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NCT07161830
This study aims to compare two treatment approaches for diabetic foot ulcers (DFUs): the standard of care (SOC) alone versus SOC combined with OCM. Researchers will evaluate whether adding OCM increases the likelihood of ulcers healing completely by the end of the trial period.
NCT05236660
Preventing foot ulcers in people with diabetes can reduce costs and increase quality of life. Despite availability of various interventions to prevent foot ulcers, recurrence rates remain high. We hypothesise that a multimodal approach incorporating a variety of orthotic interventions that matches an individual person's need can reduce ulcer recurrence with beneficial cost-effectiveness and cost-utility.
NCT07572188
The scale, whose validity and reliability were examined in the study, consists of 26 items. The study sample consisted of 202 individuals with diabetes. Data were collected through face-to-face interviews, with approximately 30 minutes allocated to each individual. The study sample included individuals over 18 years of age, diagnosed with diabetes, who spoke, read, and wrote Turkish, and who provided verbal and written consent to participate in the study. Individuals with serious psychiatric diagnoses, cognitive problems that would impede self-expression, and those who wished to withdraw from the study at any stage were excluded from the study sample.
NCT06383013
This is a randomized, double-blinded, vehicle-controlled, parallel, phase II study to evaluate the efficacy and safety of topical BB-101 for the treatment of diabetic lower leg and foot ulcer.
NCT07541196
The goal of this randomized controlled trial is to evaluate the efficacy and safety of a novel hydrogel made of Carbopol® 940 functionalized with Plasma-Activated Water (PAW) in patients with chronic wounds (diabetic foot ulcers, pressure injuries, dehiscent wounds, arterial and venous ulcers). The main questions it aims to answer are: * Does PAW-hydrogel accelerate wound closure (reduction in surface area) compared to standard advanced wound care? * Does PAW-hydrogel reduce bacterial load in the wound bed? * Is PAW-hydrogel safe and well-tolerated (local adverse events, pain)? Participants will be randomly assigned to one of two groups: * Experimental group: Topical application of PAW-hydrogel (Carbopol® 940 neutralized to pH 5.5, loaded with reactive oxygen and nitrogen species from plasma activation) 2-3 times per week. * Control group: Standard advanced wound care (cleaning, debridement, conventional dressings). Wound area (planimetry), bacterial load (semi-quantitative cultures), pain (Visual Analog Scale), tissue quality (Bates-Jensen scale), and adverse events will be assessed over a 12-week follow-up period.
NCT06312579
Foot ulcers and amputations are a common and feared complication for people with diabetes. People with a diabetic foot ulcer have a higher risk of dying within five years than people with diabetes without an ulcer. At least one in four people with a new diabetic foot ulcer will die within five years, largely due to cardiovascular causes. The reasons for this increased mortality involve decreased mobility. People with a recently healed diabetic foot ulcer are considered "in remission" as opposed to "cured" because the underlying medical problems which led to their ulcer are still present. Once in remission, the current standard of care is to slowly increase ambulation. The problem is that people rarely return to the recommended level of mobility. The ability to safely maintain mobility with aging is critical. This pilot study is a small clinical trial to test the feasibility and acceptability of a home-based exercise regimen. The investigators will also assess if this home-based exercise regimen can increase mobility and function without increasing diabetic foot ulcer recurrence by improving lower extremity strength, lower extremity tissue perfusion and glycemic control.
NCT05189470
This randomized clinical trial will examine the effect of inforatio technique on healing of diabetic foot ulcers (DFUs). Inforatio technique is a novel procedure developed by the research group. The definition of inforatio technique is application of small cuts in wound beds with punch biopsy tools without involving surrounding epithelia. The aim is to initiate an acute inflammatory response that will promote healing of the ulcers.
NCT05193929
The purpose of this clinical investigation is to assess the safety and performance of Compedica's OptiPulse™ and to collect subject outcome data on the treatment of diabetic foot ulcers (DFU's) versus the standard of care (SOC). OptiPulse™ is designed to enhance blood circulation in the venules and arterioles. Fibracol Plus (or equivalent) is a collagen alginate dressing that is used as the primary dressing. Both products are 510(k) FDA cleared and will be used within the cleared intended use.
NCT06439667
The purpose of the study is design and use a telemedicine platform which integrates video-chat, pre-programmed interactive game-based foot, and ankle exercise modules, and real-time quantitative performance metrics displayed to the clinician to improve patient's perfusion to the lower extremity, improve diabetic wound healing and prevent muscle loss in the lower extremity.This is a cross sectional and comparative feasibility study. It is designed to explore acceptability, feasibility and proof of concept/ .
NCT07465640
Background: Diabetic foot ulcer (DFU) is a frequent complication of chronic, uncontrolled diabetes mellitus (DM). Treatment with antibiotics, daily dressing, wound debridement, and wound off-loading is often prescribed. However, many DFU patients still progress into severe outcomes, including non-healing of wounds, infections, necrosis, and osteomyelitis. Prior research has shown that the application of pulsating electromagnetic field (PEMF) could accelerate wound healing, including in those afflicted with DFUs. Therefore, this study aimed to evaluate the efficacy of a locally developed CRAD ULCER X-01 device that uses the principles of PEMF in promoting DFU healing. Methods: A total of 32 patients with chronic, non-healing DFUs will be recruited from the Orthopaedic Clinic of Hospital Angkatan Tentera Tuanku Mizan and divided into control (C) (n=8) and treatment (T) (n=24) groups. All patients will receive a standard daily dressing. The PEMF will be supplemented for 1 hour/day, 2 hours/day, and 3 hours/day for T1, T2, and T3 subgroups, respectively (n=8 per group); whereas the C group will be controlled for placebo effect (device in-place but switched off). The therapy duration will be until the wound is closed or for a maximum period of three months. All patients will undergo wound assessment, wound edge tissue histology by haematoxylin and eosin (H\&E) staining, and immunohistology (for vascular endothelial growth factor \[VEGF\] and fibroblast growth factor 2 \[FGF-2\] expression), as well as serum superoxide dismutase (SOD) and C-reactive protein (CRP) at preand post-treatment, along with glycated haemoglobin (HbA1c) measurement only at post-treatment to control for confounder (i.e., glucose control for the past three months). This study hypothesizes that PEMF therapy by CRAD ULCER X-01 device will accelerate DFU healing and improve tissue integrity, with minimal systemic effects assessed via oxidative stress and inflammatory markers. Conclusion: The results from this study will validate PEMF's effectiveness in promoting DFU healing and establish the potential use of locally developed CRAD ULCER X-01 devices as supplementary therapy to standard DFU care.
NCT07466576
This prospective interventional clinical study aims to evaluate the safety and therapeutic efficacy of air-dried human amniotic membrane (hAM) sterilized using different doses of gamma irradiation for regenerative medical applications. Gamma irradiation is employed as a terminal sterilization method to ensure microbiological safety while preserving the structural integrity and biological properties of the membrane. Within the same clinical protocol, the gamma-sterilized hAM will be applied to two distinct patient cohorts: individuals with diabetic foot ulcers (DFU) and patients with corneal ulcers. In the DFU cohort, the membrane will be used as a biological dressing to promote wound closure, enhance granulation tissue formation, reduce infection risk, and accelerate epithelialization. In the corneal ulcer cohort, the membrane will be applied to support corneal surface reconstruction, promote epithelial healing, reduce inflammation, and prevent complications. Participants in both cohorts will be monitored for clinical outcomes including rate of wound healing, time to complete epithelialization, infection rate, pain reduction, corneal re-epithelialization, and overall tissue regeneration quality. Clinical outcomes will be compared among membranes sterilized at different gamma irradiation doses to determine the optimal dose that ensures effective sterilization while maintaining biological activity and therapeutic performance.
NCT07039396
This is a prospective case series evaluating the efficacy and safety of NeoThelium FT Amnion Skin Graft in the Mangement of Diabetic Foot Ulcers
NCT07290673
The goal of this clinical trial is to learn if using FoundationDRS Solo improves healing of chronic, non-healing foot ulcers in diabetic patients. The main question that this study aims to answer is: Does FoundationDRS Solo, when used in conjunction with standard of care wound management techniques, result in a higher percentage of target ulcers achieving complete closure (i.e. healing) as compared to ulcers being treated with standard of care alone after 12 weeks of treatment. One ulcer on each participant's foot will receive weekly applications of 1) FoundationDRS Solo and standard of care wound management or 2) standard of care wound management alone. Pictures of the ulcer and measurements of its size will be measured every week to track its healing progress over a total treatment period of 12 weeks. Additionally, the participants will be asked to fill out a questionnaire about the wound impacts their life and their quality of life.
NCT07452354
Diabetic foot ulcer (DFU) is a major adverse outcome of diabetes, which itself is one of the most significant chronic diseases. The recurrence of DFU involves multiple risk factors, including altered foot loading patterns, patient compliance, family care capacity, blood glucose monitoring, degree of ischemia, and systemic disease control. Early identification of recurrence signs and timely follow-up interventions are crucial for improving prognosis, reducing disability rates, and lowering healthcare costs. However, traditional follow-up systems lack individualized strategies-such as risk stratification, inflexible follow-up intervals, and insufficient compliance management-often resulting in suboptimal outcomes. High-risk patients prone to recurrence may not be followed up frequently enough for early detection, while low-risk patients may undergo unnecessary visits, increasing burdens on both patients and healthcare providers. This inefficiency contributes significantly to the persistently high rates of disability and mortality among recurrent DFU patients. Establishing an individualized follow-up strategy for DFU, supported by advanced technology to address core bottlenecks such as delayed recurrence warnings and inadequate home-based management, represents an effective technical pathway to tackle these issues. Our center proposes to develop a dedicated DFU cohort with comprehensive active follow-up and a multimodal database encompassing well-defined indicators. We aim to explore a high-risk foot grading system for preventing DFU recurrence and design targeted follow-up protocols. By leveraging AI technology, we intend to build a wound warning system capable of identifying DFU recurrence. Furthermore, we seek to establish a telemedicine and AI-assisted, patient-centered home-based self-management framework for early warning and prevention of DFU recurrence.
NCT06449638
The purpose of this study is to evaluate the efficacy of four dehydrated complete human placental membrane, also defined as Cellular, Acellular, Matrix-like Products/skin substitutes, plus SOC versus SOC alone in achieving complete closure of hard-to-heal diabetic foot ulcers over 12 weeks using a modified platform trial design.
NCT05977309
Despite conflicting and contradictory evidence regarding its efficacy, some wound care centres have advocated and adopted ozone for treating DFU. However, there are gaps in the application of topical ozone therapy. Reported no significant impact on the healing process of DFU, and not all said that topical ozone can enhance the healing process. This study aimed to compare the efficacy of topical ozone therapy in conjunction with standard wound care versus routine wound care alone in treating DFU. The wound, ischemia, and foot infection (WIFI) scale was used to measure wound size, the tissue survival rate at DFU, infection, peripheral microcirculation, glycemic control, Hba1c control, and wound healing.
NCT06111183
This is a phase 2 study performed in diabetic foot ulcer (DFU) patients with chronic non-healing, neuro-ischemic wounds to investigate the safety, tolerability and efficacy of AUP1602-C.
NCT07396376
ELU42 01 01 (SuperHealer42) is a Phase I/IIA open label study sponsored by Eluciderm, Inc. that evaluates the safety and preliminary effectiveness of ELU42, a topical small molecule designed to modulate Wnt signaling, for the treatment of chronic diabetic foot ulcers (DFU). ELU42 combines a tankyrase inhibitor (XAV939) with a novel derivatized hyaluronic acid excipient (DHA77) and is applied as a topical spray to the index ulcer. Fifteen adults with Wagner grade 1-2 diabetic foot ulcers that have been present for at least 4 weeks and up to 52 weeks will be enrolled across up to four U.S. clinical sites. After a 2 week run in period during which standard of care (SOC) is provided (off loading, dressings, and debridement), subjects will receive ELU42 applied on site by trained study staff or the investigator three times per week (Monday, Wednesday, Friday) for six weeks (up to 18 applications). Subjects will be followed weekly during treatment and for up to 6 weeks after the final dose; additional Healing Confirmation visits are scheduled if the wound closes to evaluate the subjects over a course of a 3 month period. The study's co-primary objectives are to assess safety (incidence and severity of adverse events and infections) and to measure percent area reduction (PAR) of the index ulcer at Weeks 4 and 6. Efficacy assessments will be performed by the site investigator using direct two axis planimetry and by automated evaluation using the Tissue Analytics platform (surface area, volume, and PAR). Secondary and exploratory assessments include patient reported outcomes (Wound Q and SF 36), frequency of complete wound healing, wound hydration metrics, and pharmacokinetic sampling in a subset of subjects. Contact information for potential participants and referring clinicians is available at each participating site.
NCT06035536
The study will evaluate the safety and performance of Symphony™ versus Standard of Care (SOC) in the treatment of chronic non-healing diabetic foot ulcers (DFU) after 12 weeks of treatment.
NCT06565156
This trial is a multicenter, randomized, controlled study designed to evaluate the safety and efficacy of BioREtain® Amniotic Membrane (BR-AM) plus standard of care versus standard of care only in the treatment of diabetic foot ulcers. The trial design will control potential variables that may affect the outcome between the treatment group and the control group by standardizing the requirements for debridement, wound dressings, and offloading. Weekly subject visits will help monitor compliance in wound care and off-loading, as well as to document when wound closure is achieved. The study will also implement the use of an electronic imaging and measurement device using a standardized protocol to ensure the measuring of the wound surface area and volume is accurate, highly reproducible, and minimally variable. There will also be a crossover treatment phase for those patients that were relegated to standard care only. After their 12-week standard of care treatment phase and for only those subjects that did not achieve complete wound closure, will be allowed to crossover for an additional 12 weeks of treatment with the BR-AM product following the protocol and procedures set forth within this document.