View clinical trials related to Glaucoma, Open-Angle.
Filter by:When the glaucoma filtering surgery failures (intraocular pressure rises again), the options is start to use the hypotensive eye drops again (medical treatment). However, in some cases (encapsulated blebs), there is a simple surgical revision that can revival the primary failure surgery. It calls transconjunctival needling revision. In this study, the investigators compare the efficacy of this revision versus medical treatment in 12-month follow up in eyes with encapsulated blebs.
Assess the safety and effectiveness of the InnFocus MicroShunt when used to lower intraocular pressure (IOP) in subjects with primary open angle glaucoma where the IOP is not controlled when using maximum tolerated glaucoma medications.
The purpose of this study is to investigate the safety and efficacy of four concentrations of DE-117 ophthalmic solution.
This study is designed to investigate whether the pupil response to slowly flashing colored lights is significantly altered in patients with glaucoma, as compared to a control group of subjects without glaucoma.
The study will evaluate patients diagnosed with primary open angle glaucoma or ocular hypertension who are switched to Lumigan® UD monotherapy for medical reasons in accordance with physician standard clinical practice. All treatment decisions lie with the physician.
Ocular hypertension and its fluctuations is a major risk factor of glaucoma onset and progression. In normal eyes, IOP presents a circadian rhythm, but in glaucomatous eyes IOP circadian rhythm is altered and varied widely between patients. To date, the only way to evaluate 24 hour IOP fluctuations is a regular GAT-IOP measurement during a 24-hour hospitalization. This method is expensive and does not reflect physiological conditions because it requires IOP measurements during sleeping periods that may potentially produce artifacts. Sensimed AG has developed a new medical device SENSIMED Triggerfish® that enables a 24-hour continuous monitoring of IOP fluctuations. As any IOP measurements methods, this medical device might be influenced by corneal properties of the cornea as central corneal thickness, keratometry or biomechanics. We, therefore, investigate the corneal lens tolerance, potential modifications of corneal parameters after a 24-hour wear of the lens, and its influence on data collected during the whole period of analysis. Then we will also analyze the influence of corneal parameters on continuous IOP fluctuations measured with the contact sensor and finally the correlation between data collected and the rate of progression (severity) of glaucoma evaluated with visual field test or optic nerve head damages.
The purpose of this study is to evaluate how OTX-TP, a sustained release travoprost drug product, when placed in the canaliculus of the eyelid compares to timolol drops for the lowering of intraocular pressure (IOP) in patients with open angle glaucoma or ocular hypertension.
The purpose of this study is to observe the safety of the Glaukos® iStent® Trabecular Micro-Bypass Stent Model GTS100 in conjunction with cataract surgery in subjects with mild to moderate open-angle glaucoma.
Anaesthetic procedures in ophthalmology surgery have been a subject rapidly evolving in the past decades. When deciding for a retrobulbar block, the local injection of varying mixtures and volumes of fast-acting anesthetics (such as lidocaine) - with or without a vasoconstrictive agent (such as adrenaline) - coupled with Hyaluronidase have been the standard care to provide painless surgery while minimizing the possible risks such as increased intraocular pressure (IOP), brainstem anesthesia, toxic reaction and ocular blood flow changes. These iatrogenic-induced vascular dysfunctions have been also suggested to play a role in intra-operatory vision loss (a "wipe-out" phenomenon) in patients with advanced glaucoma. The rationale for the use of epinephrine in retrobulbar anesthesia is to slow absorption of the anesthetic in general circulation and thus to achieve a longer effect in the orbit. However, studies on ocular blood flow after adrenaline-containing compounds have consistently showed a decrease in ocular blood flow, thus raising the issue of whether it should be used in patients with known vascular dysfunction, namely glaucoma patients. Nevertheless, there has been no study to verify this claim concerning the safety of non-adrenaline containing anesthetics. Injecting a pre-determined volume of anesthetic compound behind the globe, regardless of its formulation has also been debated. The orbital pressure increase can lead to a number of adverse reactions, not only increasing IOP but also potentially decreasing vascular input by local compression. In glaucoma for instance, there has been suggested optic nerve sheaths to be less elastic than in healthy individuals, potentially making this structure less compliant to outside compression. These more rigid orbital tissues could also impair the orbit's ability to deal with the iatrogenic increased volume. As seen, the current concepts on the impact of ocular anesthesiology in the orbit and the vascular supply to the eye are limited to a small number of non-homogeneous studies. We aim to study this impact through a non-invasive, widely established ultrasound based method of ocular blood flow research (color Doppler Imaging). Potentially, our study could help determine a taylor-made choice of the anesthesiology procedure to apply to a specific patient, thereby advancing the current standard of care in ophthalmology.
Glaucoma is a leading cause of blindness worldwide, whose treatment - intraocular pressure lowering - is only partially effective in preventing disease progression. Accordingly, other variables, such as ocular blood flow-related factors, have been implicated in disease pathogenesis. However, most findings involving vascular variables come from partial, small-scale studies. Furthermore, recent technological advances have identified a number of ocular blood flow variables that have yet to be tested in large scale trials. Therefore, a study that specifically aims at uncovering the role of vascular aspects in glaucoma is needed. For this purpose, a cross-sectional, observational case-control study will be conducted in the University Hospitals Leuven. This will be the largest-yet study on the subject, involving more than 750 patients. This will allow the creation of a specific cohort of patients where the vascular aspects are thought to be particularly important (low-tension glaucoma). It will use the largest combination yet of vascular-related measuring techniques (dynamic contour tonometry, optic coherent tomography, colour Doppler imaging and retinal oximetry)