View clinical trials related to Foot Ulcer.
Filter by:The purpose of this clinical investigation is to assess the safety and performance of Compedica's OptiPulse™ and to collect subject outcome data on the treatment of diabetic foot ulcers (DFU's) versus the standard of care (SOC). OptiPulse™ is designed to enhance blood circulation in the venules and arterioles. Fibracol Plus (or equivalent) is a collagen alginate dressing that is used as the primary dressing. Both products are 510(k) FDA cleared and will be used within the cleared intended use.
This randomized clinical trial will examine the effect of inforatio technique on healing of diabetic foot ulcers (DFUs). Inforatio technique is a novel procedure developed by the research group. The definition of inforatio technique is application of small cuts in wound beds with punch biopsy tools without involving surrounding epithelia. The aim is to initiate an acute inflammatory response that will promote healing of the ulcers.
Diabetic foot ulcers (DFU) are one of the most common reasons for hospitalization of diabetic patients and frequently results in amputation of lower limbs. Of the one million people who undergo non-traumatic leg amputations annually worldwide, 75% are performed on people who have type 2 diabetes (T2DM). The risk of death at 10 years for a diabetic with DFU is twice as high as the risk for a patient without a DFU. The rate of amputation in patients with DFU is 38.4%4. Infection is a common (>50%) complication of DFU. Emerging evidence underscores the significant risk that biofilm infection poses to the non-healing DFU. Biofilms are estimated to account for 60% of chronic wound infections. In the biofilm form, bacteria are in a dormant metabolic state. Thus, standard clinical techniques like the colony forming unit (CFU) assay to detect infection may not detect biofilm infection. Thus, biofilm infection may be viewed as a silent maleficent threat in wound care.
CACIPLIQ20® is currently a class III CE marked medical device available in various European and non-European countries, and currently primarily used in managing hard-to-heal wounds. This study is a prospective and standardized recording of patients' data followed in real-life conditions to appreciate the benefits of a therapeutic strategy including CACIPLIQ20® use. It also aims at collecting data to follow-up the device's efficacy and safety and estimate its cost-effectiveness.
Purpose and significance:With the increasing incidence of Diabetes mellitus (DM), the incidence rate of Diabetic Foot (DF) is raised. DF is a foot infection, ulceration and / or deep tissue destruction caused by nerve abnormalities and varying degrees of vascular lesions in DM patients. The high incidence, disability and mortality rate of DF make it urgent to explore new ways to improve the cure rate, reduce the burden and elevate the quality of life. Previous studies have confirmed that traditional Miao ethic medicine Tangningtongluo(TNTL) can improve the remission rate of diabetes mellitus and diabetic foot disease, but the clinical research evidence is not sufficient. This study aims to provide effective clinical evidence for the treatment of diabetic foot patients with TNTL by observing growth rate of wound, prognosis and outcome. Methods: From September 2021 to March 2023, a total of 80 diabetic foot ulcer patients admitted to Department of Endocrinology and Metabolism at the Affiliated Hospital of Nantong University were recruited. Participants are randomized in a ratio of 1: 1: 1:1 into four treatment groups of 20 participants: (i) standardized western medicine treatment group, (ii) standardized western medicine treatment+TNTL tablet+TNTL cream group , (iii) standardized western medicine treatment+TNTL tablet group, and (iiii) standardized western medicine treatment+TNTL cream group. Treatment with TNTL tablets: the oral administration of TNTL tablets, 4 tablets each time, 3 times a day. Treatment with TNTL cream: topical application of sterile TNTL cream on the wound surface, the dressing is continuously changed according to the wound healing. Anthropometric parameters, serum biochemical index, glycosylated hemoglobin, urinary microalbumin/creatinine ratio, islet-specific autoantibodies(ISAs), fat mass, and islet β-cell function were measured. The healing stage of the wound surface and the growth degree of granulation tissue were graded, and the time required for wound repairing to each healing stage was observed. Type of study: randomized controlled, prospective,intervention study.
202 Diabetic foot ulcers will be cleaned with either Hypochlorous Acid, HClO or Polyhexamethylene biguanide, PHMB twice a week until healed or 24 weeks. Primary objective is to find out if cleaning DFU with HClO is more effective in obtaining complete healing than PHMB.
Prospective, monocentric, pathophysiological study, comparing 3 parallel groups: healthy controls; patients with diabetes and without DFU; patients with diabetes and with DFU. To address secondary objectives, samples from a fourth group will be collected.
The United States Department of Veterans Affairs spends an estimated $1.5 billion a year on healthcare for patients with diabetes. The prevalence and complications of diabetes increase with age. Therefore, with the aging of the US and Veteran populations, there is an expectation of increased healthcare costs associated with treating diabetes and the associated complications of this disorder. One common complication is the diabetic foot ulcer. Diabetic foot ulcers are expensive to treat, can take a long time to heal and result in a decrease in patient quality of life. Patients remain susceptible to developing more foot ulcers over time. The goal of this project is to reduce the time it takes to heal a diabetic foot ulcer, increase the time between episodes of ulceration and improve the quality of life for diabetic foot ulcer patients.
The Biorepository will guide the Diabetic Foot Consortium (DFC) activities for collection and storing biosamples and data from participants enrolled in other current and future DFC research studies.
In this study, a novel placental membrane product Matrion™ (LifeNet Health, Inc., Virginia Beach, VA) will be used as a treatment for subjects with diabetic foot ulcers. Matrion is composed of placental membrane derived from donated human birth tissue containing both the innermost amniotic layer and the outermost chorionic layer, inclusive of the trophoblast layer. Matrion is minimally processed and disinfected using a proprietary decellularization technology and terminally sterilized that safely renders the placental membrane acellular and sterile for its intended surgical applications.