View clinical trials related to Diabetic Foot.
Filter by:The primary objective is to evaluate the efficacy and safety of the use of a formulation of snail slime and natural extracts, for the curative treatment of ulcer wonds in diabetic foot. The secondary objetives: 1. To evaluate the efficacy of the use of a formulation of snail slime Helix aspersa Müller and natural extracts (MU001) for the curative treatment of ulcer wonds in diabetic foot with respect to the standard of care, by means the application of patchs that containing the formulation in a treatment period of until 60 days. 2. To determine the safety of the use of a formulation of snail slime Helix aspersa Müller and natural extracts (MU001) in diabetic individuals in a treatment period of until 60 days.
Diabetic patients suffering diabetic foot disease have sever comorbidities, as hypertension, ischemic heart disease, autonomic neuropathy, infections and gastric reflux all of which contribute to a high risk profile for anesthesia. failure rate associated with ankle or popliteal nerve block may be higher than accepted, the study hypothesized that combined ankle and popliteal block may increase the success rate with no added complications.
Foot ulceration is a common and costly complication of diabetes. GSK1278863 is a topical drug, which is being developed to treat wounds associated with DFU. The aim of this study is to explore the symptoms and impacts of DFU from the subject perspective and to elicit in-depth information about DFU signs and symptoms, impacts on functioning and health-related quality of life (HRQoL). Adult DFU subjects with current or recent (within last six months) neuropathic foot ulcers will be eligible to participate in this prospective, cross-sectional interview study. Approximately 20 DFU subjects will be recruited from up to three clinical sites. Potential subjects will be pre-screened and then contacted to gauge interest in the study. Interested subjects will be screened and eligible subjects will consent to release contact information to research staff. Research staff will contact the subject to schedule interviews. This study will include concept elicitation interviews over the telephone or in-person by trained and experienced interviewers. In-person interviews will be conducted in a private room at the clinical site. All interviews will be conducted in English and will be guided by semi-structured interview guides. All subjects will provide written consent prior to the start of the interview.
Diabetic patients with a history of diabetic foot are considered to be a high-risk population for increased cardiovascular and all-cause mortality (1,2,3,). Diabetic foot (DF) is responsible for more hospitalizations than any other complication of diabetes and are the leading cause of non-traumatic lower extremity amputations, resulting in nearly 100 000 amputations annually in the US alone (4,5,6). Surgical debridement, as an important component of standard of care of diabetic foot, is intended to remove healing-impaired tissue, decreases bacterial burden, thus to stimulate overall wound closure, while removing as little of healing-competent skin as possible. Furthermore, debrided tissue is often used as a valuable tissue source for research purposes (7,8,9,10). Debrided tissue presents valuable diagnostic and research source to verify pathology, assess prognosis and gain insights into DF molecular pathology, all of which ultimately leads to improved outcomes. We aimed to validate tissue obtained from surgical debridement of DF for the cellular/molecular tissue analyses and biomarkers, to evaluate the pathophysiology of DF and understanding mechanisms that inhibit healing. The age range will be 50-70 years, in order to minimize the effects of irreversible vascular wall changes induced progressively by the aging process. All patients will undergo screening procedures that will include full anamnesis, physical examination, basic laboratory blood tests (full chemistry, CBC); urine examination and EKG will be performed at start and at the end of the study. Patients with a significant myocardial, and renal, cerebrovascular or hepatic disease will be excluded from the study. In a prospective study, we will collect wound edge tissue specimens from 75 patients with DF during surgical debridement. From each patient, 1-4 specimens will be obtained per debridement. To evaluate debrided tissue, each specimen will be processed for paraffin embedding and stained with haematoxylin and eosin. Histopathology analysis of multiple specimens acquired from the same wound will be analysed.
This study will gather preliminary clinical, health economic, and safety data on the treatment of chronic wounds with the ALLEVYN Life Non-Bordered dressing compared to standard of care treatment when used on a wound.
Diabetic foot ulcer (DFU) is one of the most invalidating complication of diabetes and represents a big economic burden for the society. No specific therapy is available for diabetic foot ulcers.The aim of this study is to define a new approach for treatment of chronic diabetic wounds. Our concept is based on the improvement of the cellular reaction to hypoxia. It will address the transcriptional factor HIF-1 (Hypoxia inducible factor-1) which is the cellular sensor for oxygen and which is specifically repressed by hyperglycemia. The study will investigate the effect of local deferoxamine (0.66 mg/ml), the only known HIF-1 inducer, on the wound healing rate in patients with neuropathic diabetic foot ulcers. The primary objective of the study will be the reduction with >50% of the wound area after 12 weeks of treatment.
(DERMALIX) (Patent number: PCT/TR2014/000251) is a bioactive wound dressing that was developed by Ege University School of Pharmacy Department of Pharmaceutical Technology. This dressing has been categorised as Class III medical device. This clinical study will be conducted in patients with diabetic foot ulcers.
Introduction Negative pressure wound therapy (NPWT), also known as topical negative pressure, has become a popular therapy for the treatment of many acute and chronic wounds. In many randomized controlled trials(RCTs), NPWT also has benefit in diabetic foot ulcer and pressure ulcer. However, most studies used commercial VAC device in combined with polyurethane (PU) foam. It is not yet clear where NPWT combined with gauze as wound filler is as effective as the PU foam. This RCT evaluated the efficacy of the gauze and PU foam, two kinds of fillers routinely used in negative pressure wound therapy, on the healing of the diabetic lower-extremity ulcers and the pressure ulcer. Methods From 2010/1 to 2015/01, the in-patient persons with difficult to heal diabetic ulcer or Grade 4 pressure ulcer were enrolled. These patients were divided into two groups randomly. The letter of consent was signed by the patient or patient's family. After debridement of the infective wound, the wound of experimental group was packed with a moistened Polyhexamethylene biguamide (PHMB) impregnated gauze (Kerlix AMD, Covidien). A noncollapsible drainage tube (Blake drain, Ethicon) was applied to the wound, and then sealed with 3M Tegaderm Film. The system was connected to a 1-bottle water-seal chest drainage system and to standard wall suction at 125 mmHg negative pressure. The dressing was changed at 72- to 96-hour intervals (twice a week) for a period of 3 weeks. To the control group, the PU foam dressing from KCI was packed and sealed to the wound with the same continuous wall suction at -125mmHg. Investigators observed and recorded the ulcer area twice a week on each time of changing dressing in the following 3 weeks. The percentage of wound area reduction(PWAR) was used as a predictor of wound healing. The repeated measuring data were analyzed using linear mixed mode with SPSS statistical software. This clinical study was approved and monitored by Institutional Review Board of Show Chwan Memorial Hospital.
Diabetic foot ulceration (DFU) is a common and largely preventable complication. While most of these ulcers can be treated successfully, some will persist and become infected. Ultimately, nearly one fifth of patients with infected lower-extremity diabetic ulcers will require amputation of the affected limb.Prevention by identifying people at higher risk is the key for better clinical management of such patients. It is not uncommon for patients suffering from diabetes to have concomitant lower extremity edema or even venous insufficiency and they subsequently may benefit from graduated compression. However, because of the common association of peripheral arterial disease (PAD) in patients with diabetes, most clinicians are reluctant to apply compressive dressings in fear of exacerbating the symptoms of PAD and the possible resulting gangrene. A novel micro-mobile foot compression device named Footbeat (AVEX, Inc.) offers alternative means providing lower extremity compression. This device is portable and can be used in a standard diabetic shoes on daily basis, which in turn may improve venous blood and relief from concomitant lower extremity edema. In addition, potential improvement in lower extremity blood flow in response to regular foot compression, could improve balance, gait, skin perfusion, plantar sensation, and overall daily physical activities (e.g. number of taken steps per day, duration of standing, etc). The purpose of this study is to conduct an observational study with N=30 ambulatory patients with diabetes and loss of protective sensation to assess whether this micro-mobile foot compression device can help improving motor function, lower extremity perfusion, and vascular health.
The purpose of the study is to analyse skin blood flow in diabetic patients. The patients receive a single dose of placebo, 1 mg BAY1193397, and 5 mg BAY1193397. The analysis of safety and tolerability are secondary objectives of this study.