View clinical trials related to Cicatrix.
Filter by:Skin scarring (fibrosis) is a common complication in the wound healing process and remains a therapeutic challenge. Scar formation often occurs following injury to the skin such as surgery, trauma, and burns. The goal of this study is to evaluate the safety and efficacy of visible red light as a modality to reduce skin scarring after mini-facelift surgery. Based on laboratory data, light emitting diode-red light (LED-RL) phototherapy may lessen post-surgical skin fibrosis clinically.
Prospective, single centre, evaluator-blind study of the safety and performance of fractional radiofrequency (RF) for the treatment and reduction of acne scarring. The study will evaluate 50 treatment sites in subjects requesting treatment of their acne scarring. The study will involve three treatments on both sides of the face with 3-5 week intervals between each treatment. Subjects will be followed at 6 and 12 weeks after their last treatment. Analysis will be performed on all subjects who receive at least one treatment.
Burn scars are treated with compression garments. These are produced based on manual measure data. The aim of this study is to evaluate correct fitting, wearing comfort, suitability for daily use and scar properties after using garments produced on base of measuring data from scanning in comparison to manual measured data.
fat grafting in human skin-grafted immature burn scars histological, clinical and photographic follow-up
To determine whether silicone gel is effective at preventing or minimizing scar formation after eyelid surgery.
The Study Drug is an investigational drug which is being developed by OliX Pharmaceuticals Inc., with an aim to help people who develop hypertrophic scars (a type of permanent scar) in the future. Hypertrophic scars are formed when a wound becomes red, raised, and itchy before it eventually heals. These scars tend to develop due to disease, surgical operations, or burns. Available physical treatment methods to remove scars include surgery or laser therapy; however these are often accompanied by further complications including pain and recurrence of the scar and can be costly. Similarly, therapeutic agents such as ointments or oral drugs have little to no effect in preventing or treating hypertrophic scars. The aims of this Study are to determine the safety of the Study Drug and any side effects that might be associated with it, and how much of the Study Drug gets into the bloodstream and how long it takes the body to remove it. The healthy adult subjects can participate in this study in the age between 18 and 60 years old in the UK. This study will be conducted in 2 parts, Part A and B. Part A will be a single subcutaneous or intradermal dose, dummy controlled study. Part B will be a multiple intradermal dose, dummy controlled study.
This will be a single centre, double-blind, placebo (vehicle) controlled, randomised, dose escalation trial. Three concentrations of topical salbutamol gel will be compared, in a group-wise fashion, with a placebo administration at one incision site on each arm of the trial subjects. Each participant will be allocated to only one dosing group. The treatments will be paired anatomically so that for each pair of sites, one closed incision site will receive the active substance, while the other will receive placebo.
This study explores the smart scar care pad's potential therapeutic effect in treatment hypertrophic scar while elucidating the adverse effects if there is any. Half of the participant receives traditional treatment of pressure garment and the other half receives the smart scar care pad together with pressure garment.
This study evaluates the effect effect of ablative fractional CO2 laser (AFCO2L) on burns scar appearance and dermal architecture at 6 weeks and up to 3-years post-treatment. Half of the scar will receive AFCO2L and half the scar will receive standard care.
The purpose of this pivotal investigation is to evaluate the efficacy and safety of the Cutera enlighten multi-wavelength 532 nm and 1064 nm picosecond pulse duration laser and an investigational micro-lens array (MLA) handpiece attachment for improvement of moderate to severe acne scars.