View clinical trials related to Diabetic Foot.
Filter by:The primary aim of this study is to demonstrate the impact of the Orpyx® SI Sensory Insoles (Orpyx Medical Technologies Inc., Calgary AB, Canada) ("Orpyx" or "the Company") as an adjunct to the standard of care (SOC), as compared to SOC alone, on reducing plantar ulceration incidence in individuals who are at risk for developing diabetic foot complications. The secondary aims of this study are to evaluate participant quality of life, participant engagement, and economic impact, including cost-effectiveness and cost-utility. The study will also use the unique data set collected (plantar pressure, temperature, step count, movement and adherence feedback) to identify foot-loading histories that either lead to or prevent the development of ulceration in the diabetic foot.
A clinical trial will be carried out comparing the efficacy of PICO system based on negative pressure therapy (NPT) in adults with chronic ulcers compared to conventional treatments.
Diabetic foot ulcers are one of the complications of diabetes mellitus. These wounds are often the result of diabetes-related neuropathy and/or an ischemic foot. Even with great care, recurrent ulcers are common. To mediate the damage and societal costs that come with DF there is a need for applications to detect ulcers before they come apparent. Two of these promising techniques are Laser Speckle Contrast imaging and thermography. This study is part of 4 specific clinical studies and is aimed at determining Laser Speckle Contrast imaging and thermography features, the provocations that are needed to optimize imaging and the correlation between these features and the IWGDF risk stratification category system for the diabetic foot.
Diabetes is a serious and chronic disease that affects more than 347 million people in the world. It is the leading cause of death by age and its prevalence is increasing annually throughout the world. Diabetes is a disorder that manifests itself with elevated blood glucose levels that may be the resultof a deficiency in insulin secretion or action, or a combination of both problems. The "Diabetic foot" includes a number of syndromes in which the interaction of the loss of protective sensation by the presence of sensory neuropathy, the change in pressure points due to motor neuropathy, autonomic dysfunction and decreased Blood flow due to peripheral vascular disease can lead to the appearance of injuries or ulcers induced by minor traumas that go "unnoticed." This situation leads to significant morbidity and a high risk of amputation. It can be prevented with the application of prevention programs, based on the early detection of neuropathy, assessment of associated risk factors, along with the application of a structured program of education and treatment of risk factors. PRIMARY OBJECTIVES: 1- Comparison of ulceration rates, decrease in amputation rates in the target population with intervention: LSCI, thermography and creation of personalized insoles versus the control group with assessment, treatment and follow-up, without the intervention of interest in the study. 2- Correlation between changes in perfusion and temperature detected in combination of LSCI and thermography to predict diabetic foot ulcers and the risk of having ulcers. Study Model: Parallel Assignment 1:1 . Patients with inclusion criteria and without exclusion criteria will be randomized into two groups with Randomization with sequence concealment, centralized in computer support. OxMaR (Oxford Minimization and Randomization) After signing the informed consent, the patients will be divided into two groups. Number of Arms 2 Masking: None (Open Label) A-GROUP WITH LSCI, 3D FOOT CREATOR FOLLOW UP B- GROUP WITHOUT LSCI, 3D FOOT CREATOR FOLLOW UP.
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 European Working Group on Sarcopenia in the Elderly1 defines sarcopenia as a disorder of the progressive and generalized musculoskeletal system [1], which is associated with the increase and probability of adverse outcomes including falls, fractures, physical disability, and mortality [2]. what is associated with increased and likelihood of adverse outcomes including falls, fractures, disability physical and mortality [2]. For a long time, sarcopenia was associated with aging, affecting onlyold people. At present and after several research works related to fragility and theaging, it has been identified that the development of sarcopenia begins earlier in life [3], and that there are many contributing causes besides aging [4], [5]. This new knowledge has implications in the intervention of sarcopenia that prevents or delays its development. Sarcopenia is currently considered a muscle disease (muscle failure), based on adverse changes in the muscles of the musculoskeletal system accumulated throughout life, with loss of muscle strength such as main determinant [6], [7]. Sarcopenia has been overlooked in clinical practice, apparently due to to the complexity in determining the variables to be measured, how to measure them, and the values or cut-off points can guide diagnosis and treatment, and how best to assess the effects of therapeutic intervention [8]. In terms economic, the presence of sarcopenia increases the risk of hospitalization and increases the cost of care during hospital admission [9]. Diabetes is the main cause of non-traumatic amputation of the lower limb (MI), being foot ulcers diabetic the cause of 80% of the amputations of people with diabetes[10]. A study conducted by the Chongqing University Hospital showed that sarcopenia is independently related to the foot diabetic and that patients with diabetic foot have a worse prognosis if they suffer from sarcopenia. HYPOTHESIS: The surface electromyography (EMGs) signal recording of the foot musculature, will allow extracting biomarkers that allow monitoring and follow-up of sarcopenia in diabetic patients. MAIN OBJECTIVES: 1- Generate tools based on artificial intelligence (AI) using the database with the biomarkers obtained, in order to analyze the predisposing and triggering risk factors associated with diabetic foot ulcers, according to the IWGDF2. 2- Describe the profile of the diabetic patient in terms of degree of sarcopenia with respect to the population without diabetes in a group of adults. DESIGN: Observational study comparison between cases and controls: a group with the presence of Diabetes Mellitus and another without. SAMPLE: Approximately 16% of diabetic patients will develop an ulcer during their evolution and the Annual incidence is 2-3%, which doubles to 6% in the presence of polyneuropathy. Population of the Department of Health 168,978. Prevalence of diabetes in Spain 7.8%. It is estimated that there are 13,182 in the department people with diabetes. Confidence level 95%, expected frequency of ulcers 6% and confidence limit 9%, it was calculates the sample of 26 patients. 30 patients per group will be recruited. GROUP 1: 30 patients with Diabetes Mellitus. GROUP 2: 30 control patients without Diabetes Mellitus. The period of inclusion of patients is estimated at 5 months. METHOD: the assessment interventions will be carried out in two days. During the first visit, examination to identify risk to the foot: clinical history (PA, comorbidity data, previous injuries to the feet). feet..), examination of the vascular state, examination of loss of protective sensitivity, perception of pressure, skin inspection, inspection of bone/joint structures, physical limitations and level of knowledge of the foot care. During the second visit: diagnostic tests for sarcopenia (bioimpedance and electromyography), arthropometric measurements, malnutrition, dependence and activity marker tests. EXPECTED RESULTS: clarify some aspects related to the sarcopenia-diabetic foot binomial, and isolate risk factors for future prevention, by obtaining biomarkers with EMGs in lower limbs.
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.
Prevalence of diabetes mellitus (DM) is increasing rapidly, with patient numbers projected to rise to 643 million by 2030. As a consequence of diabetes-related atherosclerosis, peripheral arterial disease (PAD) and in particular medial arterial calcification (MAC) can occur. The accurate identification of PAD by bedside tests is extremely important in patients with diabetes and foot ulceration, in order to reduce delayed wound healing, prevent lower limb amputation and eventually reduce mortality. However, as shown in previous systematic reviews, the performance of current bedside tests is not reliable in excluding PAD in diabetic patients.1,2 Moreover, the methodological quality of the conducted studies is generally poor. Therefore, more reliable and prospective data is required. Also alternative bedside tests need to be investigated. As an example, the ACCmax (a new doppler derived parameter) could be particularly promising in this patient group.
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.