Successful cardiac synchronization therapy device upgrade using an active fixation quadripolar pacing lead in a patients with persistent left superior vena cava and absent right superior vena cava

Persistent left superior vena cava (PLSVC) is a common congenital anomaly, with an incidence of 0.5%.1 Although PLSVC is usually asymptomatic, cardiac implantable electrical devices (CIEDs) should be implanted through the right superior vena cava from the right side because implantation through the PLSVC is technically difficult. However, in patients with PLSVC concomitant with an absent right superior vena cava (ARSVC), CIEDs must be implanted through the PLSVC. Several case reports of cardiac resynchronization therapy (CRT) device implantation through the PLSVC have been published, but left ventricular (LV) lead placement remains challenging in these patients.2– 5 Here, we report a successful cardiac synchronization therapy device upgrade using an active fixation quadripolar pacing lead in a patient with PLSVC and ARSVC. The patient, a 70yearold man, had visited our outpatient clinic 8 years prior, after experiencing dyspnea. A 12lead electrocardiogram (ECG) showed complete atrioventricular block with an escape rhythm of 43 bpm. Transthoracic echocardiography (TTE) showed a left ventricular ejection fraction (LVEF) of 58%. We attempted to insert a temporary pacing lead from the right internal jugular vein; however, the guidewire did not progress directly to the heart. Venography revealed PLSVC and ARSVC (Figure 1A). A temporary pacing lead was inserted into the right ventricle through the right femoral vein. We implanted a dualchamber pacemaker (PM) (PM generator: Reply DR; Sorin, atrial/ventricular lead: SelectSecure 3830; Medtronic) from the left side using a deflectable guiding sheath (SelectSite C304; Medtronic) (Figure 1B). Five years after PM

Persistent left superior vena cava (PLSVC) is a common congenital anomaly, with an incidence of 0.5%. 1 Although PLSVC is usually asymptomatic, cardiac implantable electrical devices (CIEDs) should be implanted through the right superior vena cava from the right side because implantation through the PLSVC is technically difficult.
However, in patients with PLSVC concomitant with an absent right superior vena cava (ARSVC), CIEDs must be implanted through the PLSVC.3][4][5] Here, we report a successful cardiac synchronization therapy device upgrade using an active fixation quadripolar pacing lead in a patient with PLSVC and ARSVC.
The patient, a 70-year-old man, had visited our outpatient clinic 8 years prior, after experiencing dyspnea.A 12-lead electrocardiogram (ECG) showed complete atrioventricular block with an escape rhythm of 43 bpm.Transthoracic echocardiography (TTE) showed a left ventricular ejection fraction (LVEF) of 58%.We attempted to insert a temporary pacing lead from the right internal jugular vein; however, the guidewire did not progress directly to the heart.
Venography revealed PLSVC and ARSVC (Figure 1A).A temporary pacing lead was inserted into the right ventricle through the right femoral vein.We implanted a dual-chamber pacemaker (PM) (PM generator: Reply DR; Sorin, atrial/ventricular lead: SelectSecure 3830; Medtronic) from the left side using a deflectable guiding sheath (SelectSite C304; Medtronic) (Figure 1B).implantation, he developed dyspnea; TTE revealed a deterioration of LVEF to 33%.The ventricular pacing rate was 100%, with a wide QRS duration of 174 ms (Figure 1C).TTE revealed septal flash and intraventricular dyssynchrony.As no other cause of LVEF deterioration was identified, the patient was diagnosed with pacing-induced cardiomyopathy.After starting optimal medical therapy, the LVEF slightly improved to 41% but did not normalize.
Eight years after PM implantation, he was admitted to our hospital for battery exchange.Since he still felt dyspnea while walking, we decided to perform a CRT device upgrade concurrent with the battery exchange.Preoperative three-dimensional images of the PLSVC and coronary sinus (CS) were obtained using ECG-gated contrast-enhanced computed tomography (CECT) (Figure 2A), and the posterolateral and lateral veins were identified.The right ventricular lead had been placed in the right ventricular outflow tract, opposite the posterolateral vein.Although the posterolateral vein seemed to drain near the junction between the PLSVC and the CS, the precise site was ambiguous.We performed coronary angiography to confirm the relationship between the PLSVC and the CS (Figure 2B).Contrast jet flow from the CS to the PLSVC clarified that the posterolateral vein was very close to the junction between the PLSVC and the CS.Therefore, we decided to target the posterolateral vein.
The subclavian vein was punctured and a 0.035 inch hydrophilic guidewire was advanced into the right atrium through the PLSVC.A 9Fr introducer sheath (MediKit) was inserted into the PLSVC.A delivery catheter with 130° curve (Attain Select II; Medtronic) was advanced to the junction between the PLSVC and the CS and contrast agent was injected, revealing the posterolateral vein (Figure 3A).A 0.014 inch wire (Attain Hybrid; Medtronic) was inserted into the posterolateral vein (Figure 3B).An active fixation quadripolar lead (Attain Stability Quad; Medtronic) was advanced over the wire into the posterolateral vein (Figure 3C).Because the parameters at LV 2-4 were acceptable (threshold: 1.5 V/0.4 ms; impedance: 608 Ω; no phrenic nerve stimulation at 8 V/0.4 ms), the quadripolar lead was fixed using a side helix.After removing the guiding catheter and sheath, the existing right atrium/ventricular leads and the new LV lead were connected to a CRT generator (Percepta Quad CRT-P; Medtronic).The chest x-ray on the following day showed no dislodgement of the LV lead (Figure 4A).In the 12-lead ECG, the Five years after PM This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.© 2023 The Authors.Journal of Arrhythmia published by John Wiley & Sons Australia, Ltd on behalf of Japanese Heart Rhythm Society.

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I G U R E 2 (A) Three-dimensional images of the PLSVC and the CS were obtained using ECG-gated contrastenhanced computed tomography.(B) Delay phase of coronary angiography.Contrast jet flow clarified the junction between the PLSVC and the CS.AP, anterior posterior; CS, coronary sinus; ECG, electrocardiogram; LAO, left anterior oblique; PLSVC, persistent left superior vena cava; RAO, right anterior oblique.F I G U R E 3 (A) Contrast agent was injected from the delivery catheter, revealing the posterolateral vein.(B) A 0.014 inch wire was inserted into the posterolateral vein.(C) An active fixation quadripolar lead was advanced over the wire into the posterolateral vein.RAO, right anterior oblique.