View clinical trials related to Cicatrix, Hypertrophic.
Filter by:Aim: To compare the gene expression of postburn hypertrophic scar with normal skin.
The study's objective is to compare the global scar outcomes in those treated with silicone only therapy (SOT) versus silicone pressure garment therapy (SPGT) for the prevention of hypertrophic scarring in children with skin grafts after traumatic skin injury.
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.
Most children with cancer need a central venous catheter. These catheters are typically placed on the anterior thorax, where the risk of hypertrophic scarring and keloid development is greatly enhanced. A significant part of the children who have survived childhood cancer are troubled by their scars. Topical glucocorticoid treatment is known to induce a reduction of the collagen in the connective tissue. The investigators hypothesize that treatment with topical glucocorticoids for one week before and three weeks after removal of a central venous catheter, will reduce the formation of hypertrophic scarring and keloid development in children.
Keloids and hypertrophic scars are a common subject of dermatologic consultations. Therapeutic management of such conditions remains challenging because of their high rate of recurrence and lack of curative treatment.
Regular wound healing follows a well-ordered sequence of overlapping phases: inflammation, proliferation, maturation and remodelling. In the young, damage to an organ mostly triggers fully regenerative mechanisms called "primary" wound healing. Repeated damage in young individuals may cause "secondary" wound healing eg. scar formation reflecting a rescue program, in which reorganisation has failed. Organ failure in the ageing organism is characterized by a progressive loss of its capability to achieve an orderly reactivation of organ repair, and results in a combination of chronic inflammation and fibroproliferative, non-regenerative repair affecting several organs, including lung, liver and skin. RESOLVE's objective is to identify, characterize, and validate molecular targets responsible for shifting primary organ repair towards fibroproliferative wound healing as a result of an age-dependent loss of regulatory control. The structured approach is based on - different forms of wound healing, - different human diseases and - different genetic backgrounds, aiming to provide future diagnostic tools in various organs, to create transgenic animal test systems, and to identify molecular targets involved in fibroproliferative wound healing.
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.
Silicone gel is a self-drying silicone polymer that forms thin film after application onto the skin. Because silicone film is a medical device, silicone gel is also regarded as a medical device. Silicone gel has been on the market for many years for the management of scar in the phase of treatment as well as in the phase of prevention. In contrast to other methods that are expensive, invasive or inconvenient, silicone gel is convenient, non-invasive and also reasonably priced. However, the number of well-designed clinicial trials for efficacy and safety are not enough to provide robust evidences in making clinical decisions for scar management options. In a prospective, multi-center, investigator-blind randomized half-split study for patients undergoing cesarean sections, the investigators attempt to provide valid information for the efficacy and safety of silicone gel in the prevention phase of scar.
The purpose of the study is to assess the efficacy of CICATRIX (Asian Gotu Kola or Pennywort) usage in the treatment of Hypertrophic scars and keloids. The duration of this double-blind placebo controlled phase 3 clinical trial will be 12 weeks. The estimated number of persons to be recruited and randomized for the study is 90.
Keloids and hypertrophic scars are not major illness. However, their effects can be from causing pain and itch which substantially interfere daily activity to as severe as causing deformity and other functional impairment. For standard surgical wounds, taking median sternotomy wounds from open heart surgery and lower abdominal wounds from gynecological wounds for example, the incidence of these problems can be from 10% to 60%. To prevent or treat these problems, physicians have used many modalities. One of the most convenient, most cost-effective and most non-invasive methods for patients is using dressings like silicone sheets, silicone gels or paper tapes, which is on the list of 1st line choices of an international recommendation. According to a literature review, most of the previous studies on similar topics are either of small sample size, on non-standard wounds or comparisons between wounds on different patient groups. The methodologies of previous studies are thus not vigorous enough. To get the highest level of evidence on selecting the best dressings for preventing and treating keloids and hypertrophic scars, we will recruit about 75 patients and apply two selected dressings on each halves of their standard surgical wounds to compare their differences. The investigators hope the result of this study can help us find the best modality to use and can contribute to the welfare of our future patients.