Clinical Research Directory

Safety and Efficacy of Blue Star MAX-5 Lenses in Myopia Control

The goal of this randomised controlled clinical trial is to compare the effects of a new type of concentric columnar microstructure lens and single-vision spectacle lenses on myopia progression in Chinese children aged 8-11 years with refractive error ranging from -0.50D to -6.00D. Participants will wear spectacles and receive follow-up examinations every half year.

Evaluation of the Safety and Efficacy of the D.D.C Dual-control Technology Spectacle Lenses in Delaying the Progression of Myopia: a Randomized Controlled Trial

The burden of myopia among Chinese children and adolescents is severe and trending toward younger ages, making control of myopia progression a public health priority. Current mainstream strategies include optical interventions, pharmacologic therapy, and environmental measures. Among these strategies, spectacle designs based on optical defocus-such as defocus-incorporated multiple-segment (DIMS) lenses-have demonstrated efficacy; however, the effect of such designs may attenuate over time because of "defocus adaptation." To address this limitation, D.D.C dual-control spectacles employ a densely staggered microlens layout, a gradient-defocus architecture, and an added peripheral "fogging zone" to disrupt the spatial distribution of defocus cues and reduce contrast, thereby delaying adaptation and enhancing myopia-control efficacy. The present study therefore proposes a 24-month prospective randomized controlled trial in Guangzhou, enrolling eligible myopic adolescents. The trial will first compare 12-month outcomes between D.D.C-A lenses and single-vision lenses, followed by a crossover and alternating-wear phase, to systematically evaluate the safety and efficacy of the D.D.C technology in slowing myopia progression.

Stellest Lens Wear in Adult Progressing Myopes

It is expected that myopia progression stabilises in the late teenage years, however, some studies report that myopia progression continues through early adulthood in as many as one third of myopes. Similarly, there are reports of myopia commencing in early adulthood. Although the rate of progression is slower than that occurring in childhood, between 20-35% of adults aged between 20-30 years were reported to progress by at least -1.00D over a five year period. Given that every dioptre increase in myopia results in an increased overall lifetime risk of serious ocular pathology, it seems opportune to investigate whether myopia management treatments designed to slow myopia progression in childhood could be beneficial for progressing adult myopes. The proposed study will conduct a prospective, randomised, paired-eye, trial with cross-over to evaluate the efficacy of Essilor Stellest myopia management spectacle lenses on the progression of myopia in adults aged between 18-40 years. The outcomes from the trial will provide novel evidence regarding the utility of these lenses in an adult population.

A Study of SHJ002 Sterile Ophthalmic Solution for Myopia Control

The objective of this study is to explore the safety and efficacy of SHJ002 Sterile Ophthalmic Solution relative to atropine in myopia control SHJ002 is an antisense oligonucleotide to neutralize a specific microRNA.

Multicenter RCT: LED Red Light Dose-Response in Myopia Progression Control

The goal of this clinical trial is to verify the effectiveness and safety of non-laser LED red light combined with defocus lens therapy for controlling myopia progression and evaluate the impact of different intervention durations in 6-14 years old children and adolescents with myopia (spherical equivalent refraction: -6.00D ≤ SER ≤ -1.00D), regardless of gender. The main questions it aims to answer are: \[primary hypothesis or outcome measure 1\]: Does the combination of Yingtong Vision Rehabilitation Instrument (non-laser LED red light) and Hoya DIMS defocus lens show non-inferior effectiveness to Hoya DIMS defocus lens alone in controlling 6-month axial length change? \[primary hypothesis or outcome measure 2\]: Do different single intervention durations (2min, 3min, 4min) of non-laser LED red light affect the effectiveness (e.g., axial length change at multiple time points, 12-month SER change) and safety of the combined therapy? If there is a comparison group: Researchers will compare Test Group A (2min PBM therapy + DIMS lenses), Test Group B (3min PBM therapy + DIMS lenses), Test Group C (4min PBM therapy + DIMS lenses), and Control Group D (DIMS lenses alone)\] to see if the combined therapy has similar or better myopia control effects and comparable safety, and to identify the optimal intervention duration. Participants will: Complete screening examinations (axial length, refractive error, visual acuity, IOP, fundus photography, OCT, etc.) and sign the informed consent form. Be randomly assigned to one of the four groups and receive the corresponding intervention (use the Yingtong Vision Rehabilitation Instrument as per group-specific duration twice a day, with ≥4-hour interval, plus DIMS lenses; or only DIMS lenses). Attend regular follow-up visits at 30 days, 3 months, 6 months, 9 months, and 12 months for efficacy and safety assessments (including repeated ocular examinations and adverse event reporting). Cooperate with the entire 12-month trial process and comply with the device usage specifications and follow-up requirements.

Double Helix Design Defocus Lens Spectacle (RACE) for Myopia Control

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.

Myopia Progression With Freeform Myopia Control Spectacles

This is a prospective, randomized clinical trial. There will be a total of 180 participants randomized into three groups, Group 1 - 60 participants will wear the commercial peripheral plus myopia control lens (CML). Group 2 - 60 participants will wear the Open Ring 1 (OR1) lens design. Group 3 - 60 participants will wear the Open Ring 2 (OR2) lens design. For each group, an equal balance of gender will be recruited and 50% of children will be aged between 6- 9 years old and 50% aged 10-12 years old. All groups will be required to wear spectacles for all waking hours for 12 months. After 12 months, the control group participants wearing CML will be randomised to wear either OR1 or OR2 lens designs; the Group 2 participants will continue wearing the OR1 lens for a further 12 months. The Group 3 participants will wear OR2 or OR3 (a modified design of OR2) based on their risk of myopia progression for a further 12 months.

Novel Lenses for Myopia Progression Trial

This is a multi-center , prospective, randomised, longitudinal study to evaluate rate of myopia progression with novel lenses compared to Single-Vision spectacles. A total of 342 children will be recruited where 57 participants each are randomised to wear one of 5 test spectacle lens designs or a single vision lens (control) for 12 months. At the end of 12 months, those randomised to single vision lenses will be transferred to one of the test lenses and all the groups continued for another 12 months. Myopia progression during the second year with test lenses will be compared to historical or published controls.

Clinical Evaluation of a Myopia Control Lens in Slowing Myopia Progression

This is a monocenter, randomized, controlled, parallel-group, double-masked clinical trial to evaluate the effectiveness of test lens in slowing myopia progression with respect to axial length elongation at baseline compared to a single vision spectacle lens (control). A total of 80 children will be recruited where 40 subjects will be allocated either to wear test lenses (group 1) or control lenses (group 2) for 1 year through randomization.

Impact of Digital Screen Time in Progression of Myopia in Children

Research suggests that prolonged digital screen time is a significant contributing factor to the progression of myopia in children. Studies have shown that increased near-work activities, such as reading, writing, and screen time, can lead to an increased risk of developing myopia. The widespread use of digital devices among children has raised concerns about the potential impact on their eye health.

Study to Evaluate the Efficacy of Alleance® (Atropine Sulfate 0.01%) as a Treatment to Delay Myopia and Axial Ocular Elongation in Children.

Phase III clinical study to evaluate the efficacy of Alleance® (atropine sulfate 0.01%) ophthalmic solution through the incidence of unexpected adverse events, changes in Best Corrected Visual Acuity (BCVA), changes in intraocular pressure, changes in the amplitude of accommodation, compared to placebo, as a treatment to delay the progression of myopia and axial ocular elongation in children.

Low-dose Atropine for Myopia Control in Children

Myopia (nearsightedness) is the most common eye disorder. Only second to age, it is the main risk factor for major degenerative eye diseases such as glaucoma, macular degeneration or retinal detachment. Their risk increases with the degree of myopia. Hence, prevention of myopia and slowing its progression is of high relevance. Almost all clinical studies, including two large randomised clinical trials (RCT) were performed in Asia with Asian study participants. The results indicate that atropine eye drops can attenuate myopic progression in children, even in low concentrations thus minimizing unwanted side effects. However, the cumulative evidence is yet not strong enough to recommend their unrestricted use, especially in a Non-Asian population. We therefore intend to set up an adequately powered RCT comparing atropine 0.02% eye drops with placebo to validate previous findings and to test whether this therapeutic concept holds its promise in a European population.

Choroidal Response to Novel Spectacle Lens to Control Myopia Progression

Diurnal variations in the thickness of the choroid have been reported in the literature, and, more recently, the role of the choroid has been studied with respect to its role in myopia (near-sightedness) progression.

Management of Myopia in University Students Using Dual Focus Soft Contact Lenses

The purpose of the study is to quantify the effectiveness of Coopervision MiSight contact lenses in slowing the rate of myopia progression in university students.

Differences and Wearing Safety and Comfort of New Defocus Incorporated Multiple Segments Spectacle Lenses

To evaluate the differences in controlling the progression of myopia in adolescents and the safety and comfort of wearing different types of defocus incorporated multiple segments spectacle lenses, to explore the feasibility of effective defocus micro lens design, and apply personalized defocus frame lenses for myopia prevention and control.

To Evaluate the Efficacy and Safety of an Defocus Lens in Slowing the Progression of Myopia

To confirm the efficacy of DIMS lenses in controlling myopia progression, we planned a prospective, single-centre, randomised, double-blind, controlled, non-inferiority clinical study.

Myopia Preventing With Distance-image Screen

This study is for testing the efficacy and safety of distance-image screens for preventing myopia in children for 12 month. Each subjects would be asked to paired test the ocular parameters between before and after 12-month distance-image screens.

Efficacy of IVMED-85 on Pediatric Myopia

The goal of this clinical trial is to evaluate the safety and preliminary efficacy of a 1-year course of IVMED-85 eye drops for the treatment of pediatric myopia by assessing its safety effects on visual acuity and its effect on the change and/or progression of myopia. The main question\[s\] it aims to answer are: * Does IVMED 85 improve visual acuity * Does IVMED 85 slow or otherwise change the progression of myopia Participants will use eyedrops twice a day for one year. Researchers will compare IVMED 85 to a placebo.

Study of OT-101 in Treating Myopia

This is a phase III, randomized, double-masked, placebo-controlled, parallel-group, multicenter safety, tolerability, and efficacy study of atropine sulfate 0.01% (OT-101) as an investigational treatment for myopia in pediatric subjects

Myopia Control Combined PBM With Myopic Defocus Lens in Children

To study the efficacy of myopi control with two methods: low lever red light and peripheral defocus spectacles with four groups and design with prospective, double-blind, randimized, and with control for 6 month.

Choroidal Change on OCTA in Eyes With High Myopia

Myopia is a global healthy concern, especially the high myopia and pathological myopia among Asian populations. However, its mechanism still remains largely unclear. Recent findings suggested choroidal changes might be related to the development of myopia. This study is to useOCT angiography (OCT-A) to investigate parapapillary choroidal microvasculature change in myopic eyes, and try to find the cause-and-effect relationship between choroidal change and the development of myopia.