View clinical trials related to Peripheral Artery Disease.
Filter by:Atherosclerosis and diabetes are related to coronary artery disease and peripheral artery disease. The mechanisms are related to increased reactive oxygen species (ROS) formation and inflammatory cytokine secretion. However, simply using antioxidant or anti-inflammatory therapies has no optimal outcomes. On the other hand, N-acetylcysteine (NAC) which has both antioxidant and anti-inflammatory effects could effectively attenuate ROS production and reduce vascular inflammation. Hence, we will investigate the effect of NAC treatment on the outcomes in patients with advanced atherosclerotic heart diseases and patients with diabetes combined with significant peripheral artery disease.
GFH312 could be a novel therapeutic option in the acute/chronic inflammatory process of atherosclerosis and provides potential beneficial effects to microvasculature function for PAD patients with IC in addition to preventing ischemia-reperfusion injury. This phase II study is designed to explore the clinical safety and efficacy of GFH312 after multiple oral doses, to support further development in patients with PAD or other atherosclerotic diseases.
This is a randomized controlled trial evaluating the impact of the mobile phone delivered SVS SET Program on utilization, functional capacity, symptoms and quality of life.
This PMCF study is designed as prospective, multi-center study to collect real-life data. The rationale of this study is to confirm and support the clinical safety and performance of the aforementioned products in 200 patients who will undergo an endovascular intervention within standard-of-care (SOC) where at least 1 of the following devices from AndraTec were used: The LOKUM-Quest guidewire, The LOKUM AMPLATZ guidewire, the Slider Hydrophilic Nitinol Guidewire, the AltoSa-XL PTA balloon, the AltoSa-XL GEMINI PTA Balloon, the OPTIMUS CoCr Stent , the OPTIMUS-CVS PTFE-Covered stent.
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.
The purpose of this registry study is to gather real world standard of care (SOC) data on the safety and performance on the Roxwood Medical catheter devices in the treatment of stenotic lesions and CTO.
Nitric oxide has been shown to be an important regulator within the cardiovascular system, responsible for regulation of blood flow, blood pressure and vascular growth. Cardiovascular diseases show a reduced ability of the peripheral blood vessels to dilate due to decreased levels of NO with concomitant increased levels of oxidative stress, which is extremely detrimental to patients with PAD, as the limited oxygen delivery to skeletal muscles ultimately results in claudication and reduced physical ability. However, this reduced oxygen delivery and utilization may be able to be improved as previous studies have revealed that tetrahydrobiopterin (BH4), is an important cofactor responsible for NO production. Furthermore, recent studies have shown that endothelial BH4 levels are associated with the vascular pathophysiological response to hypoxia, as it directly mediates endothelial nitric oxide synthase regulation and reduces superoxide production. Additionally, acute administration of BH4 was shown to improve vascular function, specifically, endothelial mediated vasodilatory function, in patients with systemic vascular and coronary disease, as well as six minute walking distances in patients with hypertension. Therefore, the purpose of this proposed study will be to examine the effects of BH4 on vascular function, oxidative stress and leg performance in patients with PAD. This study will examine patients with a classification of stage 1 or stage 2 peripheral artery disease who demonstrate a history of exercise-limiting claudication. Blood vessel oxygen transfer capacity in the leg will be assessed in the femoral and popliteal arteries with ultrasound, and blood vessel dilatory ability will be assessed in the brachial artery with flow-mediated dilation. Skeletal muscle mitochondrial function will be measured with near infrared spectroscopy, and ROS levels will be analyzed through blood samples. Leg function will be measured with an isokinetic dynamometer.
There are no medical therapies indicated for reduction of limb ischemic events. Studies of dual-antiplatelet therapy with aspirin and clopidogrel versus aspirin alone (CASPAR) as well as studies of systemic anticoagulation (WAVE) have shown no benefit for either strategy in the reduction in limb vascular events. Surgical bypass grafting involves harvesting of the vein, warm ischemia with disruption of vaso vasorum, ischemia-reperfusion, and finally heightened hemodynamic stress in the new arterial environment. Vein grafts rapidly remodel in response to the increase in blood flow and pressure in an attempt to normalize them into physiological range. The investigators have previously identified 3 distinct temporal phases of the remodeling process: During the first 30 days following implantation is a critical period of luminal enlargement which appears to be an endothelium-independent process. The second phase occurs between 1 and 3 months and represents a period of stiffening of the vein graft indicating synthesis of fibrous proteins. The third period is referred to as biochemical remodeling wherein the vein recovers clinically measureable endothelial function. It is likely diabetes mellitus impacts each of these phases. TRA2°P-TIMI 50 demonstrated a reduction in acute limb ischemic (ALI) events (42% reduction) and urgent peripheral arterial revascularizations (35% reduction), a finding unique among medical therapies. While the temporal trend in reduction in ALI events occurred early and late after exposure suggestion an antithrombotic mechanism, the reduction in elective revascularization occurred later suggested beneficial effects beyond platelet inhibition. The purpose of this trial is to study the physiological impact of vorapaxar on lower extremity bypass graft maturation and function.
The research study is designed to assess the technical feasibility and safety of percutaneous administration of vonapanitase to the superficial femoral or popliteal artery in patients with PAD.
Whereas the efficacy of exercise interventions has been abundantly proven in male with peripheral artery disease (PAD), it remains to be determined whether these interventions are effective in women. The aim of this randomized controlled trial which will be performed with 34 PAD women will be to investigating the effects of 12 weeks of supervised walking on functional capacity and cardiovascular function and regulation at rest and during exercise.