View clinical trials related to Ulcer Foot.
Filter by:This study is a prospective, interventional, non-randomized study designed to assess the safety and efficacy of the Noxsano Bandage (study device) in healthy subjects and wound care subjects with a diabetic lower extremity ulceration and/or arterial insufficiency lower extremity ulceration.
Background Chronic non-healing ulcer is a common problem met in clinical practice and represents a burden to the patients. Chronic ulcer lacks growth factors (GFs) to promote the healing process and is frequently followed by superadded infections. Ordinary technique such as wound debridement and regular dressings cannot provide adequate results as these techniques cannot provide the necessary GFs. Platelet-rich plasma (PRP) helps wound healing by releasing various types of GFs. The aim: to evaluate and compare the efficacy of PRP dressing versus traditional dressings in the treatment of chronic non-healing leg and foot ulcers of different etiology as regard cost of overall treatment and effectiveness (reduction of the size of the ulcer and safety of the technique). Methods This prospective study was performed on inpatients and outpatients in general surgery department, Zagazig university hospital from June 2017 to January 2019. Patients were divided randomly into two groups: group A received PRP dressing (N=22, 50%) and group B received conventional ordinary dressing (N=22, 50%).The mean follow-up period was 3 months after the last dressing. Patients treated with PRP at once-weekly interval for a maximum of 12 dressings while patients with ordinary dressings may need one dressing every other day for a maximum of 12 weeks. The reduction in the size of the ulcers (area and volume) in both groups was assessed using centimeter scale and Digital photographs before and after each session and during follow up period. Keywords: Platelet-rich plasma, ulcers, non-healing, ordinary dressing.
This study is a prospective, multi-center, randomized controlled trial designed to collect patient outcome data as well as assess performance and safety of a commercially available human split thickness skin allograft with SOC dressing compared to SOC dressings alone in the treatment of Diabetic Foot Wounds.
This trial will examine the feasibility of conducting a definitive randomized clinical trial that tests whether inforatio technique will reduce time to healing of diabetic foot ulcers. Inforatio technique is a procedure where small punch biopsies are taken from the wound bed near the edge of the wound. With this technique, the investigators wish to initiate an acute inflammatory response that increases the generation of granulation tissue with subsequent healing by scar formation. Thus, the investigators hypothesize that inforatio technique will promote healing of diabetic foot ulcers. Based on clinical experience, the investigators have previously detected a reduction in time to healing as an unexpected effect when multiple punch biopsies are taken from the wound bed of diabetic foot ulcers. To the knowledge of the investigators, methods similar to the inforatio technique has not previously been studied.
Chronic wounds, such as diabetic foot ulcers, place a huge burden on healthcare systems and can lead to complications with high morbidity, particularly if the wound if infected. In parallel, there is pressure to reduce the use of antibiotics in order to minimise the risk of antimicrobial resistance. The Glycologic wound detection kit (GLYWD) is a point-of-care test, designed to provide guidance to clinical staff as to whether a chronic wound is infected or not. In this prospective cohort study the premise of this mode-of-action is evaluated. GLYWD will be applied in conjunction with clinical opinion and microbiological testing to determine if there is concordance between the different diagnostic approaches, and if applicable how they may differ in certain patients' wounds.
This study is a prospective, multi-center, randomized controlled trial designed to collect patient outcome data on a commercially available human autologous homologous skin construct with SOC dressing compared to SOC dressings alone in the treatment of Diabetic Foot Wounds.
Diabetic foot ulcers are associated with high risk of amputation. About 50% of patients undergoing non-traumatic lower limb amputations are diabetics5. The 5-year amputation rate is estimated to be 19% with a mean time to amputation 58 months since the onset of an diabetic foot ulcer6.Because infection and tissue hypoxia are the major contributing factors for non-healing diabetic foot ulcers, hyperbaric oxygen therapy (HBO) carries a potential benefit for treating these problematic wounds that do not respond to standard therapy. The role of oxygen in the wound healing cascade and subsequent combatting action against bacterial invasion, especially anaerobes, is well documented.14 Delayed or arrested healing and the development of infection is a direct result from decreased perfusion and poor oxygenation of tissue.15 The presence of wound hypoxia is an major etiological pathway in the development of chronic non-healing diabetic foot ulcers
In this prospective pilot study, patients with DFU visiting the Indiana University Comprehensive Wound Center will be enrolled. Patients enrolled in the study will be followed for 16 weeks for wound closure(Phase A), and will then begin Phase B where TEWL measurements and wound recurrence will be followed up for up to 12 weeks.
This study is a prospective, multi-center, randomized controlled trial designed to collect patient outcome data on 2 commercially available SOC dressings treatments for Diabetic Foot Wounds
Diabetic foot disease is a global health problem. Diabetes affects over 450million people worldwide, expected to rise to 1 in 10 people by 2040. 60-70% will lose sensation in their feet and up to 25% will develop a diabetic foot ulcer (DFU - a wound on the foot). More than half of DFUs become infected requiring hospitalisation and 20% of infections result in amputations contributing to 80% of non-traumatic amputations performed in the developed world. DFUs cost the NHS £1billion in financial year 2014-15. A diabetic foot ulcer is a form of chronic wound. Chronic wounds are wounds that fail to progress through the normal phases of wound healing in an orderly and timely manner and become hard to heal. Almost all chronic wounds are known to have bacteria within and this is termed colonisation. Wounds can progress from being colonised to becoming infected. The concentration of bacteria can predict delayed healing or infection. This study aims to use a novel hand held device, Moleculight i:X™, in a pilot study to investigate the clinical effectiveness and decision making associated with its use in the assessment of DFUs. Moleculight i:X™ is a hand held device that emits violet blue light. By controlling distance from the wound and ambient light, Moleculight i:X™ identifies bacteria above a pre-determined concentration by identifying natural fluorescence in the bacteria cell wall. Patients attending a specialist DFU clinic will be screened and if eligible and consenting will be recruited. Patients will be randomised into two groups; those who receive treatments as usual (TAU) alone (in line with NICE guidelines) and those that receive TAU plus Moleculight i:X™ imaging. The main objective is to describe the proportion per group with healed DFUs at 12week follow up in these two comparable groups of 30 patients each.