Successful Sac Embolization to Eliminate a Type 2 Endoleak After Thoracic Endovascular Aortic Repair by Penetration of a Vascular Plug Implanted in a Left Subclavian Artery.

PURPOSE: To describe a technique of vascular plug penetration by a guidewire with a heavy tip load for additional embolization of a type 2 endoleak after endovascular aortic aneurysm repair (EVAR). TECHNIQUE: The technique of vascular plug penetration is effective for additional embolization of a type 2 endoleak, when large arteries such as left subclavian artery (LSA) or hypogastric artery remain patent even after the embolization of the vessel has been performed using a vascular plug and are responsible for the endoleak. A tapered guidewire with a heavy tip load enables the penetration of the disk of the plug, followed by introduction of a microcatheter into the endoleak nidus. In the presented case, the technique successfully eliminated a type 2 endoleak in a thoracic aortic aneurysm for which a patent LSA despite the embolization by a vascular plug was responsible. CONCLUSION: The technique of vascular plug penetration allows an access to an endoleak cavity via a vascular plug placed in an aortic side branch for additional embolization of a type 2 endoleak after EVAR.

Long-term outcomes of coil packing for visceral aneurysms: correlation between packing density and incidence of coil compaction or recanalization.

PURPOSE: To evaluate the correlation between packing density and the incidence of coil compaction or recanalization of visceral artery aneurysms (VAAs) after coil packing. MATERIALS AND METHODS: Between July 2004 and April 2012, coil packing was performed for 46 true visceral aneurysms (16 splenic, 11 pancreaticoduodenal, eight renal, six hepatic, three superior mesenteric, one right gastric, and one gastroepiploic) in 42 patients. The size and volume of the aneurysm, packing density, and the incidences of compaction and recanalization were evaluated retrospectively. RESULTS: The mean follow-up period was 37 months ± 8 (range, 11-80 mo). The mean packing density was 19% ± 8 (range, 5%-42%), mean aneurysm size was 19 mm ± 8 (range, 5-40 mm), and mean volume was 4,108 mm(3) ± 5,435 (range, 72-26,235 mm(3)). Compaction and recanalization occurred in two (4%) and 12 aneurysms (26%), respectively. The mean packing density was significantly lower in aneurysms with compaction or recanalization than in unaffected aneurysms (12% vs 22%; P = .00014). There was a significant difference in mean packing density between small (< 20 mm; 22%) and large (≥ 20 mm) aneurysms (15%; P = .0045). The mean size and volume were significantly larger for coil-compacted or recanalized aneurysms than for unaffected aneurysms (P < .05). In aneurysms with a packing density of at least 24%, no compaction or recanalization occurred. CONCLUSIONS: Coil compaction or recanalization after coil packing for VAAs more often occurs after insufficient embolization with low packing density and in patients with large aneurysms.