![Estimation of the full shape of the crystalline lens in-vivo from OCT images using eigenlenses.aspx Estimation of the full shape of the crystalline lens in-vivo from OCT images using eigenlenses.aspx](/_layouts/images/DOCLINK.GIF) | 2023 | E. Martínez-Enríquez A. Curatolo A. de Castro J.S. Birkenfeld A.M. González A. Mohamed M. Ruggeri F. Manns F. Zvietcovich S. Marcos | | Biomedical Optics Express 14 (2), 608-626 (2023) | crystalline lens eigenlenses OCT |
![Monovision Correction Preference and Eye Dominance Measurements.aspx Monovision Correction Preference and Eye Dominance Measurements.aspx](/_layouts/images/DOCLINK.GIF) | 2023 | V. Rodriguez-Lopez X. Barcala A. Zaytouny C. Dorronsoro E. Peli S. Marcos | | Translational Vision Science & Technology Vol.12, 18 (2023) | monovision eye dominance visual simulators SimVis Gekko |
![Effect of fixational eye movements in corneal topography measurements with optical coherence tomography.aspx Effect of fixational eye movements in corneal topography measurements with optical coherence tomography.aspx](/_layouts/images/DOCLINK.GIF) | 2023 | A. de Castro E. Martínez-Enríquez S. Marcos | | Biomedical Optics Express 14 (5), 2138-2152 (2023) | OCT cornea eye movement |
![Defocus flicker of chromatic stimuli deactivates accommodation.aspx Defocus flicker of chromatic stimuli deactivates accommodation.aspx](/_layouts/images/DOCLINK.GIF) | 2023 | V. Rodriguez-Lopez A. Hernandez-Poyatos C. Dorronsoro | | Biomedical Optics Express Vol. 14, Issue 7, pp. 3671-3688 (2023) | tunable lenses accommodation refractive error chromatic flicker |
![Spatiotemporal defocus sensitivity function of the human visual system.aspx Spatiotemporal defocus sensitivity function of the human visual system.aspx](/_layouts/images/DOCLINK.GIF) | 2023 | V. Rodriguez-Lopez W. Geisler C. Dorronsoro | | Biomedical Optics Express Vol. 14, Issue 7, pp. 3654-3670 (2023) | spatiotemporal defocus sensitivity function accommodation defocus
|
![Matching convolved images to optically blurred images on the retina.aspx Matching convolved images to optically blurred images on the retina.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | S. Aissati C. Benedi-Garcia M. Vinas A. de Castro S. Marcos | | Journal of Vision February 22, 12 (2022) | Adaptive optics AO aberrations retina |
![Coaxial acoustic-based optical coherence vibrometry probe for the quantification of resonance frequency modes.aspx Coaxial acoustic-based optical coherence vibrometry probe for the quantification of resonance frequency modes.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | R. McAuley A. Nolan A. Curatolo S. Alexandrov F. Zvietcovich A. Varea Bejar S. Marcos M. Leahy J. S. Birkenfeld | | Scientific Reports Vol. 12, 18834 (2022) | Imcustomeye OCT vibrometry corneal biomechanics |
![Visual simulations of presbyopic corrections through cataract opacification.aspx Visual simulations of presbyopic corrections through cataract opacification.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | X. Barcala A. Zaytouny D. Rego-Lorca J. Sanchez-Quiros R. Sanchez-Jean J.M. Martinez-de-la-Casa C. Dorronsoro S. Marcos | | Journal of Cataract & Refractive Surgery 49 (1), 34-43 (2022) | visual simulators presbyopia SimVis |
![Visual performance with multifocal lenses in young adults and presbyopes.aspx Visual performance with multifocal lenses in young adults and presbyopes.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | S. Vedhakrishnan M. Vinas C. Benedi-Garcia P. Casado S. Marcos | | PLOS ONE 17(3): e0263659 (2022) | Multifocal Contact Lenses MCLs Adaptive Optics presbyopia visual acuity |
![Multifocal contact lens vision simulated with a clinical binocular simulator.aspx Multifocal contact lens vision simulated with a clinical binocular simulator.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | X. Barcala M. Vinas S. Ruiz F. Hidalgo D. Nankivil T. Karkkainen E. Gambra C. Dorronsoro S. Marcos | | Contact Lens and Anterior Eye 45, 6 (2022) | SimVis Gekko visual accuity VA visual simulator multifocal contact lens |
![Adaptive optics visual simulators.aspx Adaptive optics visual simulators.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | S. Marcos P. Artal D.A. Atchison K. Hampson R. Legras L. Lundström G. Yoon | | Biomed. Opt. Express 13, 6508-6532 (2022) | Adaptive Optics AO visual simulators presbyopia myopia aberrations |
![Accommodation through simulated multifocal optics.aspx Accommodation through simulated multifocal optics.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | S. Vedhakrishnan A. de Castro M. Vinas S. Aissati S. Marcos | | Biomedical Optics Express 13 (12), 6695-6710 (2022) | accommodation adaptive optics AO |
![Evaluating the effect of ocular aberrations on the simulated performance of a new refractive IOL design.aspx Evaluating the effect of ocular aberrations on the simulated performance of a new refractive IOL design.aspx](/_layouts/images/DOCLINK.GIF) | 2022 | C.M. Lago A. de Castro C. Benedí-García S. Aissati S. Marcos | | Biomedical Optics Express 13 (12), 6682-6694 (2022) | Adaptive optics AO visual simulators IOL |
![Vision is protected against blue defocus.aspx Vision is protected against blue defocus.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | C. Benedi-Garcia M. Vinas C. Dorronsoro S.A. Burns E. Peli S. Marcos | | Scientific Reports 11, 352 (2021) | Adaptive Optics Chromatic aberrations aberrations blur perception adaptation |
![Multifocal acceptance score to evaluate vision MAS-2EV.aspx Multifocal acceptance score to evaluate vision MAS-2EV.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | X. Barcala M. Vinas M. Romero E. Gambra J. L. Mendez-Gonzalez S. Marcos C. Dorronsoro | | Scientific Reports 11, 1397 (2021) | SimVis Gekko Visual simulators Presbyopia Monovision Multifocal lenses visual acuity |
![Optical and visual quality of real intraocular lenses physically projected on the patient’s eye.aspx Optical and visual quality of real intraocular lenses physically projected on the patient’s eye.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | C. Benedi-Garcia M. Vinas C. M Lago S. Aissati A. de Castro C. Dorronsoro S. Marcos | | Biomedical Optics Express Vol. 12, Issue 10, pp. 6360-6374 (2021) | IOLs Adaptive Optics through-focus |
![Improving pseudophakic optical quality beyond aspheric intraocular lenses the next frontier.aspx Improving pseudophakic optical quality beyond aspheric intraocular lenses the next frontier.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | S. Marcos | | Journal of Cataract & Refractive Surgery Vol. 47 Issue 9 p 1111-1114 (2021) | intraocular lens aspheric IOLs visual quality OCT |
![Functional integration of eye tissues and refractive eye development Mechanisms and pathways.aspx Functional integration of eye tissues and refractive eye development Mechanisms and pathways.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | J.A. Summers F. Schaeffel S. Marcos H. Wu A.V.Tkatchenkoe | | Experimental Eye Research, 209, 108693 (2021) | Refractive eye development Emmetropization Myopia Optical aberrations Crystalline lens |
![Estimation of scleral mechanical properties from air-puff optical coherence tomography.aspx Estimation of scleral mechanical properties from air-puff optical coherence tomography.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | D. Bronte-Ciriza J.S. Birkenfeld A. de la Hoz A. Curatolo J.A. Germann L. Villegas A. Varea E. Martínez-Enríquez S. Marcos | | Biomedical Optics Express Vol. 12, Issue 10, pp. 6341-6359 (2021) | imcustomeye air-puff OCT corneal biomechanics |
![Foveal aberrations and the impact on vision.aspx Foveal aberrations and the impact on vision.aspx](/_layouts/images/DOCLINK.GIF) | 2021 | S. Marcos | | Journal of Vision September 2021, Vol.21, 1805 (2021) | aberrations retina Adaptive Optics |
![Corneal Collagen Ordering After In Vivo Rose Bengal and Riboflavin Cross-Linking.aspx Corneal Collagen Ordering After In Vivo Rose Bengal and Riboflavin Cross-Linking.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | J.A. Germann E. Martínez-Enríquez M. Carmen Martínez-García I.E. Kochevar S. Marcos | | Investigative Ophthalmology & Visual Science Vol.61, 28 (2020) | Cross-Linking Rose Bengal Cornea |
![Interaction of monochromatic and chromatic aberrations in pseudophakic patients.pdf Interaction of monochromatic and chromatic aberrations in pseudophakic patients.pdf](/_layouts/images/icgen.gif) | 2020 | S. Marcos M. Romero C. Benedí-García A. González-Ramos M. Vinas N. Alejandre I. Jiménez-Alfaro | | Journal of Refractive Surgery Vol. 36, No. 4 (2020) | IOL monochromatic aberrations longitudinal chromatic aberration (LCA) optical quality |
![Age-Related Changes to the Three Dimensional Full Shape of the Isolated Human Crystalline Lens.aspx Age-Related Changes to the Three Dimensional Full Shape of the Isolated Human Crystalline Lens.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | E. Martinez-Enriquez A. de Castro A. Mohamed N. Geetha Sravani M. Ruggeri F. Manns S. Marcos | | Investigative Ophthalmology & Visual Science Vol.61, 11 (2020) | crystalline lens OCT |
![Crystalline lens gradient refractive index distribution in the guinea pig.pdf Crystalline lens gradient refractive index distribution in the guinea pig.pdf](/_layouts/images/icgen.gif) | 2020 | Alberto de Castro Eduardo Martinez-Enriquez Pablo Perez-Merino Miriam VelascoOcana Luis Revuelta Sally McFadden Susana Marcos | | Ophthalmic & Physiological Optics 40, 308–315 (2020) | crystalline lens GRIN guinea pig age myopia |
![Optical and Visual Quality With Physical and Visually Simulated Presbyopic Multifocal Contact Lenses.aspx Optical and Visual Quality With Physical and Visually Simulated Presbyopic Multifocal Contact Lenses.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | M. Vinas S. Aissati A. Maria Gonzalez-Ramos M. Romero L. Sawides V. Akondi E. Gambra C. Dorronsoro T. Karkkainen D. Nankivil S. Marcos | | Translational Vision Science & Technology Vol.9, 20 (2020) | Presbyopia MCLs Simultaneous Vision SimVis Adaptive Optics |
![Eigenlenses a new model for full crystalline lens shape representation and its applications.aspx Eigenlenses a new model for full crystalline lens shape representation and its applications.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | E. Martinez-Enriquez A. de Castro S. Marcos | | Biomedical Optics Express 11 (10), 5633-5649 (2020) | crystalline lens OCT |
![Testing the effect of ocular aberrations in the perceived transverse chromatic aberration.aspx Testing the effect of ocular aberrations in the perceived transverse chromatic aberration.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | S. Aissati M. Vinas C. Benedi-Garcia C. Dorronsoro S. Marcos | | Biomedical Optics Express 11 (8), 4052-4068 (2020) | Chromatic Aberrations Adaptive Optics |
![VioBio lab adaptive optics technology and applications by women vision scientists.aspx VioBio lab adaptive optics technology and applications by women vision scientists.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | S. Marcos C. Benedí‐García S. Aissati A.M Gonzalez‐Ramos C.M Lago A. Radhkrishnan M. Romero S. Vedhakrishnan L. Sawides M. Vinas | | Ophthalmic Physiol Opt 40, 75– 87 (2020) | Adaptive Optics optical aberrations optical blur visual simulators |
![Multi-meridian corneal imaging of air-puff induced deformation for improved detection of biomechanical abnormalities.aspx Multi-meridian corneal imaging of air-puff induced deformation for improved detection of biomechanical abnormalities.aspx](/_layouts/images/DOCLINK.GIF) | 2020 | A. Curatolo J. S. Birkenfeld E. Martinez-Enriquez J. A. Germann G. Muralidharan J. Palací D. Pascual et al. | | Biomedical Optics Express Vol. 11, Issue 11, pp. 6337-6355 (2020) | corneal biomechanics OCT air-puff |
![Tunable lenses dynamic characterization and fine-tuned control for high-speed applications.aspx Tunable lenses dynamic characterization and fine-tuned control for high-speed applications.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | C. Dorronsoro X. Barcala E. Gambra V. Akondi L. Sawides Y. Marrakchi V. Rodriguez-Lopez C. Benedi-Garcia M. Vinas E. Lage S. Marcos | | Optics Express 27 (3), 2085-2100 (2019) | optotunable lens SimVis dynamic focimeter |
![Visual simulators replicate vision with multifocal lenses.aspx Visual simulators replicate vision with multifocal lenses.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | M. Vinas C. Benedi-Garcia S. Aissati D. Pascual V. Akondi C. Dorronsoro S. Marcos | | Scientific Reports Vol. 9, Article number: 1539 (2019) | adaptive optics multifocal simultaneous vision |
![Off-axis optical coherence tomography imaging of the crystalline lens to reconstruct the gradient refractive index using op.aspx Off-axis optical coherence tomography imaging of the crystalline lens to reconstruct the gradient refractive index using op.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | A. de Castro J. Birkenfeld B. Maceo Heilman M. Ruggeri E. Arrieta JM Parel F. Manns S. Marcos | | Biomedical Optics Express Vol. 10, Issue 7, pp. 3622-3634 (2019) | OCT Crystalline lens GRIN |
![Monovision and the Misperception of Motion.aspx Monovision and the Misperception of Motion.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | J. Burge V. Rodriguez-Lopez C. Dorronsoro
| | Current Biology, 29 (15) 2586-2592 (2019) | Monovision Perception defocus motion-in-depth binding problem
|
![Design and ex situ performance of a shape-changing accommodating intraocular lens.aspx Design and ex situ performance of a shape-changing accommodating intraocular lens.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | A.de la Hoz J. Germann E. Martinez-Enriquez D. Pascual N. Bekesi N. Alejandre-Alba C. Dorronsoro S. Marcos
| | Optica Vol. 6, Issue 8, pp. 1050-1057 (2019) | AIOL Accomodation Crystalline lense Presbyopia |
![Preoperative simulation of post-operative multifocal vision.aspx Preoperative simulation of post-operative multifocal vision.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | M. Vinas S. Aissati M. Romero C. Benedi-Garcia N. Garzon F. Poyales C. Dorronsoro S. Marcos | | Biomedical Optics Express 10 (11), 5801-5817 (2019) | Adaptive Optics Multifocal vision Visual Simulators MIOLs |
![Morphological changes of human crystalline lens in myopia.aspx Morphological changes of human crystalline lens in myopia.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | G. Muralidharan E. Martínez-Enríquez J. Birkenfeld M. Velasco-Ocana P. Pérez-Merino S. Marcos | | Biomedical Optics Express 10 (12), 6084-6095 (2019) | OCT Crystalline Lens |
![Perceptual impact of astigmatism induction in presbyopes.aspx Perceptual impact of astigmatism induction in presbyopes.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | C. Benedi-Garcia M. Velasco-Ocana C. Dorronsoro D. Pascual M. Hernandez G. Marin S. Marcos | | Vision Research 165, 143–151 (2019) | Adaptive Optics Presbyopia Astigmatism |
![Vision with different presbyopia corrections simulated with a portable binocular visual simulator.aspx Vision with different presbyopia corrections simulated with a portable binocular visual simulator.aspx](/_layouts/images/DOCLINK.GIF) | 2019 | A. Radhakrishnan D. Pascual S. Marcos C. Dorronsoro | | PLoS ONE 14(8): e0221144 (2019) | Presbyopia Visual simulators |
![Quantization of collagen organization in the stroma with a new order coefficient.aspx Quantization of collagen organization in the stroma with a new order coefficient.aspx](/_layouts/images/DOCLINK.GIF) | 2018 | J.A. Germann E. Martinez-Enriquez S. Marcos | | Biomedical Optics Express Vol. 9, Issue 1, pp. 173-189 (2018) | SHG Microscopy stroma collagen cross-linking (CXL) |
![Estimation of intraocular lens position from full crystalline lens geometry.aspx Estimation of intraocular lens position from full crystalline lens geometry.aspx](/_layouts/images/DOCLINK.GIF) | 2018 | E. Martinez-Enriquez P. Pérez-Merino S. Durán-Poveda I. Jiménez-Alfaro S. Marcos | | Scientific Reports 8, 9829 (2018) | OCT IOL Crystalline lens |
![Effect of intraocular lens decentration on image quality tested in a custom model eye.pdf Effect of intraocular lens decentration on image quality tested in a custom model eye.pdf](/_layouts/images/icgen.gif) | 2018 | P. Pérez Merino S. Marcos | | Journal of Cataract & Refractive Surgery 44, 889–896 (2018) | IOL decentration asphericity retinal image quality |
![Intraocular Photobonding to Enable Accommodating Intraocular Lens Function.aspx Intraocular Photobonding to Enable Accommodating Intraocular Lens Function.aspx](/_layouts/images/DOCLINK.GIF) | 2018 | N. Alejandre-Alba R. Gutiérrez-Contreras C. Dorronsoro S. Marcos | | Translational Vision Science & Technology 7, 27 (2018) | IOL A-IOLs Photobonding Rose Bengal |
![Experimental validations of a tunable-lens-based visual demonstrator of multifocal corrections.aspx Experimental validations of a tunable-lens-based visual demonstrator of multifocal corrections.aspx](/_layouts/images/DOCLINK.GIF) | 2018 | V. Akondi L. Sawides Y. Marrakchi E. Gambra S. Marcos C. Dorronsoro | | Biomedical Optics Express 9 (12) 6302-6317 (2018) | Multifocal SimVIs Temporal Multiplexing |
![Rose Bengal and Green Light Versus Riboflavin UVA Cross Linking Corneal Wound Repair Response.aspx Rose Bengal and Green Light Versus Riboflavin UVA Cross Linking Corneal Wound Repair Response.aspx](/_layouts/images/DOCLINK.GIF) | 2018 | E. Lorenzo-Martín P. Gallego-Muñoz L. Ibares-Frías S. Marcos et al
| | Investigative Ophthalmology & Visual Science October Vol.59, 4821-4830 (2018) | Cross-Linking Wound healing RGX UVX |
![Vision science and adaptive optics, the state of the field.pdf Vision science and adaptive optics, the state of the field.pdf](/_layouts/images/icgen.gif) | 2017 | S. Marcos et al. | | Vision Research Volume 132, 3–33 (2017) | adaptive optics vision research |
![Comparison of vision through surface modulated and spatial light modulated multifocal optics.aspx Comparison of vision through surface modulated and spatial light modulated multifocal optics.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | M. Vinas C. Dorronsoro A. Radhakrishnan C. Benedi-Garcia E.A. LaVilla J. Schwiegerling S. Marcos | | Biomedical Optics Express Vol. 8, Issue 4, pp. 2055-2068 (2017) | Spatial-light-modulators Adaptive Optics
|
![OCT-based full crystalline lens shape change during accommodation in vivo.aspx OCT-based full crystalline lens shape change during accommodation in vivo.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | E. Martinez-Enriquez P. Pérez-Merino M. Velasco-Ocana S. Marcos | | Biomedical Optics Express Vol. 8, Issue 2, pp. 918-933 (2017) | OCT Accommodation OSA |
![Biomechanical Changes After In Vivo Collagen Cross-Linking With Rose Bengal–Green Light and Riboflavin-UVA.aspx Biomechanical Changes After In Vivo Collagen Cross-Linking With Rose Bengal–Green Light and Riboflavin-UVA.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | N. Bekesi P. Gallego-Muñoz L. Ibarés-Frías P. Perez-Merino M. Carmen Martinez-Garcia I.E. Kochevar S. Marcos | | Investigative Ophthalmology & Visual Science Vol.58, Issue 3 1612-1620 (2017) | cross-linking iovs ARVO |
![Three-dimensional OCT based guinea pig eye model relating morphology and optics.aspx Three-dimensional OCT based guinea pig eye model relating morphology and optics.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | P. Pérez-Merino M. Velasco-Ocana E. Martinez-Enriquez L. Revuelta S. A McFadden S. Marcos | | Biomedical Optics Express Vol. 8, Issue 4, pp. 2173-2184 (2017) | Custom Spectral Optical Coherence Tomography OSA |
![Evaluation of the True Wavefront Aberrations in Eyes Implanted With a Rotationally Asymmetric Multifocal Intraocular Lens.aspx Evaluation of the True Wavefront Aberrations in Eyes Implanted With a Rotationally Asymmetric Multifocal Intraocular Lens.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | V. Akondi P. Pérez-Merino E. Martinez-Enriquez C. Dorronsoro N. Alejandre I. Jiménez-Alfaro S. Marcos | | Journal of Refractive Surgery Volume 33 · Issue 4: 257-265 (2017) | Intraocular Lens Wavefront Aberrations JRS |
![Temporal multiplexing to simulate multifocal intraocular lenses theoretical considerations.aspx Temporal multiplexing to simulate multifocal intraocular lenses theoretical considerations.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | V. Akondi C. Dorronsoro E. Gambra S. Marcos | | Biomedical Optics Express Vol. 8, Issue 7, pp. 3410-3425 (2017) | SimVis Multifocal lenses Temporal multiplexing Temporal pattern through-focus quality LCA
|
![Corneal Wound Repair After Rose Bengal and Green Light Crosslinking Clinical and Histologic Study.aspx Corneal Wound Repair After Rose Bengal and Green Light Crosslinking Clinical and Histologic Study.aspx](/_layouts/images/DOCLINK.GIF) | 2017 | P. Gallego-Muñoz L. Ibares-Frías E. Lorenzo S. Marcos P. Peréz-Merino N. Bekesi I. E. Kochevar M. C. Martínez-García | | Investigative Ophthalmology & Visual Science, Vol.58, 3471-3480 (2017) | Cornea Rose Bengal Corneal crosslinking |
![Role of parafovea in blur perception.pdf Role of parafovea in blur perception.pdf](/_layouts/images/icgen.gif) | 2017 | A.P. Venkataraman A. Radhakrishnan C. Dorronsoro L. Lundström S. Marcos | | Vision Research 138, 59–65 (2017) | neural adaptation after-effects parafovea blur |
![In Vivo Measurement of Longitudinal Chromatic Aberration in Patients Implanted With Trifocal Diffractive Intraocular Lenses.pdf In Vivo Measurement of Longitudinal Chromatic Aberration in Patients Implanted With Trifocal Diffractive Intraocular Lenses.pdf](/_layouts/images/icgen.gif) | 2017 | M. Vinas A. Gonzalez-Ramos C. Dorronsoro V. Akondi N. Garzon F. Poyales S. Marcos | | Journal of Refractive Surgery 33 (11): 736-742 (2017) | IOLs, Trifocal, Diffractive, LCA, Chromatic, Presbyopia |
![Testing vision with angular and radial multifocal designs using Adaptive Optics.pdf Testing vision with angular and radial multifocal designs using Adaptive Optics.pdf](/_layouts/images/icgen.gif) | 2016 | M. Vinas C. Dorronsoro V. Gonzalez D. Cortes A. Radhakrishnan S. Marcos | | Vision Research Volume 132, Pages 85–96 (2016) | adaptive optics multifocal correction visual simulation
|
![Differences in visual quality with orientation of a rotationally asymmetric bifocal intraocular lens design.pdf Differences in visual quality with orientation of a rotationally asymmetric bifocal intraocular lens design.pdf](/_layouts/images/icgen.gif) | 2016 | A.Radhakrishnan C.Dorronsoro S.Marcos | | Journal of Cataract & Refractive Surgery 42, 1276–1287 (2016) | Simultaneous Vision Simulator (SimVis) Mplus Lens orientation visual perception visual performance
|
![Virtual pyramid wavefront sensor for phase unwrapping.pdf Virtual pyramid wavefront sensor for phase unwrapping.pdf](/_layouts/images/icgen.gif) | 2016 | V. Akondi B. Vohnsen S. Marcos | | Applied Optics Vol. 55, Issue 29, pp. 8363-8367 (2016) | Active or adaptive optics Wavefront sensing Phase measurement Optical sensing and sensors Aberrations Interferometry |
![Full 3-D OCT-based pseudophakic custom computer eye model.aspx Full 3-D OCT-based pseudophakic custom computer eye model.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | M. Sun P. Pérez-Merino E. Martinez-Enriquez M. Velasco-Ocana S. Marcos | | Biomedical Optics Express Vol. 7, Issue 3, pp. 1074-1088 (2016) | OCT intraocular lenses |
![Corneal Biomechanical Response Following Collagen Cross-Linking With Rose Bengal–Green Light and Riboflavin-UVA.aspx Corneal Biomechanical Response Following Collagen Cross-Linking With Rose Bengal–Green Light and Riboflavin-UVA.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | N. Bekesi I.E. Kochevar S. Marcos | | Investigative Ophthalmology & Visual Science Vol.57, Issue 3 992-1001 (2016) | cross-linking rose bengal–green light riboflavin-UVA cornea iovs ARVO |
![Optical Coherence Tomography Based Estimates of Crystalline Lens Volume, Equatorial Diameter, and Plane Position.aspx Optical Coherence Tomography Based Estimates of Crystalline Lens Volume, Equatorial Diameter, and Plane Position.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | E. Martinez-Enriquez M. Sun M. Velasco-Ocana J. Birkenfeld P. Pérez-Merino S. Marcos | | Investigative Ophthalmology & Visual Science Vol.57, Issue 9 OCT600-OCT610 (2016) | OCT Crystalline Lens lens shape Volume equatorial diameter equatorial plane position |
![Material Properties from Air Puff Corneal Deformation by Numerical Simulations on Model Corneas.aspx Material Properties from Air Puff Corneal Deformation by Numerical Simulations on Model Corneas.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | N. Bekesi C. Dorronsoro A. de la Hoz S. Marcos | | PLoS ONE 11(10): e0165669 (2016) | Air Puff Deformation Model Corneas hydrogel polymer |
![Portable simultaneous vision device to simulate multifocal corrections.aspx Portable simultaneous vision device to simulate multifocal corrections.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | C. Dorronsoro A. Radhakrishnan J.R. Alonso-Sanz D. Pascual M. Velasco-Ocana P. Perez-Merino S. Marcos | | Optica Vol. 3, Issue 8, pp. 918-924 (2016) | Simultaneous vision Multifocal lenses Presbyopia Multifocal vision simulator OSA |
![Perceived image quality with simulated segmented bifocal corrections.aspx Perceived image quality with simulated segmented bifocal corrections.aspx](/_layouts/images/DOCLINK.GIF) | 2016 | C. Dorronsoro A. Radhakrishnan P. de Gracia L. Sawides S. Marcos | | Biomedical Optics Express Vol. 7, Issue 11, pp. 4388-4399 (2016) | intraocular lenses simultaneous vision simulator segmented bifocal corrections accommodation presbyopia
|
![A cyclopean neural mechanism compensating for optical differences between the eyes.pdf A cyclopean neural mechanism compensating for optical differences between the eyes.pdf](/_layouts/images/icgen.gif) | 2015 | A. Radhakrishnan C. Dorronsoro L. Sawides M. Webster S. Marcos | | Current Biology Vol 25 No 5, (2015) | |
![Changes in Monkey Crystalline Lens Spherical Aberration During Simulated Accommodation in a Lens Stretcher.pdf Changes in Monkey Crystalline Lens Spherical Aberration During Simulated Accommodation in a Lens Stretcher.pdf](/_layouts/images/icgen.gif) | 2015 | B. Maceo Heilman F. Manns A. de Castro H. Durkee E. Arrieta S. Marcos J.M Parel
| | Investigative Ophthalmology & Visual Science 56:1743–1750 (2015) | crystalline lens laser ray tracing optics spherical aberration |
![Single neural code for blur in subjects with different interocular optical blur orientation.aspx Single neural code for blur in subjects with different interocular optical blur orientation.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | A. Radhakrishnan L. Sawides C. Dorronsoro E. Peli S. Marcos
| | Journal of Vision June 2015, Vol.15, 15. doi:10.1167/15.8.15 | Neural adaptation Blur orientation Neural PSF Internal code for blur Binocular Dominance |
![Impact of astigmatism and high-order aberrations on subjective best focus.aspx Impact of astigmatism and high-order aberrations on subjective best focus.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | S. Marcos. M. Velasco-Ocana C. Dorronsoro L. Sawides M. Hernandez G. Marin
| | Journal of Vision August 2015, Vol.15, 4. | Astigmatism Best focus Refraction Shift Aberrations Adaptive optics adaptation |
![Toward New Engagement Paradigms For Intraocular Lenses Light Initiated Bonding of Capsular Bag to Lens Material.pdf Toward New Engagement Paradigms For Intraocular Lenses Light Initiated Bonding of Capsular Bag to Lens Material.pdf](/_layouts/images/icgen.gif) | 2015 | S. Marcos N. Alejandre J. Lamela C. Dorronsoro I.E. Kochevar | | Investigative Ophthalmology & Visual Science Vol. 56 - No. 8 - 4250 (2015) | Photobonding AIOLs Light-activation Rose Bengal Capsular bag Polymer |
![Astigmatism of the Ex Vivo Human Lens Surface and Gradient Refractive Index Age Dependent Contributions.aspx Astigmatism of the Ex Vivo Human Lens Surface and Gradient Refractive Index Age Dependent Contributions.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | J. Birkenfeld A. de Castro S. Marcos
| | Investigative Ophthalmology & Visual Science Vol. 56 - No. 9 - 5070 (2015) | |
![Phase unwrapping with a virtual Hartmann-Shack wavefront sensor.aspx Phase unwrapping with a virtual Hartmann-Shack wavefront sensor.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | V. Akondi C. Falldorf S. Marcos B. Vohnsen | | The Optical Society, Vol.23, issue 20, pp. 25425-25439 (2015) | adaptive optics wavefront sensing interferometry phase measurement noise |
![Experimental sound-induced corneal vibrational modes by OCT.aspx Experimental sound-induced corneal vibrational modes by OCT.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | BI. Akca EW. Chang S. Kling A. Ramier S. Scarcelli S. Marcos SH. Yun | | Biomedical Optics Express 2015;6:3314-3319 | Vibrational OCT Biomechanics Cornea Resonance Phase-sensitive OCT |
![Crystalline lens accommodation in vivo quantified in 3-D by OCT.pdf Crystalline lens accommodation in vivo quantified in 3-D by OCT.pdf](/_layouts/images/icgen.gif) | 2015 | P. Pérez-Merino M. Velasco-Ocana E. Martinez-Enriquez S. Marcos | | Biomedical Optics Express Vol. 6, Issue 12, pp. 5039-5054. | crystalline lens accommodation OCT 3-D biometry lens topography |
![Chromatic aberration of hydrophilic and hydrophobic IOLs.pdf Chromatic aberration of hydrophilic and hydrophobic IOLs.pdf](/_layouts/images/icgen.gif) | 2015 | M. Vinas C. Dorronsoro N. Garzón F. Poyales S. Marcos | | Journal of Cataract and Refractive Surgery 41 (10), 2115–2124 | Chromatic aberration IOL Adaptive Optics |
![Design and Clinical Evaluation of a Handheld Wavefront Autorefractor.pdf Design and Clinical Evaluation of a Handheld Wavefront Autorefractor.pdf](/_layouts/images/icgen.gif) | 2015 | N J. Durr; S R. Dave F A. Vera-Diaz D. Lim C. Dorronsoro S. Marcos F. Thorn E. Lage | | Optometry and Vision Science, 92 (12), 1140–1147 | Autorefractometry Hartmann Shack Refractive errors Quicksee |
![Longitudinal chromatic aberration of the human eye in the visible and near infrared from wavefront sensing, double-pass and.aspx Longitudinal chromatic aberration of the human eye in the visible and near infrared from wavefront sensing, double-pass and.aspx](/_layouts/images/DOCLINK.GIF) | 2015 | M. Vinas C. Dorronsoro D. Cortes D. Pascual S. Marcos | | Biomedical Optics Express Vol. 6, Issue 3, pp. 948-962 (2015) | Longitudinal Chromatic Aberration Wavefront sensing |
![Three-Dimensional Evaluation of Accommodating Intraocular Lens Shift and Alignment In Vivo.pdf Three-Dimensional Evaluation of Accommodating Intraocular Lens Shift and Alignment In Vivo.pdf](/_layouts/images/icgen.gif) | 2014 | S. Marcos S. Ortiz P. Perez J. Birkenfeld S. Duran I. Jiménez-Alfaro | | Ophthalmology Volume 121, Number 1, (2014) | OCT 3D biometry Acccommodating IOL Crystalens, |
![Intraocular lens alignment from an en face optical coherence tomography image Purkinje-like method.pdf Intraocular lens alignment from an en face optical coherence tomography image Purkinje-like method.pdf](/_layouts/images/icgen.gif) | 2014 | M. Sun A. de Castro S. Ortiz P. Perez J. Birkenfeld S. Marcos | | Optical Engineering 53(6), 061704 (2014) | IOL Tilt Decentration OCT en face Purkinje |
![Ocular and Optical Coherence Tomography–Based Corneal Aberrometry in Keratoconic Eyes Treated by Intracorneal Ring Segments.pdf Ocular and Optical Coherence Tomography–Based Corneal Aberrometry in Keratoconic Eyes Treated by Intracorneal Ring Segments.pdf](/_layouts/images/icgen.gif) | 2014 | P. Perez-Merino S. Ortiz N. Alejandre A. de Castro I. Jimenez-Alfaro S. Marcos | | American Journal of ophthalmology 157:116–127 (2014) | Keratoconus ICRS OCT Corneal aberrations Laser Ray Tracing Ocular aberrations
|
![Short-Term Neural Adaptation to Simultaneous Bifocal Images.pdf Short-Term Neural Adaptation to Simultaneous Bifocal Images.pdf](/_layouts/images/icgen.gif) | 2014 | A. Radhakrishnan C. Dorronsoro L. Sawides S. Marcos | | PLoS ONE Volume 9 (2014) | Simultaneous Vision Neural adaptation Multifocal corrections Blur perception Addition Adaptive Optics
|
![Contribution of Shape and Gradient Refractive Index to the Spherical Aberration of Isolated Human Lenses.pdf Contribution of Shape and Gradient Refractive Index to the Spherical Aberration of Isolated Human Lenses.pdf](/_layouts/images/icgen.gif) | 2014 | J. Birkenfeld A. de Castro S. Marcos | | Investigative Ophthalmology & Visual Science 58, 2599- 2607 (2014) | Crystalline lens Aging GRIN Shape OCT |
![Aberrometry in Patients Implanted With Accommodative Intraocular Lenses.pdf Aberrometry in Patients Implanted With Accommodative Intraocular Lenses.pdf](/_layouts/images/icgen.gif) | 2014 | P. Perez J. Birkenfeld C. Dorronsoro S. Ortiz S. Duran I. Jimenez-Alfaro S. Marcos | | American Journal of ophthalmology 157;1077-1089 (2014) | |
![From Unseen to Seen Tackling the Global Burden of Uncorrected Refractive Errors.aspx From Unseen to Seen Tackling the Global Burden of Uncorrected Refractive Errors.aspx](/_layouts/images/DOCLINK.GIF) | 2014 | N. J.Durr S. R. Dave E. Lage S. Marcos F. Thorn D. Lim | | Annual Review of Biomedical Engineering Vol. 16: 131-153 (2014) | |
![Corneal Viscoelastic Properties from Finite-Element Analysis of In Vivo Air-Puff Deformation.aspx Corneal Viscoelastic Properties from Finite-Element Analysis of In Vivo Air-Puff Deformation.aspx](/_layouts/images/DOCLINK.GIF) | 2014 | S. Kling N. Bekesi C. Dorronsoro D. Pascual S. Marcos | | PLoS ONE Volume 9 (2014) | Corneal biomechanics Viscoelasticity Air puff Scheimpflug Imaging FEM analysis |
![OCT 3-D surface topography of isolated human crystalline lenses.aspx OCT 3-D surface topography of isolated human crystalline lenses.aspx](/_layouts/images/DOCLINK.GIF) | 2014 | M. Sun J. Birkenfeld A. de Castro S. Ortiz S. Marcos | | Biomedical Optics Expres 5, 3547-3561 (2014) | Crystalline lens Surface topography OCT |
![Corneal biomechanical properties from OCT Vibrography.aspx Corneal biomechanical properties from OCT Vibrography.aspx](/_layouts/images/DOCLINK.GIF) | 2014 | S. Kling I. Akca E. W.Chang G. Scarcelli N. Bekesi S. Hyun Yun S. Marcos | | J. R. Soc. Interface 2014 11 | OCT Vibrography Finite Element Model Corneal biomechanical properties |
![Experimental Simulation of Simultaneous Vision.pdf Experimental Simulation of Simultaneous Vision.pdf](/_layouts/images/icgen.gif) | 2013 | P. de Gracia C. Dorronsoro A. Sanchez-Gonzalez L. Sawides S. Marcos | | Investigative Ophthalmology & Visual Science 54, 415-422 (2013) | Simultaneous vision instrument bifocal correction presbyopia visual simulation visual acuity |
![Finite-Element Modeling of Intrastromal Ring Segment Implantation into a Hyperelastic Cornea.pdf Finite-Element Modeling of Intrastromal Ring Segment Implantation into a Hyperelastic Cornea.pdf](/_layouts/images/icgen.gif) | 2013 | S. Kling S. Marcos
| | Investigative Ophthalmology & Visual Science 54, 881-889 (2013) | ICRS keratoconus Corneal biomechanics FEM modeling |
![Full OCT anterior segment biometry an application in cataract surgery.aspx Full OCT anterior segment biometry an application in cataract surgery.aspx](/_layouts/images/DOCLINK.GIF) | 2013 | S. Ortiz P. Pérez-Merino S. Durán M. Velasco-Ocana J. Birkenfeld A. de Castro I. Jiménez-Alfaro S. Marcos | | Biomedical Optics Expres 4, 387-396 (2013) | OCT Biometry Geometry IOL Tilt Decentration Cataract surgery |
![Brillouin Microscopy of Collagen Crosslinking Noncontact Depth-Dependent Analysis of Corneal Elastic Modulus.pdf Brillouin Microscopy of Collagen Crosslinking Noncontact Depth-Dependent Analysis of Corneal Elastic Modulus.pdf](/_layouts/images/icgen.gif) | 2013 | G.Scarcelli S.Kling E.Quijano R.Pineda S.Marcos S.Hyun Yun | | Investigative Ophthalmology & Visual Science 54, 1418-1425 (2013) | Corneal biomechanics Cross-linking Brillouin microscopy |
![In Vivo Chromatic Aberration in Eyes Implanted With Intraocular Lenses.pdf In Vivo Chromatic Aberration in Eyes Implanted With Intraocular Lenses.pdf](/_layouts/images/icgen.gif) | 2013 | P. Pérez C. Dorronsoro L. Llorente S. Durán I. Jiménez S. Marcos | | Investigative Ophthalmology & Visual Science 54, 2654-2660 (2013) | Longitudinal Chromatic Aberration Aberrations IOLs Laser Ray Tracing Optical quality |
![Contribution of the gradient refractive index and shape to the crystalline lens spherical aberration and astigmatism.pdf Contribution of the gradient refractive index and shape to the crystalline lens spherical aberration and astigmatism.pdf](/_layouts/images/icgen.gif) | 2013 | J. Birkenfeld A. de Castro S. Ortiz D. Pascual S. Marcos | | Vision Research 86, 27-34 (2013) | Crystalline lens GRIN Geometry OCT Spherical aberration Astigmatism |
![Adaptation to Interocular differences of blur.aspx Adaptation to Interocular differences of blur.aspx](/_layouts/images/DOCLINK.GIF) | 2013 | E. Kompaniez L. Sawides S. Marcos M. Webster | | Journal of Vision 13(6):19, 114 (2013) | Adaptation Interocular Refractive error Astigmatism |
![Power-adjustable sphero-cylindrical refractor comprising two lenses.pdf Power-adjustable sphero-cylindrical refractor comprising two lenses.pdf](/_layouts/images/icgen.gif) | 2013 | S. Barbero J. Rubinstein | | Optical Engineering | Power-adjustable systems Alvarez lenses |
![Effect of Hydration State and Storage Media on Corneal Biomechanical Response From In Vitro Infl ation Tests.pdf Effect of Hydration State and Storage Media on Corneal Biomechanical Response From In Vitro Infl ation Tests.pdf](/_layouts/images/icgen.gif) | 2013 | S. Kling S. Marcos | | Journal of Refractive Surgery 29, No. 7 (2013) | Corneal biomechanics Inflation Hydration Cross-linking
|
![Contributing Factors to Corneal Deformation in Air Puff.pdf Contributing Factors to Corneal Deformation in Air Puff.pdf](/_layouts/images/icgen.gif) | 2013 | S. Kling S. Marcos | | Investigative Ophthalmology & Visual Science 54, 5078–5085 (2013) | Corneal biomechanícs Air Puff Corneal deformation Corvis Víscoelasticity Cross-linking |
![Static and dynamic crystalline lens accommodation evaluated using quantitative 3-D OCT.aspx Static and dynamic crystalline lens accommodation evaluated using quantitative 3-D OCT.aspx](/_layouts/images/DOCLINK.GIF) | 2013 | E. Gambra S. Ortiz P. Perez-Merino M. Gora M. Wojtkowski S. Marcos
| | Biomedical Optics Expres 4, 1595-1609 (2013) | OCT Crystalline lens Accommodation Biometry Accommodative response Fluctuations |
![Using Pattern Classification to Measure Adaptation to the Orientation of High Order Aberrations.aspx Using Pattern Classification to Measure Adaptation to the Orientation of High Order Aberrations.aspx](/_layouts/images/DOCLINK.GIF) | 2013 | L. Sawides C. Dorronsoro AM. Haun E. Peli S. Marcos | | PLoS ONE 8(8): e70856 (2013) | Visual coding Aberrations Orientation Neural adaptation Blur |
![Multiple zone multifocal phase designs.pdf Multiple zone multifocal phase designs.pdf](/_layouts/images/icgen.gif) | 2013 | P. de Gracia C. Dorronsoro S. Marcos | | Optics Letters 38, No. 18, 3526-3529 (2013) | Multifocal corrections Phase patterns Refractive IOLs Depth-of-focus Optical quality |
![Quantitative OCT-Based Longitudinal Evaluation of Intracorneal Ring Segment Implantation in Keratoconus.pdf Quantitative OCT-Based Longitudinal Evaluation of Intracorneal Ring Segment Implantation in Keratoconus.pdf](/_layouts/images/icgen.gif) | 2013 | P. Pérez-Merino S. Ortiz N. Alejandre I Jiménez-Alfaro S. Marcos | | Investigative Ophthalmology & Visual Science 54, 6040- 6051 (2013) | OCT Corneal topography Keratoconus ICRS Quantification |
![Influence of Shape and Gradient Refractive Index in the Accommodative Changes of Spherical Aberration in Nonhuman Primate.pdf Influence of Shape and Gradient Refractive Index in the Accommodative Changes of Spherical Aberration in Nonhuman Primate.pdf](/_layouts/images/icgen.gif) | 2013 | A. de Castro J. Birkenfeld B. Maceo F. Manns E. Arrieta J.M Parel S. Marcos | | Investigative Ophthalmology & Visual Science 54, 6197–6207 (2013) | Crystalline lens GRIN OCT Accommodation Spherical aberration Stretching |