View clinical trials related to Diabetic Foot.
Filter by:This project is based on investigator team's ten year experience on diabetic ulcer and goes on further developing basic research and concluding clinical experience. The investigator team has recently developed "Remove stasis to generate granulation tissue" into "Remove slough to generate granulation tissue". Investigators have applied the principle of "Remove stasis" in the medium and later stage of treatment to make "Remove slough-Eliminate stasis-Generate granulation tissue" become the basic principle of three-stage sequential treatment. Investigators will further conclude Chinese medicine therapy in the stage of "Qing-Hua-Bu" and evaluate safety, applicability and availability of it. Therefore, the research can help improve clinical diagnosis and treatment technique and transfer the study result of Chinese medicine experience on diabetic ulcer.
In this study the investigators are testing a device that may help us tell how well the participants' wound is healing. This device is called the MIMOSA, and it shines different "colours" of light on the participants' skin. It will not touch the participants' skin, or change how the participants' wound is healing. The MIMOSA is designed to be used alongside the camera that is built into the participants' cell phone, and the investigators will use a cell phone to take a picture of the participants' skin. This picture will tell us how much oxygen is getting to the participants' wound, which can tell us more about how the participants are healing. The MIMOSA device is an experimental diagnostic tool, and will not influence how the participants' wound is healing.
The study aims to investigate if combined modulated ultrasound and electric current stimulation (CUSECS) is an effective adjunctive treatment to use to treat diabetic foot ulcers when compared against usual care. Consenting patients with diabetic foot ulcers (DFUS) and meet the inclusion criteria will be randomly allocated in to either an experimental group or a control group. The experimental group will receive the adjunctive CUSECS treatment along their usual treatment for their diabetic ulcer. They will be required to attend the Diabetic Foot clinic in St. James's hospital twice a week for a maximum of eight weeks. The CUSECS is provided by attaching small electrodes around the ulcers to provide electric current stimulation. A probe is used on the ulcers to provide the ultrasound waves. Both aiming to increase the blood flow to an area to increase wound healing. The control group will be required to attend the diabetic foot clinic for their usual care for their diabetic foot ulcer once a week for a maximum for eight weeks. Once a week both groups ulcers will be assessed and measured and a photograph solely of the wound will be taken for documentation of wound healing. Wound pain as determined using the 0-10 Numeric pain rating scale will also be measured once a week. The movement in participant's ankle will be measured (flexion, extension, inversion) at the start and at the end of the study to see if treatment has improved its movement. As part of this study participants' will also be requested to fill out a SF-36 questionnaire at the start and at the end of the 8 week trial. This questionnaire evaluates a person's health related quality of life in which the research wants to see if it is affected by a diabetic foot ulcer. The self-efficacy of participants will also be assessed using PROMIS® Item Bank v.1.0 - General Self-Efficacy at the start and at the end of the 8 week trial. The cost of treatment for each arm will be calculated taking into account both direct (cost of treatments, consumables etc.) and indirect costs (loss of earnings, travel, parking etc.). Therefore, as part of this study, participants will be asked about mode of transport and transport time to and from the clinic and if their diabetic foot ulcer has affected their ability to work. Diabetic foot ulcer reoccurrence rates will be monitored in both groups by a follow up appointment 4 weeks after each group completes treatment or monitoring. Data from both groups will be examined and compared to see if CUSECS is effective in healing DFUs. The primary outcome of interest is wound healing and is determined by the number of wounds healed and the time to complete wound healing within eight weeks. All data will be stored confidentially. The study hypothesis is that there is be increased healing rates in subjects treated with CUSECS in combination with standard care compared to those treated with standard care alone. This study aims to provide evidence for continuing improvement in treatment for those suffering with diabetic foot ulcers.
100 consenting subjects with Texas grade 1a diabetic foot ulcers will be randomized to surgical offloading or non-operative offloading.
This study will assess the efficacy of application of stem cell in healing of chronic diabetic foot ulcer
Diabetic patients suffering diabetic foot disease have sever comorbidities, as hypertension, ischemic heart disease, autonomic neuropathy, infections and gastric reflux all of which contribute to a high risk profile for anesthesia. failure rate associated with ankle or popliteal nerve block may be higher than accepted, the study hypothesized that combined ankle and popliteal block may increase the success rate with no added complications.
Diabetic foot ulcer (DFU) is one of the most invalidating complication of diabetes and represents a big economic burden for the society. No specific therapy is available for diabetic foot ulcers.The aim of this study is to define a new approach for treatment of chronic diabetic wounds. Our concept is based on the improvement of the cellular reaction to hypoxia. It will address the transcriptional factor HIF-1 (Hypoxia inducible factor-1) which is the cellular sensor for oxygen and which is specifically repressed by hyperglycemia. The study will investigate the effect of local deferoxamine (0.66 mg/ml), the only known HIF-1 inducer, on the wound healing rate in patients with neuropathic diabetic foot ulcers. The primary objective of the study will be the reduction with >50% of the wound area after 12 weeks of treatment.
The intent of this clinical study is to evaluate the safety of the injection composed of autologous bone marrow derived endothelial cells (BM-ECs) and platelet-rich plasma extract (PRPE) for the treatment of critical limb ischemia.
The goal of this study is to evaluate the safety and efficacy of using mesenchymal stromal cell derivatives (dac-MSCs) in the treatment of chronic diabetic foot ulcers (type 1 and 2) in adults. A third of the participants will receive dac-MSCs and Triticum vulgare (Fitostimoline) in combination, the other third MSCs and Fitostimoline in combination, and the last third only Fitosimoline. This study will be a randomized, blind, and parallel and controlled-group trial.
Diabetic foot ulcer (DFU) is a major complication and the leading cause of hospitalization among people with diabetes mellitus. It occurs in 15% of all patients with diabetes and precedes 84% of all lower leg amputations. Despite many therapeutic advances over the past decades, including dressings (hydrocolloids, alginate, skin substitutes) and growth factors, healing rates of DFU remain low. Mechanisms of faulty wound healing in diabetic patients are complex, related to both intrinsic and extrinsic factors. The main reasons for impaired healing appears to be: 1/exhaustion of local cell populations that promote wound healing; 2/excessive production of matrix metalloproteases (MMPs) coupled with reduced expression of the tissue inhibitors of MMPs; 3/impaired neovascularisation coupled with reduced numbers of endothelial progenitor cells and impairment of their functioning. These imbalances may result in excessive degradation of extracellular matrix components, as well as an inappropriate local inflammatory response . Adipose-derived stroma vascular fraction provides a rich and easily accessible source of autologous cells for regenerative medicine applications. Il contains multipotent stem cells and progenitors called adipose-derived regenerative cells (ADRCs) able to stimulate wound healing. There are attracted to the wound site where they supplement the wound bed with similar cell types, secrete numerous growth factors and cytokines, increase macrophage recruitment, enhance granulation tissue, and improve vascularisation . The reparative capabilities coupled with good safety of ADRCs have been illustrated in a study for treating severe and irreversible radiation-induced lesions, and in a study for treating sclerodactyly in patients with diffuse scleroderma. Numerous case reports showing healing of refractory wounds following treatment with autologous ADRCs have also been reported. Based on these previous reports, the present study aims to assess the efficacy and tolerance of injection of ADRCs for the local treatment of neuropathic or neuro-ischemic DFU.