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The goal of this observational study is to identify which plaque lesions in patients with peripheral arterial disease are impenetrable and to determine which devices minimize vessel wall injury. Patients undergoing intervention will have an MRI scan prior to their planned percutaneous vascular intervention to assess the plaque and predict procedural difficulty. Patients undergoing lower limb amputation due to peripheral arterial disease will have their limbs included into a second arm of the study The limb will undergo an MRI scan to assess the plaque. The investigator will then test two different devices and assess the effects of these devices on the vessel wall.
POWER PAD 2 is a prospective, single-arm, multicenter, non-randomized clinical study designed to demonstrate the safety and effectiveness of the Amplitude Vascular Systems (AVS) Pulse Intravascular Lithotripsy™ (Pulse IVL™) System for treatment of calcified (moderate to severe), stenotic, superficial femoral and popliteal arteries in patients with peripheral arterial disease.
The objective of this trial is to determine if Near-infrared spectroscopy (NIRS) can accurately evaluate the degree of Peripheral Arterial Disease (PAD) during a Provocative Elevation Maneuver of the Lower Extremity (PEMLE) test, as compared to routine clinical assessments.
Peripheral arterial disease (PAD) is a highly prevalent and costly condition. Intermittent claudication (IC), defined as ischemic leg pain that occurs with walking, results in functional impairment, reduced daily physical activity, and a lower quality of life. Although the mechanisms contributing to functional impairment are not fully delineated, current evidence suggests that the uncoupling of skeletal muscle cellular metabolism from tissue perfusion may be responsible for exercise intolerance. We have previously shown increases in plasma inorganic nitrite, via oral nitrate, produced clinically significant increases exercise performance in patients with PAD+IC. The hypothesis of this proposal is in patients with PAD+IC, 3-6 days of oral dietary nitrate consumption (in the form of concentrated beetroot juice) will produce a greater tissue perfusion, oxygen delivery, and enhanced muscle metabolism in comparison to placebo. This will translate into an increase in physical performance in both muscle specific plantar flexion exercise and treadmill measures of pain free ambulation. In order to test this hypothesis, we will recruit 10 patients PAD+IC in a randomized, double-blind, placebo controlled, cross over design.
The purpose of this study is to understand how the drug rivaroxaban improves symptoms associated with peripheral artery disease.
The primary goal of this clinical trial is to evaluate whether a community-based structured exercise therapy (CB-SET) intervention, which could be accessible and easily disseminated, adds benefit to peripheral artery disease (PAD) patients undergoing revascularization (REVASC) to improve their function and cardiovascular health.
The INTERCEDE randomized trial will establish whether six-months of intermittent pneumatic compression combined with walking exercise improves walking endurance at six-month follow-up, compared to walking exercise + sham compression therapy, in people with lower extremity peripheral artery disease (PAD). The INTERCEDE trial will also determine whether intermittent pneumatic compression therapy improves walking endurance at 6-month follow-up, compared to a sham compression therapy. The trial will also determine whether benefits of intermittent pneumatic compression persist after intermittent pneumatic compression treatment is completed.
The purpose of this study is to develop a new noninvasive tool for early diagnosis of Peripheral Arterial Disease (PAD) and use the proposed method for monitoring the disease progression and the response to interventional treatment in PAD patients.
This study is designed as a prospective, open label, single arm pilot clinical study that will establish the safety and efficacy of a single injection of mesenchymal stromal cells in patients. Each subject will receive one intra-articular injection of autologous mesenchymal stromal cells derived from infrapatellar fat pad (FP-MSC) tissue samples collected from the subject during anterior cruciate ligament (ACL) reconstruction surgery.
Lower extremity revascularization combined with supervised exercise significantly improves walking performance compared to revascularization alone in people who have PAD without limb threatening ischemia. However, supervised exercise is inaccessible or burdensome for most PAD patients. Investigators hypothesize that home-based exercise combined with lower extremity revascularization will significantly improve walking performance compared to revascularization alone in patients with PAD undergoing revascularization for disabling PAD. Investigators further hypothesize that inorganic nitrate, a major source of nitric oxide (NO) abundant in beetroot juice, will improve walking performance after lower extremity revascularization, compared to placebo. In preclinical models, NO inhibits inflammation, neointimal hyperplasia, thrombosis, and vascular smooth muscle cell migration at sites of revascularization. NO increases angiogenesis and perfusion, repairs skeletal muscle damaged by ischemia, and stimulates mitochondrial activity. In a randomized clinical trial with a 2 x 2 factorial design, the trial will test the following two primary hypotheses in 386 patients randomized within three months of a successful lower extremity revascularization for disabling PAD: First, that home-based exercise combined with lower extremity revascularization will improve six-minute walk distance more than revascularization alone at 6-month follow-up (Primary Aim #1). Second, that nitrate-rich beetroot juice combined with lower extremity revascularization will improve six-minute walk, compared to placebo combined with revascularization at 6-month follow-up (Primary Aim #2).