View clinical trials related to Diabetic Foot Ulcer.
Filter by:The goal of this multicenter, multi-national, multi-arm, multi-stage, randomized controlled trial, is to determine the added benefit of hyperbaric oxygen treatment (HBOT) in patients with diabetic foot ulcers and peripheral vascular disease. The main question is: - What is the difference is the major amputation rate between the study arms? Participants will be randomized to 20, 30 or 40 sessions of HBOT or a control group.
The goal of this clinical pilot is to collect patient outcome data on a commercially available, keratin-based skin substitute matrix: ProgenaMatrix®. In this trial, two groups of patients with diabetic foot ulcers (DFUs) will be randomized to receive treatment with ProgenaMatrix applied either weekly or bi-weekly to the target wound. Researchers will compare how weekly or bi-weekly application of ProgenaMatrix affects the healing of DFUs. The primary questions to be answered are: 1. How many patients achieve wound closure in 12 weeks with ProgenaMatrix treatment? And 2. What is the change in wound area during the trial in each group?
A randomised controlled investigation comparing the clinical performance and cost effectiveness of Biatain® Silicone with Standard of Care dressing including filler in chronic wounds (CP351 - BISIL Study) This study (BISIL) will compare the Biatain® Silicone dressing to commonly used wound care products (AQUACEL®EXTRATM Hydrofiber® Dressing used with Mepilex® Border). The study will recruit in total 100 adult subjects with a venous leg ulcer or a diabetic foot ulcer no deeper than 2cm. Only ulcers with a duration of at least 8 weeks but no longer than a year will be included. The study will be a randomised controlled trial where half of the participants will use Biatain® Silicone and half will use the comparator for 4 weeks. Each participant will be in the study for 4-5 weeks during which there will be a weekly visit with the study team to complete the study assessments and change the dressing. The study will run for approximately one year, starting in January 2023.
Evaluation of the efficacy (wound epithelialization and time to closure) and tolerance (emergence and nature of adverse event) of the new URGO AWC_008 and URGO AWC_022 dressings in local management of acute and chronic wounds at risk of local infection or with clinical signs of local infection
The goal of this clinical trial is to compare safety and performance of the study device to the current typical NHS standards of care device. The main outcomes it aims to achieve are: Complete wound healing at 12 weeks (100% epithelialised) % Reduction in wound area at 12 weeks Participants will attend their NHS podiatry clinic appointment as normal and will be assigned either the study device or the current typical NHS standard of care device. Researchers will compare the study device group to the standard group to assess the outcomes mentioned previously.
The purpose of this clinical trial is to evaluate the safety and effectiveness of the treatment with the COMS One device in subjects with refractory diabetic foot ulcers (DFUs). The prospective randomized, double-blinded, sham-controlled trial is designed to demonstrate superiority of wound closure of the COMS One device to a sham-control device at 12 weeks post-application, when each is administered in conjunction with standard of care (SOC) in the treatment of DFUs.
The aim of this clinical investigation is to collect skin lesion area data for the comparison of the agreement among the results obtained between the following three wound area measurement methods: - Ruler using the Kundin method, - Investigational software Clinicgram Euclides - Digital planimetry with Adobe Photoshop The clinical data retrieved in this study will allow the clinical validation of the safety and safety of the investigation software Clinicgram Euclides.
TTT is a novel surgical technique that may potentially solve the long-standing deficit of seeking effective treatment for diabetic foot ulcers, decreasing the need for amputations and softening the socio-economic impact it brings. This trial will be the world's first prospective RCT to verify the promising clinical studies on the clinical benefit of TTT in treating diabetic foot ulcers. In addition, blood samples from this study will allow us to study the various systemic circulating soluble factors in relation to neovascularisation, immunomodulation, and stem cell mobilisation. By taking the blood and various time points, we will better understand the complex interplay between various biomarkers. This GRF will allow us to obtain tissue samples to analyse the histological cellular changes after TTT surgery. It will provide us with more insight on how TTT works, as well as potentially helping us pinpoint the important changes and timeframes related to this intervention. The PI, Co-Is and collaborators create a strong team of clinicians and scientists with a solid clinical and basic science track record. The team has published guidelines and surgical techniques in TTT and run several training cadaveric workshops teaching the TTT surgical technique to local orthopaedic surgeons. The team has also established a rat TTT model and published on TTT immunomodulation and neovascularisation in addition to other ongoing mechanistic experiments in animals. This prospective multi-centre randomised controlled trial may act as the foundation for launching this cost-effective TTT surgery to regulate neovascularisation, neurogenesis, immunomodulation and mobilisation of MSCs for the treatment of various chronic conditions. Regenerative medicine is a multi-million dollar industry, and the potential use of TTT can result in a range of clinical applications not limited to DFUs.
A Prospective, Non-Randomized, Multi-Center Observational Study To determine the safety and effectiveness of InnovaMatrix AC porcine placental ECM therapy for the treatment of chronic, non-healing diabetic foot ulcers (DFUs) Eligible subjects will be treated with a weekly application of sterilized, porcine placental ECM followed by standard of care wound therapy and offloading
Stain Analysis Mapping of the Plantar surface (STAMP) is a method designed by the University of Leeds to measure 'in-shoe' strain patterns on the plantar surface of the foot. Shear Load Inductive Plantar Sensing (SLIPS) is an insole designed by the University of Leeds to measure plantar shear stress and plantar pressure. This study aims to compare plantar strain using STAMP and plantar shear stress and plantar pressure using SLIPS in two groups of patients with diabetes; high risk patients with a recently healed plantar ulcer and low risk patients (according to the NICE definition).