View clinical trials related to Leg Ulcer.
Filter by:The purpose of this study is to evaluate direct costs of Venous Leg Ulcers (VLU) management when two different compression systems are used.
Adequate analgesia in serial chronic leg ulcer debridement can be difficult to achieve. A common analgesia method is the topical administration of local anesthetics directly onto the wound. However, complete wound debridement is often hampered by insufficient analgesia leading to interruption of the actual debridement and fragmentation of treatment into more frequent serial debridement sessions. Alternatively, the inhalation of an nitrous oxide/oxygen (N2O/O2) gas premix could be used for analgesia. In this study, the investigators have compared the analgesic method of an eutectic mixture of topically administered lidocaine/prilocaine cream (EMLA®) with the inhalation of an equimolar 50% N2O/50% O2 gas premix (Kalinox®) in serial leg ulcer debridement.
The purpose of the study is to test non-inferiority of chronic Venous Leg Ulcer (VLU) area reduction at 16 weeks with a dual action pneumatic compression device compared to multi-layer bandaging.
The purpose of this study is to determine the systemic exposure of Granexin® gel after topical application to human subjects' venous leg ulcers.
The goal of this study is to test FOOTFIT and enhanced FOOTFIT+, home-based mobile health (mHealth) physical activity (PA) interventions for a minimally ambulatory, chronically-ill, population with leg ulcers. A highly sensitive clinically designed Bluetooth® enabled accelerometer and tracking device (BEAT) worn on the foot during a progressive and evidence-based non-exertive leg conditioning activities for lower leg function (CALF) captures minute foot movements and sends the data to a Smartphone. This six-week feasibility study will compare FOOTFIT to FOOTFIT+, with the added connectivity feature, to promote patient-provider communication, evaluate adherence to PA, and assess signals of efficacy on functional outcomes in a very low fitness population.
The goal of this study is to test MUSTCOOL, a home-based self-monitoring and self-management ulcer prevention intervention for patients with newly healed chronic venous leg and diabetic foot ulcers. Almost 90% of ulcers recur within 3 months of healing. During the six-month randomized clinic trial, skin temperature will be monitored daily, a maintenance dose of cooling gel pack or placebo will be applied three times weekly to the affected skin, and a bolus dose of cooling will be applied for 5 consecutive days if skin temperature becomes elevated. Outcomes on the incidence of leg ulcer recurrence, pain, physical activity and quality of life will be measured.
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 evaluate the safety and efficacy of autologous bone marrow stem cell implantation for the treatment of leg ulcer in adult patients with sickle cell disease.
Lower extremity ulcers pose significant clinical, humanistic and economic burdens on society. Millions of Americans are afflicted with painful, open, draining sores on their lower extremities. These sores are referred to as venous leg ulcerations (VLUs).1-5 Under the best of circumstances these ulcers require weeks or months to heal. Not uncommonly wound care specialists see patients who have suffered for years or faced amputation of the limb as their only option to alleviate the pain. Standard of care will result in healing in 50% of venous leg ulcers in 12 weeks. However, roughly half of patients suffering from venous ulcers will require advanced therapy. Human amniotic membrane replaces the damaged extracellular matrix characteristic of chronic ulcers. In addition, it contains cytokines that may accelerate healing. In clinical practice and recent studies, Dehydrated Human Amniotic Membrane has appeared to be as effective as bioengineered skin products. This RCT is designed to evaluate Amnioband Dehydrated Human Amniotic Membrane in venous leg ulcers.
SANGUINATE™ Sickle Cell Disease associated Leg Ulcers.