Examination of Myopia Progression and Soft Bifocal Contact Lens Myopia Control

Myopia Clinical Trial

— BLINK2  

Official title:

Examination of Myopia Progression and Consequences and Mechanisms of Soft Bifocal Contact Lens Myopia Control

Clinical Trial Details — Status: Active, not recruiting

Administrative data

• NCT number: NCT04080128
• Other study ID #: UG1EY023206
• Status: Active, not recruiting
• Phase: N/A
• Start date: September 9, 2019
• Est. completion date: July 1, 2025

Study information

• Verified date: August 2023
• Source: Ohio State University
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

This project intends to provide important, previously unmet answers regarding biological associations with myopia (nearsightedness) progression in order to improve the ability to predict patients who are most likely to benefit from myopia control, as well as questions frequently posed by patients and practitioners about the side effects, mechanism, and discontinuation of soft bifocal contact lens myopia control. The first three aims examine the association between biological variables that can be measured non-invasively and myopia progression, and they will be conducted regardless of the outcome of the currently in progress BLINK Study. The last three specific aims will be conducted if soft bifocal contact lenses slowed myopia progression by 30% or more in the BLINK Study, and they can be investigated with very few additional measurements.

Description:

The primary goal of the BLINK2 Study is to determine correlates of myopia progression using non-invasive measurement of biomarkers, such as choroidal thickness and intrinsically photosensitive retinal ganglion cell-mediated pupil function, and outdoor light exposure in children. If multifocal contact lenses slow the progression of myopia by 30 percent or more compared to single vision contact lenses during the BLINK Study, the investigators will also answer important questions about the consequences and mechanism of the treatment effect, such as whether multifocal contact lens wear alters accommodative function and whether or not the treatment benefit is transient. Specifically, the investigators will investigate whether myopia progression is slowed or simply delayed by multifocal contact lens wear and whether there is a rebound in myopia progression, an increase in progression rate, after discontinuation of multifocal contact lenses. The investigators will identify myopic children who will most benefit from myopia control by determining those who are most likely to progress, thereby maximizing the potential for benefit and minimizing risk. The investigators will accomplish this goal by investigating the effect on progression of the most important ocular and environmental risk factors recently hypothesized to control eye growth. The project will collect the most extensive longitudinal dataset ever on choroidal thickness in childhood myopia. The investigators will test the important question of whether time outdoors and light exposure influence myopia progression after onset in addition to whether these affects are mediated by intrinsically photosensitive retinal ganglion cells. If soft multifocal contact lenses show a clinically meaningful slowing of myopia progression, we will also answer important questions asked routinely by our clinical colleagues. The investigators will know the accommodative effect of multiple years of multifocal contact lens wear in children, the investigators will know if multifocal contact lenses slow or simply delay myopia progression, and the investigators will know whether myopia progression increases following discontinuation of soft multifocal contact lens wear. Answers to questions addressed by this proposal could improve care for 60 million myopic children in the United States. While the consequences of ordinary myopia are rarely sight-threatening, the quality of life for myopic patients is negatively affected and the health care costs to treat myopia are approximately 4.6 billion dollars in 1990 US dollars. The National Eye Institute recognizes the need to evaluate the efficacy of potential treatments for delaying the onset or for slowing the progression of myopia, such as lenses that alter peripheral defocus. The BLINK2 Study seeks to maximize benefit while lowering the risk of multifocal contact lens wear for myopia control while answering important scientific and clinical questions about the consequences and mechanism of myopia progression, a problem that affects many people in the United States.

Recruitment information / eligibility

• Status: Active, not recruiting
• Enrollment: 248
• Est. completion date: July 1, 2025
• Est. primary completion date: July 1, 2025
• Accepts healthy volunteers: Accepts Healthy Volunteers
• Gender: All
• Age group: 10 Years to 15 Years

Eligibility

Inclusion Criteria:

• Participants in the BLINK Study Exclusion Criteria: -

Related Conditions & MeSH terms

• Myopia

Intervention

Device:
• Contact lenses
Depending on the results of the BLINK Study either a single vision spherical contact lens or a multifocal contact lens.

Locations

Country	Name	City	State
United States	Ohio State University	Columbus	Ohio
United States	University of Houston	Houston	Texas

Sponsors (2)

Lead Sponsor	Collaborator
Ohio State University	University of Houston

Country where clinical trial is conducted

United States, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	The statistical correlation between choroidal thickness and axial length	test the hypothesis that thinner subfoveal choroidal thickness (a layer of blood vessels) is associated with greater axial elongation (eye growth)	Three years
Primary	The statistical correlation between iPRGC activity and axial length	test the hypothesis that less ipRGC activity (cells in the back of the eye as measured by blue light-driven inputs to the pupil response) is associated with greater axial elongation (eye growth)	Three years
Primary	The statistical correlation between Light levels and axial length	test the hypothesis that exposure to lower light levels is associated with greater axial elongation (eye growth)	Three years
Secondary	Accommodative amplitude	In the event of an effect of multifocal contact lens on myopia progression, the investigators will test the hypothesis that long-term soft bifocal contact lens wear does not alter accommodative amplitude. This hypothesis predicts that at the baseline BLINK2 Study visit, the accommodative amplitude will be similar across the three treatment groups that were randomly assigned at the beginning of the BLINK Study; if they are not similar, they will become similar over the next two years.	Two years
Secondary	Lag of accommodation	In the event of an effect of multifocal contact lens on myopia progression, the investigators will test the hypothesis that long-term soft bifocal contact lens wear does not alter accommodative lag. This hypothesis predicts that at the baseline BLINK2 Study visit, accommodative lag will be similar across the three treatment groups that were randomly assigned at the beginning of the BLINK Study; if they are not similar, they will become similar over the next two years.	Two years
Secondary	Accommodative facility	In the event of an effect of multifocal contact lens on myopia progression, the investigators will test the hypothesis that long-term soft bifocal contact lens wear does not alter accommodative facility. This hypothesis predicts that at the baseline BLINK2 Study visit, the accommodative facility will be similar across the three treatment groups that were randomly assigned at the beginning of the BLINK Study; if they are not similar, they will become similar over the next two years.	Two years
Secondary	Slowing of myopia progression	In the event of an effect of multifocal contact lens on myopia progression, the investigators will test the hypothesis that soft bifocal contact lenses slow rather than merely delay myopia progression. This hypothesis predicts that during the first two years of the BLINK2 Study, when all subjects will wear soft bifocal contact lenses, subjects will progress at the same rate regardless of original lens assignment in the BLINK Study. Alternatively, faster myopia progression in subjects originally fitted with soft bifocal contact lenses compared to single vision contact lenses would indicate a delay in myopia progression rather than a permanent treatment benefit.	Two years
Secondary	Rebound of progression	In the event of an effect of multifocal contact lens on myopia progression, the investigators will test the hypothesis that there is no increase in myopia when switching from bifocal to single vision contact lenses. This hypothesis predicts that the progression of myopia during the last year of follow-up when all subjects will switch to single vision contact lenses, will be similar to myopia progression during the first two years when all subjects wore bifocal contact lenses. Alternatively, faster progression after switching to single vision contact lens wear indicates a "rebound" of myopia progression.	One year