View clinical trials related to Diabetic Foot Ulcer.
Filter by:Allogenic defibrinated platelet rich plasma lysate will be injected in patients diagnosed with Diabetic Foot Ulcer (DFU).
An open, non-randomised longitudinal study of diabetic foot ulcers receiving standardised treatment, over a 16 week period conducted at out-patient level, utilising novel optical wound measurement technologies.
The purpose of this study is to determine whether amnion membrane grafts are more effective than another tissue engineered skin substitute, when used to treat diabetic foot ulcers (DFUs).
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.
This prospective case series is to gain additional clinical experience in the treatment of diabetic foot ulcers, by documenting and relating patient history (including baseline wound characteristics) and clinical outcomes (incidence of healing, rate of healing, and patient and physician satisfaction) in a group of study participants for whom the ReGenerCell™ Autologous Cell Harvesting Device (ReGenerCell™) is used in combination with conventional therapy for the closure of diabetic foot ulcers (DFUs). Participants will receive ReGenerCell™ treatment in addition to standard care (debridement, cleansing, dressings, offloading).
Diabetic foot ulceration (DFU) is a common and largely preventable complication of diabetes. While most of these ulcers can be treated successfully, some will persist and become infected. Ultimately, nearly one fifth of patients with infected lower-extremity diabetic ulcers will require amputation of the affected limb, resulting in staggering costs for both the patient and the healthcare system. Prevention by identifying people at higher risk is key for better clinical management of such patients. It is not uncommon for patients suffering from diabetes to have concomitant lower extremity edema or venous insufficiency and they subsequently may benefit from graduated compression. However, because of the common association of peripheral arterial disease (PAD) in patients with diabetes, most clinicians are reluctant to apply compressive dressings in fear of exacerbating the symptoms of PAD and possibility of gangrene. A novel low voltage, battery powered medical device, PulseFlow DF® (The Diabetic Boot Company, Ltd. UK) has endeavored to assist in the treatment of Diabetic Foot Ulcers. The device provides hybrid functionality i.e. mobile air bladder pump at plantar arch and offloading boot. The air bladder inflates to 160 mmHg for approx. 1 second then deflates back to atmospheric pressure, allowing the plantar vessels sufficient time to refill. The offloading boot design holds the foot and lower leg in a position that reduces shear and friction forces and provides a reduction in plantar pressure. The PulseFlow DF is designed to record how many hours of blood pumping it has delivered. This data will be downloaded at each clinic visit. The boot cannot pump blood around the participant's foot unless fitted correctly and the battery is charged up overnight. The purpose of this study is to conduct an interventional study study with N=15 diabetic subjects with active foot ulcers to assess whether PulseFlow foot compression device can help improve lower extremity perfusion, whilst improving balance and spatio-temporal parameters of gait. The key goals of the proposed project are to test whether a specially designed compression device can improve lower extremity perfusion, whilst also simultaneously improving the balance and walking performance. Investigators envision the use of this specially designed offloading device with compression capability will help reduce the incidence of diabetic foot ulcers in high-risk diabetic patients. In addition, investigators assumed the proposed device might enhance daily physical activity as well as walking performance. Investigators will conduct a prospective clinical study to validate these hypotheses. Potential changes in walking and spontaneous daily physical activities will be assessed using validated technologies that include walking analyzer system, balance assessment using body worn sensors, and computerized pressure insoles.
To investigate the effect of Dipeptidyl Peptidase 4 Inhibition on wound healing in patients with diabetic foot ulcers, the investigators randomly divided the participants into two groups: saxagliptin with regular treatment group,placebo with regular treatment group. The clinical data are collected at the given time point. This study aimed to observe the potential protective effect of DPP4i on diabetic ulcers.
The study is aimed at comparing debridement either with CO2 laser or traditional surgery in patients with infected diabetic foot ulcers. The principal endpoint is bacterial load immediately after treatment.
This study is designed as a prospective, open-label trial focused on assessing the safety and tolerability of ExpressGraft-C9T1 skin tissue in the treatment of diabetic foot ulcers (DFU). Because the focus is on safety rather than efficacy, a standard of care comparator is not included in this first-in-human study. Targeted enrollment for this study is up to 6 subjects with a confirmed diagnosis of diabetes and who have foot ulcers. Subjects will each receive a single application of ExpressGraft-C9T1 skin tissue on a single identified study DFU following a 10-14 day run-in period. Any subjects requiring additional treatment will receive protocol-defined dressings through Study Treatment Week 12 as necessary. Enrollment will occur with a minimum of one week between each subject.
The purpose of this study is to see whether the use of AMNIOEXCEL® improves healing and reduces the need to cut off all or part of a leg (amputation) in high-risk patients who have diabetes and foot sores (also sometimes called ulcers or wounds).