0000000001030779

AUTHOR

Nuria Garzón

0000-0002-6162-0081

showing 3 related works from this author

Influence of trifocal intraocular lenses on standard autorefraction and aberrometer-based autorefraction.

2019

To study the agreement between manifest refraction and objective refraction measured with two autorefractor models and an aberrometer in eyes implanted with a trifocal diffractive intraocular lens (IOL).IOA Madrid Innova Ocular, Madrid, Spain.Prospective comparative cohort study.An autorefractor keratometer (KR-8800), based on a Scheiner double pinhole, and a 3-dimension wavefront topography aberrometer system (OPD-Scan III), based on the scanning-slit retinoscopy principle, were used to obtain objective refraction readings. In addition, lower-order Zernike coefficients (Z) were used to calculate objective refraction. A set of 7 different results was obtained in power vector notation (spher…

MaleCorneal Wavefront AberrationPseudophakiaMesopic visionZernike polynomialsmedicine.medical_treatmentVisual AcuityIntraocular lensRefraction OcularPupillaw.inventionsymbols.namesakeLens Implantation IntraocularlawmedicineHumansProspective StudiesRetinoscopyMathematicsAgedPhacoemulsificationmedicine.diagnostic_testKeratometerAberrometryMiddle AgedMultifocal Intraocular LensesSensory SystemsOphthalmologyAutorefractorsymbolsOptometrySurgeryFemalePhotopic visionJournal of cataract and refractive surgery
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Impact of lens material on objective refraction in eyes with trifocal diffractive intraocular lenses

2021

Purpose: Compare subjective (Rx) and objective (ObjRx) refractions outcomes with two autorefractors models and an aberrometer in eyes implanted with a hydrophobic trifocal IOL (FineVision POD F GF, Physiol, Liége, Belgium) and a hydrophilic one (FineVision POD F, Physiol, Liége, Belgium). Methods: Prospective comparative cohort study, with 100 subjects randomly assigned to either the POD F group (n = 50) or the POD F-GF group (n = 50). Postoperative eye examinations at 1-month visit included seven result sets, one for each assessment method: Rx, AR (automated refraction measured with the autorefractor KR8800), WF-P (Zernike-coefficients-based objective refraction, photopic pupil size), WF-M…

Malemedicine.medical_specialtyPseudophakiaMesopic visionmedicine.medical_treatmentVisual AcuityUlls -- Acomodació i refraccióIntraocular lensRefraction OcularIntraocular lensesPupillaw.invention03 medical and health sciencesCellular and Molecular Neuroscience0302 clinical medicinelawOphthalmologymedicineHumansPostoperative PeriodProspective StudiesMathematicsAgedEye -- Accomodation and refractionVision BinocularIntraocular lensOpticsTrifocal diffractiveLents intraocularsHydrofilicRefractionSubjective refractionMultifocal Intraocular LensesSensory SystemsLens (optics)OphthalmologyRefractionAutorefractorPatient SatisfactionDifracció030221 ophthalmology & optometryFemale:Ciències de la visió [Àrees temàtiques de la UPC]Diffraction030217 neurology & neurosurgeryHydrofobicPhotopic visionFollow-Up Studies
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Impact of Lens Material on Objective Refraction in Eyes with Trifocal Diffractive Intraocular Lenses

2022

Compare subjective (Rx) and objective (ObjRx) refractions outcomes with two autorefractors models and an aberrometer in eyes implanted with a hydrophobic trifocal IOL (FineVision POD F GF, Physiol, Liége, Belgium) and a hydrophilic one (FineVision POD F, Physiol, Liége, Belgium). Prospective comparative cohort study, with 100 subjects randomly assigned to either the POD F group (n = 50) or the POD F-GF group (n = 50). Postoperative eye examinations at 1-month visit included seven result sets, one for each assessment method: Rx, AR (automated refraction measured with the autorefractor KR8800), WF-P (Zernike-coefficients-based objective refraction, photopic pupil size), WF-M (Zernike-coeffici…

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