View clinical trials related to Eczema.
Filter by:The purpose of this trial is to evaluate the efficacy and safety of tralokinumab administered as subcutaneous (SC) injection by an autoinjector in adults and adolescents (age 12 to 17 years) with moderate-to-severe atopic dermatitis (AD).
This is an open-label, multicenter study to evaluate the systemic exposure and safety of topical tapinarof cream, 1% under conditions of maximal use in pediatric subjects with atopic dermatitis
Phase 2b study designed to evaluate the efficacy and safety of ASLAN004 in adult patients with moderate-to-severe Atopic Dermatitis (AD) who are candidates for systemic therapy. This study will have 5 treatment arms (4 active and 1 placebo).
The main purpose of this study is to evaluate the efficacy of lebrikizumab compared with placebo in participants not adequately controlled with cyclosporine or for whom cyclosporine is not medically advisable up to Week 16.
This is an open-label, long-term multicenter, study to evaluate the safety and efficacy of topical tapinarof cream, 1% in subjects with atopic dermatitis. Subjects in this study have completed treatment in one of two Phase 3 pivotal studies (DMVT-505-3101 or DMVT-505-3102) or completed treatment in the DMVT-505-2104 study, or directly enrolled into this study. This study will consist of up to 48 weeks of treatment and a 1 week safety follow-up period.
Single center, analyst-blinded, study comparing the scratching events identified via an actigraphy scoring algorithm versus manual scoring of an overnight video recording, undertaken in a sample of 40 adult patients with atopic dermatitis and controls.
This is an interventional, randomized, parallel group, treatment, Phase IIb, double blind, 5-arm study to assess the effect of Anti-OX40L Monoclonal Antibody (KY1005) in adult participants with moderate to severe atopic dermatitis. The estimated duration is 28 days for screening and then up to approximately day 477 (last dose no later than day 337+140 days safety follow-up) for all patients unless enrolled into the LTE (Long-Term Extension) protocol (NCT05492578) at either Day 169 depending on responder status or no later than Day 365 due to loss of clinical response.
This is a randomized, double blind, vehicle controlled Phase 2 study with a 4-week open label extension in adolescent and adult participants with atopic dermatitis and head and/or neck involvement. It is intended to compare the efficacy and safety of ruxolitinib cream 1.5% BID versus vehicle cream, then further evaluate ruxolitinib cream as maintenance during the open label extension period.
The purpose of this research study is to determine whether the study drug, EDP1815, is safe and effective in the treatment of atopic dermatitis compared with placebo. The study will look at different doses of the study drug, and whether there are differences when the drug is given once daily or twice daily.
Medical imaging commonly involves the use of radiation, such as x-rays, that can give detailed images of internal structures of the body but can carry a small risk of tissue damage due to the radiation involved. As such, the number of x-rays and computed tomography (CT) scans that an individual can have has to be minimised. Methods have recently been developed that make use of electromagnetic radiation for imaging purposes at terahertz (THz) frequencies, the region of the spectrum between millimetre wavelengths and infrared. Terahertz spectroscopic imaging uses low power levels such that adverse effects on tissues are insignificant and is safe for in vivo imaging of humans [1]. The terahertz region is between the radio frequency region and the optical region generally associated with lasers. Both the IEEE RF safety standard and the ANSI Laser safety standard have limits into the terahertz region. The focus of this project is to investigate THz spectroscopic imaging as a new and powerful tool for analysing skin properties, termed "THz skinometry". The novelty in this project lies in tailoring the instrumentation and algorithms of THz scanning to accurately measure properties of human skin (e.g. hydration levels and skin thickness) in vivo. The customised non-contact and pressure-controlled contact THz probes developed will be able to do spectroscopic measurements of skin in vivo at the molecular level. This will be the first demonstration of in vivo THz imaging of skin globally and will facilitate quantitative characterisation of skin in a way that has hitherto not been possible and could lead to a step change in THz technology usage (similar to that currently used in airport security scanners).