View clinical trials related to Morphea.
Filter by:The purpose of this study is to assess the degree of improvement seen patient reported outcomes after 30 sessions of UVA-1 therapy in treating systemic scleroderma, morphea, and sclerodermatous Graft-Versus-Host Disease. While patients have verbally reported improvement of their sclerosing skin disease with UVA-1, patient reported outcomes have not been rigorously studied. In sclerosing skin diseases where clinical change is difficult to measure, patient reported outcomes may offer a better way to study the impact of treatments like UVA-1. This will be a non-blinded, non-randomized prospective trial using UVA-1 phototherapy in patients with established sclerosing skin disease. Patients will report the severity of their condition using multiple patient reported outcomes and will also be analyzed using multiple clinical investigator assessments at the beginning and end of 30 treatment sessions.
Extracorporeal photopheresis (ECP), also known as extracorporeal photoimmunotherapy or photochemotherapy, is a leukapheresis-based therapy that has been in clinical use for over three decades after receiving FDA approval in 1988. Extracorporeal photopheresis was initially used for the treatment of T-cell lymphoma. Since its introduction, indications for initiating ECP were continuously extended to the treatment of Graft-versus-Host Disease (GvHD), systemic sclerosis, and in the field of solid organ transplantation. There is also evidence supporting the use of ECP in generalized morphea, a form of scleroderma limited to the skin, and in eosinophilic fasciitis, which is a rare, localized fibrosing disorder of the fascia. Concluding the results of the published studies, there is evidence that ECP has a positive effect on fibrosing disorders of the skin. Furthermore, in clinical practice, it has been observed that patients with systemic sclerosis, who undergo ECP treatment, show improvement of the skin lesions or a deceleration in the formation progress of such lesions during the therapy. Same findings can be observed in patients with sclerotic skin lesions of the skin, for example in the context of a GvHD. There are no clinical studies so far that describe these processes using objective measuring methods. Furthermore, the mechanism of action of ECP in systemic sclerosis and other fibrosing disorders with skin manifestations, has not yet been conclusively clarified. Serological markers for monitoring the progress of the therapy and determining the prognosis are also missing. Thus, a consensus regarding the frequency and duration of ECP for the therapy of systemic scleroderma or sclerotic diseases has not yet been reached. This study aims at evaluating the influence of Extracorporeal Photopheresis on the quality and functionality of sclerotic skin lesions assessed by several objective methods. Furthermore, potential biomarkers, which are being investigated in current studies, are to be determined in order to evaluate the influence of ECP on those biomarkers and better understand the mechanism of action of ECP on systemic sclerosis and fibrosing disorders involving the skin.
The principal objective is to measure the degree to which oral microstomia caused by sclerosing skin disease improves after treating patients with local hyaluronidase injections. Investigator will determine improvements in oral aperture by measuring the centimeters of the height of oral opening. The secondary objectives are: Investigator will aim to assess changes in quality of life and functionality, by serial calculations of the Mouth Handicap in Systemic Sclerosis (MHISS). In addition, investigator would like to investigate how many treatments are required prior to treatment efficacy plateauing. Since there is minimal data on the use of hyaluronidase for oral microstomia, it is not yet clear how many treatments are ideally required for maximal effect. Patients will be brought in monthly for photographs, examination, assessment, and treatment. Our hypothesis is that hyaluronidase injections will significantly improve patients' ability to open their mouths and oral functionality. It remains unclear how many treatments will be required for maximal effect.
A two-component therapeutic consisting of FCX-013 and veledimex for the treatment of localized scleroderma (or morphea). The first component, FCX-013, is autologous human fibroblasts genetically-modified using lentivirus and encoded for matrix metalloproteinase 1 (MMP-1), a protein responsible for breaking down collagen. FCX-013 is designed to be injected under the skin at the location of the fibrotic lesions where the genetically-modified fibroblast cells will produce MMP-1 to break down excess collagen accumulation. With the FCX-013 therapy, the patient will take an oral compound (Veledimex) to induce MMP-1 protein expression from the injected cells. Once the fibrosis is resolved, the patient will stop taking the oral compound which will stop further MMP-1 production from the injected cells. FCX-013 plus veledimex is being developed in anticipation of improving skin function in patients by resolving fibrotic lesions and normalizing dermal collagen production
Corticosteroid therapy, including intralesional and topical applications, has many indications within the fields of Dermatology, Plastic Surgery, and Orthopedics. However, these injections can be quite painful, which leads many patients to discontinue treatment. Often, the injection involves a mixture of local anesthetic and corticosteroids despite a lack of evidence that the use of lidocaine improves pain. Due to the acidic pH, the lidocaine component of the injection can actually cause a significant burning sensation during the procedure. Lidocaine does not have anti-inflammatory properties and does not treat the underlying pathology. By including another medication, lidocaine also adds cost and risk to the procedure. The purpose of this study is to see if removing lidocaine from intralesional injections decreases the pain of injection.
This is a pilot study to determine the safety and clinical efficacy of crisaborole 2% ointment in the treatment of morphea.
This study will look into how topical treatment with synthetic Vitamin D3, calcipotriene ointment, used as standard of care, works in patients with morphea. Skin biopsies of morphea lesions before and after treatment with topical calcipotriene 0.005% ointment will be analyzed for changes in RNA and protein. A skin biopsy of unaffected skin will also be obtained and used for a control. This is an initial study to look at the molecular effects of topical calcipotriene on human morphea-involved skin. This study will look at the differences between affected and unaffected skin. This study also will look at clinical outcomes in morphea patients and determine if there are any clinical predictors for improvement with the medication.
The purpose of this study is to investigate the genetic architecture of Linear Localized Scleroderma (LLS) (linear morphea) by whole exome sequencing.
The Morphea in Adults and Children (MAC) cohort is the first registry for both children and adults with morphea (also known as localized scleroderma) in the country. The purpose of the registry is to learn more about morphea, specifically: - How morphea behaves over time - How frequently specific problems occur along with morphea (for example, arthritis) - Whether morphea has an autoimmune background
This is a randomized, blinded, and controlled trial to assess the efficacy and safety of UVA1 phototherapy in the treatment of active morphea in adults and children. Forty patients will be randomized to receive either medium dose (70 J/cm2) phototherapy (active UVA1 phototherapy) with an ultraviolet translucent acrylic screen or "sham" UVA1 (0 J/cm2) phototherapy with an ultraviolet opaque acrylic screen 3 times per week for 10 weeks. The phototherapists, patients, and principal investigator will be blinded to whether the patients receive active or sham UVA1 phototherapy. Patients will only be allowed to apply emollients during the study. Patients completing the randomized placebo controlled trial (RPCT) will be followed during an open observation period for 3 months. During the open phase, all outcome measures from the RPCT (LoSSI, PGA-A) will be assessed every 5 weeks as well as adverse events. Patients who received sham UVA1 phototherapy will be invited to receive active UVA1 phototherapy using the same protocol as in the RPCT during the open observation. Adult patients enrolled in the RPCT will also be part of a nested translational study investigating the effect of UVA1 phototherapy on gene expression from whole skin biopsies taken before (Study Visit 1) and after UVA1 phototherapy (Study Visit 3). Gene expression profiles will be compared in lesional skin before and after treatment as well as nonlesional skin.