View clinical trials related to Peripheral Artery Disease.
Filter by:The purpose of this study is to test the effects of leg exercise assistive paddling (LEAP) therapy during prolonged sitting (PS) on vascular and functional performance in those with peripheral artery disease (PAD) and age-matched controls. LEAP therapy is a novel application of passive limb movement to enhance blood flow through the legs without muscular contractions. Specifically, LEAP therapy is the rotational passive movement of the lower leg about the knee from 90 to 180 degrees of rotation at a cadence of 1Hz. Previous literature has indicated that this movement pattern can produce robust increases in blood flow in the passively moved limb in healthy individuals, and passive limb movement may protect vascular function during PS. However, the impact of LEAP therapy to improve blood flow in the legs of those with PAD during PS is unknown. To be eligible for this study, those with PAD must be between the ages of 50-85 years, women must be postmenopausal, must have a history of exercise-limiting claudication, have an ankle brachial index (ABI) 0.9. Participants will participate in a randomized cross-over design study with 2 visits (LEAP therapy and no LEAP therapy). For the first visit, participants will be randomly allocated to receive LEAP therapy during 2.5 hours of PS or not. For the second visit, participants will sit for 2.5 hours and will receive the condition that they did not previously receive. Before and after PS, the following measurements will be made: flow-mediated dilation of the popliteal and brachial arteries, arterial stiffness with tonometry techniques, microvascular vasodilatory capacity and skeletal muscle metabolic rate with near-infrared spectroscopy, autonomic nervous system function, and there will be blood drawn from the antecubital vein. After PS, participants will participate in a graded exercise test to assess functional walking capacity. Finally, during PS, near-infrared spectroscopy on the calf muscles and electrocardiogram will be collected continuously to monitor muscle oxygen availability and autonomic activity, respectively. There will be no follow-up.
Peripheral artery disease, lack or blood flow to the legs, has a high prevalence in the Veteran population. In patients with severe peripheral artery disease that requires an endovascular or surgical intervention for lower leg revascularization, the long-term mortality of approximately 50% is worse that most cancers. The goal of this study is to develop a management strategy to improve cardiovascular outcomes in this high-risk peripheral artery disease population after lower extremity revascularization.
In this study, we are trying to see if vitamin B6 can minimize the amplified blood pressure response to exercise following ischemia-reperfusion injury. We are interested in a protein called P2X3, of which function can be blocked by vitamin B6, in the neurons of our nervous system. It is very important for blood pressure regulation. We would like to see if the P2X3 plays a role in patients' rising blood pressure during exercise. The results of the proposed studies will provide a base for those two potential economic and non-invasive inventions to improve the overall health and well-being of PAD patients.
Purpose: Peripheral artery disease (PAD) is associated with elevated oxidative stress, and oxidative stress has been implicated as the cause of reduced endothelial reactivity in individuals with PAD. Endothelial function is important because the endothelium contributes to the dilation of arteries during exercise, thereby implicating impaired endothelial function as a mechanism contributing to exacerbated exercise-induced ischemia. Therefore, the purpose of this study is to test the hypothesis that acute exogenous diroximel fumarate (Vumerity) intake will improve antioxidant capacity, thereby reducing oxidative stress and improving vascular function and walking capacity in those with PAD. Eligibility: Individuals with PAD will be deemed eligible for this study if they 1) are 50-75 years old and postmenopausal, 2) have a positive history of exercise-limiting claudication (Fontaine II or III), 3) do not have renal impairments, 4) do not have Fontaine stage IV PAD, and 5) are not currently pregnant or nursing. Age-matched controls will be deemed eligible for this study if they 1) are 50-75 years old and postmenopausal, 2) have an ABI greater than 0.9 (no PAD), 3) do not have exercise-limiting diseases or injuries, 4) do not have renal impairments, and 5) are not currently pregnant or nursing. Intervention and Evaluation: During this study, participants will be administered diroximel fumarate or a placebo, and the acute effects of diroximel fumarate on vascular function and walking capacity will be assessed. Vascular function and walking capacity will be assessed with flow-mediated dilation, arterial stiffness, head-up tilt test, blood biomarkers, near-infrared spectroscopy, and a treadmill test. Follow-up: There will be a follow-up visit to assess blood work after diroximel fumarate.
The femoropopliteal artery segment (FPAS) is one of the longest arteries in the human body, undergoing torsion, compression, flexion and extension due to lower limb movements. Endovascular surgery is considered to be the treatment of choice for the peripheral arterial disease, the results of which depend on the physiological forces on the arterial wall, the anatomy of the vessels and the characteristics of the lesions being treated. The atheromatous disease includes, in a simple way, 3 categories of plaques: calcified, fibrous, and lipidic. The study of these plaques and their differentiation in imaging and histology in the FPAS has already been the subject of research. To treat them, there are angioplasty balloons and stents with different designs and components, with different mechanical properties and different impregnated molecules. There is no non-invasive method (imaging) to accurately differentiate lesions along the FPAS. The analysis is performed from the preoperative CT scan, but there are high-resolution scanners that allow a quasi-histological analysis of the tissue. This microscanner can be used ex vivo. In the framework of a project, the learning algorithm was be créated (Convolutional Neural Networks) to automatically segment microscanner slices: after taking FPAS from amputated limbs, we correlated ex-vivo microscanner images of the arteries with their histology. The correlation was then performed manually between the microscanner images, and the histological sections obtained. the algorithm well be trained on these slices and validated its performance. The validation of the CT and microscanner concordance was the subject of scientific publications.
Patients with atherosclerotic peripheral artery disease often have combined coronary artery disease or cerebral artery disease and show high rates of cardiovascular mortality and morbidities. Therefore, secondary prevention for these patients is of great clinical importance. Currently, Korean, US, and European guidelines recommend different LDL cholesterol target goals in patients with peripheral artery disease. In recent clinical trials, combination therapy of statin plus ezetimibe demonstrated improved cardiovascular outcomes compared with statin monotherapy. Thus, the purpose of the CARE-PVD study is to investigate whether the combination therapy of high intensity rosuvastatin 20 mg plus ezetimibe 10 mg can improve cardiovascular outcomes in patient with peripheral artery disease or polyvascular artery disease in comparison with rosuvastatin treat-to-target (LDL cholesterol <70 mg/dL) monotherapy.
Single centre observational study to assess lower extremity arterial disease (LEAD) patients' cardiac dysfunction with strain analyses and to assess connections between cardiac dysfunction, metabolomic changes and target organ damage in LEAD.
The goal of this mechanistic clinical trial is to test the effects of reducing inflammatory signaling in femoral artery atherosclerotic plaques. Researchers will compare patients receiving colchicine to patients receiving placebo to determine the effect of colchicine on the inflammatory state of atherosclerotic femoral arteries.
The goal of this clinical trial is to assess the effects of passive calf muscle stretching in patients diagnosed with peripheral artery disease (PAD). The main question it aims to answer are: 1. To determine if daily calf muscle stretching at home improves calf muscle and vascular health. 2. To determine if daily calf muscle stretching at home improves walking performance. Participants will use inflatable ankle splints for 30 minutes a day, 5 days a week for 4-weeks on both days and 4-weeks of no stretching.
Walking is beneficial for adults with peripheral arterial disease. Benefits include the ability to walk for longer periods and general well being (quality of life). This study will look at two types of delivery methods for a home-based walking program. The walking program includes step count goals, information on healthy walking and motivational messages. The two delivery methods include a web-based delivery and an telehealth delivery. Participants are randomized to either one of the delivery methods or usual care. After 12 weeks participants in the web based or telehealth based groups maybe re-randomized to receive a combination of both web-based and telehealth for a second 12 week period. After 24 weeks, everyone is followed for an additional 12 weeks, so the total time a participant is in the study is 36 weeks. At baseline, 12, 24 and 36 weeks the investigators ask participant to walk (slowly) on a treadmill, perform a six-minute walk test, and several questionnaires on quality of life. Vouchers are provided at each study visit. All participants who complete the study also keep their pedometer.