View clinical trials related to Diabetic Foot Ulcer.
Filter by:Remedor has developed a patented technology (RMD-G1), which comprises erythropoietin (EPO) as the active pharmaceutical ingredient (API) in a carbopol-based hydrogel with an FN matrix. RMD-G1 was designed to maintain EPO stability and activity over long periods and to optimize the administration of EPO onto the wound bed. RMD-G1 is indicated for treating DFUs in adult patients with diabetes mellitus and aims to accelerate the healing of diabetic foot ulcers. RMD-G1 is an adjunct treatment, and not a substitute for good diabetic wound care, which includes initial debridement, wound cleansing, pressure relief, and infection control. In this trial, RMD-G1 is applied daily onto a clean wound at 0.25g per sq. cm. wound surface. After its application, the wound will be covered with a dressing in order to prevent leakage of the hydrogel and contamination of the wound area.
The primary purpose of this study is to determine the degree of loss of epidermal nerve fibers near a foot wound in patients with diabetic foot ulcers. The secondary purpose will be to determine whether the degree of epidermal nerve fiber loss, the clinical examination, nerve conduction studies or the molecular profile correlates with appearance of lower extremity ulcers in patients with diabetes.
This project aims to result in the identification of such markers, and the development of a feasible quantitative method of distinguishing between tissue that has the capacity to heal and tissue that does not, thus identifying a non-healing phenotype.
This study evaluated the effect of hyperbaric oxygen therapy (HBOT) on wound healing, inflammation index, glycemic control, amputation rate, survival rate of tissue, bacterial wound cultures, and quality of life (QOL) in diabetic foot ulcer (DFU) patients with diabetes.
The purpose of this study is to evaluate the efficacy, safety and economical benefits of Cyclical Pressure Topical Wound Oxygen (TWO2) Therapy in the treatment of chronic diabetic foot ulcers. Subjects will wear a standardized off-loading device and use advanced moist wound therapy (AMWT) dressings. Following a 2 week run-in period with the standardized care and after meeting all the eligibility criteria, half the subjects will use the TWO2 device, while the other half will use a sham device.
Introduction: Foot ulcers are a feared complication among diabetic patients. The ulcers can cause pain, discomfort and reduced quality of life. The development of foot ulcers places the patients at a risk of amputation. In the Danish Health Care System a substantial effort is done to prevent and treat diabetic foot ulcers. A constant research of how to treat these wounds is ongoing. The goal is to optimize wound healing and prevent amputations. Extracorporeal shockwave therapy (ESWT) involves the use of a device that generates low-energy shockwaves through a headpiece, which is placed on the skin of the patient. A small amount of energy will be deposited in the tissue when shockwaves are applied. This stimulates the cells to produce substances that generate new vessels. No side effects to ESWT have been shown. Purpose: The investigators want to test whether shockwave therapy can improve wound healing among diabetic patients with foot ulcers. Hypothesis: The investigators hypothesize that shockwave therapy accelerates ulcer healing, increases blood flow, reduces pain, and has no side effects. Method: Patients who are interested in participation will be included in the study and divided by randomization into two groups of equal size. The first group is treated with ESWT in combination with regular guideline treatment. The second group is set up as control group and will only receive regular guideline treatment. The participants are examined in different ways to evaluate whether ESWT helps the healing of foot ulcers. The investigators want to measure tissue oxygen pressure and foot sense of touch. The foot ulcers are inspected for infection at every consultation, and a swab sample will be collected at enrollment. The size of the ulcers are measured and photographed each time. The investigators will count how many foot ulcers that are completely healed during the test period and measure the sizes of the remaining foot ulcers. The patients are asked to evaluate pain related to the foot ulcer. Data concerning participants' co morbidities and use of analgesic drugs are obtained from the patient journal and by patient interview. Significance: ESWT should be considered a supplement to existing clinical guidelines in wound management if shown to effectively help healing of diabetic foot ulcers. Improved healing should reduce the heavy workload on care and treatment regarding to these wounds. Hopefully, the frequency of amputations among diabetic patients will decline by implementing new treatment options for the diabetic foot.
The present clinical trial is designed to assess the effectiveness of BioChaperone PDGF-BB applied at 4 µg/cm² every other day for up to 20 weeks and associated to Standard of Care as compared to Standard of Care alone for the treatment of neuropathic and neurovascular diabetic foot ulcers.(In order to ensure the double-blinding of the treatments, a sterile normal saline solution presented in the same multi-dose spray vials than BioChaperone PDGF-BB will be applied on patients of the control group).
Diabetic foot ulcers are the source of considerable suffering and cost and there are currently no wound care products available that have been demonstrated to improve healing, or that are cost effective. There have however been a small number of studies which have examined the use of platelets or fluid derived from platelets, either from the patient's own blood or from blood bank products. These have suggested some promise, but have suffered from technical difficulties in making a suitable wound care product or the volume of blood required to derive the product. It is thought that the reason why they may work is that growth factors released by the platelets may stimulate the wound to heal. This study will be a formal, randomised controlled trial to assess a new device for creating a wound care product which is a plug or patch comprising fibrin, white cells and platelets derived from 18 mls of the patients own blood. The application of this fibrin/white cell/platelet patch to the patients wound on a weekly basis will be compared with usual best care in patients with hard to heal Diabetic Foot Ulcers in a secondary care setting in 25 centres in the United Kingdom, Denmark and Sweden.
Patients have a diabetic foot ulcer that is older than 4 weeks and has been treated with physician-selected standard of care treatment such as debridement, hydrogel or saline irrigation, primary dressing, and offloading will be randomized into one of two groups, the Standard of Care (SoC) or APIC-PRP + SoC. APIC-PRP has high level of platelets that produce growth factors that can help in wound healing.
The primary translational research objective of the study is to demonstrate feasibility of using the Transcutaneous Raman Spectroscopy technology in a point-of-care environment. This study represents an initial evaluation of the device in a small cohort of human patients with diabetic foot ulcers. We will be evaluating safety, device design and certain human engineering factors associated with point of care use of the TRS. We anticipate the data we collect in this study will form the basis of later medical device studies.