View clinical trials related to Diabetic Foot.
Filter by:The objective of this single-arm feasibility study is to investigate the safety and impact of the topical EPC Silver Wound Gel (EPC-123) in the management of diabetic foot ulcer wounds not progressing under the current standard of care.
The ageing population and the increase in diabetes raise the prevalence of chronic skin ulcers (CCU). In diabetics, precursor cell mobilization decreases. In wounds, the inflammation is prolonged and oxidative stress increases. This is an unfavorable microenvironment for healing. A major risk factor in the development of CCU is nutritional deficiency. Healing needs energy and nutrients for regeneration. In diabetics the malnutrition can be more than 60%. However, although the provision of certain nutrients can improve the healing capacity, it is not a common clinical practice to nutritionally evaluate diabetic with CCU. Exosomes are extracellular vesicles that reflect the physiological state of the cells producing them. Stem cell derivatives exosomes are rich in factors, that can provide a favorable microenvironment for tissue regeneration. The aim of this project is to develop a therapeutic process to accelerate the healing of diabetic CCU, based on the correction of nutritional deficiencies, to improve the regenerative capacity, together with the application of exosomes from mesenchymal stem-cell (MSC) in the wound, creating a microenvironment that favors tissue regeneration. For this, a pilot clinical trial with diabetic patients with CCU is proposed, to evaluate the effect of personalized nutritional supplementation on healing and regenerative capacity.
Preventing foot ulcers in people with diabetes can reduce costs and increase quality of life. Despite availability of various interventions to prevent foot ulcers, recurrence rates remain high. We hypothesise that a multimodal approach incorporating a variety of orthotic interventions that matches an individual person's need can reduce ulcer recurrence with beneficial cost-effectiveness and cost-utility.
Diabetes is a highly prevalent chronic disease that affects a large part of the world's population. Among the most costly complications is the diabetic foot ulcer, where its decompensation can result in limb amputation, a risk 10 to 20 times more frequent for diabetic population. Two underlying pathophysiological mechanisms are mainly identified: neuropathy and problems associated with vasculature and blood supply, in addition to the incidence of infections, which further impairs prognosis. Skin regeneration involves several overlapping and consecutive stages, which in the case of a diabetic patient are altered. Although healing protocols have been significantly improved at the country level, and there is also a large amount of medical supplies for treatment of these wounds, there are still patients with ulcers refractory to this care that end in amputation. In response to this, new treatments have emerged that use biomaterials and cells of the patient himself, which attempt to emulate the architecture and functionality of normal tissue. Cell therapy has gained strength in recent years, with more and more studies indicating the positive effect of cell application on healing of chronic wounds with underlying pathologies, such as diabetes. The product to be evaluated corresponds to a combined medical device, which conveys a cellular therapy, known as InbioDerm+C. The purpose of this Phase II clinical study is to determine whether InbioDerm+C treatment plus advanced healing is equal to or superior to advanced healing in a diabetic population with Wagner II grade foot ulcer treated in Villa Alemana primary care family centers, Las Américas, Juan Bautista Bravo Vega and Eduardo Frei.
The main purpose of this study is to assess the efficacy of flexor tenotomy on the prevention of recurrence of toe ulcers in people with diabetes and a history of toe ulceration. Additionally, the investigators aim to assess interphalangeal joints (IPJ) and metatarsophalangeal joint (MTPJ) angles in a weight-bearing and non-weight-bearing position, bare-foot plantar pressure during walking and quality of life before and after the intervention and compare between study groups.
The purpose of this study is to collect thermal images of diabetic patients' feet to evaluate the performance of Feetsee - foot monitoring device for periodic evaluation of the temperature over the soles of the feet for signs of inflammation.
Randomized multisite two arms study in which one arm of patients will be treated with Negative Pressure Wound Therapy (NPWT) known also as Vacuum-assisted closure (VAC) treatment ("VAC Arm") and the second arm of patients will be treated with MedCu wound dressings with copper oxide (COD) ("Copper Arm"). The study goals are to compare the efficacy, cost and convenience between MedCu Wound Dressings with Copper Oxide (COD) and Negative Pressure Wound Therapy of diabetic foot wounds.
This project directly addresses the escalating national rate of major (above-ankle) amputations due to diabetic foot ulcers; it focuses on rural patients, who face 37% higher odds of major amputation compared to their urban counterparts. The project pilots the first integrated care model adapted to rural settings, an approach that has reduced major amputations in urban settings by approximately 40%. Pilot data will be used to improve recruitment and retention strategies and provide preliminary evidence of efficacy needed to conduct a robust, statewide efficacy trial.
This study is a multi-center, prospective trial designed to evaluate the use of HaM in Wagner grade 1 and 2 DFUs. After screening, subjects are treated with weekly application of HaM and SOC for 8 weeks followed by SOC alone for the remainder of the 12-week trial period. The standard of care in this study consists of offloading of the DFU using a total contact cast or fixed ankle walker, sharp debridement, infection management with the use of antiseptics and proper moisture balance.
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.