View clinical trials related to Epidermolysis Bullosa.
Filter by:Epidermolysis Bullosa (EB) is a blistering disease that is caused by defective anchoring fibrils and hemidesmosome in basement membrane of the skin layer. EB is inherited either autosomal or recessive and has 3 types. Recessive Dystrophic Epidermolysis Bullosa (RDEB) is severe with some morbidity such as mitten hand deformity. The management of these patients is very difficult because no effective treatment has been known yet. The EB patients with mitten hand deformity need surgery to have a biologic dressing for areas of hand which is without the skin. In this study the investigators assess the safety of autologous transplantation of cultured fibroblast on amniotic membrane (AM,as coverage) for them.
The purpose of this study is to test the effectiveness of Helicoll (a collagen wound dressing) in treating chronic and non-chronic wounds of recessive dystrophic epidermolysis bullosa (RDEB) patients. Helicoll will be compared to standard wound dressings.
Introduction: Epidermolysis Bullosa Simplex-Dowling-Meara (DM-EBS) is a rare genodermatosis characterized by spontaneous or post traumatic large cutaneous blisters. No curative treatment is actually available. Some data suggest a role of inflammation in the occurrence of blisters. The aim of this study is to study the epidermis inflammatory mechanisms in DM-EBS. Material and methods: A first retrospective immunohistochemical study will be led on remainder skin biopsies of DM-EBS patients took for the diagnosis. A second clinical multicentric prospective study will be led on 8 patients older than 1 year with severe DM-EBS. After informed written consent, they will answer to a standardized questionnaire. In case of flare of the disease, the liquid and the top of the blisters will be took. Samples will be analyzed in the Pr Nicolas 851 INSERM unit. After centrifugation of the liquid blisters, the repartition of inflammatory cells will be evaluated by Fluorescence Activated Cell Sorting on the pellet. Markers of inflammation will be evaluated on the surnageant with Luminex® technical with a multiplex targeting cytokines and chemokines. An immuno-histochemic analysis in association with a quantitative PCR will be made on the top of the blisters. If unknown, genotypic study will be made. Perspectives: A better comprehension of physiopathological mechanisms in DM-EBS could offer new therapeutic ways.
This is a feasibility study to see if Granulocyte Colony Stimulating Factor (GCSF) is effective as a treatment of Dystrophic Epidermolysis Bullosa (EB.) Patients will receive one course of treatment with the study drug. The course will be 7 days in length. After receiving GCSF, patients will be followed at 7 and 30 days following the discontinuation of the drug. Thirty day follow up can be done via telephone communication with the patient or family.
The purpose of this study was to compare intra-individually the reepithelialization of skin lesion(s) in inherited Epidermolysis bullosa (either 1 wound ≥10 cm2 and ≤200 cm2 in size divided in 2 equal halves or 2 comparable wounds of ≥5 cm2 each) treated with Oleogel-S10 and non-adhesive wound dressing versus non-adhesive wound dressing only.
This trial will create a skin graft, which the investigators call "LEAES," using the patient's own skin cells that have been genetically engineered in the lab to express a missing protein called type VII collagen. The corrected cells will be transplanted back to the patient.
This is an open-label, single institution, phase II study in patients with epidermolysis bullosa (EB). The underlying hypothesis is that the infusion of bone marrow or umbilical cord blood from a healthy unaffected donor will correct the collagen, laminin, integrin, or plakin deficiency and reduce the skin fragility characteristic of severe forms of EB. A secondary hypothesis is that mesenchymal stem cells from a healthy donor will enhance the safety and efficacy of the allogeneic hematopoietic stem cell transplant as well as serve as a source of renewable cells for the treatment of focal areas of residual blistering.
A phase II, comparative, open label, prospective, multicentre clinical trial where each patient will undergo two procedures; implant of a patch of cultured chimeric skin (experimental therapy) in a half of the skin lesion and an occlusive non-adherent dressing (control) in the other half for 12 months of follow-up in two Spanish centres.
Dystrophic epidermolysis bullosa hereditaria are genodermatosis responsible for formation of cutaneous bullous lesion arising spontaneously or after mechanical trauma. These lesions are due to mutation on gene COL7A1 coding for collagen VII. There is no treatment available. Cares are consisting to dress lesions and to protect the skin. The investigators have recently observed on patients having residual expression of collagen VII that phenotype severity is modulated by activation degree of dermic metalloproteinase. The investigators have also observed that epigallocatechin-3-gallate (Polyphenon E®) could be regulated this activity. The primary purpose of this study is to assessing the efficacity of Polyphenon E to decrease the number of cutaneous bullosa after four month of treatment. The primary outcome measure is the rate of patient presenting a decrease of 20% or more of the number of cutaneous bullosa. Secondary outcomes are: severity of mucosa impairment, affected cutaneous surface, the average duration of cicatrisation and treatment tolerance. This study foresees the inclusion of 22 patients older than 2 years old in 5 centers. When patients are included, they will be randomized and receive the treatment (or placebo) for 4 months.
Recessive dystrophic epidermolysis bullosa (RDEB) is a severe inherited blistering disease caused by the absence of type VII collagen. Patients with RDEB develop large, severely painful blisters and open wounds from minor trauma to their skin. We are screening RDEB subjects to determine additional characteristics of patients who survive to adulthood.