Applications of the pinhole effect in clinical vision science

Kanclerz, Piotr; Khoramnia, Ramin; Atchison, David

doi:10.1097/j.jcrs.0000000000001318

J Cataract Refract Surg

2024

DOI: 10.1097/j.jcrs.0000000000001318

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Applications of the pinhole effect in clinical vision science

Piotr Kanclerz,

Ramin Khoramnia,

David Atchison

Abstract: The pinhole effect is commonly used to discriminate uncorrected refractive error from ocular diseases. A small aperture limits the width of light beams entering the eye, thus increasing the depth of focus. The pinhole effect has also been used in spectacles, contact lenses, corneal inlays, and intraocular lenses (IOLs) to improve reading by compensating for loss of accommodative function. Pinhole spectacles improve near visual acuity, but reduce reading speed, increase interblink interval, and decrease tear br… Show more

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Cited by 4 publications

References 67 publications

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Komplexe Optiksysteme für eine individualisierte Presbyopiekorrektur

Khoramnia,

Naujokaitis,

Łabuz

et al. 2024

Ophthalmologie

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Komplexe Optiksysteme für eine individualisierte Presbyopiekorrektur

Khoramnia,

Naujokaitis,

Łabuz

et al. 2024

Ophthalmologie

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Incorrectly Focused Neodymium:Yttrium–Aluminum-Garnet (Nd:YAG) Laser Beam Leads to Massive Destructive Effects in Small-Aperture (Pinhole) Intraocular Lenses

Borkenstein,

Kormilina,

Fitzek

et al. 2024

Ophthalmol Ther

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Introduction Pinhole intraocular lenses (IOLs) were developed to improve reading by compensating for loss of accommodative function. The IC-8 ® Apthera™ is a small-aperture presbyopia-correcting IOL that combines the proven principle of small-aperture optics with an aspheric monofocal lens to deliver a continuous range of vision for patients with cataracts from distance to near vision. Posterior capsule opacification is the most common sequela after cataract surgery. It is effectively treated by laser capsulotomy. However, if the laser beam is incorrectly focused, the IOL can be permanently damaged (pits/shots). Methods In this experimental study, yttrium–aluminum-garnet (YAG) pits were purposefully created. Defects were analyzed and compared between the periphery of the ring in the clear area of the hydrophobic acrylic lens and at the carbon black (CB)-polyvinylidene fluoride (PVDF) filtering component (FilterRing™) of the pinhole lens. All defects were made using identical settings/energy levels (2.6 mJ). The damage induced to the IC-8 ® Apthera™ IOL was examined by low-magnification images, light microscopy, scanning electron microscopy, and micro-computed tomography (micro-CT). Results YAG defects in the carbon black filter ring were much more severe than those in the clear zone due to the high absorption of the carbon black. Massive defects and destruction of the lens with tearing out of fragments and particles were observed. The missing volume calculated from the micro-CT reconstruction was 0.266 mm 3 , which is 1.6% of the entire IOL volume, or more than 1000 times the volume damaged in the largest shot in the periphery. Conclusion Based on the results, we highly recommend using the lowest possible energy levels, posterior offset setting, and circular pattern for maximum safety when performing laser capsulotomy with pinhole implants. Care should be taken to avoid creating irreversible iatrogenic defects that may affect overall quality. The safest area for performing capsulotomy seems to be the periphery of the ring segment. Video available for this article. Supplementary Information The online version contains supplementary material available at 10.1007/s40123-024-01007-9.

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Prediction of the small aperture intraocular lens on visual acuity in patients with keratoconus

van den Berg,

Maia Rocha

et al. 2024

J Cataract Refract Surg

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Purpose: To investigate the impact of corneal higher-order aberrations (HOAs) on predicted corrected distance visual acuity (CDVA) in patients with keratoconus at varying simulated pupil apertures. Setting: Ophthalmology clinics, Medical University of South Carolina, USA Design: Retrospective chart review study. Methods: 56 eyes with keratoconus were examined using Scheimpflug tomography during routine examinations prior to medical intervention. The severity of keratoconus was graded using the Amsler-Krumeich classification. Zernike analysis was used to obtain corneal aberrations using simulated pupil diameters of 6-, 4-, and 2 mm. These data were extrapolated to obtain the total RMS HOAs for a 1.6 mm simulated pupil to evaluate the potential effect of a small aperture intraocular lens. Correlation analysis was used to study the impact and relative contributions of HOAs on CDVA. Convolution of HOAs from OPD-Scan III (NIDEK) provided a clinical method to predict CDVA with different simulated pupil sizes in corneas with irregular astigmatism. Results: There were statistically significant positive correlations between photopic CDVA and the magnitude of total and individual (coma, spherical aberration and trefoil) HOAs in this cohort of keratoconus subjects. A keratoconus case with the small aperture IOL confirms the improvement in vision due to the pinhole effect. Conclusions: The small aperture IOL is expected to markedly reduce aberrations in keratoconus patients up to Amsler-Krumeich class 4 severity to levels consistent with the levels seen in healthy patients. Convolution of corneal HO aberrations with the ETDRS chart provides a useful simulation of the impact of pinhole optics in aberrated eyes.

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Applications of the pinhole effect in clinical vision science

Cited by 4 publications

References 67 publications

Komplexe Optiksysteme für eine individualisierte Presbyopiekorrektur

Komplexe Optiksysteme für eine individualisierte Presbyopiekorrektur

Incorrectly Focused Neodymium:Yttrium–Aluminum-Garnet (Nd:YAG) Laser Beam Leads to Massive Destructive Effects in Small-Aperture (Pinhole) Intraocular Lenses

Prediction of the small aperture intraocular lens on visual acuity in patients with keratoconus

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