Active clinical trials for "Epidermolysis Bullosa"

INVESTIGATIONAL PRODUCT: AGLE-102 is an allogeneic derived extracellular vesicle (EV) product derived from normal donor mesenchymal stem cells (MSCs). INDICATION AND RATIONALE: The aim of the study is to assess the safety and efficacy of AGLE-102 in the treatment of lesions in subjects with Epidermolysis Bullosa (EB). STUDY DESIGN: This is a phase 1/2A, non randomized, multi-center, ascending dose, study to assess the effectiveness and safety of AGLE-102 on lesions in subjects with EB.

The aim of this clinical trial is to investigate the safety and efficacy of allo-APZ2-OTS administered intravenously to subjects with recessive dystrophic epidermolysis bullosa (RDEB) compared to placebo.

The main objective of this prospective, observational, long-term follow-up (LTFU) study is to evaluate the long-term safety profile of the gene therapy products evaluated by Krystal Biotech, Inc. which have a shared backbone of HSV-1, in participants who received at least one dose of investigational product (IP).

Recessive dystrophic epidermolysis bullosa (RDEB) is a subtype of epidermolysis bullosa (EB), an inherited skin condition that presents with blistering skin. The Spincare device, developed by Nanomedic, is the first portable tool that delivers a non-invasive, non-therapeutic electrospun, nanofibrous matrix dressing to wounds to promote healing. The aim of this study is to determine the suitability of this device in RDEB wounds and assess its wound healing properties, safety and tolerability.

A double-blind, randomized, intra-patient placebo- controlled, multiple dose study of PTW-002 evaluating safety, proof of mechanism, preliminary efficacy, and systemic exposure in patients with Dominant Dystrophic Epidermolysis Bullosa (DDEB) or Recessive Dystrophic Epidermolysis Bullosa (RDEB) due to mutation(s) in exon 73 of the COL7A1 gene. Up to two RDEB patients 4 to 17 years of age and up to 6 DDEB patients 4 years of age and older will be enrolled.

Few but persistent wounds often remain even after successful hematopoietic cell transplantation for systemic genodermatosis epidermolysis bullosa (EB). The investigators propose local wound therapy using epidermal skin grafting from the same donor that provided the hematopoietic graft, or from the same EB individual with a mosaic (naturally gene corrected) skin. In both cases permissive immune system and skin chimerism is expected to enable long-term epidermal engraftment and wound healing. The investigators will use FDA approved vacuum device (CelluTome®, Regulation number 878.4820) that enables scar-free harvesting of epidermis and its transfer on a square of surgical tape (Tegaderm®) to the recipient as a wound dressing.

In this study, an artificial intelligence model to detect squamous cell carcinomas (SCC) on photos of recessive dystrophic epidermolysis bullosa (RDEB) skin is developed. The ultimate goal is to integrate this model into an app for patients and physicians, to help detect SCCs in RDEB early. SCCs which rapidly metastasize are the main cause of death in adults with RDEB. The earlier an SCC is recognized, the easier it can be removed and the better the outcome. AI leverages computer science to perform tasks that typically require human intelligence and has recently been used to identify skin cancers based on images. We are currently developing an AI approach for early detection of SCC and distinction of malignancy from chronic wounds and other RDEB skin findings. The aim is to create a web application for patients with RDEB to upload images of their skin and get an output as to SCC present/ no SCC. This will be especially valuable for patients with difficult access to medical expertise and those who are hesitant to allow full skin examination at each visit, often because of fear of biopsies. Thus, this project will directly benefit patients by allowing early recognition of SCCs and will empower patients and their families by providing a home use tool. So far, the study team has mainly used professional images (photographs taken in hospital settings by physicians, nurses, and clinical photographers) of both SCCs in RDEB and images of RDEB skin without SCC to develop and train the AI model. The images that are expected in a real-life setting will mostly be pictures taken by patients or family members with their phones or digital cameras. These images have different properties regarding resolution, focus, lighting, and backgrounds. Incorporating such images will be crucial in the upcoming phases of model development-testing and validation-for the web application be a success for patients.

The goal of this observational study is to conduct a prospective assessment of the individual Burden of 9 rare skin diseases to assess disability in the broadest sense of the term (psychological, social, economic and physical) for patients and/or families. Two types of indicators will be used to reach this objective : an individual burden score calculated based on a burden questionnaire created specifically, approved and designed to understand the tendency to changes in care and lifestyles. The burden questionnaire should be used by patients and/or their family themselves in self-assessment. a descriptive analysis of all resources (medical and non-medical) used by the family unit to manage the disease.

Recessive dystrophic epidermolysis bullosa (RDEB) is a disease caused by genetic mutations in the gene for type VII collagen. Patients with RDEB develop large, severely painful blisters and open wounds from minor trauma to their skin. We are screening subjects with RDEB to evaluate characteristics of the subjects and their cells in order to develop new strategies of therapy and determine whether subjects could be candidates for treatment studies.

Epidermolysis bullosa (EB) is a group of inherited disorders characterized by fragility of the skin and mucous membranes within the basement membrane zone. It is characterized by moderate to excessive fragility of epithelial tissues with prototypic blistering or erosions following minimal trauma (mechanobullous dermatoses). The chronic pain associated with EB, the hardship placed on caregivers, and the high risk for complications places a considerable psychosocial burden on both patients and their families. Despite considerable research to advance the understanding of EB pathophysiology, no treatments have been approved by regulatory authorities to date. Heparan sulfates are key elements of the Extra Cellular Matrix scaffold which act both as linkers, bridging structural matrix proteins such as collagens, laminin and as storage and protector sites to communication peptides, playing a pivotal role in the regulation of cell proliferation, migration and differentiation that are all required for tissue regeneration and repair. CACIPLIQ20 is a bioengineered structural analogue of heparan sulfate glycosaminoglycans. Numerous experimental studies have provided strong evidence that CACIPLIQ20 promotes tissue regeneration by reconstructing the cellular microenvironment following tissue injury. CACIPLIQ20 is currently a class III CE marked medical device (NSAI-0050 CE MARK ECDECNL-A4 (6) and EC Annex II of the directive. NL-A4 (7)) with the following indications: Chronic ulcers showing no tendency to heal after 6 months of standard care, or still unhealed after 12 months: Pressure ulcers. Peripheral arterial disease (such as Stage IV Leriche & Fontaine) ulcers. Diabetic ulcers (including amputation). Preliminary results from several published and unpublished case reports (Al Malak and Barritault, 2012; Bodemer, unpublished observations) suggest that CACIPLIQ20 is safe and can improve wound healing and reduce pain in patients with epidermolysis bullosa. The goal of the MATHBULL study is to confirm preliminary observations in a placebo-controlled double-blind pilot study. The results of this pilot study will help to design a pivotal study.