View clinical trials related to Diabetic Foot Ulcer.
Filter by:The TriO FITT device is designed to improve the symptoms of chronic diabetic ulcers. The mechanism of action of the device optimizes and combines the administration known supproting treatments to chronic diabetic ulcers. The treatment is astimated to improve the wound conditions of acute and chronic diabetic wounds.
Background: People with diabetes and either current or previous diabetic foot ulcer disease (DFUD) are at very high risk for adverse cardiovascular events including heart attacks and strokes. Sodium-glucose co-transporter 2 (SGLT2) inhibitors are a class of medications that have shown to be very effective in reducing heart disease and event risk. However, one recent study found that SGLT2i's may increase minor amputation risk in those with DFUD, though this finding has not been replicated in other similar studies. However, as a result, there has been limited further investigation into this issue and as such the use of SGLT2i's in those with DFUD remains a contentious issue, despite their potential for significantly reducing cardiovascular disease risk in this population. In the absence of further randomised controlled trials investigating the use of SGLT2is in these populations, there is a need for clinical guidelines advising on their use based on expert clinical consensus, including specific criteria or scenarios in which they should or should not be used. The Delphi methodology is an iterative survey technique that uses expert opinion from various relevant backgrounds and experiences to generate a consensus based upon various statements and/or scenarios. Aim: The aim of this study is to use the Delphi technique to generate expert consensus-based clinical guidelines on the use of SGLT2i's in those with diabetes and DFUD. Methods: This is a Delphi technique-based study using a purposive sample of convenience. Consensus development methods will be used to generate clinical guidelines, endorsed by key clinical groups, on the use of SGLT2i's in patients with diabetic foot ulcer disease, including acknowledgement of specific scenarios or patient characteristics that may influence these guidelines. The consensus group will consist of n=20 healthcare practitioners, including GPs, secondary care diabetologists, foot care specialists, cardiologists and pharmacists in order to ensure a breadth of expertise and input. Two rounds of the Delphi consensus process will take place, in order to iteratively develop the consensus-based clinical guidelines. This process is expected to take 4-6 months. The analysis will be on-going throughout the study and completed within 3 months of the last questionnaire round of the Delphi process.
Despite conflicting and contradictory evidence regarding its efficacy, some wound care centres have advocated and adopted ozone for treating DFU. However, there are gaps in the application of topical ozone therapy. Reported no significant impact on the healing process of DFU, and not all said that topical ozone can enhance the healing process. This study aimed to compare the efficacy of topical ozone therapy in conjunction with standard wound care versus routine wound care alone in treating DFU. The wound, ischemia, and foot infection (WIFI) scale was used to measure wound size, the tissue survival rate at DFU, infection, peripheral microcirculation, glycemic control, Hba1c control, and wound healing.
The investigator team will study the adherence of the participant cohort to a non significant risk device over a six month period. The device is a foot mat, which can detect changes in foot temperature that may predict foot ulceration in patients with diabetes mellitus. This mat, the Podimetrics Smart Mat, is FDA cleared.
The primary aim of this study is to demonstrate the impact of the Orpyx® SI Sensory Insoles (Orpyx Medical Technologies Inc., Calgary AB, Canada) ("Orpyx" or "the Company") as an adjunct to the standard of care (SOC), as compared to SOC alone, on reducing plantar ulceration incidence in individuals who are at risk for developing diabetic foot complications. The secondary aims of this study are to evaluate participant quality of life, participant engagement, and economic impact, including cost-effectiveness and cost-utility. The study will also use the unique data set collected (plantar pressure, temperature, step count, movement and adherence feedback) to identify foot-loading histories that either lead to or prevent the development of ulceration in the diabetic foot.
This Phase 3 study is a randomized, double-blind, vehicle-controlled, multiple-center, parallel study to evaluate efficacy and safety of ENERGI-F703 GEL compared with vehicle control in subjects with Wagner Grade 1 to Grade 2 diabetic foot ulcers. Baseline target ulcer size (<16 cm2 vs ≥16 cm2 ) will be included as a stratification factor. Subjects will be randomized 1:1 to receive ENERGI-F703 GEL or vehicle control using an interactive web response system for randomization to automatically assign a unique subject randomization number. Total duration of the study will be up to 31 weeks including Screening visit (approximately 2 to 3 weeks), double-blind dosing/observation phase (16 weeks), and a safety follow-up of 12 weeks after the last administration of study treatment.
The goal of this clinical trial is to find out the changes in peak pressure and pressure-time integral after twelve weeks from the initial utility of foot insoles and eight weeks later as a follow-up in diabetic foot ulcers. Participants will be randomly assigned to foot insole, medication, and wound care (study group) or medication and wound care (control group).
A clinical trial will be carried out comparing the efficacy of PICO system based on negative pressure therapy (NPT) in adults with chronic ulcers compared to conventional treatments.
Diabetes is a serious and chronic disease that affects more than 347 million people in the world. It is the leading cause of death by age and its prevalence is increasing annually throughout the world. Diabetes is a disorder that manifests itself with elevated blood glucose levels that may be the resultof a deficiency in insulin secretion or action, or a combination of both problems. The "Diabetic foot" includes a number of syndromes in which the interaction of the loss of protective sensation by the presence of sensory neuropathy, the change in pressure points due to motor neuropathy, autonomic dysfunction and decreased Blood flow due to peripheral vascular disease can lead to the appearance of injuries or ulcers induced by minor traumas that go "unnoticed." This situation leads to significant morbidity and a high risk of amputation. It can be prevented with the application of prevention programs, based on the early detection of neuropathy, assessment of associated risk factors, along with the application of a structured program of education and treatment of risk factors. PRIMARY OBJECTIVES: 1- Comparison of ulceration rates, decrease in amputation rates in the target population with intervention: LSCI, thermography and creation of personalized insoles versus the control group with assessment, treatment and follow-up, without the intervention of interest in the study. 2- Correlation between changes in perfusion and temperature detected in combination of LSCI and thermography to predict diabetic foot ulcers and the risk of having ulcers. Study Model: Parallel Assignment 1:1 . Patients with inclusion criteria and without exclusion criteria will be randomized into two groups with Randomization with sequence concealment, centralized in computer support. OxMaR (Oxford Minimization and Randomization) After signing the informed consent, the patients will be divided into two groups. Number of Arms 2 Masking: None (Open Label) A-GROUP WITH LSCI, 3D FOOT CREATOR FOLLOW UP B- GROUP WITHOUT LSCI, 3D FOOT CREATOR FOLLOW UP.
One of the common complications of diabetes mellitus (DM) is Diabetic Foot Ulcer (DFU), which can subsequently lead to infections, gangrene, amputation or even death, if necessary care is not taken to curb with the condition. Despite the rapid advancements in the medical industry, diabetic foot ulcer (DFU) is considered as a major factor of morbidity and a leading cause of hospitalizations among diabetic patients. The risk of ulcer progression that may ultimately lead to amputation is elevated upon the development of DFU. It is estimated that DFU contributes approximately 50-70% of all lower limb amputations. In addition to rendering emotional and physical distress, DFU is also responsible for causing productivity and financial losses that lower the quality of life. The economic burden of the patients is further aggravated by the medical expenditure involved in the healing of DFU and/or lower extremity amputation. This study focuses on usage of a modern primary wound dressing in managing diabetic foot ulcer. The primary dressing used in this study is an activated carbon cloth dressing, which is applied directly to the wound bed and the "holes" in the net give access to the activated carbon which is made up of millions of micropores and within the walls of these micro pores, there is presence of electrostatic forces known as Van der Waals forces, which helps to trap and kill microorganisms such as MRSA and Pseudomonas aeruginosa. In addition, the dressings can regulate matrix metalloproteinases (MMPs) which are responsible for prolonged inflammation in chronic wounds like diabetic foot ulcers, and able to promote fibroblast migration and accelerate granulation tissue growth via its conductivity.