View clinical trials related to Macular Degeneration.
Filter by:The primary purpose of this study was to evaluate the safety and exploratory efficacy of SF0166 Topical Ophthalmic Solution in patients with Neovascular (wet) Age-related Macular Degeneration (AMD).
This pilot study will evaluate the visual response to infrared (IR) in humans after dark adaptation. The investigators plan to determine which wavelength and intensity the human eye is most sensitive too, using a broad spectrum light source and wavelength-specific bandpass filters. The investigators will then evaluate the electrophysiologic response in healthy humans to IR, followed by studies in those with specific retinal diseases. The long-term goal of this research is to better understand the role that IR plays in visual function, and whether this can be manipulated to allow for vision in certain retinal pathologies that result from loss of photoreceptor cells. The investigators central objective is to test the electrophysiologic response to IR in the dark-adapted retinal and visual pathways. The investigators central hypothesis is that IR evokes a visual response in humans after dark adaptation, and the characteristics of this response suggest transient receptor potential (TRP) channel involvement. The investigators rationale is that a better understanding of how IR impacts vision may allow for an alternative mechanism for vision in a number of diseases that cause blindness from the degradation or loss of function of photoreceptor cells. The investigators will test the investigators hypothesis with the following Aims: Aim 1: To determine the optimal IR wavelength for visual perception in dark-adapted human participants. The investigators hypothesize that the healthy human eye will detect IR irradiation, with a maximum sensitivity at a specific wavelength. Using a broad-spectrum light source with wavelength-specific bandpass filters, the spectral range of visual perception to IR will be evaluated. The same will be done on colorblind participants. Aim 2: To test the electrophysiologic response to IR in healthy humans after dark adaptation. The investigators hypothesize that IR will elicit an amplitude change on electroretinography (ERG) and visual evoked potential (VEP) responses after dark adaptation in healthy human participants. Participants will be tested with both test modalities to evaluate their response to IR. Aim 3: To test the electrophysiologic response to IR after dark adaptation in humans with certain retinal diseases. Participants with retinitis pigmentosa, age related macular degeneration and congenital stationary night blindness, will be tested. Results will be compared to baselines and to those of healthy participants. The investigators hypothesize that there will be a response to IR on ERG and VEP, which will provide clues to the retinal cell layer location of the response to IR and the nature of potential TRP channel involvement.
This study is a Phase I/II , open label,non randomized, prospective study to determine the safety of human embryonic stem cell derived Retinal pigmented epithelium (hESC RPE) sub retinal injections versus hESC RPE seeded on a polymeric substrate implanted in the sub retinal space,
The purpose of the study is to evaluate the efficacy and safety of CNTO 2476 cells administered into the subretinal space by the suprachoroidal surgical approach and the subretinal access kit (SRAK-02) in participants with visual acuity impairment associated with Geographic Atrophy (GA) secondary to Age Related Macular Degeneration (AMD).
In this study, markers of oxidative stress will be measured in the aqueous humour of stargardt disease, age related macular degeneration and diabetic retinopathy patients compared to controls.
From 3 large patient databases, patients diagnosed with AMD who have never taken levodopa(L-DOPA) containing medications have a mean age of diagnosis at 71 years. Patients who have been treated with L-DOPA containing medications have a mean age of diagnosis of AMD at 79 years. L-DOPA binds to GPR143 in the retinal pigment epithelium, and releases PEDF, which protects the retina and downregulates VEGF, which is the cause of neovascularization. The Investigators will evaluate the safety and tolerability of carbidopa-levodopa in patients with AMD, and measure the effects on surrogate functional biomarkers of AMD.
The CLEAR study is testing the level of agreement between visual acuity and Amsler grid testing using a mobile vision testing application, Checkup Study, and standard in office methods. In addition the percent of patients able to successfully complete home testing on the digital device will be assessed.
Early Phase I Study of the Safety and Preliminary Efficacy of Human Fetal Retinal Pigment Epithelial(fRPE) Cells Subretinal Transplantation in Age-Related Macular Degeneration(AMD) Patients
The treatment of neovascular age-related macular degeneration (ARMD) is a major issue of public health. The therapeutic arsenal has widely grown throughout the years with the emergence of intra-vitreous anti-angiogenic treatments, under different surveillance protocols. The "PRN" surveillance (pro re nata: an on-demand treatment with monthly follow-up) allows a faster re-injection in case of neovascular relapse in order to maintain the best visual acuity. This therapeutic protocol is guided by the sub-retinal neovascular signs of activity. The monitoring is done during common practice via OCT B scans showing indirect signs of neovascular activity (exudation signs). OCT retinal imaging has been recently enriched with new programs allowing the visualization of sub-retinal neovessels without the use dyes (OCT angiography). The OCT angiography is automatically done by a program using standard OCT sections. During the monitoring of a patient using the OCT A, the signs of renewed neovascular activity are represented by an "arterialization" or the development of an arteriole network of the neovessel with the reappearance of a hyper reflective flow after a neovascular regressive phase. Indeed, the visualization of neovessels during the monitoring by Angio-OCT may lead to therapeutical modifications (anticipation of the injections). Knowing that the injection time-table of ARMD patients treated with anti-angiogenics is determined by sub-retinal neovascular signs of activity. This activity is evaluated during routine clinical practice by very specific signs, observable on OCT B scans. The hypothesis of this study is that the search of activity sins on the Angio-OCT, a new technic of image analysis performed on the OCT, may modify this injection time-table, with an impact of the patient's visual acuity.
To evaluate the safety and tolerability of LKA651 in patients with macular edema from diabetic macular edema (DME), neovascular age-related macular degeneration (AMD), or retinal vein occlusions (RVO)