Refining mini-monovision with monofocal plus intraocular lenses
Tadas Naujokaitis, Gerd U. Auffarth, Zhiyi Wu, Fátima Cuéllar, Ramin Khoramnia, Grzegorz Łabuz

TL;DR
This study compares two types of intraocular lenses for mini-monovision, finding that one offers a better depth of focus while the other performs better for distance vision.
Contribution
The paper introduces a new comparison of enhanced monofocal intraocular lenses in mini-monovision setups using optical simulations.
Findings
The Acunex Quantum lens provides a greater depth of focus compared to RayOne EMV in simulated defocus conditions.
Higher-powered lenses and -1.0D myopic offset improved simulated visual acuity in mini-monovision.
RayOne EMV showed better low-defocus tolerance for lower intraocular lens powers in non-dominant eyes.
Abstract
To evaluate simulated mini-monovision with two enhanced monofocal intraocular lenses (IOLs). Using an optical bench, modulation and phase transfer functions of the Acunex Quantum (Teleon Surgical) and RayOne EMV (Rayner) IOLs with nominal powers of 10D, 20D, and 30D were measured. Simulated visual acuity (simVA) defocus curves were derived. Mini-monovision with an offset of -0.25D to -1.0D was simulated by shifting the simulated defocus curves and by applying quadratic summation to the acquired United States Air Force (USAF) chart images. The Acunex Quantum produced a more extended depth of focus than RayOne EMV in simulated defocus curves and USAF chart analysis. Higher-powered lenses tended to provide a slightly greater depth of focus. In a simulated mini-monovision, the − 1.0D myopic offset provided the greatest depth of focus, with a simVA of 0.1 logMAR and better up to…
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Taxonomy
TopicsOphthalmology and Visual Impairment Studies · Image Processing Techniques and Applications · Optical measurement and interference techniques
