Active clinical trials for "Peripheral Vascular Diseases"

Title: Impacts of mitochondrial-targeted antioxidant on leg blood flow and skeletal muscle mitochondrial function in peripheral artery disease patients. Peripheral artery disease (PAD) is a common cardiovascular disease, in which narrowed arteries reduce blood flow to the limbs, causing pain, immobility and in some cases amputation or death. PAD patients have shown higher levels of systemic and skeletal muscle inflammation due to the impaired oxygen transfer capacity of these blood vessels. This attenuated oxygen transfer capacity causes hypoxic conditions in the skeletal muscle and results in mitochondrial dysfunction and elevated reactive oxygen species (ROS). These harmful byproducts of cell metabolism are the major cause of intermittent claudication, defined as pain in the legs that results in significant functional limitations. One potential defensive mechanism to these negative consequences may be having higher antioxidant capacity, which would improve blood vessel vasodilatory function, enabling more blood to transfer to the skeletal muscles. Therefore, the purpose of this project is to examine the impact of mitochondrial targeted antioxidant (MitoQ) intake on oxygen transfer capacity of blood vessels, skeletal muscle mitochondrial function, leg function, and claudication in patients with PAD. Blood vessel oxygen transfer capacity in the leg will be assessed in the femoral and popliteal arteries. Skeletal muscle mitochondrial function and ROS levels will be analyzed in human skeletal muscle via near infrared spectroscopy and through blood samples. Leg function will be assessed by walking on a force platform embedded treadmill and claudication times will be assessed with the Gardner maximal walking distance treadmill test.

The study objective is to assess the ability to define and measure post treatment recoil in infrapopliteal arteries. Preliminary evidence as to the differences between serration angioplasty and standard balloon angioplasty as defined by post treatment recoil, lumen gain, and dissection will be collected.

This first-in-human clinical feasibility study will evaluate the safety and performance of the R3 Vascular MAGNITUDE® Bioresorbable Drug-Eluting Scaffold and Delivery System in patients undergoing treatment for peripheral arterial disease severe enough to have significantly reduced the blood supply to their leg. The severe reduction in blood flow causes lifestyle limiting leg pain for these patients, and may lead to amputation of the affected limb due to the loss of tissue in the leg or foot from ulcers or gangrene. The investigational device being studied in this trial is intended to restore blood flow to the affected limb, providing symptomatic relief to the patient and reducing the risk of limb amputation. The scaffold is a type of vascular stent placed within the diseased artery below the knee to improve blood flow. Unlike commercially available metallic stents which are permanently placed within the artery, the MAGNITUDE® Bioresorbable scaffold is made of a polymer material that will completely dissolve away over time, providing the support necessary to the artery while it is healing after the treatment procedure and then slowly disappearing from the artery once that support is no longer needed. The investigational scaffold has been successfully used to treat vascular blockages in the coronary arteries of the heart, but the RESOLV I study will be the first time this device has been used to improve blood flow in the arteries of the lower leg. Patients enrolled in this study may have up to three vascular blockages in their lower leg arteries treated with the MAGNITUDE® Bioresorbable scaffold, and then will be assessed over the course of the following five years to evaluate whether the investigational treatment was successful in safely alleviating their leg pain and other symptoms.

Intermittent claudication is the most common manifestation of peripheral arterial disease, a common cardiovascular disease that causes blocked blood vessels (arteries) in the leg. Symptoms consist of persistent pain in one or both legs during exercise that is relieved with rest. Evidence suggests that high levels of uninterrupted sitting and sedentary behaviour are associated with cardiovascular disease risk, mortality and all-cause mortality. One of the main goals for treating people with intermittent claudication, is increased participation in physical activity. Supervised Exercise Programmes are recommended however these are not well tolerated and compliance is low. Alternative exercise, including short bouts of physical activity to break up sedentary time, has been suggested to help improve physical function. This study will investigate whether alternative exercise, in the form of breaking up prolonged sitting time, will improve physical function in patients with intermittent claudication. Patients will be screened during their routine clinic appointment at Glenfield Hospital. All other study activity will take place at the patients home. Activity monitors will be worn for up to 8 days at baseline and follow-up, measuring step count and time, inactivity, activity time and intensity, and sleep duration. Participants will also be expected to wear activity monitors for the duration of the 8-week intervention to measure steps. Participants will be in the study for up to 18 weeks in total.

This was a prospective, multicenter, randomized, controlled, non-inferiority clinical study with the primary objective of validating the safety and efficacy of the Suture-Mediated Closure System for percutaneous closure of the common femoral artery puncture site.

To evaluate the safety and performance of the EVSS in patients with symptomatic peripheral vascular disease from stenosis or occlusion of the femoropopliteal artery

To evaluate the safety and efficacy of recombinant human hepatocyte growth factor (HGF) bare plasmid injection for local intramuscular injection in the treatment of patients with severe lower limb hemorrhagic disease (Rutherford grade 4)

This study is a prospective, interventional, multicenter 1:1 randomized trial. The trial evaluates the safety and efficacy of the Magic Touch PTA sirolimus drug-coated balloon in comparison to the treatment with POBA (control device) in patients with advanced infrapopliteal artery disease.

The aim of the study is to analyze the effect of 12 weeks of arm crank exercise (ACE) training on cardiovascular function in PAD patients, and compare it with treadmill exercise (TE), the actual recommendation for this patients. In this clinical trial, 45 patients will be allocated randomly in three experimental groups: ACE training, TE and control group. ACE and TE groups will perform exercises twice a week with the intensity equivalent to 13- 15 on Borg's Subjective Perception Exertion Scale. Patients in control group will meet twice a week, however only to perform diverse activities and group living, without any type of exercise involved. All groups will be encouraged to increase their levels of activity, as they are usually guided in medical consultations. Before and after 12 weeks of intervention, cardiovascular function, functional capacity, cognition, and quality of life will be assessed.

Test the theory that abnormalities in the large blood vessels that deliver blood to your leg and the very small blood vessels in your leg's muscles (invisible to the eye) work together to worsen your leg function and walking.