View clinical trials related to Hypertrophic Scar.
Filter by:Scar tissue can cause serious complications that significantly impact a patient's quality of life. Common complications include stiffness and contractions, which can restrict joint mobility and make daily activities challenging. In severe cases, these limitations can even prevent patients from fulfilling their work responsibilities or engaging in activities they enjoy. The deleterious effect of scar tissue on a patient's well-being is of utmost significance. However, several therapeutic approaches have been proposed to manage scar tissue complications. Enhancing scar tissue compliance can help patients regain their functional abilities and reduce limitations. One such approach is dry needling, a technique used to improve the flexibility of myofascial tightness. Nevertheless, the effectiveness of dry needling in improving scar tissue compliance remains debatable. Therefore, this study aims to investigate the therapeutic effects of dry needling on complications resulting from linear hypertrophic scars caused by surgery or trauma.
The goal of this clinical trial study: is to determine the effect Botulinum toxin type A iontophoresis in hypertrophic scars for post burned patients. The main question is it aims to answer is: - Does Botulinum toxin type A iontophoresis may help in minimizing postburn hypertrophic scars? - Participants will receive the treatment for 3 months. - Assessment will be done before and after treatment.
Piezoelectric drived microneedling treats refractory skin disorders using hollow microneedles assisted by ultrasound. Mechanically, the injection of medicine by hollow microneedling could makes the distribution of medicine more evenly. And the addition of ultrasound technique improves the effectiveness of microneedling. Investigators plan to conduct a pilot study to investigate the efficacy of using piezoelectric drived microneedles in treating refractory skin diseases.
Hypertrophic scars and keloids are frequently encountered in plastic surgery OPD. due to any reason, the normal wound healing is impaired, hypertrophic scars or keloids occur. These are thickened, wide and raised scars. Many treatment options are presented over time, but most of the treatments remain insufficient. Treatment options include massage therapy, silicone sheet, occlusive dressings, pressure garments, adhesive tape, intra-lesional steroid injections, laser therapy, cryotherapy, radiotherapy, 5-fluorouracil, interferons, bleomycin, imiquimod 5%cream, tranilast, botulin toxin and surgical excision. In this Study outcomes of treatment with silicone sheeting and microneedling will be compaired.
The study includes two study groups, one involves treatment with auto-cross-linked Hyaluronic acid by intralesional and hypodermic injection, repeated after two weeks (T14), while the control arm provides an equal treatment but with isotonic saline solution. Enrolled patients will be randomized into 2 groups with an allocation of 2:1 in study treatment arm and control arm respectively. They will be evaluated using the POSAS scale before the treatment and re-evaluated at 30, 90 and 180 days after treatment. The scar evaluation will be completed by an ultrasound assessment at time 0 (T0), 30 (T30), T90 and T180 and the DLQI (Dermatology Life Quality Index) to be assessed at time 0 (T0), 30 (T30), 90 (T90) and 180 (T180). In subjects that will consent, a small surgical biopsy for an explorative evaluation of the scar tissue will be performed before (T0) and after treatment (T30) for a histological assessment.
This study will look at silicone tape compared to the current no dressing standard at the investigators institution, to determine if silicone tape provides a significant improvement in post-abdominoplasty scar appearance. Silicone tape will be added to half of the abdominoplasty incision of patients undergoing abdominally-based breast reconstruction procedures two weeks after their operation. They will be followed up and assessed at specific timepoints to determine whether the silicone improves scar outcomes in these patients.
The investigators developed a portable pressure measuring device using silicon piezoresistive pressure sensors. As PicoPress® is the most accurate (i.e., lowest variation and error) manometric sensor for pressure measurement, the investigators used it to compare and examine the accuracy of the proposed device regarding in vitro pressure measurements. The purpose of this study was to determine the effectiveness of pressure garment therapy using proposed device with objective data obtained with a randomized within wound comparison. Pressure measurements were acquired through a readout circuit consisting of an analog-to-digital converter, a microprocessor, and a Bluetooth transmission module for wireless data transmission to an external device. The mean pressure values measured by the sensors were compared to those obtained from PicoPress®. This was a double-blinded, randomized, controlled trial of patients with hypertrophic scars. In the pressure monitoring group, garment pressures were monitored using the portable pressure measuring device, and the compression garment was adjusted so that the pressure was maintained at the therapeutic range of 15 - 25 mmHg. In the control group, non-surgical standard treatment of burn scars except for pressure monitoring was performed in the same manner.
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.
The study will investigate the safety and effectiveness of daily post surgical scar management, using a moisture-balancing base product containing different amounts of a novel (NCE) antifibrogenic compound FS2, a natural metabolite of the kynurenine pathway. Results of recent peer-reviewed, pre-clinical evidence warrant further investigation to validate therapeutic scar preventive efficacy of topically administered/delivered FS2. There are no known safety concerns with current product formulations. Recent Phase I clinical safety and tolerability data further support continuation of the research proposed in this study.
Botulinum toxins has been approved by the FDA to treat chronic migraine. Botox had been shown to inhibiting the release of inflammatory mediators and peripheral neurotransmitters from sensory nerve to treat neuropathic pain. In the clinical practice, botox indeed effect in scar pain. However, investigators need well controlled study to prove this finding and assess the improvement of scar appearance.