View clinical trials related to Keratoconjunctivitis.
Filter by:Diagnosis of patients with microsporiosis relies on pathological findings as well as laboratory detection of the causative organism. The conventional laboratory diagnosis of microsporiosis relies on microscopic visualization of the characteristic V. Corneae organisms. We develop a fully automated molecular platform for detection of Vittaforma corneae among patients with microsporidia keratitis.
Every night during sleep, there is an accumulation of white blood cells in the closed eye. The closed eye white blood cells are predominantly neutrophils, but there is a small population (3%) of T cells. The effects of these closed eye white blood cells on dry eye disease pathogenesis have yet to be fully elucidated, but preliminary evidence suggests that closed eye neutrophils may have an associated hyperactivity and increased degranulation in dry eye disease that could contribute to epithelial instability. As an anti-T cell therapy, Xiidra offers an opportunity to better understand how the closed eye white blood cells are recruited and activated. This study also seeks to verify the proposed mechanism of action.
The purpose of this pilot study is to assess repository corticotropin injection (RCI) in the form of H.P. Acthar Gel in patients with severe keratoconjunctivitis sicca (KCS, or dry eye disease). This pilot study is a non-randomized, open-label, interventional study to assess the efficacy and timeline of RCI for the treatment of severe KCS recalcitrant to conventional therapy. The purpose is to acquire preliminary data to support and guide the design of a future, double-masked, randomized, controlled clinical trial.
This is a phase 2 study to further evaluate the safety and efficacy of tasocitinib (CP-690,550) in the subjects with moderate to severe dry eye disease. Both subjective and objective clinical endpoints will be measured for a duration of 12-week treatment.