View clinical trials related to Peripheral Vascular Diseases.
Filter by:In this controlled trial, patients with peripheral arterial disease will be randomized to either maximal walking, submaximal walking, or usual care groups.
This study proposes the use of Entresto (sacubitril/valsartan) to test the effects on pain free walking duration on patients with peripheral arterial disease, a condition caused by decreased blood flow to the muscles in the legs.
This study will assess the benefit of a neuromuscular electrical stimulation device in patients suffering from symptoms and effects of critical limb ischaemia.
The Cheetah NICOM is a non-invasive cardiac output monitor that has been validated in various clinical contexts but not during the occlusion of major arteries, as takes place in vascular surgery. The present study will evaluate the precision and validity of the measures taken by the device during open vascular surgery procedures. The measurements will be compared to the those calculated by transesophageal echocardiography at various key points during the surgeries. The validity of the cardiac output, stroke volume and stroke volume variation measurements will be evaluated, as well as the device's ability to track rapid changes in cardiac output.
The PACUS Trial was a single center, single blinded, randomized trial designed to evaluate the safety and efficacy of intravascular percutaneous catheter-delivered ultrasound energy to improve local Paclitaxel delivery effects in critical limb ischemia patients due to femoral-popliteal artery disease.
Peripheral vascular disease (PVD) is a common disease of impaired blood flow resulting in the compromised tissue perfusion of lower limbs. PAD patients can experience pain, diminished exercise capacity, and tissue loss, with some ultimately requiring amputation. The economic burden of PVD is significant. In the United States alone, PVD accounts for over $20 billion in annual healthcare related costs. The demand for the development of an effective method to characterize the viability of PVD wounds has resulted in the emergence of several innovative techniques. Commonly used diagnostic methods are ankle-brachial index (ABI), pulse volume recordings, duplex ultrasonography, venous plethysmography, Transcutaneous oxygen tension (TcPO2), toe pressures, angiography by X-ray, computed tomography, and magnetic resonance imaging. Currently, angiography remains the diagnostic gold standard. However, many of these techniques lack the ability to triage and adequately determine the viability of the wound. In addition, there remains a need for effective triage technologies to help clinicians decide whether surgical management is needed. Early determination of surgical versus conservative management may help to improve patient functional outcomes, reduce mortality rates, and prevent limb amputation. Near-infrared point spectroscopy (NIRS) is a non-invasively technology with recent applications in PVD wound assessment. To date, studies have demonstrated the validity of NIRS technology in patients with peripheral arterial disease. NIRS measures flow, concentration, and oxygenation of hemoglobin in arterioles, capillaries, and venules several centimeters deep in tissue. The MSID is an evolution of existing NIRS imaging devices and has become a portable and functional commercial device produced by KENT imaging (Calgary, Canada). Using this new and clinically applicable NIRS technology designed for assessing wound perfusion and oxygenation, this study seeks to adequately identify viable from non-viable wounds and to rapidly determine indication for vascular interventions. This technology is well-suited for use in a wound patient population as the measurements times are short and can quickly be used at the patient bed side. As such, this project intends to apply NIR technology to quickly assess PVD in the investigators' patient population.
This experimental study will look at the effects of INP therapy for two patient groups: 1) patients with reduced peripheral circulation and chronic wounds in patients with renal disease (dialysis patients); 2) and peripheral arterial disease and leg ulcers. The project is designed as a non-randomized clinical trial with single-subject multiple baseline design. Also the intervention will be subjected on the same leg for each individual throughout the study period. The other leg will act as a control. A baseline measure with patient history collection will be performed before a four-week intervention period. These measures include: Segmental pulse-volume-recording, Segmental skin perfusion pressure with a laser Doppler sensor and a pressure cuff to evaluate reactive hyperemia (Sensilase, Väsamed) and a health survey (SF-12/EQ-5D-5L) or similar. After four weeks and eight weeks of intervention, the same tests will be repeated. A final follow-up test will be two weeks after cessation of the intermittent negative pressure intervention. The study will look at the effect of INP on renal failure patients who are given dialysis at a dialysis center located at Oslo University Hospital, Ullevål. Otivio AS has supplied the FlowOx devices and provided the necessary training to perform this project. Outcome variables assessed before, during and after the 10-week study period will be: wound healing, quality of life, skin perfusion pressure and segmental pulse-volume recording. The aim of this project is to prospectively examine and elucidate the effect of intermittent negative pressure therapy on clinically relevant measures related to the reduction of peripheral macro- and microcirculation in patients with renal failure undergoing dialysis treatment. The hypothesis of the study is: - Application of INP in patients with renal failure, by the use of the FlowOx™ device, will improve wound healing and peripheral circulation in the foot compared to before treatment (baseline) in patients undergoing dialysis treatment. - Application of INP in patients with PAD, by the use of the FlowOx™ device, will improve macro- and microcirculation and wound healing in the foot compared to before treatment (baseline) in patients with chronic wounds.
The purpose of this study is to learn about the impact of text messaging on physical activity in persons with risk factors for peripheral arterial disease (PAD).
Peripheral artery disease (PAD) results in blockages of arteries (blood vessels) and decreased blood flow to the legs. This may cause difficulty or pain with walking or other activities that use leg muscles. Exercise may help improve blood flow in the legs and improve the ability to walk. This research project will be conducted patients with PAD that require revascularization. The goal is to examine the effects of 3 months of exercise rehabilitation or neuromuscular stimulation on leg blood flow, physical function, quality of life and general health.
This study is designed to examine the added benefits of weight loss to an exercise program in older obese Veterans with peripheral arterial disease. The investigators want to determine if weight loss in addition to exercise will 1) improve walking ability to a greater extent than exercise alone and 2) determine the underlying reasons why walking ability improves by measuring blood flow and the amount of muscle in the leg muscles.