View clinical trials related to Critical Limb Ischemia.
Filter by:Background: Up to 10% of patients with peripheral arterial disease (PAD) will develop critical limb ischemia (CLI) which is a decrease of blood flow in the arteries of the limb. CLI results in resting pain, ulcers, gangrene, and limb loss. The outcome for patients with CLI is poor. Within 3 months of onset, 12% of patients will require an amputation (removal of part of the limb) and 9% will die of major cardiovascular events (heart attack or stroke). Percutaneous angioplasty (PTA), a procedure used to open the blockages in blood flow, has become the first-line treatment for CLI given its effectiveness, lower cost, and lower risk of complications. However, 40% of patients will have re-narrowing of the arteries (restenosis) following the PTA procedure. This is thought to happen in part due to build up of blood cells called platelets which can also lead to the formation of blood clots. In order to try to avoid this problem, most patients are prescribed a combination of two blood thinning medications, acetylsalicylic acid (ASA or aspirin) and clopidogrel (the brand name is Plavix). The purpose of this study is to determine if a new blood thinner called rivaroxaban, given in combination with aspirin, would be more effective in preventing re-narrowing of the arteries than the current standard of care (aspirin and clopidogrel). Rivaroxaban is a pill and does not require blood test monitoring. It has been approved by Health Canada for use in prevention of blood clots in patients undergoing hip or knee surgery and to treat patients with blood clots in their legs and lungs. Low dose aspirin has been approved for reducing the risk of heart attacks and strokes. These medications have not been tested together in patients for prevention of re-narrowing of their arteries This is a pilot study conducted at one center, The Ottawa Hospital. It is a Phase 2 open label randomized controlled trial. Following the PTA procedure, once all inclusion/exclusion criteria are met, the participant will be randomized into one of two groups: 1. Rivaroxaban 2.5 mg BID X 90 days plus ASA 81 mg daily OR 2. Clopidogrel 75 mg daily X 90 days plus ASA 81 mg daily Visits will occur at 7 days, 30 days, 90 days, 6 months and 12 months. Participants will be followed for 12 months (± 14 days) in total. All adverse events will be collected for the duration of the study.
Foot ulceration usually precedes more serious foot complications such as infection, gangrene or amputation. The risk of developing foot ulcers has been estimated to be higher in individuals with kidney disease. Patients with kidney disease receiving dialysis have an increased prevalence of critical limb ischemia. Carbon dioxide (CO2) foot bathing has been reported to improve subcutaneous microcirculation. The proposed clinical study will evaluate the therapeutic potential of CO2 enriched water (produced by the Carbothera device) on treating foot ulcers in patients with critical limb ischemia and undergoing hemodialysis. Forty individuals how have a distal extremity ulcer who are currently undergoing hemodialysis will participate in this study.
Multi-center study to optimize below the knee (BTK) balloon angioplasty results by creating tissue apposition in peripheral arteries with Reference Vessel Diameter's (RVD) ranging from 1.5mm to 4.5mm.
The purpose of this study is to determine the safety and effectiveness of the Tissue Genesis® Icellator Cell Isolation System™ in Critical Limb Ischemia. The Icellator System™ device removes certain cells from the adipose (fat) tissue which will be used to treat patients with blockages in the arteries of their lower legs that may require a future amputation, which is caused by severe peripheral artery disease (PAD). The purpose of this study is to determine if treatment with cells that have been removed from the Icellator System™ device will reduce the number of major amputations and deaths in a six month time period.
The purpose of this study is to evaluate whether the results of drug eluting balloon are non-inferior to the Nitinol stent implantation in the femoropopliteal segment.
Various preclinical animal studies have shown the potential of stem cells in re-vascularising ischemic limbs and promoting collateral vessel formation. SVF have the potential to facilitate the formation of new blood vessels and skeletal muscle. Early pilot clinical studies indicate that stem-cell transplantation is feasible and may have beneficial effects in CLI. Injury or inflammation is a prerequisite for the participation of circulating stem cells to home and differentiate on to this microenvironment. The increased vascular permeability and expression of adhesion proteins like integrin assist in stem cell homing. The migratory capacity of stem cells is dependent on natural growth factors such as vascular endothelial growth factor (VEGF), Stromal cell derived factor (SDFI) and stem cell factor (SCF). The expression of VEGF, SDFI and SCF is highly unregulated in the hypoxic muscular tissue and is responsible for the recruitment of the stem cells to assist in the repair mechanism and consequent improvement in limb function. In addition to the above regenerating potential of SVF, they have several advantages; they can be easily isolated without further culturing it. Most importantly SVF have shown to have significantly highest expression of pluripotent markers similar to that of human embryonic stem cells and yet they are non-tumorogenic and safe. MSCs are having angiogenic activity and hence may be excellent source to develop neo-vasculature and hence could be explored for their therapeutic potential for treating Critical Limb Ischemia. MSC's also display membrane-bound and insoluble secreted molecules involved with cell attachment to neighbouring cells and to the extra cellular matrix19 Adipose derived Stromal vascular fraction and Mesenchymal Stem Cells has been found in preclinical studies to be safe and effective. The current Phase I/II study of adipose derived stromal vascular fraction and Mesenchymal stem cells is conducted with the broad objective of establishing safety and efficacy.
This study is intended to collect safety and effectiveness data on the Cook Injectable Small Intestinal Submucosa (SIS)
Study to Evaluate the Efficacy and Safety of AMG0001 in Subjects with Critical Limb Ischemia.
A randomized, double-blind placebo controlled study to determine the safety and efficacy of Angiogenic Cell Precursors (ACPs) in relieving symptoms of Critical Limb Ischemia in patients treated with standard of care and with no surgical revascularization option. It is assumed that the ACP-treated group will have a lower amputation and death rate as compared to the placebo group. Other hemodynamic, imaging and clinical parameters will also be compared between the two groups. Quality of life assessments will also be performed.
Pathological and clinical studies have consistently demonstrated that abnormalities in thrombosis and hemostasis play a major role in the pathogenesis of atherosclerosis and atherothrombosis. Screening for abnormalities in thrombosis and hemostasis by measuring platelet activity, thrombin generation, and markers of coagulation have been proposed to identify individuals at high-risk for cardiovascular events, however, it remains a research tool not ready for implementation in standard care. The proposed study will add to the growing understanding of platelet activity and markers of coagulation in cardiovascular disease; examine a comprehensive battery of platelet activity markers, thrombin generation, markers of coagulation, and inflammatory biomarkers in subjects undergoing vascular surgery; and will provide important data on the mechanism of increased platelet activity using micro RNA, RNA and DNA expression profiling. The study design is prospective and the main outcome measures are platelet activity, coagulation markers and incident cardiovascular and bleeding events.