View clinical trials related to Burn Scar.
Filter by:This is an observational cohort study which will look at the biomarkers from blood and tissue sample for adult patients with hypertrophic scarring due to burns/trauma incident over 12 months from date of recruitment. The study will assess the kinetics of the response to fractionated carbon dioxide laser therapy in hypertrophic scars.
the purpose of this study is to compare the gain in length after postburn contracture release using two different techniques, the more commonly practised z - plasty and relatively newer technique, square flap
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.
Best method in management of facial burn scar
Scarring from burn wounds remains a chronic and often severe sequela of burn injury. Burn wounds may be left to heal by secondary intention or treated with surgical skin grafting; in both circumstances, significant scars likely result. When surgical skin grafting is employed, skin graft harvest sites ("donor sites") likewise result in clinically significant scars. This study will have interventional and observational components. Patients will receive the standard fractional ablative CO2 treatments to their scars resulting from burn wounds allowed to heal by secondary intention and/or those treated with skin grafts. These will be prospectively observed for the duration of the study as well as adjacent normal skin. In addition, a donor site that meets inclusion criteria that would not have otherwise received LSR will be identified as a treatment site. Patients with have one half of their donor sites randomized to standard of care (SOC) treatment, which consists of wound dressings, compression therapy, physical and occupational therapies and the other half randomized to SOC + ablative fractional CO2 laser therapy (LSR).
The purpose of this study was to compare two wound dressing products for partial thickness burns in adults.
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 burn patients, the wound healing process may lead to a fibrotic hypertrophic scar, which is raised, inflexible and responsible functional impairments. There are few studies which have investigated the effect of extracorporeal shock wave therapy (ESWT) on hypertrophic scar characteristics using objective measurements. Thus, this study aimed to ascertain the effects of ESWT on burn scars using objective measurements. This double-blinded, randomized, controlled trial involved 36 patients with burns. Patients were randomized into a ESWT (an energy flux density (EFD) of 0.05 to 0.30 mJ/mm2, frequency of 4Hz, and 1000 to 2000 impulses) or a sham stimulation group.
No study has investigated the effect of extracorporeal shock wave therapy (ESWT) on hypertrophic scar characteristics. Thus, this study aimed to ascertain the effects ESWT on burn scars. The investigators retrospectively reviewed burn patients who had undergone autologous split-thickness skin grafting (STSG) with same artificial dermis between January 2012 and September 2019.
Doctors and patients refer to all areas of skin changes from burn injury as burn scars. However, different areas of scars from burns can be treated differently. The burn scars that come from skin grafting surgery might be improved with laser treatment. The purpose of this study is to see if treating burn skin graft scars with a laser could make it better. Fractional Ablative Laser has been approved by the US Food and Drug Administration (FDA), but it has not been approved for use in the early stages of scar maturation and is considered investigational for this study.