View clinical trials related to Diabetic Foot Ulcer.
Filter by:Assess the effect of iontophoresis of treprostinil on wound closure over 12 weeks, in patients with DFU. In the present study the investigators aim at establishing the proof-of-concept of iontophoresis of treprostinil as a potential treatment of diabetic foot ulcers in humans. The main hypothesis is that in patients with DFUs, the pharmacodynamic effect of a PGI2 analogue potentiates the effect of low-intensity current on microvascular function, tissue oxygenation and healing.
This is an observational, single-arm, on-label study. This clinical study will be conducted at up to 2 sites with a total of 10 subjects per site. All subjects will receive standard of care treatment which includes DFU treatments with the dermaPACE device.
examine safety of topical application of single dose allogeneic bone marrow derived mesenchymal stromal cells to non-healing diabetic foot ulcers
This is a randomized, double blind, placebo-controlled study to evaluate the safety of the low level laser MC-8XL device treatment in subjects with an unsuccessfully treated Diabetic Foot Ulcer (DFU) that has been present for at least 3 months. Eligible subjects will be randomized to either Treatment group or Control group, following which, treatment of each subject will be provided by a qualified nurse at the clinic or in the home setting, everyday for up to 16 weeks. Study assessments and adverse events monitoring will be also performed throughout the study.
Diabetic foot ulceration (DFU) is a common complication with a 25% lifetime risk in patients with diabetes. While most of these ulcers can be treated successfully on an outpatient basis, some will persist and become infected. Nearly one fifth of patients with lower-extremity diabetic ulcers will require amputation of the affected limb, resulting in staggering costs for both the patient and the healthcare system. Therapies that promote rapid and complete healing and reduce the need for expensive surgical procedures impact these costs substantially. The standard of care for the treatment of diabetic foot ulcers is the removable cast walker (RCW). RCW use has demonstrated plantar pressure reduction yet is typically perceived as having compliance issues due to its removable nature. In addressing this limitation, a modified version of the RCW has been developed by wrapping it in a layer of cohesive or plaster bandage. This technique has been termed the "instant" total contact cast (iTCC) derived from the seldom-used, gold standard treatment, the total contact cast (TCC). While ease of application and potential clinical equivalence are clear benefits, the iTCC carries disadvantages on account of its irremovability. For example, frequent dressing changes impractical, yet may be necessary for complex wound care. The goal of this research is to continue inquiry and innovation in this most basic aspect of care, whilst addressing the limitations of past research and failures in this domain. The investigators propose examining the capability of the SurroSense Rx® smart insole and smartwatch system (Orpyx Medical Technologies Inc., Calgary AB) in managing and monitoring adherence to plantar pressure offloading through alert-based feedback. The insoles are embedded with pressure sensors, which wirelessly communicate with a smartwatch that provides feedback on modifying activity or pressure profile over time. This smartwatch transmits audio, visual, and tactile notifications when excessive pressure-time thresholds under plantar regions of interest have been met. This feedback allows patients to be educated on their plantar pressure, and engages them and their caregivers to manage adherence to offloading. The investigators also propose comparing the healing rates of active neuropathic ulcers using RCWs coupled with the SurroSense Rx® smart insole system to assess whether adjunctive use of the two interventions improves the efficiency of neuropathic ulcer treatment.
The primary translational research objective of the study is to demonstrate feasibility of using the Transcutaneous Raman Spectroscopy technology in a point-of-care environment. This study represents an initial evaluation of the device in a small cohort of human patients with diabetic foot ulcers. We will be evaluating safety, device design and certain human engineering factors associated with point of care use of the TRS. We anticipate the data we collect in this study will form the basis of later medical device studies.
This study is a prospective comparative study to determine if an Iodine Gel (Iodosorb◊) is better than standard dressing (Solosite◊ gel) in disruption of biofilm (small microorganism bacteria similar to plaque on teeth) on the wound bed diabetic foot ulcers. ◊ Trademark of Smith & Nephew
The purpose of this reseach study is to determine Mölnlycke Health Care´s Leia dressing performance properties is fulfilled and that the dressing is safe when used on wound types such as pressure ulcer, leg ulcer, and diabetic foot ulcer.
To evaluate the safety of topical 0.03% DSC127 Gel when used for one or more continuous treatment periods on a chronic Wagner Grade 1 or 2 foot ulcer(target ulcer) or multiple ulcers in diabetic subjects. The maximum duration of any treatment period is 24 weeks.
The purpose of this study is to determine if AutoloGel platelet rich plasma used on non healing diabetic foot ulcers Wagner gd. 1 and 2 is more effective then the usual and customary care