View clinical trials related to Peripheral Vascular Diseases.
Filter by:In this proposal, the investigators will demonstrate the feasibility and noninferiority of telerobotic ultrasonography as compared to traditional manual acquisition in performing a limited carotid Duplex examination and in carotid plaque detection.
The purpose of this study is to demonstrate improvement in flow mediated dilation (FMD), a functional endpoint associated with the progression of atherosclerosis, when switching from cigarettes to the Tobacco Heating System (THS) in subjects with peripheral arterial disease (PAD) and/or coronary artery disease (CAD). The study is planned to be conducted in the US, Europe, and Asia.
This study is intended to help establish standard procedures for use of FFR in the peripheral arterial system and to evaluate the correlation of post-procedural FFR values and clinical outcomes in Superficial Femoral artery (SFA) interventions in subjects ages 18 to 79 with PAD.
The femoro-popliteal (FP) artery is the most frequently treated vascular segment in patients with symptomatic peripheral artery disease (PAD), for which endovascular therapy became an established treatment option during the last decades. However, loss of primary patency and consecutive clinically driven target lesion revascularization (TLR) limit this procedure. Moreover, in the popliteal artery (PA), evidence about the best treatment strategy to prevent loss of patency and TLR is limited to only a few randomized controlled trials (RCT). Arterial deformations of the PA with its unique anatomical properties during leg flexion might explain the poor technical and clinical outcomes in this segment. Generally, a "leave nothing behind" strategy in the PA is preferred, but cannot be avoided in all cases due to e.g. flow limiting dissections or re-coil after balloon angioplasty. Basically two different self-expandable nitinol-based stent designs are available on the market. An interwoven nitinol and laser-cut nitinol stent. The interwoven nitinol stent has a higher radial force in comparison to the laser-cut stent and reveals higher patency rates in the FP arteries. However, a head-to-head comparison of these stents is missing and it remains unknown in which way different stent designs affect the deformation and hemodynamic behaviors of the PA during knee flexion.
This study will evaluate real-world performance of the CorPath GRX System in peripheral vascular interventions.
The primary objective is to demonstrate the safety and effectiveness of the Axys EX rotational atherectomy system in subjects with peripheral arterial disease who have de novo or non-stented restenotic obstructive lesions in the peripheral vasculature of the lower limbs.
The muscles of the leg require a regular supply of oxygen and nutrients. This is supplied by blood carried by a network of large blood vessels known as arteries. Gradually, these arteries can become narrowed or blocked by a build-up of fatty deposits. This process is known as atherosclerosis and leads to a condition called peripheral arterial disease. The restriction of blood flow caused by the blockage prevents exercising muscles getting enough oxygen and nutrients. In some people, this may lead to a painful ache in their legs when they walk, known as intermittent claudication. If the leg pain is severe, surgeons may decide to bypass this blockage using a vein taken from another part of the body, thereby improving blood flow to the foot. Patients with a narrowing or blockage anywhere in the main artery that runs from the groin to the back of the knee may be treated with a particular type of bypass graft known as a femoral-popliteal bypass graft. However, this graft may collapse if not enough blood is flowing through it. This study is looking to see whether a circulation booster machine, known as the REVITIVE® device, can improve the amount of blood flowing through femoral-popliteal bypass grafts. Patients with these grafts attending their usual clinic appointment in the Vascular Outpatients department at Charing Cross Hospital, London will be asked to have their leg scanned using an ultrasound machine to measure the amount of blood flowing through the graft. They will then use the REVITIVE® device for 30 minutes, before being re-scanned to see whether the device has improved blood flow. Improvements in blood flow may suggest a promising role for the device in keeping these grafts open, therefore helping them last longer and potentially reducing the leg pain associated with peripheral arterial disease.
This is a prospective, single-center, non-randomized phase 2, first-in-iliac artery study, to evaluate the safety and effectiveness of the WRAPSODY Stent Graft for the treatment of peripheral arterial occlusive disease in symptomatic subjects with de novo or restenotic lesions in the common iliac artery (CIA) and/or external iliac artery (EIA), including lesions at the aortic bifurcation.
The purpose of this trial is to evaluate the safety and efficacy of sonodynamic therapy (SDT) in reducing the inflammation of perivascular adipose tissue and increasing peak walking time (PWT) among peripheral artery disease (PAD) patients with symptom of intermittent claudication.
The purpose of this study is to determine if the addition of a catheter-based local delivery of paclitaxel into the peripheral arterial vessels in patients with peripheral arterial disease (PAD) and subsequent restenosis of the femoropopliteal region would benefit from this type of investigational intervention with a known antiproliferative agent.