View clinical trials related to Corneal Diseases.
Filter by:The purpose of this study is to evaluate the safety and efficacy of GP-asPNA for in vivo treatment of severe antibiotic resistant bacterial keratitis.
Introduction: Glaucoma is the second leading cause of blindness globally. Most anti-hypertensive drops contain preservatives harmful to the corneal epithelium, with up to 78% of treated patients reporting dry eye symptoms. Autologous serum eye drops (ASED), contains essential growth factors and nutrients which may promote corneal and conjunctival integrity, offering benefits over traditional treatments. This study investigates the efficacy of 20% ASED over placebo in the treatment of corneal epitheliopathies in patients with glaucoma treated with antihypertensive drops. Methods: The present study is a triple-blinded, randomized controlled trial that anticipates to enroll 25 patients (50 eyes) with bilateral corneal epitheliopathy secondary to antihypertensive glaucoma treatments. Patients will receive autologous serum eye drops in one eye and placebo in the contralateral eye for two months, in addition to standard artificial tears treatment. The primary outcome is the comparison of National Eye Institute (NEI) scores between autologous serum drops and placebo-treated eyes at two months. Secondary outcomes include Schirmer's test scores, visual acuity, tear break-up time (TBUT), Ocular Surface Disease Index (OSDI) scores, intraocular pressure, and complication rates. The study aims to analyze the effectiveness of autologous serum eye drops in treating corneal epitheliopathies in glaucoma patients, potentially offering a new therapeutic avenue.
This study developed a deep learning algorithm based on anterior segment images and prospectively validated its ability to identify corneal diseases.The effectiveness and accuracy of this algorithm was evaluated by sensitivity, specificity, positive predictive value, negative predictive value, and area under curve.
Pupillary movement during eye surgery can be a challenge for eye surgeons. Despite the risk of intraocular lens damage and malpositioning due to mechanical manipulation1, iris manipulation may lead to a significant elevation of cytokines in the aqueous humor and an increase of postoperative inflammation2, 3. Iris damage is also known to lead to an increase of prostaglandin production which will not only lead to an increase of inflammation but also has an impact on intraoperative miosis4. This leads to the assumption that postoperative inflammation can be related to intraoperative pupillary movements due to the same leading cause of an increase of inflammatory mediators. Tracking intraoperative pupillary movements might therefore be a helpful tool for the prediction of postoperative PCME and could have an impact on therapeutic decisions after surgery.
The goal is to develop a nationwide registry to track longitudinal clinical outcomes of and store imaging data related to numerous corneal conditions. There are two main objectives including the establishment of the first nationwide corneal transplant registry in the United States to include information related to the donor tissue, recipient, surgical procedure, and long-term clinical outcomes. Ultimately, this prospective data collection will allow us to determine prognostic factors for successful corneal transplantation and create an algorithm to guide clinical practice based on real world outcomes. The second objective is to collect and create a database of historical, de-identified optical coherence topography (OCT) and corneal topography images to ultimately develop artificial intelligence (AI) based diagnostic and prognostic algorithms for corneal disease and surgery.
In the upcoming years, more and more ophthalmologists will be confronted with patients receiving Belantamab mafodotin (Belamaf) treatment due to the promising effects on survival in multiple myeloma patients. Early, at best subclinical detection of corneal damage may contribute to the definition of the optimal dosing regimen as well as therapy interval in each patient without the need to stop this lifesaving treatment. However, until today, studies focusing on the development, morphology, and evolution of corneal epithelial changes associated with Belamaf treatment are scarce. In order to clarify the precise pathomechanism of the associated keratopathy, innovative imaging techniques such as corneal confocal microscopy (CCM) need to be used to follow patients prior to therapy and on a regular basis during treatment intervals. In specific, different regions of the cornea, including the central apex, the (mid-) periphery and the limbus need to be explored. The latter, in specific, is often claimed to play an important role in the uptake of Belamaf into the cornea, but has not been studied in any approach so far. Likewise, there are no reports on the effects of Belamaf on corneal layers adjacent to the corneal epithelium, in specific the subepithelial nerve plexus (SNP). Changes in this layer may suggest a potential peripheral neurotoxic/neurodegenerative effect, associated with Belamaf. Furthermore, there is a lack of evidence from literature on how changes in the anterior layers of the cornea as studied with confocal microscopy in patients on Belamaf treatment differ from distinct corneal changes in these same layers in patients with other anterior corneal diseases including keratokonjunctivits sicca, epithelium basement membrane dystrophy and limbal stem cell disease. At last, regeneration of the corneal surface after Belamaf discontinuation has been described and is expected, but detailed information on the time to corneal rehabilitation as well as confocal microscopic follow-up of epithelial and neuronal layers during this time is warranted. The purpose of this monocentric, prospective longitudinal study is to answer these specific research questions in a combined clinical approach using corneal confocal microscopy.
This study is designed to learn more about the impact different types of stimuli, such as heat, cold and vibration, can have on ocular pain response. This is called quantitative sensory testing (QST). Most procedures being performed in this study, except the QST, are standard of care which means they are performed during the participant's routine eye examination.
This prospective, single center, interventional, open-label, single arm, non-randomized trial seeks to investigate the efficacy of Oxervate® (cenergermin 0.002% eye drops) on ameliorating the signs and symptoms of neuropathic corneal pain (NCP). The study aims to enroll 28 subjects with NCP. All patients will be evaluated for clinical symptoms and signs of NCP, corneal staining and nerve regeneration (by IVCM) at Baseline (Visit 2) through the end of study (16 weeks post treatment).
A Single Arm, Pivotal, Open Label, Multicenter Clinical Investigation to Evaluate the Clinical Safety and Performance of the CorNeat Keratoprosthesis, for Treatment of Corneal Blindness
The aim of this study is establish the reliability and clinical utility of microneuromas as identified via in vivo confocal microscopy as the diagnostic biomarker for NCP.