View clinical trials related to Retinal Disease.
Filter by:This study is a prospective comparative, randomized, single center study to assess agreement and precision of the Optos P200TE in comparison to the predicate device in normal subjects, subjects with glaucoma, and subjects with retinal disease.
This is an open label first in human Phase I/II multicentre study of GT005 in subjects with Macular Atrophy due to AMD
Although screening exams for retinopathy of prematurity (ROP) prevent blindness they are physiologically stressful for infants. The investigators postulate that photosensitivity during mydriasis contributes to post-examination stress and that reducing light stimulation with a phototherapy mask can make infants more comfortable. The objective of this study is to determine the effect of a phototherapy mask worn during mydriasis on infant stress in the 12 hour period following ROP screening.
A study to assess the utility of human polarization pattern perception for the detection, diagnosis and monitoring of eye disease
Panretinal photocoagulation reduces the risk of visual loss by 50% in patients with diabetic retinopathy. It is recognized that laser expansion into the retina may be associated with photoreceptor loss, retinal pigment epithelial hypertrophy and visual field loss. Panretinal photocoagulation can cause alteration in retinal vascular permeability therefore, retinal thickness may be increased including retinal nerve fiber layer. On the contrary, it can damage retinal cells including ganglion cells, which may decrease the retinal nerve fiber layer thickness in the latter follow up period. Peripapillary retinal nerve fiber layer can be measured by optical coherence tomography which is a non-invasive technique for obtaining high resolution cross sectional images of a tissue.
The purpose of this study is to evaluate the safety and tolerability of QR-421a administered via intravitreal injection (IVT) in subjects with Retinitis Pigmentosa (RP) due to mutations in exon 13 of the USH2A gene.
The overall five-year goals of the project are to develop novel technology to provide actionable new information through provision of live volumetric imaging during surgery, improving surgical practice and outcomes. The investigators believe this technology will enable novel ophthalmic and other microsurgeries not possible due to current limitations in surgical visualization.
Although evidence have clearly proved that intravitreal injection of vascular endothelial growth factor antagonists prevents vision loss and may even improve visual acuity in patients with neovascular AMD, a significant percentage of patients continue to lose visual acuity. Moreover, monthly intravitreal injections represent a burden for society as well as the caregiver. Combination therapy with either topical 0.1% pranoprofen or nutraceutical support with AREDS2 formula plus omega-3 might act synergistically with intravitreal injection, offering valuable therapeutic support to aflibercept injections in patients requiring long-term treatment.
For patients with at least one eye with non-tractional diabetic edema refractory to 6 months of anti-VEGF injections (anti Vascular endothelial growth factor injections), a randomization is done: one group of patients will receive the standard treatment (anti-VEGF injections, switch to another anti-VEGF drug, additional photocoagulation or any other treatment except vitrectomy during the first 6 months after the randomisation) and the other group of patients will receive vitrectomy (with only additional photocoagulation during the first 6 months, then any treatment from 6 months after the randomization).
Fundus autofluorescence imaging has become an important diagnostic tool in ophthalmology, guiding diagnosis and assessment of progression of retinal diseases. This study investigates the performance of optimized long-wavelength autofluorescence imaging. To achieve this goal, the investigators will determine an optimal long wavelength excitation light and investigate the autofluorescence signal intensity in normals and patients with different retinal diseases. The diagnostic performance of the long-wavelength autofluorescence will be evaluated by assessing sensitivity and specificity for diagnosing a variety of degenerative retinal diseases and by comparing it to conventional autofluorescence.