View clinical trials related to Peripheral Arterial Disease.
Filter by:This study aims to investigate the utilization of intravascular imaging in treatment of tibial vessels in peripheral artery disease and critical limb ischemia (CLI). The primary goal is to compare optical coherence tomography (OCT) with traditional digital subtraction angiography (DSA) in determining best treatment strategy and vessel optimization, in an effort to improve long term patency and successful wound healing in CLI. Secondary comparison with intravascular ultrasound (IVUS) is undertaken when clinically feasible. The hypothesis is that the adjunctive use of intravascular imaging will affect vessel sizing and anticipated treatment modalities, and therein affect the long term primary patency rates.
NEAT is an observational cohort (Prospective registry of real world data) of patients with coronary and peripheral artery disease in an outopatient setting.
The MIMICS-3D-USA Study is a prospective, multicentre, observational study (non-investigational) of the BioMimics 3D Vascular Stent System that evaluates evaluate safety, effectiveness and device performance within a real-world clinical population of patients undergoing femoropopliteal intervention for the treatment of peripheral artery disease.
Prospective, single-arm, multi-center, clinical investigation to continue to evaluate the safety and effectiveness of the PQ Bypass System to access, deliver guidewires, and implant stent grafts for a percutaneous femoropopliteal (fem-pop) bypass.
my study is to determine the effect of pulsed electromagnetic field versus treadmill training in managemet of intemittent claudication in peripheral arterial disease there is a lack of interventions that improves local peripheral blood circulation in ischemic lower limbs . (PEMFs) are a non-pharmacological and non-invasive treatment that can be applied on the affected body part, which penetrates through skin and reaches target tissues . However, there have been few clinical studies reporting the effects of PEMFs on hemodynamic response in people with PAD (
The study will be designed as a prospective clinical trial. Patients scheduled for lower limb arterial bypass surgery will be randomly allocated for treatment with spinal anesthesia associated with spontaneous ventilation (nasal cannula with supplemental oxygen - Group 1) or treatment with general anesthesia under controlled mechanical ventilation (tidal volume 6 to 8 ml / kg of the predicted body weight and PEEP of 5 cmH2O - Group 2).
This study is done to see if semaglutide has an effect on walking ability compared with placebo (dummy medicine) in people with peripheral arterial disease (PAD) and type 2 diabetes. Participants will either get semaglutide or placebo ("dummy") medicine - which treatment participants get is decided by chance. Semaglutide is a medicine for type 2 diabetes that can be prescribed by doctors in some countries. Participants will get the study medicine (semaglutide or placebo) in a pre-filled pen for injection. Participants must inject it once a week into the stomach area, thigh, or upper arm, at any time of the day. The study will last for about 59 weeks. Participants will have 8 clinic visits and 1 phone call with the study doctor. At some clinic visits, participants will have blood tests. At some visits participants will also do a treadmill test to measure how far they can walk. Women cannot take part if pregnant, breast-feeding or planning to become pregnant during the study period.
It is uncertain whether opt-out framing will increase participation in a clinical trial intended to promote physical activity in patients with peripheral artery disease (PAD). This study will test whether opt-in or opt-out framing of study participation upon initial contact affects the proportion of patients who ultimately enroll in the study and the demographic characteristics of enrolled patients.
Extensive arterial occlusion significantly reduces arterial perfusion, and may eventually lead to Critical Limb Ischemia (CLI). The pathology gives rise to symptoms such as ischemic pain, slow healing wounds at lower extremity and gangrene. It places patients with multi-segment occlusion at high risks of amputations and mortality. The treatment methods for such long occlusive lesions are limited. Traditionally, the standard of care would be surgical revascularization. This is because lesion length have been identified in several studies as an independent risk factor for the development of restenosis after angioplasty and/or stenting. However, thanks to recent advances in endovascular techniques, such as the utilization of subintimal technique for crossing long segment occlusions, it is now possible to employ endovascular techniques for suitable patients.The re-establishment of an in-line flow, even if only temporary, can allow tissue healing, which is vital in achieving limb salvage. In addition, the use of Drug Coated Balloons (DCB) can potentially reduce restenosis rate, as Sirolimus have an anti-proliferative effect. To date, there are few studies that have evaluated the performance of DCB in lesions that are longer than 10cm. The investigators hope to evaluate the performance of the Selution DCB when used in treatment of such lesions
The SAFE-PAD Study aims to evaluate the long-term safety of paclitaxel-coated devices compared with non-paclitaxel-coated devices for femoropopliteal artery revascularization among a broad, real-world population of patients with peripheral artery disease. This multi-year analysis aims to create an ongoing mechanism to evaluate the safety of paclitaxel-coated devices in real world practice. The null hypothesis is that the paclitaxel-coated devices are associated with an increase in mortality relative to the non-drug-coated devices beyond an acceptable magnitude (i.e. the non-inferiority margin), and the alternative hypothesis is that paclitaxel-coated devices are not associated with an increase in mortality relative to the non-drug-coated devices beyond the non-inferiority margin.