View clinical trials related to Glaucoma, Open-Angle.
Filter by:The purpose of this study is to demonstrate equivalent safety and IOP-lowering effectiveness of two Travoprost/Timolol combination products in patients diagnosed with open-angle glaucoma or ocular hypertension. This global study will be conducted in the US (C-07-64, NCT00672997) and Japan (C-08-08, NCT00760539).
The purpose of this study is to assess the IOP-lowering efficacy of a combination of Travoprost / Timolol maleate, dosed in the morning or in the evening, in patients with open-angle glaucoma or ocular hypertension, who have an insufficiently controlled IOP (mmHg), and are using prostaglandin analogue monotherapy.
The purpose of this study is to evaluate the safety and potential efficacy of a new drug, OT-730 ophthalmic solution (eye drops), in reducing intraocular pressure in the eyes of patients with open angle glaucoma or ocular hypertension. It will be compared with commercial timolol and placebo eye drops.
PhXA41 is not inferior to timolol
PhXA41 is not inferior to timolol in reducing intra-ocular pressure
Study PhXA41 for its non-inferiority compared with timolol in lowering intra-ocular pressure
since glaucoma is considered an optic neuropathy, new treatments for glaucoma are being continuously investigated, including neuroprotection. Previous studies implied that phenytoin, a potent anti-convulsive drug, has a neuroprotective role, and Na+ channels blockage was suggested as a possible mechanism. This study predicts that glaucoma patients taking Phenytoin will have a less advanced glaucoma as compared to patients not taking the drug. Glaucoma severity will be determined by visual acuity, visual fields, optic disc cupping and nerve fiber layer thickness
To evaluate the safety and efficacy of the Glaukos Trabecular Micro-Bypass Stent Model GTS400 in conjunction with cataract surgery, compared to cataract surgery only, in subjects with mild to moderate open angle glaucoma.
To investigate the effectiveness of the newer IOP-lowering therapies, as prescribed in normal clinical practice, in larger patient numbers. Patients will be assessed at baseline, at each follow-up visit (follow-up visits are variable as per physician discretion) and at final follow-up visit.
A number of common eye diseases such as age-related macular degeneration and glaucoma are associated with ocular perfusion abnormalities. Although this is well recognized there is not much possibility to improve blood flow to the posterior pole of the eye in these diseases. For many years, moxaverine has been used in the therapy of perfusion abnormalities in the brain, the heart and the extremities. This is based on a direct vasodilatatory effect of the drug, but also on the rheological properties of red blood cells. In a recent study the investigators have shown that intravenous moxaverine increases choroidal blood flow in healthy young subjects. The present study aims to investigate, whether moxaverine also improves blood flow in the diseased eye after systemic administration.