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The purpose of this research is to evaluate the ability of a Nitric Oxide (NO) Sensor to collect NO measurement data from an open wound. Previous research suggests that NO levels may indicate the stage of healing the wound is in. This study is being done to determine if the NO Sensor can measure how much NO is in a participant's wound. The researcher will place the NO Sensor into a participant's wound to collect NO measurements for 30-60 minutes. The participant will then have 2 follow-up appointments to see how the wound heals over time.
Chronic non-healing wounds are becoming an increasingly more common problem. Eligible, consenting patients with chronic wounds in the lower extremities, upper extremities or trunk, will either continue to the standard of care or will be randomized to the treatment cohort where antibiotic solution will be injected in the area around the wound. All patients will continue standard wound care as dictated by the wound care clinic. Subjects of both the control and treatment will have approximately 6 study specific visits that may or may not coincide with previously schedule wound care clinic visits. As these specified visits wound size and healing will be documented and patients will complete surveys. The study will conclude for the subject after approximately 6 months. Again, these patients may continue standard wound care but will no longer have study obligations.
The purpose of this study is to assess the safety and efficacy of Micro/nanobubbles (MNB's) for the healing of acute and chronic wounds.
Objectives: The study objective is to carry a pilot clinical assessment comparing the exciflex bandage to standard of care (SoC) for ischemic wounds and will involve participants who are Veterans with lower extremity ischemic wounds. Research Plan: The study will employ a randomized repeated measures design to assess the therapeutic effectiveness of exciflex in clinical use. Methodology: All participants with chronic ischemic wounds treated at LSCDVAMC will be potentially eligible for the study. Primary target populations will include Veterans with SCI who are inpatients or residents of the on-site Long Term Care Unit and Veterans with diabetes being followed by the Podiatry Service for wound care. In addition to meeting the general inclusion criteria noted above, further exclusion criteria relating to clinical factors include; (1)Age less than 18 years and (2)Pregnancy. Clinical Significance: Chronic ischemic wounds fail to heal normally and are a major challenge in the long-term care of many Veterans. The exciflex bandage can improve outcomes and lower cost by automatically delivering electrotherapy without disturbing the wound dressing for up to seven days, unless indicated. The overall study goal is to complete pre-market testing and evaluation of the exciflex bandage system.
This pilot study is designed for chronic wounds that fail to heal in a timely manner carry specific genetic signatures. These genetic signatures will be studied using debrided wound tissue that is removed by the wound care provider as part of standard of care. The reference genomic signature will be evaluated by obtaining blood samples and will be compared with wound debrided tissue genomic signature to understand wound specific genomic changes.
WOUNDJOURNEY is a longitudinal, real-world, observational registry designed to capture the full clinical course and patient journey associated with chronic wounds and ulcers. Data are collected during routine care from over 1,400 clinicians across the USA and Puerto Rico using a highly structured certified electronic health record (EHR) or electronic data capture (EDC) system. Data are transmitted daily to the U.S. Wound Registry (USWR), a CMS-recognized Qualified Clinical Data Registry (QCDR). The registry captures real-time, research-ready data on patient demographics, comorbidities, wound characteristics, standard-of-care treatments, complications, and advanced therapeutics. It supports robust, fit-for-purpose real-world evidence generation by enabling risk-adjusted outcome analysis, comparative effectiveness research, and quality improvement across diverse sites of care.
This work is based on DFU patients, seeks to conduct a fully powered clinical study testing i) If DFU with a history of biofilm infection closes with deficient barrier function. ii) whether such functionally deficient wound closure, manifested as high TEWL, is associated with greater wound recurrence. The primary parent study will also address molecular mechanisms implicated in biofilm-induced loss of skin epithelial barrier integrity in DFU patients.
This study is a prospective, randomized controlled trial designed to evaluate the effectiveness of Miro3D Wound Matrix plus Standard of Care (SOC) compared to SOC alone in treating Wagner Grade 1 diabetic foot ulcers (DFUs) and wound dehiscence in an outpatient setting. The trial is sponsored by Reprise Biomedical, Inc. and aims to explore whether the addition of Miro3D-a three-dimensional, acellular porcine-derived wound matrix-enhances wound healing outcomes compared to SOC alone. Purpose of the Study: The primary purpose of the study is to determine whether applying Miro3D in combination with SOC leads to improved healing of diabetic foot ulcers compared to SOC alone. Specifically, the study seeks to assess early wound healing progress at four weeks (as measured by percent area reduction and granulation tissue formation) as a predictor of complete healing by twelve weeks. Key Question the Study Seeks to Answer: Does the addition of Miro3D to standard wound care improve the healing rate and overall wound outcomes for patients with Wagner Grade 1 diabetic foot ulcers or dehisced wounds compared to standard care alone? Study Design Overview: Subjects who meet inclusion/exclusion criteria will be randomized into one of two groups: 1. Miro3D + SOC arm - receiving Miro3D weekly for 4 weeks, then biweekly if needed, for up to 12 weeks. 2. SOC alone (control) arm - receiving SOC without Miro3D. If the wound remains unhealed at 12 weeks in the SOC alone arm, participants may "crossover" to receive Miro3D treatment under the same schedule for an additional 12 weeks. Primary Endpoint: 1. Percent Area Reduction (PAR) and granulation tissue formation at 4 weeks, serving as predictors for wound healing at 12 weeks. Secondary Endpoints: 1. Quality of Life (QOL) improvements, including pain, mobility, and emotional well-being, assessed using a validated Wound/Ulcer-QOL tool. 2. Pain levels using a Visual Analog Scale (VAS) at each visit. Population: Approximately 30 adult subjects (15 per arm) with Wagner Grade 1 diabetic foot ulcers or dehisced wounds will be enrolled. Subjects must have adequate blood flow, demonstrate wound size criteria, and commit to offloading and follow-up care. Follow-Up: Subjects will be followed weekly through the 12-week study period. Healed subjects will undergo confirmation visits at 2 and 4 weeks post-closure. Subjects in the crossover arm will be followed for an additional 12 weeks if their wound was unhealed at the primary endpoint. Statistical Considerations: Data will be summarized using descriptive statistics, including wound measurements, infection status, and healing rates. Comparative analysis will be conducted between treatment groups and schedules (weekly vs. biweekly Miro3D application). Adverse events (AEs), serious adverse events (SAEs), and device-related events will also be documented. This study aims to generate clinical evidence supporting the use of Miro3D as a beneficial adjunct to standard wound care in promoting early and complete healing of diabetic foot ulcers.
This clinical study is being conducted to evaluate how well the Miro3D Wound Matrix helps heal difficult wounds and ulcerations in an outpatient care setting. Miro3D is a biologic wound dressing made from porcine (pig) liver tissue. It is processed to remove all cells, creating a clean scaffold that can support the body's natural healing process. The goal of this study is to see how effective Miro3D is when used alongside standard wound care for helping wounds close and reducing pain and discomfort. The study is designed as a post-market, proof-of-concept trial, meaning the product is already commercially available, and researchers are evaluating how it works in real-world clinical settings. A total of up to 20 adult participants will be enrolled. Participants may have wounds such as diabetic foot ulcers, venous leg ulcers, pressure ulcers, or surgical wound dehiscence. These wounds may be complex in nature, including tunneling or undermining, which often makes them more difficult to treat. Participants will receive standard wound care along with weekly Miro3D applications for the first 4 weeks. If the wound is not fully healed after 4 weeks, Miro3D will then be applied every 2 weeks until healing is achieved or up to 12 weeks total. Throughout the study, participants will return weekly for wound assessments and to complete brief questionnaires about their pain levels and quality of life. The main goals of the study are: 1. To measure how much the wound size shrinks (known as percent area reduction or PAR). 2. To evaluate how much healthy granulation tissue (new tissue) forms in the wound. 3. To compare healing outcomes when Miro3D is used weekly versus every two weeks. 4. To understand how the treatment affects patients' quality of life, including pain, mobility, and emotional wellbeing. Each participant will be closely monitored by the clinical team throughout the 12-week study period. If a wound heals earlier, the participant will finish the study at that time. If the wound does not heal, the participant may return to their regular physician for follow-up care.
The goal of this observational study is to learn if the measures of tissue oxygenation from the MIMOSA Pro imaging device correlate to standard vascular assessment tools in patients who receiving a lower extremity vascular assessment. The main questions it aims to answer are: * Do the MIMOSA Pro tissue oxygenation measures correlate to Ankle-Brachial Index, Toe-Brachial Index, transcutaneous oximetry, and Doppler wave forms? * Do the MIMOSA Pro tissue oxygenation measures correlate with disease classifications for peripheral arterial disease, venous disease, and wound stage? * Is the MIMOSA Pro able to measure vascular status more often than other modalities? Participants will be asked to follow standard of care, and also allow for their legs to imaged by the MIMOSA Pro.