View clinical trials related to Glaucoma.
Filter by:This study will be intented to evaluate the safety and tolerability of CRISPR/Cas9 Instantaneous Gene Editing Therapy (BD113 virus-like particle, also BD113vLVP) in patients with primary open-angle glaucoma (POAG) with elevated intraocular pressure and MYOC gene mutation. The main objectives to evaluate the safety and tolerability BD113vLVP) in POAG patients with intraocular hypertension and MYOC mutation, and secondary objectives is to explore the preliminary efficacy and the preliminary metabolism characteristics of BD113vLVP in participants.
This study aims to investigate the effect of different types of glaucoma surgery on aqueous dynamics parameters (IOP, aqueous flow rate, trabecular outflow facility and uveoscleral outflow) in patients with uncontrolled open angle glaucoma or ocular hypertension (OHT)
A randomized, multicenter, investigator-masked prospective study of NTG patients currently on latanoprost 0.005% monotherapy, to study the effect of IOP change with the introduction of netarsudil 0.02% vs brimonidine 0.1%. Subjects will be assessed at a screening visit, and 1 follow-up visit. Clinical evaluations will include visual acuity and IOP .
To evaluate the intraocular pressure reduction effect of combined gonioscopy-assisted transluminal trabeculotomy (GATT) with goniosynechialysis in eyes with secondary synechial angle closure glaucoma.
Assessment and monitoring of intracranial pressure (ICP) changes are important in the management of cerebral pathologies. In the eye, ICP increase and decrease both correlate with optic neuropathies, the former because of papilledema and the latter related to glaucoma. While the relationship between ICP elevation and papilledema is well established, the relationship between low ICP and glaucoma is still poorly understood. So far, ICP monitoring is performed invasively, but this entails risks including infection, spurring the study of non-invasive alternatives. While none of currently methods in use can fully replace invasive techniques, certain measures show great potential for specific applications. In this context, monitoring the intracranial pressure changes of normal tension glaucoma may lead to a better understanding of how intracranial pressure waves vary in normal tension glaucoma. Treatment of normal tension glaucoma as a two-pressure disease needs periodic intracranial dynamic monitoring sessions for evaluation of treatment effectiveness and for needed corrections of treatment methodology. Project aim is to be able to monitor the "missing link" of intracranial dynamics of patients with normal tension glaucoma according to circadian rhythm: in the morning, during lunch and in the evening. The opportunity to monitor ICP waves non-invasively for patients with normal tension glaucoma will be implemented for the first time by using novel non-invasive intracranial pressure waves real-time monitoring system invented by KTU team in 2022 (patent applications are in the process of registration in the EU and USA).
The purpose of this two-stage clinical trial is to assess the safety and hypotensive efficacy of AR-17043 and PG043 ophthalmic solutions in subjects with open-angle glaucoma (OAG) or ocular hypertension (OHT).
Hypothesis: The use of neurocytoprotectors helps restore the functional activity of mitochondria, improve the nervous activity of the retina and optic nerve, and stabilize the glaucomatous process.
The objective of this study is to predict of glaucoma progression. By imaging of the retinal nerve fiber layer RNFL, optic nerve head (ONH) and macular measurements using spectral-domain OCT (SD-OCT) instruments
This study intends to conduct visual function examinations and follow-ups on two groups of glaucoma patients, one receiving visual perceptual training and the other serving as a control without training. The aim of this study is to explore the effects of visual perceptual training based on the lateral masking paradigm on patients' visual function. Additionally, synchronized EEG-fNIRS signals will be collected to investigate whether changes in patients' visual function are accompanied by corresponding alterations in brain function.
The goal of this clinical trial is to examine the effect of the fixed combination Citicoline 500 mg, Homotaurine 50 mg, Pyrroloquinoline quinone (PQQ) disodium salt (Neuprozin Mito®) on pattern electroretinogram (PERG) in patients with primary open angle glaucoma on well controlled intraocular pressure It will also learn about the safety of this fixed combination. The main questions it aims to answer are: Does the fixed combination Citicoline 500 mg, Homotaurine 50 mg, Pyrroloquinoline quinone (PQQ) disodium salt (Neuprozin Mito®) improve PERG amplitude and/or latency? Does the fixed combination act as neuromodulator in glaucoma patients based on electrophysiology? Does the fixed combination improve quality of life of glaucoma patients? Does the fixed combination have any effect on optical coherence tomography (OCT)? Researchers will compare the fixed combination Citicoline 500 mg, Homotaurine 50 mg, Pyrroloquinoline quinone (PQQ) disodium salt (Neuprozin Mito®) to citicoline 800 mg to see if the fixed combination works better than citicoline alone as neuroprotective agent in glaucoma. Participants will: Take the fixed combination or citicoline alone every day for 4 months After 4 months patients will be crossed over to the other treatment for 4 months. Visit the clinic at enrollment and once every 4 months (at month 4 and at month 8) for checkups and tests (visual field, OCT, PERG and quality of life questionnaire)