View clinical trials related to Diabetic Foot Ulcer.
Filter by:In participants with diabetic foot ulcers (DFUs), this study will assess complete wound closure by comparing synthetic hybrid-scale fiber matrix (Restrata®) with standard of care. In participants with venous leg ulcers (VLUs), this study will assess complete wound closure by comparing synthetic hybrid-scale fiber matrix (Restrata®) with living cellular skin substitute (Apligraf®)
Prospective, single-blinded, single-center, parallel group, randomized controlled trial (RCT) to assess rate and frequency of wound healing and associated financial savings, when using Medaxis debritom+ versus standard of care as a choice of debridement method, where both arms follow normal wound care practice in use of advanced wound care treatments.
The purpose of the following prospective, randomized, controlled clinical trial is to compare synthetic hybrid-scale fiber matrix (Restrata®, Acera Surgical, Inc.) with standard of care in treating diabetic foot ulcers in human subjects.
This is a pilot case/control clinical study on a group of outpatients with diabetic foot lesions aiming to verify the efficacy and safety of the Blue light photobiomodulation therapy with EmoLED medical device, in addition to standard therapy compared to the standard therapy alone, evaluating the percentage of healed lesions (which have reached complete and lasting re-epithelialization), the evaluation of the healing time and reduction of the ulcerated area during the time of observation, the perception of pain and the quality of life of the enrolled patients. The aim of this study is therefore to determine any differences in outcome between the two groups considered and, in particular, if the therapy of the group being treated is more effective than the standard therapy in terms of percentage of healed lesions, healing time, and reduction of the ulcerated area, pain perception, and quality of life, and is at least as safe in terms of occurrence of adverse events.
The purpose of the PULSE study are the followingL A.To perform post market clinical follow up (PMCF) on safety and efficacy: 1. Safety: To confirm transient short-terms side effects and verify long-term/outstanding risks. 2. Efficacy: To confirm the performance of PLASOMA, i.e. the beneficial effect on bacterial load. B. Determine the effect of PLASOMA on wound surface area. A secondary purpose is to examine the beneficial effects of PLASOMA on wound healing and to perform a health technology assessment (HTA). This clinical study will be an open label two-armed randomized controlled trial (RCT), performed at at least three sites (multi-center) in the Netherlands. The two arms are: 1. Control group: Standard wound care for 12 weeks or until healing, whichever occurs first; 2. Treatment group: Standard wound care + PLASOMA treatment for 12 weeks or until healing, whichever occurs first. The frequency of PLASOMA treatment will be determined by the treating (para)medical professional based on the number of visits they would schedule for the standard wound care at the study site. For all study subjects, the treatment frequency will be at least once per week (in order to have enough treatments for safety evaluation) and should not exceed once per day. Follow up (FU) will be performed at three timepoints for both arms: - FU1: 2 weeks after end treatment period - FU2: 12 weeks after end treatment period - FU3: 12 months after start treatment.
This study will be a multicenter, prospective, open label, one-arm study intended to assess the clinical performance and safety of EX-02 in debridement of lower leg ulcers: Venous Leg Ulcers (VLU) and Diabetic Foot Ulcer (DFU). In addition, the pharmacology effect of EX-02 will be assessed. Lower leg ulcer size between 2 cm2 and 80 cm2 (surface area).
This is a Phase I/IIa trial designed to evaluate topical bacteriophage therapy in patients with diabetic foot ulcers.
The global prevalence of diabetes is on the rise and with it increase in prevalence of diabetic foot ulcers (DFU). These recalcitrant wounds are difficult to manage and pose a heavy economic burden. Photobiomodulation (low-level laser) is used for acceleration of wound healing. The current study is designed to evaluate the effectiveness of B-cure laser, a home-use low-level laser device, for acceleration of diabetic foot ulcer healing over standard treatment
The overarching purpose of this study is to investigate the impact that exercise, as delivered through a medically supervised, outpatient cardiac rehabilitation program, has on the wound healing process in Type 2 diabetics having foot ulcers classified as being Wound, Ischemia, foot Infection (WIfI) stage 2 or lower. The criterion reference measure of diabetic foot ulcer wound healing is be the time required to reach the maturation phase of the wound healing cascade (wound closure without drainage).
The DAPSHealth system employs a predictive technology for prevention of diabetic foot ulcers, and in Real Time, identifies diabetic patients who experience lower extremity trauma and vascular obstruction utilizing the science of temperature trending.