Abstract
We tested the feasibility of pulmonary vein (PV) and left atrial (LA) posterior wall isolation using non-invasive stereotactic ablative body radiotherapy (SABR) and investigated pathological changes in irradiated lesions in a canine model. Seven male Mongrel dogs received single-fraction 33 Gy SABR. We designed the en-bloc circular target of total PVs and LA posterior wall to avoid the esophagus. The circular box lesion included the LA roof and ridge, low posterior wall, and posterior interatrial septum. At 6 weeks or 4 months post-SABR, electrical isolation of the SABR lesion was confirmed using LA posterior wall pacing, and histopathological review was performed. Electrical isolation of all PVs and the LA posterior wall was achieved in three of five dogs in the 4-month group. There was one target failure and one sudden death at 15 weeks. Although two dogs in the 6-week group failed to achieve electrical lesion isolation, the irradiated atrial myocardium showed diffuse hemorrhage with inflammatory cell infiltration. In successfully isolated 4-month model dogs, we observed transmural fibrotic scarring with extensive fibrosis on irradiated atrial tissue. The findings suggest that this novel circular box-design radiotherapy technique using SABR could be applied to humans after further studies are conducted to confirm safety.
Highlights
We tested the feasibility of pulmonary vein (PV) and left atrial (LA) posterior wall isolation using non-invasive stereotactic ablative body radiotherapy (SABR) and investigated pathological changes in irradiated lesions in a canine model
The present study is the first study to demonstrate the feasibility of total PV with LA posterior wall isolation with high-dose radiation in a large animal model
With a novel circular target design for SABR, the conduction block from the irradiated in-target area to the outside target was completely achieved without capturing the atrial myocardium at 4 months, but not at 6 weeks
Summary
We tested the feasibility of pulmonary vein (PV) and left atrial (LA) posterior wall isolation using non-invasive stereotactic ablative body radiotherapy (SABR) and investigated pathological changes in irradiated lesions in a canine model. Electrical isolation of all PVs and the LA posterior wall was achieved in three of five dogs in the 4-month group. Recurrence after catheter ablation occurs in at least 20–40% of patients, and there are complication risks related to the procedure in patients with advanced age or co-morbidities[2,3] To overcome these limitations and invasiveness of the procedure, there is a need for a simple but effective energy delivery method. The main treatment for AF ablation is electrical PV isolation (PVI) and posterior wall isolation (if needed) using an energy-delivery catheter technique. Radiotherapy to P VI4,10–14, but these studies targeted only a single PV, which was the right superior PV ostium in most cases because of its sufficient size and study feasibility
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