View clinical trials related to Diabetic Foot.
Filter by:The objective of this observational study is to predict healing at 26 weeks after the first visit in patients affected by the first ulcer, by means of combined data monitoring of Laser Speckle Contrast Imaging (LSCI) and temperature measurements during patient visits in hospital. In order to achieve this objective, study aims to produce a logistic regression model and then evaluate its prognostic ability by means of the area under the curve (AUC) of the receiver-operating-characteristics (ROC) curve. Patients with diabetes mellitus and suffering from ulcer and receiving health care will undergo regular microcirculatory measurements including LSCI scans in and around the ulcer location and thermography.
This is a prospective, multicenter, randomized, parallel-group Trial comparing the outcomes associated with the use of AmnioExcel® Plus Placental Allograft Membrane (AmnioExcel® Plus) used in conjunction with Standard of Care (SOC) compared to SOC alone in the management of diabetic foot ulcers (DFUs).
The study evaluates the compliance of patients who suffer from a diabetic foot wound to follow a physical activity program, adapted to their medical condition. This study will aslo evaluate the security of this program, and how it could improve or not the quality of life, the diabet's metabolical balance, and the wounds's cicatrization speed.
A double blind, randomized controlled clinical trial comparing wound closure rates of diabetic foot ulcers (DFUs) in subjects receiving active RIC treatment plus standard of care compared to those receiving sham treatment plus standard of care.
Work Package 1: Observational cohort pilot safety study Work Package 2: Randomised, double-blind, placebo controlled pilot study Work Package 3: Observer-blind pilot RCT
The key purpose of this study is to determine and understand the safety and effectiveness of blue light phototherapy in the treatment and healing of infected diabetic wounds, as well as determining if this treatment is capable of reducing the bacterial population number within infected wounds. The investigators' lab recently discovered that a specific survival protein called catalase can be destroyed through blue light exposure. Given that a majority of bacteria species contains catalase, it is hypothesized that the destruction of this protein can improve the effectiveness of antimicrobial wound dressings commonly used to treat infected diabetic wounds, therefore further reducing the amount of bacteria within the wound and increasing the rate of healing. By reducing the overall bacterial population within these diabetic infected wounds, the ability for these diabetic wounds to heal will be enhanced, allowing for greater reductions in wound size over the course of the treatment. In this study, 40 subjects will be enrolled and randomly assigning subjects to either a control group or a phototherapy receiving experimental group. While control subjects will receive standard weekly debridement treatment procedures for infected diabetic ulcers, experimental subjects will receive standard weekly debridement treatment alongside 2 sessions of phototherapy every week over the course of 12 weeks. Bacterial swab samples will be taken alongside the excised debrided infect tissue for the purpose of bacterial population analysis. For each patient, the changes in total bacterial population, wound size, and subject satisfaction will be recorded and analyzed to determine the effectiveness of pulsed light phototherapy.
The purpose of this study is to evaluate an empowerment-based program. A randomized controlled trial design will be used. From August 2019 to July 2021, 160 subjects will be recruited at a medical center and randomly assigned to the intervention or comparison group. Participants in the intervention group will receive an assessment of their self-care demand and self-efficacy, as well as an empowerment-based program delivered by the project host. The program includes the identification of the problems of participants, clarification of their feelings and the significance of their problems, plan setting discussion, motivation for action, and evaluation of the execution of their plan. Empowerment-based strategies will be provided individually at the following time points: before discharge, on post-discharge days 3, 7, 14, 21, 28, 42, 56, 70, and 84, and at 6, 9, and 12 months post-discharge. Those in the comparison group will receive routine care only. Outcome measures include self-care behaviors, glycemic control (measured by HbA1C), diabetic foot ulcer infection, and diabetic foot ulcer recurrence. Data will be collected at baseline and at 1, 3, 6, and 12 months after discharge.
The investigators plan to enroll up to 750 subjects over the course of 5 years. Study duration will be 2 visits over 7 days (+/-3). Participants will be consented and undergo baseline procedures. Participants will be grouped into 1 of 3 groups, based on infection and antibiotic status at screening. Debridement will be performed per standard of care and collection of tissue will be taken from this discarded tissue. A blood draw will be performed at each of these two visits as well. This is for research purposes only. All other data will be obtained from the electronic medical record. All standard of care except for the blood draws.
The goal of the study is to compare whether an integrated model of care between Foot Wound and Diabetes Clinic with use of remote glucose monitoring technology (Intervention Arm), as compared with usual care without the use of remote glucose monitoring technology (Control Arm), will result in 1) improved glycemic control, 2) improved ulcer and wound healing, 3) improved patient reported outcomes (PROs), 4) reduced long-term healthcare resource utilization, and 5) improved adherence to anti-glycemic therapy for patients with DFUWI and poor glycemic control over the course of a 6-month intervention period.
Diabetic foot ulcers are associated with high risk of amputation. About 50% of patients undergoing non-traumatic lower limb amputations are diabetics5. The 5-year amputation rate is estimated to be 19% with a mean time to amputation 58 months since the onset of an diabetic foot ulcer6.Because infection and tissue hypoxia are the major contributing factors for non-healing diabetic foot ulcers, hyperbaric oxygen therapy (HBO) carries a potential benefit for treating these problematic wounds that do not respond to standard therapy. The role of oxygen in the wound healing cascade and subsequent combatting action against bacterial invasion, especially anaerobes, is well documented.14 Delayed or arrested healing and the development of infection is a direct result from decreased perfusion and poor oxygenation of tissue.15 The presence of wound hypoxia is an major etiological pathway in the development of chronic non-healing diabetic foot ulcers