View clinical trials related to Wounds.
Filter by:Both DermACELL® and Integra® Bilayer Wound Matrix are indicated for deep soft tissue coverage and serve as a biological matrix for cellular migration. The current thinking about the utility of these products is to apply over the wound surface and wait until the graft is well vascularized (granular bed/neodermis). At that point a split thickness skin graft can be applied over this area to cover and heal the wound. This study will determine whether human allograft or xenograft will create a durable neodermis that is more supportive of accepting of a split thickness skin graft. Patients who do not receive Split thickness skin grafts will be assigned to the second cohort for observation of healing rates.
We have developed an innovative optical molecular imaging platform (called PRODIGI) based on high-resolution fluorescence and white-light technologies in a hand-held, real-time, high-resolution, non-invasive format. PRODIGI offers a non-contact means of obtaining instantaneous image-based measurements of diagnostically-relevant biological and molecular information of a wound and surrounding skin tissues for the first time and could have significant impact on improving conventional wound care, management, and guidance of intervention. The investigators hypothesize that real-time imaging of tissue autofluorescence signals emanating from endogenous connective tissue (e.g. collagen) and pathogenic bacteria within complex wounds can be used to determine healing status (i.e., collagen re-modeling and wound closure), detect wound bacterial contamination and/or infection that is occult under standard clinical white light evaluation, and guide intervention during wound care.