View clinical trials related to Myopia.
Filter by:This double-blind, randomized controlled clinical study is to evaluate the effectiveness and safety of low concentration atropine in preventing myopia in pre-myopia children, and to explore whether there is a dose effect relationship between different concentrations of atropine in preventing myopia.
This trial hypothesized that novel laser refractive surgery techniques (PRK, LASIK, SMILE) or laser-assisted cataract surgery (FLACAS) could suppress postoperative inflammation and improve recovery in patients by reducing oxidative stress generated by the surgical procedure. It is also intended to verify whether the new laser technology is necessary for clinical use in groups with low antioxidant activity through the detection of antioxidant activity in the eyes of patients.
This study uses 1.585 double helix defocus lens PC lenses with a unique optical design that includes a globally coherent visible area and complementary left and right helices that can form clear images. In addition, the helical arrangement and reduced slit area can generate defocusing signals, inhibiting the development of myopia. Therefore, based on previous research, this study plans to evaluate the safety and effectiveness of 1.585 double helix defocus lens PC frame eyeglasses in controlling the progression of myopia in children and adolescents through a randomized controlled clinical trial.
The purpose of this study is to examine the efficacy and performance of the Defocus Incorporated Multiple Segments (DIMS) Spectacle lenses on controlling myopia progression in fast progressing myopic children.
The purpose of this study is to examine the efficacy and performance of the variant of Defocus Incorporated Spectacle lenses on controlling myopia progression in fast progressing myopic children.
The goal of this clinical trial is to test Novel spectacle lenses in myopic children. The main question it aims to answer are: safety and efficacy of the lenses. Participants will be asked to wear spectacles and participate in eye exams and questionnaires. Researchers will compare Novel spectacle lenses and general single vision spectacle lenses to see if the Novel spectacle lenses correct myopic ametropia, slow the progression of myopia and axial elongation.
It is a prospective clinical control study on red light control myopia with specail design spectacles for 75 children in 3 groups. Study Groups with two different powers of 0.6 mW and 1.2 mW at wavelength of 650nm. The control group is to wear the same brand and design spectalces as those two study groups. In addition, the progression of myopia is usually accompanied by the changes in a variety of ocular parameters, such as refractive error, reduced submacular choroidal thickness, and prolonged length of the ocular axis length.The goal is to test which power (1.2mW and 0.6mW) is better in myopic children for 3 month's follow-up and also to test how to get better result with the increaing or decreasing lighting power for the total 6 month follow-up results .
The Intalight Dream OCT is the first combo anterior plus posterior device to perform both OCT and OCT-A at depth of 16mm. This is especially useful in patient who are very nearsighted as it allows us to image all in one frame. The intention of this study is to see how the images differ on the same patients when compared to the Cirrus OCT and to test for the repeatability of the images on a single day.
Corrective eye surgeries, such as Lasik, are widely used to correct focusing problems such as myopia, or nearsightedness. Often these patients develop other conditions like myopic maculopathy or glaucoma which require monitoring with optical coherence tomography (OCT). Since OCT is a light-based test and changes the refractive status of the eye (in the cornea or the lens), it can potentially affect the results of the OCT measurements but has not been sufficiently studied. This pilot study aims at studying the potential change in OCT parameters in the eye after undergoing such surgery.
Currently, whether and when intraocular pressure (IOP) lowering medication should be used in progressive high myopia (HM) to control axial elongation is still a dilemma. Randomized trials are required to evaluate whether IOP lowering influences the growth of axial length in progressive HM eyes.