View clinical trials related to Scleroderma, Localized.
Filter by:The purpose of this research study is to learn about the effects of the medication ixazomib in participants with scleroderma/systemic sclerosis including its safety and tolerability, its effects on skin, lungs and other organs, and its effects on overall health and quality of life.
Prospective monocentric study of patients with systemic sclerosis disease. The primary outcome is to define the prevalence of olfactory disorders (hyposmia and anosmia) in systemic sclerosis disease. The secondary outcomes are: - To assess the correlation of olfaction disorders with clinical and biological and factors related to systemic sclerosis patients. - To estimate the frequency of sinonasal disorders in patients with systemic sclerosis disease
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
This is a phase IV, single-arm, open-label clinical trial to evaluate the efficacy and safety of PLACENTEX ® Polydeoxyribonucleotide i.m. in patients with fibrotic and atrophic cutaneous lesions in scleroderma diseases during the inactive stage of the disease (experiencing dystrophic outcomes of the disease with no inflammatory component at the time of enrolment). The patients enrolled will be evaluated at study site at screening (V1), then after 3 months of treatment with PLACENTEX ® Polydeoxyribonucleotide (one vial per day for intra-muscular administration) (V2). After completion of the study treatment period, the patients will be followed for an additional period of 3 months without study medication, after which the patient will visit the site for the last visit (V3). 1 investigational site. 45 patients enrolled (included drop-outs).3 months of treatment with PLACENTEX ® Polydeoxyribonucleotide (one vial per day for intra-muscular administration).
The purpose of the Duke Scleroderma Registry (DSScR) is to obtain information about scleroderma. This information could be used in future research to increase the understanding of disease mechanisms, treatments, and outcomes. This research may also help develop new therapies, novel measures of disease assessment or identify previously unknown manifestations of the diseases. A prospectively followed cohort is an integral component of future translational and clinical research programs. A registry for scleroderma would allow for information to be gleaned about patients in "real-world situations" in an effort to improve the reality, generalizability and applicability of information gathered.
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 primary objective of this study is to evaluate the safety, tolerability, and efficacy of pomalidomide in the treatment of patients with systemic sclerosis with interstitial lung disease.
The purpose of this study is to investigate the effectiveness and safety of the drug Gleevec (imatinib) as a new treatment for patients with active diffuse scleroderma. This drug has not been used previously to treat scleroderma, but it has been found to advance the treatment and life span of patients with a type of leukemia called chronic myeloid leukemia or CML. Gleevec acts on chemical signals in the cells that may decrease fibrosis (the hardening of the skin that occurs in scleroderma). It works by interfering in the process that activates many molecules that cause fibrosis, including TGFbeta (which may be a key part of disease activity in scleroderma). This study proposes to treat patients that have significant diffuse scleroderma with Gleevec for 6 months and investigate several measures of scleroderma disease activity before, during and at the end of treatment (0, 3 months and 6 months). This is a randomized, double blind, placebo-controlled trial: 20 patients will be divided into two groups in a 4:1 ratio, with 16 patients taking 400mg of Gleevec per day and 4 taking a placebo. The differences between the groups that will be measured include safety, Modified Rodnan skin score (mRSS), Health Assessment Questionnaire (HAQ), global assessments (100mm VAS) and changes in biomarkers in blood and skin biopsies.
The purpose of this study is to determine whether the drug Bosentan improves exercise tolerance in scleroderma patients.