Active clinical trials for "Diabetic Foot"

This study is for Type I or Type II diabetic subjects with with a diabetic foot ulcer. The study is being done to determine if Nexagon® plus standard of care is more effective than placebo plus standard of care. Standard of care will include debridement of the ulcer, standardized dressings and standardized off-loading using a Removable Cast Walker.

This is an open-label, active-control, multicentre, parallel group, randomised and dose-finding efficacy and safety study. Compare the efficacy and safety of BioChaperone PDGF-BB applied at 12.5 µg/cm² every two days for up to 20 weeks to becaplermin gel (Regranex® Gel 0.01%) applied daily for up to 20 weeks for the treatment of neuropathic diabetic foot ulcer. Assess the effect of a double dose of BioChaperone PDGF-BB (25 µg/cm²) applied every two days for up to 20 weeks.

Diabetic foot ulcers (DFU) are one of the chronic consequences of diabetes which constitute the most important cause of non-traumatic amputation of the inferior limbs. Patients with diabetes are 22 times more likely to have foot ulceration or gangrene than nondiabetics，while foot ulceration precedes 85% of lower-extremity amputation. Three factors combine to promote tissue necrosis in diabetic feet: ischemia, neuropathy and trauma. Among them, ischemia peripheral arterial disease may play the important roles in the development of DFU. Moreover, diffuse vascular disease is the main characteristics, and thus it becomes difficult for treatment by using arterial bypass or balloon angioplasty. Therefore, we hypothesized that continuous arterial thrombolysis may be an effective therapy in diabetic foot. The purpose of this study is to investigate the effectiveness and safety of continuous intra-femoral artery injection of urokinase by micro-artery-pump in diabetic ulcers.

Objective: To compare the effect and safety of autologous transplantation of bone marrow mesenchymal stem cells(MSCs) and mononuclear cells(MNCs) on Diabetic patients with Critical Limb Ischemia and Foot Ulcer. Methods: patients were randomized into the A group and the B group by use of a randomization table. One lower limb in A group or in B group was selected randomly for MSCs or MNCs transplantation as MSCs or MNCs group, the other lower limb in the same patient was selected for placebo（normal saline ,NS）injection as NS group. The whole procedures of this clinical trial were blinded to both patients and investigators.Patients in both groups received the same ordinary treatment. Meanwhile, MSCs and MNCs were transplanted into the impaired lower limbs respectively. Follow-up index include: efficacy (pain,ulcer healing rate, lower limb amputation rate and ,ankle-brachial index,Transcutaneous oxygen pressure,magnetic resonance angiography) and safety (infection of the injection site, immunological rejection, and tumour generation).

Diabetes Mellitus constitutes one of the most important public health problems due to its high prevalence and enormous social and economic consequences. Diabetic foot ulcers are one of the chronic complications of diabetes mellitus and constitute the most important cause of non-traumatic amputation of inferior limbs. It is estimated that 15% of diabetic population will develop an ulcer sometime in their life. Although novel therapies have been proposed, there is no effective treatment for this pathology. Naturally produced nitric oxide participates in the wound healing process by stimulating the synthesis of collagen, triggering the release of chemotactic cytokines, increasing blood vessels permeability, promoting angiogenic activity, stimulating the release of epidermal growth factors, and by interfering with the bacterial mitochondrial respiratory chain. Topically administered nitric oxide has demonstrated to be effective and safe for the treatment of chronic ulcers secondary to cutaneous leishmaniasis. However, due to their unstable nitric oxide release, the topical donors needed to be applied frequently, diminishing the adherence to the treatment. This difficulty has led to the development of a multilayer polymeric transdermal patch produced by electrospinning technique that guarantees a constant nitric oxide release. The main objective of this study is to evaluate the effectiveness and safety of this novel nitric oxide releasing wound dressing for the treatment of diabetic foot ulcers. A double-blind, placebo-controlled clinical trial, including 100 diabetic patients was designed. At the time of enrollment, a complete medical evaluation and laboratory tests will be performed, and those patients who meet the inclusion criteria randomly assigned to one of two groups. During 90 days group 1 will receive active patches and group 2 placebo patches. The patients will be seen by the research group at least every two weeks until the healing of the ulcer or the end of the treatment. During each visit the healing process of the ulcer, the patient's health status and the presence of adverse events will be assessed. Should the effectiveness of the patches be demonstrated an alternative treatment would then be available to patients.

This study will compare the efficacy, safety and tolerability of intravenous ertapenem versus another intravenous antibiotic in the treatment of moderate to severe diabetic foot infections.

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 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.

The primary objective of this post market clinical follow-up (PMCF) investigation is to confirm the safety and performance of Avance®Solo and Avance®Solo Adapt NPWT Systems in low to moderate exuding chronic wounds when used in accordance with the Instructions for Use, for up to 28 days.

In chronic diabetic foot ulcer, if the conventional dressing fails, new therapeutic options such as recombinant human growth factors and bioengineered skin substitutes may be beneficial, but the cost is a limiting factor. Autologous platelet rich plasma is a cost-effective method that enhances wound healing by promoting the healing process by local release of growth factors.