View clinical trials related to Diabetic Foot.
Filter by:A Pilot Study to Determine the Impact of the Phoenix Wound Matrix® on the Wound Microbiome in Chronic Diabetic Foot Ulcers
Objectives: Diabetes has a prevalence of 11.6% in China with diabetic foot ulcerations affecting over 30 million Chinese. 85% of these patients require amputation and 5-year mortality for diabetics is 70% when associated foot ulcers. Clinical trials have shown that standing on whole-body vibration platforms, specifically low-magnitude high-frequency vibration (LMHFV); promotes angiogenesis, enhances muscle bulk and accelerates epithelization. Investigation on diabetic rats with foot wounds found accelerated wound healing, increased perfusion and upregulation of factors such as VEGF, PECAM-1 and PCNA. Hypothesis: The investigators postulate LMHFV will enhance diabetic foot ulcer healing. Design and Subjects: Prospective, single-centre, randomised control trial to treat 106 subjects with diabetic foot ulcers. Interventions: The intervention group will stand on LMHFV whole-body vibration platforms for 20min on alternate days for 20 weeks, together with conventional dressing by a trained wound-care nurse as in the control group. Main Outcome Measures: Ulcer size will be measured at multiple time points, the incidence of amputations/infections will be recorded, perfusion via ankle-brachial pressure index will be calculated and foot function via the foot and ankle outcome score will be analysed. Data analysis: Repeated measure of ANOVA to analyze time-point differences and student's t-test for same time-point comparison. Expected Results: This is the first clinical trial to investigate the effect of whole-body vibration on diabetic foot ulcers. It will show the investigators if the results from animal studies will translate into clinically significant results. If positive effects are established, whole-body vibration can be a valuable treatment regime to tackle diabetic foot ulcers.
Lower extremity complications such as chronic diabetic foot ulcers (DFUs) are a major risk for Type I/II diabetes patients. Minor injuries that would normally heal without consequence in non-diabetic individuals are at greater risk of bacterial infection and progression to non healing (chronic) wound status in diabetics, largely due to a loss of sensation in limbs (neuropathy) and decreased blood flow (vascular disease). If not treated efficiently and effectively, DFUs can have serious complications e.g. amputation, sepsis and death. The investigators propose to address this significant unmet clinical need using a novel commercial handheld fluorescence imaging product called the MolecuLight i:X (MolecuLight Inc.) which images clinically-significant wound bacteria without contrast agents or patient contact. Evidence in animal models of chronic wounds and multiple published clinical trials (mainly DFUs) have shown significant clinical potential for fluorescence imaging to detect potentially harmful bacteria in wounds otherwise invisible to doctors. The investigators have shown that clinicians can easily, objectively and more accurately determine the likelihood of bacterial infection than the standard of care. Moreover, published clinical evidence has shown fluorescence imaging enables more accurate microbial wound sampling and guides more targeted debridement of wounds to reduce bacteria levels. Our pilot data also show that when used like this, the i:X device accelerates DFU wound healing, compared with current methods. Thus, the investigators propose to expand the current pilot studies through a statistically-powered 3 y randomized controlled trial to test the therapeutic benefit of fluorescence-guided treatment for DFUs in a larger group of patients. A successful trial could help reduce DFU healing times compared with standard practice (using a new Canadian product) and improve patient quality of life, reduce amputation risk and alleviate health care costs for diabetes complications in Canada and beyond.
Diabetic foot ulcer is the commonest cause of severe limb ischemia in diabetes mellitus And development of anemia is an additional burden to the microvascular complications of diabetes
Diabetic foot ulcer (DFU) is a common complication of diabetes with global prevalence of 6.3%. Treatment of diabetic foot ulcer (DFU) is challenging with disappointing outcome. Wound debridement, infection control, pressure relief and revascularization are main pillars of DFU management. Various substances and modalities are being investigated for their potential effects in treating DFU, one of which is LL-37. In this randomized, controlled trial, 40 patients with uncomplicated DFU will be enrolled. Patients are randomly assigned to undergo twice a week treatment with 0.5 mg/mL LL-37 cream (treatment group) or placebo cream (control group) for 4 weeks in addition to standard wound care. The primary outcomes are the healing rate measured by wound area and granulation index and changes in patterns of aerobic bacteria colonization during the 4-week study duration and changes in concentrations of IL-α and TNF-α from fluid collected from DFU on the end of the second and third week of study compared to baseline.
Role of Negative Pressure Wound Therapy in the Management of Diabetic Foot Ulcers • The aim of this study will be to assess negative pressure wound therapy in treating diabetic foot ulcers.
estimate the percentage of fungal infection in the pathogenesis of diabetic foot osteomyelitis and assess the outcome of patients with fungal diabetic foot osteomyelitis
This is a primary prevention study which aims to assess reduction in the rate of diabetic foot ulcers in patients with high-risk diabetic feet using 3D printed insoles compared to standard care
1. Program Name: Clinical Study on Treatment of Diabetic Foot with Autologous Adipose Stem Cells 2. Bidding Unit: Tenth People's Hospital Affiliated to Tongji University 3. Study subjects: diabetic foot patients 4. OBJECTIVE: To establish an autologous adipose stem cell therapy for diabetic foot and evaluate its clinical safety and efficacy. 5. Study Design: Randomized Controlled Clinical Study 6. Target number of cases: 60 7. Main evaluation indicators: ulcer healing and amputation, calculating ulcer healing rate = total wound healing cases / total ulcer cases in this group; amputation rate = amputation cases / total cases in this group. 8. Secondary evaluation indicators: ankle-brachial index (ABI), Ruthford classification, painless walking time Wong-Baker Faces pain score, transcutaneous partial pressure of oxygen (TcPO2), laser Doppler flowmetry, multi-slice spiral CT angiography (CTA)
using platelet-rich plasma (PRP) in healing diabetic foot ulcers (DFUs), and to compare the rate of healing and final outcome with conventional therapy.