12 Clinical Trials for Various Conditions
Primary Objective: To evaluate the long-term safety and tolerability of SAR422459 in patients with Stargardt's Macular Degeneration. Secondary Objective: To assess: * Safety * Biological activity
Primary Objective: To assess the safety and tolerability of ascending doses of SAR422459 in participants with Stargardt's Macular Degeneration (SMD). Secondary Objective: To evaluate for possible biological activity of SAR422459.
This is a safety and tolerability trial to evaluate the effect of subretinal injection of human embryonic stem cell derived retinal pigment epithelium cells in patients with Stargardt's Macular Dystrophy (SMD).
Studying the morphology and function of the normal and diseased retina in vivo is needed for advancing the detection, diagnosis, and treatment of retinal disease. This protocol uses an adaptive optics scanning laser ophthalmoscope (AOSLO) to image the normal and diseased retina with individual cellular resolution non-invasively. The primary objective of this study is to obtain and analyze high-resolution images of the retina, in particular by imaging the cone photoreceptor mosaic, the retinal vasculature and other retinal layers. The study design will involve case-control studies, where cases are followed over time. Subjects age 7 and older may be invited to participate. The main research procedure involves retinal imaging with the AOSLO. The primary endpoint is the observation of differences in retinal images between subjects with and without retinal diseases. These changes will be quantified by examining the cell density, size, spacing and regularity of the cone photoreceptor mosaic, as well as examining the differences between other retinal layers.
The purpose of this study is to evaluate the safety and efficacy of avacincaptad pegol intravitreal injection compared to Sham in participants with autosomal recessive Stargardt disease 1 (STGD1).
The purpose of this study is to evaluate the long term safety and tolerability of MA09-hRPE cellular therapy in patients with advanced Stargardt's Macular Dystrophy (SMD) from one to five years following the surgical procedure to implant the MA09-hRPE cells.
We have found that biomarkers of long-term elevated dietary intake of omega-3 fatty acids such as DHA and EPA are inversely associated with severity of disease phenotype in STGD3 patients. Therefore, the purpose of this study is to follow STGD3 patients as they supplement their diets with DHA/EPA.
This is an Observational Study to Follow the Progression of Stargardt Disease Type 1 (STGD1) Caused by Bi-Allelic Autosomal Recessive Mutations in the ABCA4 Gene This is a multicenter study which will enroll approximately 75 subjects
Background: Retinal diseases cause the loss of rod and cone photoreceptors. Symptoms include vision loss and night blindness. Researchers want to learn about rod and cone function in healthy people and people with retinal disease. They want to know if how well a person sees in the dark can test the severity of retinal disease. Objectives: To find out if how well a person sees in the dark can test the severity of retinal disease. To find out if this can help detect retinal disease and track its changes. Eligibility: People ages 5 and older with: Retinal disease OR 20/20 vision or better with or without correction in at least one eye Design: Participants will be screened with medical and eye history and eye exam. Those with retinal disease will also have: Eye imaging: Drops dilate the eye and pictures are taken of it. Visual field testing: Participants look into a bowl and press a button when they see light. Electroretinogram (ERG): An electrode is taped to the forehead. Participants sit in the dark with their eyes patched for 30 minutes. Then they get numbing drops and contact lenses. Participants watch lights while retina signals are recorded. Visit 1 will be 3-8 hours. Participants will have up to 6 more visits over 6-12 months. Visits include: Eye exam and imaging Time course of dark adaptation: Participants view a background light for 5 minutes then push a button when they see colored light. Dark adapted sensitivity: Participants sit in the dark for 45 minutes. They push a button when they see colored light. For participants with retinal disease, ERG and visual field testing
Microcurrent stimulation thereapy improves retinal efficiency and may restore and/or improve retinal function.
This Phase 1/2 study will evaluate the safety, tolerability, and preliminary efficacy of subretinal SB-007 administration to determine dose selection in subjects with Stargardt's Type 1 (STGD1). This is a multicenter study which will enroll approximately 57 subjects, followed up over a 96 week period post treatment after a single administration of SB-007.
This study will evaluate whether docosahexaenoic acid (DHA) dietary supplementation can improve macular function in patients with Stargardt macular dystrophy and Stargardt-like macular dystrophy. Stargardt macular dystrophy is a recessive inherited trait that causes a severe form of macular degeneration. (The macula is the center part of the retina in the back of the eye that is responsible for fine vision.) The disorder begins in late childhood and progresses to a significant decrease in central vision. One of the earliest signs of the disorder is accumulation in and under the macula of a fatty pigment called lipofuscin. Stargardt-like macular dystrophy is a dominant inherited trait involving loss of central vision, but it begins later than Stargardt macular dystrophy, and the accumulation of lipofuscin extends beyond the central region of the macula. DHA is a fatty acid that is essential for normal brain and eye development. It is normally found in the diet, but not in large amounts. Supplements may help prevent or slow the progression of some eye diseases. Patients with autosomal dominant Stargardt-like macular dystrophy or autosomal recessive Stargardt macular dystrophy are eligible for this study. Candidates will be screened with the following tests and procedures: * Medical history and physical examination. * Blood test to measure levels of DHA and vitamins. * Eye examination: The patient's vision and eye pressure are tested, then the pupils are dilated to examine structures inside the eye. Photographs are also taken. * Visual field test: The patient looks at a tiny spot of light projected onto a white screen and is asked to note when other lights appear at other places on the screen. * Electroretinogram (ERG): An electrode (small silver disk) is taped to the patient's forehead. Drops are given to numb the eyes and special contact lenses are inserted in the eyes. For the first part of the test, the patient looks at the center of a black and white checkerboard screen that flickers for 30 seconds at a time. This is repeated 16 or more times. For the second part of the test, the patient looks inside a sphere, in which flashes of light flicker for 20 seconds at a time. This is repeated four or more times. The contact lenses sense small electrical signals generated by the retina during the tests. Participants will begin taking DHA capsules or a placebo (look-alike capsules with no active ingredient) from 1 week to 3 months after enrolling in the study and will repeat several of the screening tests at follow-up visits scheduled 3, 6, 9, 12, and 15 months after they start taking the capsules. They will also be interviewed about any treatment side effects.