View clinical trials related to Diabetic Foot.
Filter by:Diabetes mellitus (DM) increases stiffness and thickness of foot structures. This may alter the foot's biomechanics and increase plantar pressure distribution, mainly on the forefoot region. Presence of plantar heel pain (PHP) also may alter the foot's rollover mechanism and increase plantar loading in the forefoot as a protective mechanism of pain. The risk of diabetic ulcer formation increases with these restricted ankle range of motion (ROM) and increased foot plantar pressure that may present in DM patient with PHP. The association that has been established previously between limited ankle ROM and PHP leads to a reasonable utilization of joint and soft tissue mobilization in treating diabetic patients with PHP. The aim of this study is to investigate the immediate and short-term effect of a single session of ankle and foot joint mobilization (JM) versus Myofascial release (MFR) on pain intensity, ankle ROM, foot plantar pressure, dynamic and static balance, and functional level of diabetic patients with PHP. The findings of this study will help to understand the effect of these two interventions on diabetic patients with PHP in term of the previously mentioned parameters. This may guide the physiotherapists to choose the best available technique to treat DM patients with PHP, and that may help to reduce the risk of DM foot complications.
Diabetic foot ulcer is one of the most serious, most costly and at times life threatening complication of diabetes. The lifetime incidence of foot ulcer occurrence in diabetes is up to 25%. Despite the advent of numerous types of wound dressings and off-loading mechanisms, the ulcer healing rates in diabetes have remained dismally low. Hyperglycemia impairs the inflammatory, proliferative and remodeling phases of an ulcer. There are retrospective studies linking improvement of HbA1c to wound area healing rate. The investigators hypothesised that intensive glycemic control in a patient of diabetic foot ulcer improves the healing process. To explore this hypothesis, the investigators are conducting this randomized control trial with the primary aim of wound healing in patients of diabetic foot ulcer on either intensive glycemic treatment or conventional (pre-existing) glycemic treatment.
This study evaluates the effects of a physiotherapy protocol (manual therapy and exercise) in the prevention of diabetic foot ulcers in patients with diabetic neuropathy. A group of participants will receive a physiotherapy protocol added to their usual medical treatment and the other group will not receive physiotherapy treatment.
To determine the efficacy of full-thickness placental allograft in chronic wound healing
The global prevalence of diabetes is on the rise and with it increase in prevalence of diabetic foot ulcers (DFU). These recalcitrant wounds are difficult to manage and pose a heavy economic burden. Photobiomodulation (low level laser) is used for acceleration of wound healing. The current study is designed to evaluate the effectiveness of B-cure laser, a home-use low-level laser device, for acceleration of diabetic foot ulcer healing over standard treatment.
The global prevalence of diabetes is on the rise and with it increase in prevalence of diabetic foot ulcers (DFU). These recalcitrant wounds are difficult to manage and pose a heavy economic burden. Photobiomodulation (low-level laser) is used for acceleration of wound healing. The current study is designed to evaluate the effectiveness of B-cure laser, a home-use low-level laser device, for acceleration of diabetic foot ulcer healing over standard treatment.
Diabetic foot ulcer (DFU) is the leading cause of non-traumatic limb loss in adult worldwide. One of the major causes of limb loss in patients with DFU is poor wound healing. It is known that nutrition plays a key role in wound healing, not only because of the required calories, but more importantly for collagen remodeling by specific amino acids (arginine, glutamine, and β-hydroxy-β-methylbutyrate). Nevertheless, few studies have investigated nutritional supplements in patients with poor wound healing of DFU. Difficulties in assessing the severity of a wound and poor adherence to drug and food supplements at home may be important factors for the negative results shown in a most recent prospective randomized controlled trial. The diabetic foot center in Chang Gung Memorial hospital has extensive experience in caring for patients with limb-threatening DFU and we recently reported that poor nutritional status in our patients correlated to poor treatment outcomes. The aim of this study is to evaluate the clinical efficacy and possible molecular mechanisms in nutritional treatment for limb-threatening DFU. A total of 70 patients will be enrolled and randomized into study and control groups. All subjects will receive standard care. Additional amino acid supplements containing arginine, glutamine, and β-hydroxy-β-methylbutyrate or a control (high protein formula powder) will be given orally twice a day for 21 days, and the percentage change in wound size will then be measured. Complete healing time, recurrence or major adverse cardiac events will be recorded during one year of follow up. Data on wound size, nutritional status, and levels of matrix metallopeptidase (MMP)-2, MMP-9, nutrient molecules (measured by ABSOLUTE/DQ P180 KIT (LC MS/MS) will be recorded before and after the nutritional supplementation. In addition, the pioneer factor forkhead box protein A2 (FOXA2) that binds native chromatin and bookmarks genomic regions for transcriptional activity may play a role in nutritional supplements in acute stressed diabetic patients. Therefore, we intend to conduct a pilot study on the for FOXA2 gene in maintaining glucose homeostasis in diabetic foot patients after nutritional interventions.
This study evaluates the effect of additional hyperbaric oxygen therapy after lower extremity amputation. The patients will be randomized after amputation to either a treatment group receiving hyperbaric oxygen therapy, or control group.
The RECording COurses of vasculaR Diseases registry (RECCORD registry) is an observational, prospective, multicentre, all-comers registry platform. In the initial phase, patients referred for endovascular revascularization of peripheral artery disease (PAD) of the lower limbs will be prospectively included and followed up for at least one year. At baseline, data on patients' demographic characteristics, comorbidities, previous peripheral interventions, medication, and clinical stage of PAD (Rutherford category), haemodynamic parameters, and procedural data including complications will be assessed. Major adverse cardiac and limb events will be recorded at planned (at six and 12 months) and at any unplanned visits. For details see NM Malyar et al., Rationale and design of the RECording COurses of vasculaR Diseases registry (RECCORD registry). Vasa. https://doi.org/10.1024/0301-1526/a000631
The purpose of this study is to evaluate whether placing stent(s) for a blockage in a leg vein will help improve the healing of diabetic foot ulcers (DFU). The investigators know from having taken care of many patients with diabetic foot ulcers that it is a major cause of disability and amputation. These diabetic foot ulcers frequently heal slowly or not at all. They sometimes become infected and require antibiotic therapy, debridement and amputation. The investigators normally take care of a diabetic foot ulcer with a combination of local wound care, surgical debridement if necessary, antibiotics if there is an infection, and reduction of pressure on the area of the foot with the ulcer. The investigators observed that some patients with a diabetic foot ulcer also have a blockage in a major leg vein referred to as the iliac vein. This blockage in the iliac vein prevents the proper flow of blood from the leg. This blockage results in pressure within the leg veins leading to swelling in the legs which may also prevent healing of the diabetic foot ulcer. This study will investigate whether placing stent(s) to treat the blockage(s) will improve healing of the diabetic foot ulcer and reduce some of the complications associated with a diabetic foot ulcer. The results of this study could result in a new treatment that will allow future patients with diabetic foot ulcers to heal better. Right now, placing stents for these blockages in the iliac vein is not the standard of care treatment for a diabetic foot ulcer. In order for us to determine whether stent placement is helpful, the researchers will have to randomize each patient. In other words, to reduce bias, patients will be assigned either to a group receiving a stent or to a group not receiving a stent. Every patient in both groups will receive the standard of care for a diabetic foot ulcer and undergo an x-ray with contrast and intravenous ultrasound examination of the legs. The standard of care for a diabetic foot ulcer may include local wound care, antibiotic therapy, debridement and/or amputation, and pressure offloading in the foot.