Optical influence of myopia control spectacles at the retinal level: Effect of local light modulation
Purpose To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity. Methods Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment m...
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| Published in | Ophthalmic & physiological optics Vol. 45; no. 4; pp. 995 - 1003 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Wiley Subscription Services, Inc
01.06.2025
John Wiley and Sons Inc |
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| Abstract | Purpose
To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.
Methods
Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8‐grade Bangerter occlusion foil (BF) served as comparative controls.
Results
Using the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina.
Conclusions
None of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long‐term efficacy. |
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| AbstractList | To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.
Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8-grade Bangerter occlusion foil (BF) served as comparative controls.
Using the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina.
None of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long-term efficacy. Purpose To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity. Methods Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8‐grade Bangerter occlusion foil (BF) served as comparative controls. Results Using the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina. Conclusions None of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long‐term efficacy. Purpose To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity. Methods Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8‐grade Bangerter occlusion foil (BF) served as comparative controls. Results Using the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina. Conclusions None of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long‐term efficacy. To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.PURPOSETo investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.Retinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8-grade Bangerter occlusion foil (BF) served as comparative controls.METHODSRetinal sensitivity and scanning laser ophthalmoscopy (SLO) fundus images were obtained from nine healthy subjects using a Macular Integrity Assessment microperimeter with current myopia control spectacle lenses: MyoCare, Stellest, MiYOSMART and DOT. Respectively powered single vision lenses and a 0.8-grade Bangerter occlusion foil (BF) served as comparative controls.Using the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina.RESULTSUsing the SLO image, one can visualise the areas of light modulation of the various myopia control lens designs at the level of the retina. Clear zone sizes differ between lens designs, with the DOT lens having the smallest area. Retinal sensitivity in areas of local light modulation was not reduced for the Stellest and MyoCare lenses, but declined with the MiYOSMART lens, suggesting a more prominent local light modulation. The DOT lenses produced a significant reduction in overall retinal sensitivity, although the reduction with the BF was greater. In all instances, retinal sensitivity remained well above the range considered normal for a healthy retina.None of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long-term efficacy.CONCLUSIONSNone of the lenses tested produced a clinically relevant reduction in retinal sensitivity and all scored significantly better than the lowest (that is, 0.8) grade BF. Given that current myopia control spectacles do not show consistent treatment effects as required to slow progression effectively over extended periods, there appears to be a subtle, yet crucial difference in spatial light modulation among these myopia control spectacle lenses. Seemingly similar lens designs cannot be assumed to have equivalent treatment effects; a thorough assessment of these nuances is essential to ensure accurate claims regarding their long-term efficacy. |
| Author | Kaymak, Hakan Devenijn, Machteld Mattern, Ann‐Isabel Graff, Birte Seitz, Berthold Schwahn, Hartmut |
| AuthorAffiliation | 1 Internationale Innovative Ophthalmochirurgie, Breyer Kaymak Klabe Augenchirurgie Dusseldorf Germany 2 Gottfried O.H. Naumann‐Institute of Epidemiology and Prevention of Myopia Saarland University Homburg Germany 4 Department of Ophthalmology Saarland University Medical Center Homburg Germany 3 Institute of Experimental Ophthalmology Saarland University Homburg Germany |
| AuthorAffiliation_xml | – name: 3 Institute of Experimental Ophthalmology Saarland University Homburg Germany – name: 4 Department of Ophthalmology Saarland University Medical Center Homburg Germany – name: 1 Internationale Innovative Ophthalmochirurgie, Breyer Kaymak Klabe Augenchirurgie Dusseldorf Germany – name: 2 Gottfried O.H. Naumann‐Institute of Epidemiology and Prevention of Myopia Saarland University Homburg Germany |
| Author_xml | – sequence: 1 givenname: Hakan orcidid: 0000-0001-5006-7420 surname: Kaymak fullname: Kaymak, Hakan email: dr.h.kaymak@gmail.com organization: Saarland University – sequence: 2 givenname: Ann‐Isabel orcidid: 0000-0002-0585-7818 surname: Mattern fullname: Mattern, Ann‐Isabel organization: Internationale Innovative Ophthalmochirurgie, Breyer Kaymak Klabe Augenchirurgie – sequence: 3 givenname: Birte orcidid: 0000-0002-9005-172X surname: Graff fullname: Graff, Birte organization: Saarland University – sequence: 4 givenname: Machteld orcidid: 0009-0001-0698-7163 surname: Devenijn fullname: Devenijn, Machteld organization: Internationale Innovative Ophthalmochirurgie, Breyer Kaymak Klabe Augenchirurgie – sequence: 5 givenname: Berthold orcidid: 0000-0001-9701-8204 surname: Seitz fullname: Seitz, Berthold organization: Saarland University Medical Center – sequence: 6 givenname: Hartmut orcidid: 0000-0001-7791-532X surname: Schwahn fullname: Schwahn, Hartmut organization: Internationale Innovative Ophthalmochirurgie, Breyer Kaymak Klabe Augenchirurgie |
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To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.
Methods
Retinal... To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity. Retinal sensitivity and... Purpose To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity. Methods Retinal... To investigate the influence of light modulation conferred by current designs of myopia control spectacles on retinal sensitivity.PURPOSETo investigate the... |
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| SubjectTerms | Adult contrast Equipment Design Eyeglasses Female Humans Light Light effects Male microperimetry Myopia Myopia - physiopathology Myopia - therapy myopia control spectacle lenses Ophthalmoscopy - methods Original Refraction, Ocular - physiology Retina Retina - physiology Retina - physiopathology retinal sensitivity Young Adult |
| Title | Optical influence of myopia control spectacles at the retinal level: Effect of local light modulation |
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