest X-ray, an unusual course of the catheter  or  dilated coronary sinus on echocardiography  should alert the clinician towards the possibility of PLSVC. The diagnosis should be confirmed by saline contrast echocardiography. Cardiologists and critical care physicians should consider presence of PLSVC whenever a catheter or guide wire inserted via left subclavian vein or left internal jugular takes an unusual left-sided downward course. A PLSVC certainly presents technical difficulties with right heart access via the left subclavian/left internal jugular vein, but does not preclude insertion of catheters; however, the additional associated risks should be discussed with the patient if the diagnosis of PLSVC is already established, and alternative access sites should be considered.

Consent:

Written informed consent was obtained from the patient family for publication of this case report and accompanying images.

Competing interests:

The authors declare that they have no competing interests.

Authors’ contributions:

All authors read and approved the final manuscript.

Acknowledgements:

We would like to thanks the patient and his family for giving us permission to publish this case report.

References:

  1. Wood P.Disesase of heart and circulation.  Philadelphia: JB Lippincott; 1956.
  2. Webb W, Gamsu G, Speckman J, Kaiser J, Federle M, Lipton M. Computed tomographic demonstration of mediastinal venous anomalies.AJR Am J Roentgenol. 1982;139:157–161.[PubMed]
  3. Voci P, Luzi G, Agati L. Diagnosis of persistent left superior vena cava by multiplane transesophageal echocardiography. 1995;40:273–275. [PubMed]
  4. Sarodia B, Stoller J. Persistent left superior vena cava: case report and literature review.Respir Care. 2000;45:411–416. [PubMed]
  5. Winter F. Persistent left superior vena cava; survey of world literature and report of thirty additional cases. 1954;5:90–132. doi: 10.1177/000331975400500207. [PubMed] [Cross Ref]
  6. James T, Marshall T. XVIII. Persistent fetal dispersion of the atrioventricular node and His bundle within the central fibrous body. 1976;53:1026–1034. [PubMed]
  7. Rose M, Gross L, Protos A. Transvenous pacemaker implantation by way of an anomalous left superior vena cava.J Thorac Cardiovasc Surg. 1971;62:965–966. [PubMed]
  8. Roberts D, Bellamy C, Ramsdale D. Implantation of a dual chamber pacemaker in a patient with persistent left superior vena cava.Int J Cardiol. 1992;36:242–243. doi: 10.1016/0167-5273(92)90017-W. [PubMed] [Cross Ref]
  9. Meijboom W, Vanderheyden M. Biventricular pacing and persistent left superior vena cava. Case report and review of the literature.Acta Cardiol. 2002;57:287–290. doi: 10.2143/AC.57.4.2005428.[PubMed] [Cross Ref]
  10. Oosawa M, Sakai A, Abe M, Hanayama N, Lin Z, Kodera K. [Repeat open heart surgery in a case associated with persistent left superior vena cava: a method of simple occlusion of L-SVC using an alternative extra-pericardial approach and retrograde cardioplegia]Kyobu Geka.1995;48:741–744.[PubMed]
  11. Nsah E, Moore G, Hutchins G. Pathogenesis of persistent left superior vena cava with a coronary sinus connection.Pediatr Pathol.1991;11:261–269. doi: 10.3109/15513819109064763. [PubMed][Cross Ref]

Author:

  1. Dr. Muneer Jan (Associate Consultant, Critical Care Medicine, ARTEMIS Superspeciality Hospital, Gurgaon)
  2. Dr. Sujan Dey (Consultant, Critical Care Medicine, ARTEMIS Superspeciality Hospital, Gurgaon)
  3. Dr. Reshma Tewari (Director, Critical Care Medicine, ARTEMIS Superspeciality Hospital, Gurgaon)
  4. Dr. Krishna Murari Dhaker (Registrar, Critical Care Medicine, ARTEMIS Superspeciality Hospital Gurgaon)
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