View clinical trials related to Keloid.
Filter by:Skin injuries due to trauma are relatively common, and patients are very concerned about scars caused by trauma and primary repair. Recently, the use of ablative and non-ablative lasers based on the fractional approach has become a novel strategy for the treatment of scars. The objective of this study is to compare the efficacy of dual-mode Er:YAG laser delivering pulses either with and without heat/coagulation in a cohort of patients with long keloid/hypertrophic scars. The main hypothesis is that ablative fractional laser without heat/coagulation is equivalent to laser with heat/coagulation in terms of scars volume reduction, while the secondary hypothesis is that ablative fractional laser without heat/coagulation is superior in terms of post-operative erythema and hypopigmentation reduction.
The main purpose of this study is to see if there is clinical benefit of using Biovance in reduction of the recurrence of keloids when used to revise them. It will also assess the postoperative complications.
Background Scarring typically occurs after trauma, burn injury or surgery. Hypertrophic scarring presents as raised, red and itchy lesions which variably respond to various treatment modalities, such as corticosteroids, pressure garments, laser therapy, the use of silicone sheets and radiotherapy. Kynurenine, or "Fibrostop 1" (FS1), and its further breakdown products, such as kynurenic acid, or "Fibrostop 2" (FS2), are endogenous products found in many systems and have shown potential in reducing scar formation in animal studies. The aim of study is to evaluate the safety and tolerability of FS2 cream applied to the skin of healthy human subjects.
To evaluate the effectiveness of RXI-109 in reducing the recurrence of keloid formation following elective keloid excision.
This prospective evaluation studies the effectiveness of Intralesional (IL) cryotherapy with a argon gas based device in treating keloids and hypertrophic scars in population consisting of all Fitzpatrick skin type patients
This prospective study evaluates the outcome of surgical excision with adjuvant high-dose-rate brachytherapy for the treatment of recalcitrant keloids. Main outcomes are recurrence rate, scar quality and physical complaints.
This prospective evaluation studies the effectiveness of IL cryotherapy in treating keloids and hypertrophic scars in a large population of mixed Fitzpatrick skin types.
This is a 3-arm randomised clinical enabling study, with no investigational product. Keloid patients who are scheduled for surgical excision of one or more keloid scars (up to nine) will be recruited to the study. The aim is to investigate how collagen synthesis within keloid scars is affected by the current approved steroid treatment for keloids, triamcinolone acetonide (TAC). The primary endpoint will be fractional collagen synthesis in keloids which have received intra-lesional injections of TAC, placebo or no treatment prior to their removal. Fractional collagen synthesis will be determined using an established isotope/mass spectrometric technique which measures levels of deuterium incorporation into collagen following administration of heavy water to the subject. In addition; keloid tissue samples will be evaluated post surgery to identify further biomarkers of extracellular matrix synthesis and degradation for application in future clinical studies. Subjects will complete a screening visit and will then be randomised to receive three intra-lesional injections of TAC or placebo, or no treatment, at an interval of 2-3 weeks. Subjects will be randomised to different treatment sequences depending on the number of keloids they have scheduled for surgery, in such a way that subjects with multiple keloids will receive different arms of study treatment in their different keloids. Planned surgery for removal of their keloid(s) will be performed at week 6-8. All subjects will receive daily heavy water (Deuterium oxide) administration (twice daily or thrice daily as directed), with the first dose being taken at the Week 2 clinic visit and the final dose being taken on the day prior to surgery. A follow-up visit will be conducted at 1-4 weeks post-surgery.
The purpose of this study is to evaluate the effect of calcium electroporation on keloids.
Hypertrophic or keloid scars develop for about 39% to 68% of patients after surgery. The subjective opinion of the patient regarding the scar will often constitute the standard for judging the success or failure of the procedure. Surgical scars are not only a cosmetic concern but they can also cause pain, itching, discomfort, contracture, and other functional impairment. Various treatment options exists for treating hypertrophic scars and keloids, including intralesional steroid injection, dermabrasion, pressure therapy, surgical excision, radiotherapy, cryotherapy, pulse dye, and carbon dioxide laser ablation. However, these treatments often require multiple visits and have limited success. Therefore, prevention and early recognition of hypertrophic scars and keloids are very important in their management. Among preventive treatments available, silicone gel and onion extract gel have been marketed as products to improve the appearance and texture of surgical scars. Despite its popularity, data demonstrating the efficacy of these gels are lacking. Furthermore, there is no comparative study of silicone gel and onion extract gel for preventing postsurgical hypertrophic or keloid scars. The investigators therefore conducted this randomized controlled trial to compare the efficacy of silicone gel and onion extract gel for the prevention of postsurgical hypertrophic scars. The investigators also compared patient compliance and side effect between two topical gels.