View clinical trials related to Foot Ulcer.
Filter by:MY FOOT project aims at filling the gap in mobile applications by providing evidence to both involved stakeholders, that is the remote assistance from the hospital and the patient, who is directly involved in their own care strategy. In particular, the application has to motivate patients and engage them in their self-care. Interaction with the mobile phone application is in the following terms: APP elaborates data input from the patient in terms of own feeling of health status, symptoms revealed along the day, events eventually occurred, photos of the foot, including ulcer zoom (if any), APP reports back about increase / decrease in the Risk Level graph through time, maps the ulcer evolution or healing based on photos elaboration, using adequate graphs reporting time in the main axis, whilst reminds personal goals to enact care on a regular basis on the basis of the current conditions, eventually alerts the patient to contact clinicians for a visual inspection at a hospital.
The goal of this clinical trial is to compare safety and performance of the study device to the current typical NHS standards of care device. The main outcomes it aims to achieve are: Complete wound healing at 12 weeks (100% epithelialised) % Reduction in wound area at 12 weeks Participants will attend their NHS podiatry clinic appointment as normal and will be assigned either the study device or the current typical NHS standard of care device. Researchers will compare the study device group to the standard group to assess the outcomes mentioned previously.
TTT is a novel surgical technique that may potentially solve the long-standing deficit of seeking effective treatment for diabetic foot ulcers, decreasing the need for amputations and softening the socio-economic impact it brings. This trial will be the world's first prospective RCT to verify the promising clinical studies on the clinical benefit of TTT in treating diabetic foot ulcers. In addition, blood samples from this study will allow us to study the various systemic circulating soluble factors in relation to neovascularisation, immunomodulation, and stem cell mobilisation. By taking the blood and various time points, we will better understand the complex interplay between various biomarkers. This GRF will allow us to obtain tissue samples to analyse the histological cellular changes after TTT surgery. It will provide us with more insight on how TTT works, as well as potentially helping us pinpoint the important changes and timeframes related to this intervention. The PI, Co-Is and collaborators create a strong team of clinicians and scientists with a solid clinical and basic science track record. The team has published guidelines and surgical techniques in TTT and run several training cadaveric workshops teaching the TTT surgical technique to local orthopaedic surgeons. The team has also established a rat TTT model and published on TTT immunomodulation and neovascularisation in addition to other ongoing mechanistic experiments in animals. This prospective multi-centre randomised controlled trial may act as the foundation for launching this cost-effective TTT surgery to regulate neovascularisation, neurogenesis, immunomodulation and mobilisation of MSCs for the treatment of various chronic conditions. Regenerative medicine is a multi-million dollar industry, and the potential use of TTT can result in a range of clinical applications not limited to DFUs.
Offloading plays an important part Diabetic foot ulcers healing. The modular design of the DiaSole would allow the offloading cavity to be changed in line with the changing ulcer dimensions. It may be possible to use the DiaSole for other causes of neuropathic foot ulcerations (such as rheumatoid arthritis), but the safety of the insole needs assessing first. There is already evidence to support the use of offloading insoles in the healing and prevention of pressure ulcers, DiaSole may be an improved insole for this purpose.
During the observational, non-interventional study, at Baseline Study Visit (BSV) subjects will be screened and consented. Eligible subjects will undergo imaging with the DeepView device. Pre- and post-debridement images will be obtained (if debridement performed per SOC), as well as reviewing medical history and physical assessments. Additional Study Visits (SVs) will be performed when patient returns to the clinic for Routine Clinic Visit for up to 12 weeks or wound closure. During these visits DeepView imaging will occur pre- and post-debridement, and the status of the subject's treatment will be recorded.
This study will be conducted to investigate the effect of Insulin iontophoresis mixed with oleic acid versus topical insulin in patients with chronic diabetic foot ulcer
Within their lifetime, over 30% of people living with diabetes will develop a diabetic foot ulcer (DFU), many of which will never heal and may require amputation. Removable cast walkers (RCWs) are commonly prescribed to offload (treat) DFUs. While RCWs are prescribed to be worn during all weight bearing activities, adherence to this prescription is low. This is a serious concern given that low adherence predicts poor DFU healing. This study will provide pilot/feasibility data to inform a larger clinical trial to evaluate the impact of existing RCW designs on adherence and DFU healing. We will also quantify the effect of RCW form on biomechanical and self-reported measures related to usability. Our working hypothesis is that healing outcomes with a given RCW will be predicted by biomechanical and self-reported measures of RCW usability, with the predictive relationship partly explained by the effect of these measures on adherence.
This study was to investigate the efficacy and safety of Nocardia rubra Cell Wall Skeleton (NCWS) in the treatment of diabetic foot ulcer wounds. The study was a prospective, randomized, controlled, multicentre study . The subjects were randomly divided into two groups: NCWS group and control group(silver ions dressing), with a total of 116 cases and 58 cases in each group. Patients in the NCWS group received nocardia rubra cell wall skeleton for external use, in parallel with silver ions dressing treatment. The efficacy and side effects were observed, with a primary endpoint of 30-days wound healing rate.
The study will examine the effectiveness of a decellularized dermal matrix (i.e., DermGEN™) in improving wound healing, quality of life and associated costs of treatment of DFUs in First Nations people living in the Northwestern Ontario Communities. First Nations people with active diabetic foot (DFU) ulcer attending a wound care clinic located at the Rainy River district office. An interventional, two-arm, randomized, prospective study of (1) standard of care (control) vs. (2) DermGEN™ - a decellularized dermal matrix (treatment) will be used in the treatment and management of DFU. Patients will be randomized to each arm (n=60 per arm) based on power calculations using data from our Pilot study.
This study is a multi-center, prospective trial designed to evaluate the use of HaM in Wagner grade 1 and 2 DFUs. After screening, subjects are treated with weekly application of HaM and SOC for 8 weeks followed by SOC alone for the remainder of the 12-week trial period. The standard of care in this study consists of offloading of the DFU using a total contact cast or fixed ankle walker, sharp debridement, infection management with the use of antiseptics and proper moisture balance.