Myopia Profile

Science

How do myopia control contact lenses impact binocular vision?

Posted on April 4th 2022 by Kate Gifford research paper.png

Paper title: The effect of concentric and aspheric multifocal soft contact lenses on binocular vision in young adult myopes

Authors: Katrina L Schmid (1), Kate L Gifford (1,2), David A Atchison (1)

  1. School of Optometry and Vision Science, Centre for Vision and Eye Research, Faculty of Health, Queensland University of Technology, 60 Musk Ave, Kelvin Grove, Qld 4059, Australia
  2. Myopia Profile Pty Ltd, Australia

Date: March 15, 2022

Reference:  Cont Lens Anterior Eye. 2022 Mar 15;101588. [Link to paper]


Summary

In this study, young adult myopes (19-25 years) wore each of the following four lenses in random order: Proclear single vision distance (SV), MiSight concentric dual-focus (+2.00D), distance center aspheric (Biofinity, +2.50D) (CooperVision lenses), and NaturalVue aspheric (Visioneering Technologies). Compared to SV, MiSight did not alter accommodative response and created a small exophoric shift (mean 0.5Δ) while both aspheric multifocals (Biofinity +2.50D and NaturalVue) similarly reduced the accommodative response and exhibited an exophoric shift of around 1.8Δ. Divergence range at near was increased by all of the multifocal contact lenses compared to SV (around 2Δ) but convergence range was unaffected.

Distance acuity was most affected by Biofinity +2.50D, which reduced it two lines (0.19 logMAR) when fit on best vision sphere. MiSight and NaturalVue reduced distance acuity by 2 and 4 letters respectively. Near acuity was less affected; NaturalVue reduced it the most, by the equivalent of half a line (0.05 logMAR).

All multifocal contact lenses reduced self-reported visual image quality and caused distance ghosting. Biofinity and NaturalVue had the worst distance clarity ratings, although this was not significantly different to the MiSight. Interestingly, near clarity, ghosting and visual stability was best with the aspheric Biofinity. Total near image quality score was similar for the Biofinity and Single Vision lenses, whereas for both the MiSight and NaturalVue the near score was statistically worse than that of the Single Vision lens.

What does this mean for my practice?

This paper adds to the body of research showing that young, accommodating eyes do not respond to the labelled 'add' power in multifocal or myopia controlling contact lenses as might be expected. This means that an 'add' power in a multifocal or dual-focus contact lens does not work in an orthoptically similar way to an add in spectacles. Young myopes who require an add at near to support their accommodation and vergence function are likely to only gain very small effects from aspheric multifocal soft contact lenses, and no effect from MiSight concentric dual-focus soft contact lenses, when compared to single vision contact lenses.

This study also confirms the results of Schulle et al1 who found a reduction of distance acuity when fitting the Biofinity +2.50D Add multifocal contact lens to children for myopia control. These authors noted that a mean over-refraction of -0.6D was needed, working from the best vision sphere, to achieve good acuity.

What do we still need to learn?

This study was undertaken on young adults, not children, although is in line with previous results in children showing that the Biofinity +2.50 Add reduces accommodative response and shows a small exophoric shift compared to single vision contact lenses.2 It sits alongside findings by the same authors3 showing that soft contact lens design (aspheric multifocal vs concentric dual-focus) has a greater impact on accommodation response than does the labelled 'add' power. The impact of shifts in accommodation and vergence function on myopia control efficacy has yet to be explored. Also, these studies have only recruited young myopes with normal binocular vision function - the impact of these lens designs on myopes with abnormal binocular vision function has not been investigated.


Abstract

Title: The effect of concentric and aspheric multifocal soft contact lenses on binocular vision in young adult myopes

Authors: Katrina L Schmid, Kate L Gifford, David A Atchison

Purpose: Multifocal soft contact lenses (MFCLs) are prescribed to inhibit myopia progression; these include aspheric and concentric designs. The effects of MFCLs on visual quality, accommodation and vergence in young-adult myopes were evaluated.

Methods: Participants were twenty-six myopes (19-25 years, spherical equivalent -0.50 to -5.75D), with normal binocular vision and no past myopia control. Pupil sizes were 4.4 ± 0.9 mm during distance viewing and 3.7 ± 0.8 mm at near. In random order, participants wore four MFCLs: Proclear single vision distance, MiSight concentric dual focus (+2.00D), distance center aspheric (Biofinity, +2.50D) (CooperVision lenses), and NaturalVue aspheric (Visioneering Technologies). Testing included visual acuity, contrast sensitivity (Pelli-Robson), stereoacuity, accommodation response, negative and positive relative accommodation, horizontal phorias, horizontal fusional vergence and AC/A ratio, and a visual quality questionnaire.

Results: The four lenses differed in distance (p = 0.001) and near visual acuity (p = 0.011), and contrast sensitivity (p = 0.001). Compared with the single vision lens, the Biofinity aspheric had the greatest visual impact: 0.19 ± 0.14 logMAR distance acuity reduction, 0.22 ± 0.15 log contrast sensitivity reduction. Near acuity was affected less than distance acuity; the reduction was greatest with the NaturalVue (0.05 ± 0.07 logMAR reduction). The MFCLs altered the autorefraction measure at distance and near (p = 0.001); the accommodation response was less with aspheric lenses. Negative relative accommodation reduced with the aspheric lenses (p = 0.001): by 0.9 ± 0.5D with Biofinity and 0.5 ± 0.7D with NaturalVue. Exophoric shifts were greater with aspheric lenses (1.8 ± 2.4Δ Biofinity, 1.7 ± 1.7Δ NaturalVue) than with the concentric MiSight (0.5 ± 1.3Δ).

Conclusions: MFCLs alter visual performance, refraction and vergence; two aspheric lenses had greater effect than a concentric lens.

[Link to paper]



Meet the Authors:

About Kate Gifford

Dr Kate Gifford is an internationally renowned clinician-scientist optometrist and peer educator, and a Visiting Research Fellow at Queensland University of Technology, Brisbane, Australia. She holds a PhD in contact lens optics in myopia, four professional fellowships, over 100 peer reviewed and professional publications, and has presented more than 200 conference lectures. Kate is the Chair of the Clinical Management Guidelines Committee of the International Myopia Institute. In 2016 Kate co-founded Myopia Profile with Dr Paul Gifford; the world-leading educational platform on childhood myopia management. After 13 years of clinical practice ownership, Kate now works full time on Myopia Profile.

About Clare Maher

Clare Maher is a clinical optometrist in Sydney, Australia, and a third year Doctor of Medicine student, with a keen interest in research analysis and scientific writing.

Back to all articles

Enormous thanks to our visionary sponsors

Myopia Profile’s growth into a world leading platform has been made possible through the support of our visionary sponsors, who share our mission to improve children’s vision care worldwide. Click on their logos to learn about how these companies are innovating and developing resources with us to support you in managing your patients with myopia.