11 Clinical Trials for Various Conditions
Purpose - To determine the effectiveness of custom-fit pressure garment therapy in the prevention of hypertrophic scarring in healed burns. Background - Approximately one million people are burned each year in the United States. The most devastating outcomes following burns is the ugly, itchy, hypertrophic scar that interferes with work and all other aspects of life. Pressure garment therapy is routinely used to minimize hypertrophic scarring even though there is no scientifically valid data that this therapy is efficacious. Pressure garments are extremely unattractive, expensive and uncomfortable and their use needs to be based upon valid data. Goals and Objectives - The investigators plan to determine the effectiveness of pressure garment therapy in the control of hypertrophic scarring in healed burns. Methods - The I-Scan® device was designed to measure pressure at the body/environment interface and allows clinicians to deal with pressure-related problems for at-risk patients. It has been widely used in rehabilitation medicine but not with burn survivors. The investigators will use this device to measure the pressure at the garment/skin interface. 2) Furthermore, the few studies that have been attempted to determine efficacy have used between subjects designs. Since burn depth is extremely variable from patient to patient and since hypertrophic scarring is greatly influenced by age and race/origin, the between subjects design requires very large numbers of subjects. The investigators will use a within wounds design studying forearm burns and applying pressure to half of the wound and no pressure to the other half. The investigators will then compare hardness, color, thickness and clinical appearance.
Subjects with a burn to the face and/or neck will be enrolled into the study and a Three-Dimensional scanner used to see if it can objectively measure scar color and volume and measure the effect of scar on motion of the face and neck.
Patients who have hypo-pigmented burn scar will have two scars chosen and randomized to treated scar and control scar. The subject will then have both scars treated with fractional ablative CO2 laser (FLSR). The treated scar will have bimatoprost delivered through the laser channels, while the control will have the vehicle (normal saline) only delivered. The treatment will continue for 14 days with twice daily application. The scars will then be monitored at a 2-week follow-up visit where levels of melanin will be evaluated. Tissue punch biopsies will also be used to evaluate the mechanism of action of bimatoprost. Treatment will occur for 6 sessions at 4-6 week intervals including follow- up visits and evaluations.
A prospective, double blind, randomized controlled human clinical trial will be conducted by enrolling patients referred for laser treatment from the USAISR burn clinic. Laser candidates will be asked to participate who have an area of extremity or truncal scar measuring approximately 6cmX6cm total, in one contiguous region. The study sites, will consist of four equally sized treatment areas (3cm x 3cm), will be randomized to be treated with PDL, CO2, a combination of CO2+PDL, and an untreated control for 6 treatments. The areas will be photographed prior to each treatment and at the final visit 4-6 months after the last treatment. Color, pliability and thickness will be measured using a colorimeter, cutometer and high frequency ultrasound respectively at each appointment. Additionally, the Patient Observer Scar Assessment Scale (POSAS) will be used to score the quality of the scar, using two trained, blinded observers. The patients will also be asked on a voluntary basis for a pre-trial and post-trial 3mm punch biopsy to evaluate for the presence of histological changes.
Hypertrophic burn scars are experienced by more than 70% of burn victims. They are a major source of decreased quality of life in burn patients due to pain, decreased range of motion, and poor cosmetic appearance. Current treatment strategies (including fat grafting and laser resurfacing) are either highly invasive, prohibitively costly, or painful. Autologous Platelet Rich Plasma (PRP) does not require anesthesia, and is an inexpensive, safe, fast, and less painful alternative that has been recognized for its role in reducing scars associated with acne, among other things. While PRP has not been studied specifically in burn scars, there is sufficient theoretical and practical evidence that it will improve the appearance and feel of these debilitating scars, representing a large potential benefit for these patients with minimal associated risk.
Laser treatment of hypertrophic burn scars has become increasingly popular for improving scarring in burn survivors. Despite its common use, there a gap in knowledge regrading randomized control trials that demonstrate whether the laser is beneficial. Such a trial is important because if it shows the laser does work, it would provide the evidence to make such treatments more accessible to all patients. Furthermore, there is no knowledge whether the burn injury used to remove tissue is beneficial or not. This study aims to evaluate the laser treatment, removal of similar tissue amounts with 0.5mm punch biopsies, to controls to fill this knowledge gap. The hypothesis is the laser is beneficial at improving patient's burn scars. Also the punch biopsies work better at improving scars by removing tissue without burning and injuring the surrounding tissue as the laser does. To evaluate these treatments (laser, punch biopsies, and no treatment), 3 small areas will be chosen in a study scar area that meets specific criteria to receive . Patients will still be able to receive laser and burn reconstruction procedures in all other areas not involving the study scar area that are clinically indicated. In the study, the scar will be evaluated with photographs, surveys, and tissue samples taken either while under anesthesia except for one set taken with numbing medicine. The tissue samples will be looked at under a microscope to see how the treatments change the scar tissue. The tissue will also have tests done to evaluate how the laser impacts genes from cells in the scar tissue. Lastly, to understand how reconstructive procedures (laser and surgical treatments) change a patient's quality of life, patients will be asked a limited set of questions to learn more how these procedures improve their lives.
Pulse-dye laser therapy has been used to treat the redness, tightness and discomfort of hypertrophic scars resulting from burn injuries. To date the effectiveness of laser therapy on children's burned scars has not been measured.
Currently, there are limited prevention or treatments available for dyschromia in burn hypertrophic scars (HTSs). The limited available techniques involve transferring melanocytes from unaffected areas to the scar to adjust pigment. These techniques involve the creation of a donor site and do not utilize the cells that may already be present in scars. This study aims to confirm melanocyte presence in regions of hypo- and hyper- pigmented HTS. If melanocytes can be found in regions of hypopigmentation, these scars may be able to be treated in the future by pigmentation stimulators without the need for surgery. Additionally, if pigmentation specific molecules of interest can be found to be up-regulated in hyperpigmented scar, these may be able to be altered by a pharmacotherapy.
Hypertrophic Burn Scars (HTBS) are often treated with Fractional CO2 laser therapy to improve cosmetic appearance. It has been noted that this leads to a reduction in the pain and itch associated with this type of scars. While this phenomenon is commonly described in the literature, the mechanism of pain and itch reduction in unclear. The investigators aim to better understand this process by histological evaluation of HTBS at different stages of laser treatment.
In a burn population, conduct a prospective, double-blinded, randomized, controlled clinical trial to determine the ability of spray silicone to alter the physical characteristics of burn scar compared to a placebo.
The primary objective of this study is to evaluate the safety of ICX-RHY-013 in the treatment of stable, restrictive scars in subjects who have suffered a burn injury. Evaluation will be achieved through regular assessment of adverse events, vital signs, blood work monitoring and laboratory analysis cellular properties of the scar through biopsy. The secondary objectives of this study are to evaluate improvement in symptoms of scars including reduced pain, discomfort and itching, improvement in mobility and daily function, improvement in appearance and scar texture.