View clinical trials related to Diabetic Foot Ulcer.
Filter by:This is a prospective, multi-national, multi-centre, randomized, non-blinded (photo evaluation is blinded), controlled clinical investigation in patients suffering from diabetic wounds reaching to tendon, bone, or joint. Patients will be randomised to received intact fish skin (Kerecis™ Omega3 Wound) plus standard of care or standard of care alone, and wound healing compared over 16 weeks.
Prospective interventional follow-up of diabetic foot surgery patients, their metabolic/nutritional profile, and the nutritional adequacy in the perioperative setting. Primary objective: to establish the preoperative metabolic profile of diabetic patients scheduled for foot surgery and determine the postoperative nutritional status. The daily values of caloric intake compared to caloric need and protein intake compared to protein need will be evaluated as primary endpoint. [Actual daily caloric and protein intake is compared to the calculated need.] These values will each be presented as relative %. Wound healing is an anabolic process that requires ample access to nutrients. Insulin is considered the main anabolic hormone of the body, and regulates the metabolism of carbohydrates, fats and proteins. Diabetic patients lack this very hormone, and in addition are required to follow a strict dietary regime that further limits caloric and protein intake. Very little research had been done to evaluate the role of malnutrition in delayed wound healing. Overall: What is the metabolic/nutritional profile of a diabetes patient with foot wounds undergoing surgery? Is the intake of proteins and caloric adequate in the perioperative setting and are nutritional goals met? Is there a possibility for iatrogenic malnutrition? What kind of nutrition would possibly be useful to optimize intake?
Diabetes mellitus (DM) is currently an important cause of morbidity and mortality. Global estimates indicate that 382 million people live with diabetes (8.3%), and that number could reach 592 million in 2035. The diabetic foot ulcers (DFU) present as sore wounds with disintegration of the skin. The DFU affect 15% of diabetic patients. Several studies have been conducted aiming to find therapeutic strategies for the healing of DFU, among the reported therapeutic methods the Low-level Laser Therapy (LLLT) has been highlighted. The aim of this study is to investigate the effects of different doses of LLLT in the treatment of DFU. Methods: This study is characterized as a double-blind randomized clinical trial (RCT), consisting of four groups, the control group will have only dressing and placebo LLLT application and the other three groups will have dressing and real LLLT GaAs 904 nm application. Expected outcomes: to elucidate the effects of different doses of LLLT GaAs 904 nm on the treatment of DFU, beyond to identify the most effective dose.
This study will investigate the clinical efficacy of micro water jet technology in the debridement and healing of chronic lower extremity ulcers.
The Investigators plan to evaluate healing in two cohorts of patients with diabetic foot wounds (n=20) that receive optimal treatment including serial wound debridement and off-loading with a boot or postop shoe and AmnioEXCEL+. In one cohort, AmnioEXCEL+ will be applied weekly at study visits and in the second cohort, AmnioEXCEL+ will be applied maximum every 2 weeks (PRN, in the case that the wound requires debridement at a visit not intended for AE+ application, the wound will be treated as SOC). In addition, the Investigators will collect data on other potential confounding factors that could affect healing such as antibiotic, anti-fungal and anti-infective medications, tobacco, comorbidities, diabetes control, infection, perfusion, and activity. Wound healing, including wound size and adverse events will be evaluated.
Data will be collected with 3 vascular imaging devices (IntraOx Vioptix, Newark, CA; Hyperview, HyperMed Imaging, Memphis, TN; Snapshot NIH, Kent Imaging, Calgary, Alberta, Canada). The wound will be imaged with the 3 devices at index research encounter (this will count as the initial pre-operative imaging if the patient requires surgery), before surgery for interval or additional surgeries, during surgery, and during clinic follow-up (one set of imaging approximately every 3-5 weeks) visits for a maximum follow up time of 12 months or until the wound is documented as healed, whichever occurs first. The investigators will collect data from the medial and lateral angiosomes on the dorsum and plantar aspects of the foot and the anterior and posterior leg. Subject data will be obtained from the patient by oral history and physical exam and the medical records of patients of the investigators: vascular data, demographic medical history, wound characteristics and measurements, frequency of debridement and off-loading. Collection of lab data will be obtained such as cultures glycosylated hemoglobin, hemoglobin and hematocrit, ESR, CRP and eGFR obtained per standard of care. Imaging with the three devices is research-only and is not standard of care.
The purpose of this study is to evaluate the effectiveness of Vaporous Hyperoxia Therapy (VHT) for the treatment of Diabetic Foot Ulcers.
To determine the effectiveness, compliance, patient tolerance, ease of use and safety of total contact soft cast in diabetic foot ulcers.
This study will compare the Omeza® Products Bundle to standard of care (SOC) for in subjects with chronic venous leg ulcers and subjects with diabetic foot ulcers.
Type 1 and Type 2 diabetic patients with diabetic foot ulcer will be recruited and screened for participation in the study. Eligible patients will be randomized 1:1 to either experimental or control group and undergo 10-weeks of treatment (as an addition to standard care) and 4 weeks of follow-up to evaluate the effect of chitosan gel on chronic wound (diabetic foot ulcer) healing.