Implantation of Pacemaker in a Patient with Dextrocardia, Persistent Left Superior Vena Cava, TGA and Heart Block

Congenital anomalies of the heart may generate difficul ties for cardiac invasive procedures. Dextrocardia is a rare congenital heart disease in which the apex of the heart is located on the right side of the chest. Patients with trans position of great arteries (TGA) abnormalities are at risk for complete cardiac block and usually require a permanent cardiac pacemaker in long-term follow-up. The persistent left superior vena cava (PLSCV) is a rare venous anomaly, often associated with abnormalities of the cardiac transduc tion system. It is usually seen by chance during permanent pacemaker implantation. Even if electrodes are not impos sible to be placed through this abnormal venous structure, it can be challenging. In this study, we present a permanent pacemaker implantation to a 31-year-old female patient with a combination of dextrocardia, PLSVC, and TGA due to complete heart block. Congenital anomalies of the heart can make transvenous procedures such as right heart catheterization or pacemak er implantation difficult. During embryological development, PLSVC occurs as a result of obliteration of the proximal part of the right anterior and right cardinal veins [ 1 ]. The left an terior cardinal vein creates a vena cava superior that opens to the right atrium through the left coronary sinus or direct ly to the left atrium. The persistent left superior vena cava (PLSCV) is rare but the most common systemic venous anomaly, which is 0.5% in general population and 3-10% in congenital heart defects [ 2 ]. Another anomaly is congenital dextrocardia, which is

ties for cardiac invasive procedures.Dextrocardia is a rare congenital heart disease in which the apex of the heart is located on the right side of the chest.Patients with transposition of great arteries (TGA) abnormalities are at risk for complete cardiac block and usually require a permanent cardiac pacemaker in long-term follow-up.The persistent left superior vena cava (PLSCV) is a rare venous anomaly, often associated with abnormalities of the cardiac transduction system.It is usually seen by chance during permanent pacemaker implantation.Even if electrodes are not impossible to be placed through this abnormal venous structure, it can be challenging.In this study, we present a permanent pacemaker implantation to a 31-year-old female patient with a combination of dextrocardia, PLSVC, and TGA due to complete heart block.
Congenital anomalies of the heart can make transvenous procedures such as right heart catheterization or pacemaker implantation difficult.During embryological development, PLSVC occurs as a result of obliteration of the proximal part of the right anterior and right cardinal veins [1].The left anterior cardinal vein creates a vena cava superior that opens to the right atrium through the left coronary sinus or directly to the left atrium.The persistent left superior vena cava (PLSCV) is rare but the most common systemic venous anomaly, which is 0.5% in general population and 3-10% in congenital heart defects [2].Another anomaly is congenital dextrocardia, which is a rare congenital heart defect in which the heart is predominantly localized on the right side of the thorax.The reported dextrocardia frequency is 1 in 10,000 live births [3].It is responsible for 0.5% of cases of adult congenital heart disease [4].Transposition of great arteries (TGA) is a rare congenital anomaly that represents about 0.5% of congenital heart disease.The oxygenated blood in the pulmonary veins flows from the left atrium to the right ventricle which is compatible with the tricuspid valve and is pumped into the incompatible aorta [5].In patients with TGA, the AV node and His bundle have an unusual position, resulting in dysfunction of the impulse system.Approximately 2% of patients with TGA develop complete AV block per year [6].Our patient whom TGA and dextrocardia were combined with a PLSVC had previously developed a full AV block, and repeated attempts of pacemaker implantation with a subclavian approach had failed, and epicardial pacemaker had been inserted.The VVI-R pacemaker was implanted successfully with a subclavian approach to the patient who applied to us due to the end of the battery life.

Case RepoRt
Check for updates AV block is often caused by the vulnerability of His bundles to fibrosis [9].
Pacemaker lead placement can be challenging in patients after Mustard and Senning operations for transposition of the great arteries (D-TGA).Chakrabarti and his colleagues performed cardiac pace implantation with RF catheter in D-TGA patients in which they mentioned the difficulties of pacemaker implantation [10].In our case,we had to use coronary sinus delivery system for lead implantation.There are difficulties of lead implantation in both types of implantation.This difficulty can be overcome using techniques other than the standard techniques used in the lead impalntation.
Dextrocardia is clinically characterized by three subgroups based on the position of heart chambers and abdominal organs.First, the heart is on the right side of the chest and the apex part points to the right portion of the body.Extractions usually bring along other intracardiac anomalies and are usually caused by a positional shift and rotation of the right heart.Second, only the heart is in the opposite position, but other internal organs are positioned appropriately.The third is dextrocardia (situs inversus or mirror image dextrocardia); anterior-posterior relationships of different parts of the heart are normal, but right-to-left orientation is reversed [11].The patient was diagnosed with a mirror image dextrocardia.
The persistent left superior vena cava (PLSVC) is a rare congenital anomaly and can be seen in conjunction with other cardiac or vascular malformations [12].According to venous drainage locations, PLSVC can be divided into 4 types: Type I PLSVC forms drainage to the right atrium via the coronary sinus; type II PLSVC is connected to the right atrium via the coronary sinus but has a connection with the left atrium, so the right-toleft shunt occurs; type III PLSVC makes shunt right to ture from the right subclavian venous tract and referencing the catheter sent by the right ventricle femoral route.However, a gap was created in the left subclavian region because the lead could not grow.The right ventricle was cannulated with hydrophilic wire and MP catheter.Subsequently, a 0.32-inch Amplatz wire was sent to increase the support force by pulling the hydrophilic wire while the MP catheter was in the RV.The rupturable sheet used for cardiac resynchronization pacemakers implantation was entered into RV via this wire.During this process, very slow and gentle maneuvers were applied to avoid possible RV rupture.Then active VVI-R pacemaker lead was placed into the right ventricle through this system.After placement, sheat was pulled under the control of fluoroscopy by applying the rupture and pull procedure performed just as in CRT lead placement (cardiac resynchronization therapy).Measurements were recorded and a generator was installed and properly closed.In the same session, the epicardial pace generator was removed and the process finished.

Discussion
Most TGA cases are together with other cardiac anomalies such as ventricular septal defect, pulmonary stenosis, Ebstein-like malformation, and these related anomalies determine the symptoms of congenital anomaly [7].However, less than 20% of TGA patients with no other cardiac abnormalities are asymptomatic and symptoms of arrhythmia and heart failure occur later in life [8].In such cases, the morphological right ventricle (RV) as a systemic pump may gradually become dysfunctional, and concomitant tricuspid valve insufficiency may occur due to the excessive volume loading of the morphological RV.Natural History of uncomplicated TGA patients shows more frequent progressive AV transmission loss than normal population [7].A full left from the left atrium; type IV PLSVC is directly connected to the left pulmonary vein [13].Type I accounts for about 90% of all PLSVC cases [12].Although Type I PLSVC generally does not have a significant hemodynamic outcome, it provides a large amount of current to the atrium through the coronary sinus, and may especially expand the sinus ostium in the absence of the right vena cava superior.Since sinoatrial node, atrioventricular node and His bundles are structurally close to the coronary sinus, the incidence of arrhythmias in PLSVC patients is also higher.The patient reported here had type I PLSVC with AV complete block.
Due to abnormal anatomy, lead placement to the right ventricular through PLSVC and coronary sinus can be technically difficult.Serious complications such as arrhythmia, cardiogenic shock, and even cardiac arrest have been reported when PLSVC has been manipulated by a guide wire or catheter [14].The use of advanced lead transmission systems may be needed to reach the right ventricle.
Our case was a one that had previously undergone repeated subclavian unsuccessful pacemaker implantation.She had to come to the electrophysiology lab every three years for a battery replacement due to the epicardial pacemaker.The battery exchange process we implemented was the 8 th for the patient.The right ventricular angiography via femoral vein, pulmonary CT angiography, MP catheter, Amplatz wire and CRT transfer system were used to attach a permanent pacemaker through the subclavian vein.
After a thorough examination and understanding the vascular anatomy, abnormalities of the veins and heart chambers, we report a rare case successfully treated with pacemaker implantation in a patient with AV complete block associated with TGA, dextrocardia, and PLSVC congenital anomaly.It should be noted that there are no standard criteria to be followed in the treatment of patients with congenital abnormalities.