We describe herein a combined approach to the treatment of popliteal artery aneurysms (PAA) that averts extensive dissections and potential blood loss particularly in cases of behind-the-knee aneurysms. Over the last 4 years, 13 patients (12 males) with mean age of 75 +/- 8 years were treated for PAAs at our institution with a combined surgical and endovascular approach. The mean size of popliteal aneurysms was 2.9 cm +/- 1.7 cm. One of the 13 cases (8%) was performed for acute ischemia and an additional 5 (38%) for claudication. All operations were performed under general anesthesia in supine position. Vein conduits (eight ipsilateral great saphenous veins, two contralateral great saphenous veins and one arm vein) were utilized for 11 bypasses. Of these, eight were from superficial femoral artery (SFA) to below the knee popliteal artery, two popliteal to popliteal and one SFA to posterior tibial artery. In addition, two expanded polytetrafluoroethylene femoral popliteal bypasses were performed. The distal anastomosis was performed after the popliteal artery was ligated distal to the aneurysm. Next, coil embolization of the aneurysmal sac was performed under fluoroscopic or ultrasound guidance. Coils were embolized through a 5F sheath. Lastly, the popliteal artery was ligated distal to the proximal anastomosis. Completion studies were obtained with duplex in six cases and arteriography in the remaining five cases. Mean follow-up was 11.6 months +/- 9.6. One bypass occluded in 2 months after surgery. One patient demonstrated continued growth of his aneurysm despite coil embolization twice and underwent an open ligation of the branches perfusing the aneurysm from within the sac through a posterior approach. This approach may be particularly useful for PAAs located behind the knee where optimal surgical exposure is often difficult and the collateral circulation is abundant. The proposed technique is simple, effective and averts extensive dissections required to minimize blood loss.
Currently, the value of stenting during femoropopliteal balloon angioplasty (FPBA) remains unclear. Herein we evaluate the patency rates of successful duplex–guided balloon angioplasty (DAGBA) alone versus suboptimal DAGBA followed by stenting and the prestenting dissection versus recoil as potential indicators of stent success or failure. Over a period of 27 months, we performed 291 duplex–guided FPBAs (194 stenoses; 97 occlusions) on 244 limbs in 220 patients. Disabling claudication was the indication in 67%. Critical limb ischemia was the indication in the remaining 33%. Self-expanding nitinol stents were used when plaque dissection and/or recoil caused diameter reduction ≥ 40%. Serial follow-up duplex scans were obtained. Severe restenosis (> 70%) was measured by B-mode imaging and a peak systolic velocity ratio > 3. Follow-up ranged from 1 to 41 months (mean 10 ± 8.3 months). The overall mean interval for restenosis and occlusion was 6.5 ± 4.2 months and 5.6 ± 6.1 months, respectively. Stents did affect overall patency results compared with not using stents. Reasons for stenting were plaque recoil, dissection, or both in 98 (53%), 44 (24%), and 42 (23%) cases, respectively. Six-month patency was 59%, 94%, and 69%, respectively. The difference between plaque recoil and dissection was significant ( p < .04). The use of stents during FPBA may be associated with balloon angioplasty site failure in the femoropopliteal segment. To our knowledge, this is the first report ever to document plaque recoil as a predictor of balloon angioplasty site failure notwithstanding stent placement.
