Abstract
Background Recurrent varicosities after endovascular laser ablation (EVLA) of the great saphenous vein (GSV) are frequently due to varicose transformed, initially unsealed major ascending tributaries of the saphenofemoral junction (SFJ). Preventive ablation of these veins, especially the anterior accessory saphenous vein, is discussed as an option, along with flush occlusion of the GSV. However, few related data exist to date. Methods A consecutive case series of 278 EVLA procedures of the GSV for primary varicosis in 213 patients between May and December 2019 was retrospectively reviewed. The ablations were performed with a 1470 nm dual-ring radial laser and always included flush occlusion of the GSV, and concomitant ablation of its highest ascending tributaries by additional cannulation and ablation when this seemed anatomically appropriate. The initial technical success, comprising occlusion of the GSV and its major tributaries, was set as the primary endpoint. Possible determinants were explored using downstream multiple logistic regression analysis. Results The early technical success was 92.8%, with the GSV occluded in 99.6% and the highest ascending SFJ tributary, if present, in 92.4%. Additional ablations of ascending tributaries were performed in 171 cases (61.5%), the latter being associated with success (OR 10.39; 95% CI [3.420–36.15]; p < 0.0001). Presence of anterior as opposed to posterior accessory saphenous vein was another positive predictor (OR 3.959; 95% CI [1.142–13,73]; p = 0.027), while a confluence of the tributary in the immediate proximity to the SFJ had a negative impact (OR 0.2253; 95% CI [0.05456–0.7681]; p = 0.0253). An endothermal heat-induced thrombosis (EHIT) ≥ grade 2 was observed in three cases (1.1%). Conclusions A co-treatment of the tributaries is feasible and could improve the technical success of EVLA if a prophylactic closure of these veins is desired, especially if their distance to the SFJ is short. Its effect on the recurrence rate needs further research.
Highlights
Thermal ablation techniques such as endovenous laser ablation (EVLA) and radiofrequency ablation for the treatment of great saphenous vein (GSV) insufficiency are widely accepted as standard options
The early technical success was 92.8%, with the GSV occluded in 99.6% and the highest ascending saphenofemoral junction (SFJ) tributary, if present, in 92.4%
Additional ablations of ascending tributaries were performed in 171 cases (61.5%), the latter being associated with success
Summary
Thermal ablation techniques such as endovenous laser ablation (EVLA) and radiofrequency ablation for the treatment of great saphenous vein (GSV) insufficiency are widely accepted as standard options. The major ascending tributaries of the GSV, termed side or lateral branches, in particular the anterior and the posterior accessory saphenous vein (AASV, PASV), often join the GSV very close to the saphenofemoral junction (SFJ) These veins drain directly into the SFJ or via common trunks with cranial tributaries such as the superficial epigastric vein or the superficial circumflex iliac vein. Recurrent varicosities after endovascular laser ablation (EVLA) of the great saphenous vein (GSV) are frequently due to varicose transformed, initially unsealed major ascending tributaries of the saphenofemoral junction (SFJ) Preventive ablation of these veins, especially the anterior accessory saphenous vein, is discussed as an option, along with flush occlusion of the GSV.
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