Phase II Combination Stem Cell Therapy for the Treatment of Severe Leg Ischemia
Critical Limb IschemiaSevere Leg Ischemia2 moreThe purpose of this research study is to compare in patients with double-sided claudication if the transplant of a combination of stem cells obtained from the bone marrow of the same patient will contribute to the formation of new blood vessels in one of the severly diseased ischemic limbs(legs)versus the control limb that receives a placebo product. Limb Ischemia (LI) is a severe obstruction of the arteries which seriously decrease blood flow to the extremities (mainly feet and legs) and has progressed to the point of severe pain and even skin ulcers or sores. LI needs comprehensive treatment since the condition will not improve on its own. The overall goal of treatment is to reduce pain and increase blood flow to improve symptoms or save the leg and feet. In many cases, current options for treatment including medications, surgery or endovascular procedures have not been successful. In the last few years, investigators have explored therapies aimed to increase blood flow to the ischemic vessel by transplanting cells that will promote the development of new vessels in the diseased leg. The study hypothesis is based on the concept that the process of formation of new blood vessels is complex and requires the participation of several types of stem cells and growth factors. The lack of any of these components will produce vessels which are immature and unable to provide appropriated blood supply to the leg. Patients eligible to participate in the this study are those suffering from double-sided claudication with poor circulation or severe leg blockages, which are not candidates for surgical procedures. Once the mixture of stem cells is prepared and the patient's bone marrow is ready, cells will be transplanted into the calf muscle of one the the diseased legs while the other diseased leg will receive the placebo. Clinical study to evaluate and compare the efficacy of the stem cell transplant will be performed for six months post cell transplant.
Femoral Arterial Access With Ultrasound Trial
Vascular Access ComplicationsCardiac Catheterization1 moreThis study is designed to evaluate the routine use of vascular ultrasound as an aid for proper placement of a femoral arterial sheath during cardiac catheterization and peripheral arterial angiography.
The Pathway PVD Study for Percutaneous Peripheral Vascular Interventions
Peripheral Artery DiseaseThe Pathway PV Atherectomy System is a rotating, aspirating, expandable catheter for active removal of atherosclerotic debris and thrombus in peripheral vasculature. This is a prospective, single arm, multi-center study to obtain safety and performance data for the Pathway PV Atherectomy System when used as a primary or adjunctive therapy for percutaneous intervention to remove atherosclerotic disease, debris, and thrombus from the lower limb peripheral vasculature.
Angiotensin Converting Enzyme (ACE) Inhibition and Peripheral Arterial Disease
Peripheral Arterial DiseaseLeg pain caused by peripheral arterial disease (PAD) can severely impede walking ability. Our preliminary findings indicate that the drug ramipril is much more effective in improving walking ability than current therapies. To be accepted as a new treatment for PAD these findings require validation in a much larger clinical trial.We propose to examine the effects of ramipril therapy for 6 months in a randomized, controlled trial of patients with PAD. If positive, this study will identify ramipril as a potential new therapy for PAD.
Trial to Evaluate the Safety & Efficacy of the Absolute Pro™ Peripheral Self-Expanding Stent System...
Peripheral Vascular DiseaseTo determine the safety and efficacy of the Absolute Pro™ Peripheral Self-Expanding Stent System in subjects with atherosclerotic de novo or restenotic lesions in the native common iliac artery and/or native external iliac artery.
ACPs in Severe PAD/CLI by Direct Intramuscular Injection
Peripheral Arterial DiseaseCritical Limb IschemiaStudy title: A Study of Blood-Borne Autologous Angiogenic Cell Precursors Therapy in Patients with Critical Limb Ischemia ( ACPs-CLI ) Principle Investigator: Assoc.Prof. Pramook Mutirangura,M.D. Head of Division of Vascular Surgery , Department of Surgery, Faculty of Medicine Siriraj Hospital , Mahidol University, BKK,Thailand Study objective : To determine the safety and efficacy of intramuscular injection of blood-borne autologous ACPs in relieving symptoms of critical limb ischemia of patients treated with maximal medical therapy and don't have intravascular or operative revascularization option. Study Design : A pilot study , a single center, a non-randomized, open-label trial. Total expected no. of patients : 6 main selection criteria : A. Subjects will have one or more clinical indications diagnostic of CLI such as: distal extremity pain at rest that requires the subject to use analgesics for >2 weeks; or peripheral ischemic ulcer(s); or areas of gangrene ; or non-healing ischemic ulcers AND B. Subjects will have one or more of the following hemodynamic indicators of severe peripheral arterial occlusive disease: I. Ankle brachial index < 0.45 II. Toe brachial index < 0.35 III. TcPO2 / TcO2 of < 40 mmHg. C. The subject is a poor candidate for standard revascularization treatment for peripheral arterial disease, based on inadequate bypass conduit, or unfavorable anatomy D. Age 18 to 80 years Investigational Product : At D-8 250 ml of blood drawn from the patients for production of autologous EPCs or ACPs (VescellTM). On D0 ,at least 1.5 million ACPs with viability >75 % suspended in 30 ml sterile cell culture medium will be injected 1.5 cm deep and 1.5 apart by a 23 -gauge needle into the gastrocnemius muscle of the leg chosen (ischemic leg) for treatment. For injection planning a grid of 10X10 cm will be prepared and in each point 1 ml of ACPs suspension will be injected. The study consists of 4 periods: Screening ( D-14 to-9& D-8,Treatment(D0),Acute Safety follow-up (D1&D2),Chronic follow-up (D30 & D90)period ,total follow-up of each case is 3 months. Evaluation criteria : Safety : no.& duration of adverse event & serious adverse event Efficacy :Attenuate CLI patients symptoms (Rest pain,Pain-free walking distance,Ulcer size &Gangrene dimension and intensity)
Multifactor Risk Reduction for Optimal Management of PAD
Peripheral Arterial DiseasePatients with peripheral arterial disease (PAD) experience significant functional limitations due to ischemic symptoms (claudication) and are at high risk for CVD morbidity and mortality resulting from untreated cardiovascular disease (CVD) risk factors and aggressive atherosclerosis. The overall Goal of this randomized controlled clinical trial is to examine the synergistic effect of a multifactor risk reduction on walking distance, blood flow and quality of life in 300 patients with PAD. Specifically, we will compare the effects of 24 months of a novel, yet well-tested multiple risk factor reduction program, the Health Education and Risk Reduction Training (HEAR2T) Program for PAD versus enhanced standard care on: 1) symptom limited walking distance as assessed by treadmill exercise testing and walking impairment questionnaire; 2) endothelial function as measured by flow mediated vasodilation (FMVD) via brachial artery ultrasound. We will also explore the association between FMVD and decreased oxidative stress (as measured by oxygen radical absorbance capacity and urinary isoprostanes) and reduced degradation of nitric oxide (NO) and/or increased NO biosynthesis (as measured by urine nitrogen oxide, plasma nitrogen oxide, plasma asymmetric dimethylarginine, plasma, urine and platelet cyclic GMP). Secondary hypotheses examine the association between reducing CVD risk factors, improved endothelial function, increased walking distance, improved quality of life and number of metabolic syndrome abnormalities in PAD patients. Significance. This study will contribute to evidence on the efficacy of multiple risk factor reduction on improving physical function and quality of life in the understudied, elderly PAD patient. This study will also provide preliminary evidence for the biological basis for the efficacy of multifactor risk reduction in restoring vascular homeostasis, critical because of its role in antiatherogenesis and maintaining vasoreactivity, both necessary for slowing the progression of atherosclerosis.
GORE VIABAHN Endoprosthesis With Heparin Bioactive Surface in the Treatment of SFA Obstructive Disease...
Peripheral Vascular DiseasesThe objective of the study is collect data on the GORE VIABAHN Endoprosthesis with Heparin Bioactive Surface in the treatment of chronic Superficial Femoral Artery disease. Device patency at 12 months is the primary endpoint.
Study to Evaluate the Safety & Performance of the Xpert(TM) Stent in Treating Below-the-knee Lesions...
Chronic Critical Limb IschemiaPeripheral Vascular DiseasesThe purpose of this study is to evaluate the safety and performance of the Xpert(TM) self-expanding stent in infrapopliteal lesions as part of an overall treatment strategy in patients undergoing percutaneous intervention for the treatment of documented chronic critical limb ischemia (CLI).
A Phase 2 Study of the Effects of Sapropterin Dihydrochloride on Symptomatic Peripheral Arterial...
Intermittent ClaudicationThe purpose of this study is to evaluate whether sapropterin dihydrochloride is safe and effective in the treatment of intermittent claudication (IC) caused by peripheral arterial disease (PAD).