View clinical trials related to Myopia.
Filter by:A single site, open label protocol will be used to evaluate the safety and quality of vision of a novel soft contact lens. Habitual contact lens wearers will be asked to come to the study site for one visit. Ocular health assessments and visual acuity will be completed with both the study lens and without.
The objective of this investigation is to compare the visual clinical performance of a silicone hydrogel daily disposable investigational contact lenses to a hydrogel daily disposable commercially available contact lenses.
The study aims to observe the long-term changes of ocular(especially fundus) structure and visual function in patients with high myopia, so as to provide evidence for the prevention, diagnosis and prognosis of high myopia.
Myopia has become a world concern and its prevalence has increased in recent decades. Myopic defocus has been applied for slowing down the axial elongation and myopia progression, which is mainly based on the theory of simultaneous competing defocus and peripheral optics. Defocus Incorporated Multiple Segments (DIMS) spectacle lenses impose myopic defocus in the central or peripheral retina, with myopia progression being retarded by 50% to 60%. However, the optimal amount of myopic defocus has not yet been determined. Relative peripheral refraction (RPR) is used to indicate the difference between peripheral refraction and central refraction. Previous studies showed that retinal shape determined RPR, and baseline RPR may influence the myopia control efficacy using DIMS lenses on myopic children. It is still unclear if any other unknown factor influenced the final myopia control outcome in these young children with myopic RPR at baseline. Unlike our previous study8 that bias on hyperopic RPR children (myopic RPR, n = 27; hyperopic RPR, n = 52), this study is a case-control study with the same sample size for each RPR group. We will also include younger children who are more prone to have myopic RPR and develop high myopia. The results should provide new insight into the myopia control strategy in early-onset myopic children. In the current study, we will investigate the influence of baseline RPR in myopia retardation using DIMS lenses among young myopic children. This will ba a 1-year prospective clinical trial. Through G*Power (version 3.1.9.6) calculation, 80 healthy myopic subjects (40 myopic RPR vs 40 hyperopic RPR) aged 5-9 years should be needed. After screened by inclusion criteria, eligible participants will be assigned to wear DIMS lenses for 1 year (12 months, 8 hour per day, 7 days per week). This study includes 5 visits: Visit 1: baseline, Visit 2: lens dispensing, Visit 3: 2-week follow-up, Visit 4: 6-month follow-up, and Visit 5: 12-month follow-up. All eye examinations will be carried out in the Optometry Research Centre (A137), the School of Optometry, the Hong Kong Polytechnic University. The main data collection, including refractive error, axial length, related ocular parameters will be measured at baseline, 6-month and 1-year visits. At the lens dispensing and 2-week follow-up visits, vision acuity testing and computer scanning of posterior eyes will be measured. New DIMS lens will be replaced and upgraded if the equivalent sphere of refraction (SER) is changed or visual acuity change. The following data will be statistically analyzed. The primary outcome data include the difference in change in SER with cycloplegia between the myopic and hyperopic RPR from the baseline over 12 months of treatment. Secondary outcomes data include the changes in axial length, peripheral refraction, relative peripheral refraction, the amplitude of accommodation, lag of accommodation, corneal curvature, phoria and stereoacuity.
Efficacy and Safety Study of QLM3004 in Myopic Children
This is a one-year, mono-centre, randomize, double-masked, monocular cross-over clinical trial designed to test and compare the efficacy of the new lens design in slowing down the increase of axial length and controlling myopia progression.
There are two parts to this trial. First, to compare the rate of myopia progression of spectacle films using Spatio Temporal Optic Phase (S.T.O.P.®) technology that provide a dynamic optical cue against single vision spectacle lenses. Second, to compare the rate of myopia progression of spectacle films using S.T.O.P.® technology that provide a dynamic optical cue against spectacle films using S.T.O.P.® technology that provide a static optical cue. A dynamic optical cue is one that changes, and a static optical cue is one that does not change.
This was a single group, open-label clinical study to assess the safety and efficacy of Yung Sheng 55% Color Contact Lens for vision correction.
This was a single group, open-label clinical study to assess the safety and efficacy of Yung Sheng 38% color contact lens for vision correction.
This was a prospective, randomized, double-blind, parallel, active-controlled clinical study to assess the safety and efficacy of Silicone Hydrogel Contact Lens for vision correction.