View clinical trials related to Dermatitis.
Filter by:The study aims to investigate two new non-invasive technologies for assessing skin properties to identify and validate a range of safety biomarkers that may be considered useful as primary outcome measures for evaluating the safety of topical treatments in atopic dermatitis. The method of assessing these biomarker technologies will be to determine whether twice daily treatment with crisaborole (2%) ointment, compared to betamethasone valerate (0.1%) cream, for up to 4 weeks, may cause skin structure or function changes, like skin atrophy, in patients with atopic dermatitis (AD).
The skin is innervated by a network of nociceptive sensory neurons (nociceptors) whose primary function is the transmission of pain and pruritus signals to the central nervous system. Their role in atopic dermatitis (AD), characterized by an exacerbated type 2 immune response, is only partially understood. Nevertheless, large amounts of neuropeptides, including substance P (SP), are found in the serum of patients, their level being correlated with the clinical severity of AD. Mast cells (MC) are part of the cells of the immune system residing in the skin. MCs have neuro-receptors of the Mas-related G protein-coupled receptors family (MRGPR) and in particular MRGPRX2 (the receptor for cationic molecules [including SP] for MCs) through which they could communicate in a privileged way. with the nociceptors. Preliminary data obtained in mice show that its mouse orthologue "MrgprB2" is absolutely necessary for the development of type 2 immunity and the pathological characteristics of a preclinical "DA-like" model (manuscript in preparation). The investigators therefore hypothesize that the activation of MCs expressing MRGPRX2 by nociceptors producing SP plays a key role in the development of type 2 inflammation in AD in humans.
Birth cohort study with recruitment during pregnancy to determine prenatal and perinatal conditions, as well as genetic and epigenetic factors, that participate in the early setting of immune responses, and the role of these in the later determination of the risk of allergic diseases, asthma, and metabolic conditions in the offspring.
This study will evaluate the incidence of allergic manifestations (the first of which is atopic dermatitis) and infectious diseases in children fed with an infant formula under real conditions of use.
This pilot study will evaluate new methods for the collection, storage, shipment, and RNA extraction of skin tape specimens from children with atopic dermatitis (AD) that will facilitate the multi-center SunBeam Birth Cohort study. Additionally, this pilot study will test new methods for the generation of whole transcriptome sequencing data from skin tape RNA and whether these data reflect the transcriptional state of the skin in health and disease.
This study consists of two phases (Phase I and Phase II). Phase II will be conducted sequentially after the safety of SCM-AGH is secured in Phase I. Phase I: Multicenter in Korea, Randomized, Open-label, Parallel arm Phase II: Multicenter in Korea, Double-blind, Placebo-controlled, Parallel arm
This is a randomized, double-blind, placebo-controlled, parallel-group study which is 52 weeks in duration. The study is designed to confirm the safety and efficacy of lebrikizumab as monotherapy for treatment of moderate-to-severe atopic dermatitis utilizing a 16-week induction treatment period and a 36-week long-term maintenance treatment period.
The purpose of this study is to examine scratching behavior and identify brain areas responsible for stress-induced spontaneous scratching in patients with atopic dermatitis (AD).
This is a single site, randomized, open-label comparison pilot study to assess the feasibility and effectiveness of KeraStat Cream compared with routine skin care (RSC) in managing radiotherapy-induced early adverse skin reaction (EASR) in patients undergoing radiotherapy to the head and/or neck. Hypothesis: The use of KeraStat Cream in patients receiving radiotherapy for head and neck is feasible, tolerable, and reduces the severity of early adverse skin reaction in the treated region of interest.
This proposed study is a randomized, double-blind, placebo-controlled, 3-arm parallel, multicenter phase II study, designed to explore the efficacy and safety of SHR0302 treatment for patients with moderate to severe atopic dermatitis. The study will be conducted over a 12-week treatment period. Two active doses of SHR0302 will be compared to placebo and improvement in atopic dermatitis will be assessed using the Investigator's Global Score (IGA)