One-Year Results of Long femoropopliteal Lesions Stenting with Fasciotomy Lamina Vastoadductoria.

BACKGROUND: Fasciotomy can increase the mobility of the superficial femoral artery and decrease the incidence of stent fractures. This study aimed to compare the long-term patency of drug-eluting nitinol stents with and without fasciotomy in patients with prolonged superficial femoral artery occlusions. METHODS: A randomized clinical trial was conducted in 60 (1:1) patients with long femoropopliteal steno-occlusive lesions >200 mm. Patients in group 1 (Zilver) underwent recanalization of femoropopliteal artery occlusion with stenting. In group 2 (ZilverFas), the femoropopliteal occlusion was recanalized with stenting and fasciotomy of Gunter's canal. The follow-up assessment of the patency took place after 6-12 months. RESULTS: Twelve-month primary patency in Zilver and ZilverFas groups was 51% and 80%, respectively (P = 0.02). The freedom from target lesion revascularization in the Zilver and ZilverFas groups was 50% and 76%, respectively (P = 0.04). At 1 year, primary-assisted patency and secondary patency for the ZilverFas and Zilver groups were 83% vs. 62% (P = 0.07) and 86% vs. 65% (P = 0.05), respectively. In the Zilver and ZilverFas groups, the number of stent fractures was 14 and 7, respectively (P = 0.05). The multivariable Cox regression indicated that the stent fracture and diabetes mellitus were independent predictors of restenosis and reocclusion. Fasciotomy reduced the risk of reocclusion and restenosis by 2.94 times. CONCLUSIONS: Our study has shown that decompressing the stented segment with fasciotomy significantly improves the patency of the femoropopliteal segment and significantly reduces the number and severity of stent fractures.

Influence of lamina vastoadductoria dissection on the outcomes of femoral artery extensive lesion stenting: A pilot randomised investigation.

OBJECTIVE: Aim of the study was to improve the immediate and long-term results of stenting of the superficial femoral artery in extended lesions with the changing of the biomechanics of superficial ffemoral artery and of the first portion of the popliteal artery. METHODS: Pilot randomized prospective single-center study were included 70 patients. Patients were randomized into two groups in 1 × 1 format for 35 people using the envelope method. Self-expanding bare metal stents were used in all cases. At the first group standard revascularization procedures with SFA stenting were performed; in the second group, the superficial femoral artery stenting was supplemented with fasciotomy in the Hunter's canal with the superficial femoral artery intersection. The total observation period was 2 years. During the observation period an assessment of the clinical symptoms of the lower extremities, measurement of the ankle-brachial index and ultrasound duplex scanning of the operated segment were performed. RESULTS: All procedures in both groups were successfully performed. Primary patency through 24 months was 28.5% (10 of 35) in group 1 and 60% (21 of 35) in group 2 (p = 0,015). CONCLUSIONS: Changing the biomechanical properties of the distal of the superficial femoral artery segment and of the first portion of the popliteal artery is safe and contributes to the primary patency improvement during the stenting of extended of the superficial femoral artery lesions compared to standard SFA stenting. Dissection of the lamina vastoadductoria with transection of the collateral branches of the knee joint network reduces frequent and severe damages of stents after the stenting of the superficial femoral artery extended lesion. According to the frequency of complications in the early and mid-term postoperative period, limb salvage, mortality and the secondary patency rates, the new method is comparable with standard of the superficial femoral artery stenting.

Assessment of Electrospun Pellethane-Based Scaffolds for Vascular Tissue Engineering.

We examined the physicochemical properties and the biocompatibility and hemocompatibility of electrospun 3D matrices produced using polyurethane Pellethane 2363-80A (Pel-80A) blends Pel-80A with gelatin or/and bivalirudin. Two layers of vascular grafts of 1.8 mm in diameter were manufactured and studied for hemocompatibility ex vivo and functioning in the infrarenal position of Wistar rat abdominal aorta in vivo (n = 18). Expanded polytetrafluoroethylene (ePTFE) vascular grafts of similar diameter were implanted as a control (n = 18). Scaffolds produced from Pel-80A with Gel showed high stiffness with a long proportional limit and limited influence of wetting on mechanical characteristics. The electrospun matrices with gelatin have moderate capacity to support cell adhesion and proliferation (~30-47%), whereas vascular grafts with bivalirudin in the inner layer have good hemocompatibility ex vivo. The introduction of bivalirudin into grafts inhibited platelet adhesion and does not lead to a change hemolysis and D-dimers concentration. Study in vivo indicates the advantages of Pel-80A grafts over ePTFE in terms of graft occlusion, calcification level, and blood velocity after 6 months of implantation. The thickness of neointima in Pel-80A-based grafts stabilizes after three months (41.84 ± 20.21 µm) and does not increase until six months, demonstrating potential for long-term functioning without stenosis and as a suitable candidate for subsequent preclinical studies in large animals.

Electrospun polyurethane-based vascular grafts: physicochemical properties and functioning in vivo.

General physicochemical properties of the vascular grafts (VGs) produced from the solutions of Tecoflex (Tec) with gelatin (GL) and bivalirudin (BV) by electrospinning are studied. The electrospun VGs of Tec-GL-BV and expanded polytetrafluoroethylene (e-PTFE) implanted in the abdominal aorta of 36 Wistar rats have been observed over different time intervals up to 24 weeks. A comparison shows that 94.5% of the Tec-GL-BV VGs and only 66.6% of e-PTFE VGs (р = 0.0438) are free of occlusions after a 6 month implantation. At the intermediate observation points, Tec-GL-BV VGs demonstrate severe neovascularization of the VG neoadventitial layer as compared with e-PTFE grafts. A histological examination demonstrates a small thickness of the neointima layer and a low level of calcification in Tec-GL-BV VGs as compared with the control grafts. Thus, polyurethane-based protein-enriched VGs have certain advantages over e-PTFE VGs, suggesting their utility in clinical studies.