View clinical trials related to Peripheral Vascular Diseases.
Filter by:To systematically develop, test, and refine peripheral vascular electrocardiography-gated fast spin echo magnetic resonance imaging for the accurate diagnosis of peripheral arterial disease without gadolinium contrast. To test prospectively the accuracy of fast spin echo in peripheral arterial disease patients, compared with bolus-chase and time-resolved gadolinium enhanced magnetic resonance angiography. Additionally, as a substudy of this project, we will compare our fast spin echo approach with alternative non-contrast-enhanced magnetic resonance imaging methods such as time-of-flight and steady-state gradient echo imaging. The overarching goals of our research are to develop and validate a peripheral magnetic resonance imaging technique that accurately depicts anatomy and disease without exposing patients to exogenous contrast material and its associated risks.
Investigators conduct a monocentric pilot study with the objective to determine the hemodynamic parameter of fluorescence angiography (slope, amplitude, saturation time ) best correlated with toe pressure in patients with suspicion of critical limb ischemia.
The investigators propose a randomized control trial to evaluate long term effects and effectiveness of Moore Balance Brace (MBB) ankle foot orthoses (AFO) in reducing risk of falling in older adults. Primary Endpoints • Characterize the impact of MBB AFO on balance, gait, risk of falling, frailty status, and adverse events Secondary Endpoints • Characterize the Impact of MBB AFO on spontaneous daily physical activities • Characterize the feasibility of the MBB AFO device on patient adherence, acceptability, user-friendliness, and perception of benefit for daily usage
Investigators hypothesize in patients presenting with significant peripheral arterial disease with clinical indications for treatment with angioplasty, there will be a difference in 12 month patency between the subjects with Lutonix 035 Drug coated Balloon PTA Catheter and IN.PACT Admiral Paclitaxel-Coated PTA Balloon Catheter.
Evaluate the feasibility of an autologous cell preparation composed of a mixture of cells enriched for endothelial progenitor cells (EnEPCs) and multipotent adult hematopoietic stem/progenitor cells (HSPC) (BGC101), in the treatment of patients suffering from peripheral arterial disease (PAD) with critical limb ischemia (CLI) who have not responded to optimal pharmacological treatment or control of risk factors and/or had a revascularization failure, and do not have the option of further revascularization treatment.
The VMI-CFA study investigates the efficacy of the Supera Stent in the treatment of common femoral artery stenosis or occlusion. 100 patients will be included with a RF of 2 to 4. The lesion is located within the native CFA and treated with predillation prior to stenting with the Supera Peripheral Stent System. Patients will be invited for a follow-up visit at 1, 6, 12 and 24 month post procedure. The primary endpoint of the study is the primary patency at 12 months and periprocedural events up to 30 days post procedure. Secondary endpoints include technical success, primary patency rate at 1, 6 and 24 month, freedom from TLR at 1-, 6-, 12 and 24 month follow-up and clinical success at 1-, 6-, 12- and 24-month follow-up.
This is an Outside the United States, post-CE Mark, multi-center, single-arm, non-blinded study designed to investigate the safety and efficacy of the Tack Endovascular System. This study will evaluate subjects with PAD who receive PTA (with a drug-coated balloon (DCB)) in the SFA and in popliteal arteries, ranging in diameter from 2.5mm to 6.0mm and lesion lengths of ≥20mm and ≤150mm, and have a resulting dissection(s) type(s) A through F. TOBA III will also evaluate the safety and efficacy of the device when used to treat a sub-group presenting with longer lesions of >150mm and ≤250mm.
Stem cell therapy has been a new and effective therapy in recent years for diabetic foot.This study intends to establish an optimal clinical research program, and attempts to break the technical bottleneck in the stem cell therapy for treating diabetes related vascular complications.
ABSORB BTK Study: A prospective, multicenter, controlled clinical evaluation of the use of a bioresorbable drug eluting stent in the arterial vasculature below the knee
This study will use SPECT/CT imaging to assess the effect of percutaneous revascularization treatments in patients with Peripheral arterial disease and diabetes mellitus, in whom the disease can progress more quickly than in patients without diabetes.