View clinical trials related to Foot Ulcer.
Filter by:The aim of this trial is to demonstrate the effectiveness of complete wound healing in a prospective, open-label, randomized trial in which diabetic food ulcers (DFU) will be treated using Aurix plus Usual and Customary Care (UCC) and compared to a group receiving just UCC as provided in up to 100 U.S. wound centers
The goal of the Cellular and Tissue Based Therapy Registry (CTPR) for Wounds is to provide real world patient data from electronic health records submitted to meet Stage 2 Meaningful Use in order to understand the value of these products among patients with chronic wounds and ulcers. Randomized, controlled trials to establish product efficacy routinely exclude patients with the co-morbid conditions common to patients seen in usual clinical practice and thus the results of these RCTs tend to be non-generalizable. Little is known about the effectiveness of CTPs among typical patients.
A prospective, randomized, controlled, clinical study to establish clinical based evidence of PRP Concepts Fibrin Bio-Matrix and compare its performance with the usual and customary practice for the treatment of Wagner 1 or 2 DFUs.
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.
Boron as a naturally occurring element has some metabolic and inflammatory actions. The antibacterial activity against gram negative bacteria is also known. Boron deficiency is shown to be related with impaired wound bone healing in rats. Therefore, special wound care formulas containing boron may have some positive effect on wound healing of the patients with diabetic foot ulcers.
The purpose of the study is to evaluate the effectiveness of a nurse led intervention for high risk patients with diabetic foot ulceration and/or amputation. The effectiveness is defined in two ways 1) as a reduction in complication rates (time till ulceration recurrence, new ulcerations, amputation or reamputation) and 2) as a reduction in hospital readmissions for foot-related complication (one year survival probability: failure = readmission for ulceration recurrence, new ulcerations, amputation or re-amputation).
This study has been designed to help determine how safe and effective DermaPureā¢ may be in treating hard-to-heal diabetic foot ulcers compared to the current standard of care.
Diabetic foot ulcers are deep wounds that occur as a result of nerve damage in the feet (peripheral neuropathy). Amputation is a common consequence of diabetic foot ulcers; approximately 85% of all diabetes-related amputations are caused by foot ulcers. The ulcer treatment is extensive, resource demanding and highly specialized and necessitates involvement of patient, hospital and local in-home care personnel. The 3D photo optic camera project aims at a much more efficient and precise method for diagnosis and treatment of foot ulcers. The Department of Endocrinology and the section for LEAN and Innovation at Odense University Hospital has developed a prototype for a 3D camera that takes pictures and measurements of the ulcer that can provide the basis for correct diagnosis and treatment of the ulcer. The camera was developed in close cooperation with TECCLUSTER A/S, Svendborg Municipality, Team Online and ComMed.
The Sponsor of this study, SANUWAVE, Inc., has developed an investigational device known as the dermaPACE® (Pulsed Acoustic Cellular Expression) device for the possible treatment of diabetic foot ulcers. This device generates acoustic (sound) pressure waves designed to act on the cells in your body to generate proteins that may lead to wound closure. The dermaPACE® device has not been approved for the treatment of diabetic foot ulcers; therefore its use in this study is investigational. The purpose of the study is to evaluate the ability of the dermaPACE® device to help diabetic foot ulcers heal more quickly. The active study device, the dermaPACE®, will be compared to an inactive look-alike device (called a "Sham") in this study. The sham device will not provide any treatment to your diabetic foot ulcer.
The main purpose of this trial is to demonstrate that the new dressing is more effective than the current dressing in the local treatment of chronic foot ulcers in diabetic patients.