View clinical trials related to Diabetic Foot.
Filter by:Thirty patients of 18-85 years of age, with 2-30 cm2 pressure ulcers or post-op wounds, will be recruited and treated with either wound dressing containing silver or wound dressings containing copper oxide microparticles. The efficacy of the two types of dressings in reducing the size and improving the condition of the wounds will be compared.
The investigators aimed to elucidate the effects of UAW debridement on cellular proliferation and dermal repair in complicated diabetic foot ulcers as compared to diabetic foot ulcers receiving surgical/sharp wound debridement. A randomized controlled trial was performed involving outpatients with complicated diabetic foot ulcers that either received surgical debridement or UAW debridement every week during a six-week treatment period.
Diabetic Foot Ulceration (DFU) is one of the most common complication of diabetes costing the NHS over £970m annually. Management of foot ulcers is time-consuming and expensive with 45% taking more than six months to heal. Around 25% of patients re-ulcerate in 3 months, 40% within 1 year and 60% within 3 years and patients who have achieved wound closure are generally considered to be in remission rather than healed. A patient presenting with a foot ulcer has a greatly elevated risk of amputation while 80% of amputations can be prevented with the appropriate treatment, such as footwear intervention. ViscoTurf is a novel, 3D printed, orthotic device designed specifically for this purpose. It emulates the function of natural turf to provide cushioning, optimised offloading and better microcirculation on the vulnerable areas of the plantar surface of the foot. This improves perfusion (the delivery of blood to the capillary bed) in the load bearing regions of the foot where the risk of re-ulceration is very high. An earlier feasibility study established proof-of-concept, showing ViscoTurf achieved a higher and longer-lasting increase in perfusion compared to conventional support structures. ViscoTurf insoles can be automatically designed to the foot size and 3D printed. The main purpose of this study is to investigate the immediate effect of walking in Viscoturf insole (Turf-Like insoles) on skin perfusion and pressure at the sole of the foot in diabetic patients with history of ulceration. To achieve this, the immediate efficacy (effect as a result of walking for 15 meters) of Viscoturf insole will be assessed and compared to that of the standard flat insole. Intervention insole will be produced as 3D printed insole with the Turf-Like patches incorporated in the areas of interest, while the Standard Insole will be a standard 3D printed flat with NO Turf-like patches.
The incidence of diabetic foot ulcer recurrence in one year can reach 35%. Plantar foot diabetic foot ulcer is the most frequently diabetic foot ulcer recurrence. The recurrence incidence can occur at least 14 days after the diabetic foot ulcer has healed. Physical activity and exercise are highly recommended for the prevention of diabetic foot ulcers. The study about the form of foot exercise to prevent a diabetic foot ulcer recurrence is still unclear. The major hypothesis was there is an effect of self-structured foot exercise on the plantar foot diabetic ulcer recurrences. The minor hypothesis was (1) The improvement of HbA1c, ABI, diabetic neuropathy examination score, callus, and walking speed can decrease the incidence of plantar foot diabetic ulcer (2) a self-structured foot exercise can decrease the incidence and the speed of incidence plantar doot diabetic ulcer recurrence. Participants were randomized into two groups: Exercise group (n=25) and control group (n=25). The exercise is the combination of flexibility and resistance exercise using a flexible band in 24 weeks. The incidence of plantar diabetic foot ulcers was monitored through the research process.
The study explores the role of health messages (narrative, non-narrative vs. control condition [no message]) to enhance good foot care practices among people with diabetes and the general population.
This non-interventional, single-blinded, prospective, observational study assesses the planar distribution of leukocyte esterase in wounds by placing wound exudates soaked wound dressings in the DETEC® Esterase device during routine wound care. The output of the device is correlated with clinical determination of infection to assess the device efficacy in identifying presumptive infections.
The purpose of this study is to determine the relationship between wound alkalinity and the non-healing status of chronic ulcer wounds. It is hypothesized that wounds with an alkaline environment as indicated by DETEC pH will have a high chance of not healing over 12 weeks of wound care.
The purpose of this study is to determine if use of the Medela Invia Motion NPWT system supports acceptable progress towards the goal of therapy when treating patients with a variety of wound types during the evaluation period.
This is a multi-center observational cohort study of patients with diabetic foot ulcers (DFU) to develop and validate potential tissue-based biomarkers that predict complete wound healing. Eligible and consented participants will begin standard of care treatment after collection of tissue specimens from the wound's edge. An additional tissue specimen is collected at 4 weeks if clinically indicated. Tissues will be tested for c-myc and phosphorylated glucocorticoid receptor (p-GR) levels using validated protocols at a central laboratory. Participants will be followed weekly for up to 12 weeks or until complete wound healing (whichever occurs first). One final assessment 2 weeks after complete wound healing will occur to confirm healing.
This is a follow-up study to evaluate the safety for the subjects with ALLO-ASC-DFU treatment in phase 3 clinical trial (ALLO-ASC-DFU-301) for 24 months