View clinical trials related to Foot Ulcer.
Filter by:The growing incidence of DM can lead to the increased prevalence of diabetic foot complications, which have become a serious medical, social, and economic concern of global importance. this study aims to find a novel intervention that improve wound healing in diabetic foot ulcer to improve patients' quality of life, reduce amputation rate, and reduce the mortality rate among diabetic foot ulcer patients
This is a phase 2 study performed in diabetic foot ulcer (DFU) patients with chronic non-healing, neuro-ischemic wounds to investigate the safety, tolerability and efficacy of AUP1602-C.
This study is a platform study designed to efficiently test multiple biomarkers to identify diabetic foot ulcers (DFUs) with a higher potential for healing versus not healing that ultimately could be applied at the point of care to drive personalized management decisions, and to better inform clinical trials of wound healing interventions
The purpose of this study is to develop a short message-based customized standardized diabetic foot ulcer patient education program, and to test the effect of the program on diabetic foot ulcer self-management behavior, self-efficacy, wound prognosis, and quality of life. The short message-based customized standardized patient education program combines several smartphone message-based standardized educational contents to construct a customized patient education program which is according to the needs of patients, thus providing individualized patient education in a timely manner
The study will evaluate the safety and performance of Symphony™ versus Standard of Care (SOC) in the treatment of chronic non-healing diabetic foot ulcers (DFU) after 12 weeks of treatment.
Study will evaluate the performance and safety of Endoform™ Natural and Endoform™ Antimicrobial in conjunction with Symphony™ in the treatment of chronic non-healing diabetic foot ulcers after 12 weeks of treatment.
This is a feasibility study, designed to assess the acceptability of At Home Temperature Monitoring (AITM) by patients at high risk of diabetes foot ulceration. The investigation hopes to identify any problems with the study design before progressing to a full-scale evaluation, and will assess the ease of use of the technology and if there are any barriers to using this. Participants will be provided with an infrared camera and SMART phone and trained in how to use them. The participants will then be expected to capture images of both the plantar and dorsal aspects of their feet that will be sent to the research team for review. The two images will be captured once per day. The Intervention period will be 12 weeks. If a raised temperature is identified, the participant will be offered a face to face review appointment where they will receive podiatry treatment (if required), ulcer prevention advice and more detailed thermal imaging. Patient and health care professional (HCP) questionnaires will be used at the start and end of the study period to assess quality of life impact and device ease of use.
The purpose of this clinical evaluation is to collect and compare outcomes data from patients with UT 1A diabetic foot ulcers treated with 510K FDA cleared, commercially available self-assembling peptide, AC5®Advanced Wound System, as compared to an advanced standard of care. Patient outcomes will be compared at the end of the study.
The project is designed to develop and test Pressure Alternating Shoes (PAS), which will periodically off-load certain regions of the foot in order to prevent foot ulcers. An automated dual layer insole compromised of an active pressurized actuator array in combination with a passive compliant layer on top of each actuator to modulate and distribute the plantar surface pressure as desired will be tested. This device will allow us to simultaneously load and offload select areas of the foot using the active layer by inflating and deflating individual actuators using pressurized air. After offloading, the remaining load will be distributed to other areas with inflated actuators. Automatic modulation will be provided through programmable control hardware which will cyclically relieve mechanical loading based on a prescribed duration and frequency.
One in five foot ulcers are caused by the footwear worn by people with diabetes, yet there is a lack of consensus around footwear fit. Recommended toe gaps (the gap between the longest toe and the inside of the shoe) vary depending on the footwear guidance referred to but no research to date has assessed the recommendations' effectiveness in minimising in-shoe pressures. The investigators will carry out a pilot study in 60 people with diabetes and loss of foot sensation (neuropathy). In this study, the investigators will measure in-shoe pressures whilst participants walk at the same pace to the beat of a metronome. An insole placed inside participants' shoes will measure in-shoe pressures. Participants will wear the same (standardised) type of footwear. The study is designed to detect a difference in pressure within this made-to-measure footwear whose fit conforms to Standard 1 guidance compared with footwear whose fit conforms to Standard 2 guidance. Differences between Standards 1 and 2 with Standard 3 will be considered secondary analyses. Standards are simplified to three non-overlapping recommended toe gap ranges of 0.5-1.0cm; 1.5-2.0cm and 1.0-1.5cm. The investigators will also analyse the heat images taken with a thermographic camera before and after walking in standardised footwear whose fit confirms to these standards (this is known as the plantar thermal stress response to walking). Footwear fit will be determined by measuring the dimensions of participants' feet and that of participants' footwear and comparing the two. The investigators will also measure footwear fit and associated in-shoe pressure/plantar thermal stress response in participants' habitual footwear during walking at paced and self-selected speeds.