June 2021
Volume 62, Issue 8
Open Access
ARVO Annual Meeting Abstract  |   June 2021
Induced Peripheral Blur and its Effect on Visual functions
Author Affiliations & Notes
  • Eman Ali Ahmed Alzghoul
    University of New South Wales, Sydney, New South Wales, Australia
  • Footnotes
    Commercial Relationships   Eman Alzghoul, None
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    Support  None
Investigative Ophthalmology & Visual Science June 2021, Vol.62, 1394. doi:
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      Eman Ali Ahmed Alzghoul; Induced Peripheral Blur and its Effect on Visual functions. Invest. Ophthalmol. Vis. Sci. 2021;62(8):1394.

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      © ARVO (1962-2015); The Authors (2016-present)

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Purpose : Peripheral hyperopic defocus has been considered to be a contributing factor to myopic progression. Thus, it has been suggested that reducing peripheral blur may slow down myopia progression. However, how the eye recognizes optical blur in different meridians and responds to change in peripheral visual functions is not fully understood. This prospective study hypothesized that inducing myopic peripheral blur using utilized multifocal contact lenses will improve detection visual function and may be involved in reducing myopia progression. In this study, we quantified the impact of peripheral blur on visual function which may provide further insights on myopia development

Methods : 20 myopic subjects (Mean age 21 ± 2 years) were fitted with Proclear multifocal lenses of distance center design in one eye. All subjects were with a central spherical equivalent myopic refraction of -1.00D or more, ≤0.75DC cylindrical power, and 1.00D or more peripheral blur at the horizontal visual field. Peripheral refraction and detection acuity were measured with the contact lens on the eye. All measurements were taken along the horizontal meridian at ±10o, ±20o, ±30o, and ±35o, and under three conditions; no blur, +0.50D, and +1.00D. Linear mixed model and Post-hoc t-tests were used for statistical analysis; to assess changes in visual functions under different peripheral defocus conditions

Results : Compared to the baseline, peripheral refraction was significantly more hyperopic at all points along the horizontal meridian when compared to the center except at nasal and temporal 10o (p < 0.05). No significant difference was found in detection ability with varying amounts of peripheral blur at different locations (p=0.764). However, detection acuity was highest centrally (+/- 10 degrees) and gradually started to decrease peripherally with the lowest acuity at location +/- 35 degrees

Conclusions : The results of this study showed that inducing optical blur changed peripheral refraction across horizontal meridian when compared to spherical contact lenses. Further, the results showed that inducing optical defocus does not change peripheral detection ability along the horizontal visual field which contradicts our hypothesis that improvement in peripheral visual function may be involved in reducing myopia progression. However, more studies need to be conducted to comprehensively establish the impact of hyperopic blur on peripheral detection abilities

This is a 2021 ARVO Annual Meeting abstract.


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