Optometry and Vision Science 


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CBB Member Frank Gu, Chemical Engineering

CBB Member Frank Gu, Chemical Engineering

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CBB Member Melanie Campbell, Physics and Astronomy

CBB Member Melanie Campbell, Physics and Astronomy

CBB Member Frank Gu, Chemical Engineering
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CBB Member Frank Gu, Chemical Engineering
CBB Member Melanie Campbell, Physics and Astronomy
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CBB Member Melanie Campbell, Physics and Astronomy

Learn how CBB researchers are investigating Optometry and Vision Science:

CBB Researchers

Stories

Press/Media

  • "Amyloid as a biomarker of Alzheimer's disease in the retina," , Melanie Campbell, November 17, 2016

  • "OpticalSociety CAM Video," , Melanie Campbell, November 2, 2016

  • "Devices and sensors," , Kostadinka Bizheva, November 20, 2015

  • “Integrative systems for biomedical imaging and analysis," , Alex Wong, October 1, 2014

Publications by CBB Researchers
  • D. Fonn and L. Jones, ","ÌýContact Lens and Anterior Eye,Ìý2018.
  • W. Ngo, S. Srinivasan and L. Jones, ","ÌýJournal of Optometry,Ìý2018.
  • Rizwan, M., Mendez, A. R., Adnan, K., Peh, G. S., Tan, W. S., Mehta, J. S., & Yim, E. Evaluation of the corneal endothelial cell monolayer formation on synthetic guttata micro-structures to study the feasibility of corneal cell therapy.
  • Rizwan, M., Peh, G. S., Adnan, K., Naso, S. L., Mendez, A. R., Mehta, J. S., & Yim, E. K. (2016). In vitro topographical model of Fuchs dystrophy for evaluation of corneal endothelial cell monolayer formation.Ìý
  • Liu, S., Dozois, M., Chang, C. N., Hileeto, D., Liang, H., Reyad, M. M., ... & Gu, F. (2016). Mucoadhesive nanoparticle eye drop platform: tracking of ocular retention and treatment of experimental dry eye.ÌýInvestigative Ophthalmology & Visual Science,Ìý57(12), 3990-3990.
  • Liu, S., Tsugimatsu, A., Chang, C. N., Liang, H., Reyad, M. M., Boyd, S., ... & Gu, F. (2017). Tracking ocular retention of precorneal formulations using near-infrared dyes.ÌýInvestigative Ophthalmology & Visual Science,Ìý58(8), 4444-4444.
  • Bizheva, K., Tan, B., MacLelan, B., Kralj, O., Hajialamdari, M., Hileeto, D., & Sorbara, L. (2017). Sub-micrometer axial resolution OCT for in-vivo imaging of the cellular structure of healthy and keratoconic human corneas.Ìý
  • Boroomand, A., Tan, B., Wong, A., & Bizheva, K. (2017, February). A stochastically fully connected conditional random field framework for super resolution OCT. InÌýOptical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIÌý(Vol. 10053, p. 100532C).
  • Boroomand, A., Tan, B., Wong, A., & Bizheva, K. (2017, February). A stochastically fully connected conditional random field framework for super resolution OCT. InÌýOptical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXIÌý(Vol. 10053, p. 100532C).
  • Tan, B., Mason, E., MacLellan, B., & Bizheva, K. K. (2017). Correlation of visually evoked functional and blood flow changes in the rat retina measured with a combined OCT+ ERG system.ÌýInvestigative ophthalmology & visual science,Ìý58(3), 1673-1681.
  • Gurdita, A., Tan, B., Joos, K. M., Bizheva, K., & Choh, V. (2017). Pigmented and albino rats differ in their responses to moderate, acute and reversible intraocular pressure elevation.Ìý
  • Bizheva, K., Tan, B., MacLellan, B., Hosseinaee, Z., Mason, E., Hileeto, D., & Sorbara, L. (2017). In-vivo imaging of the palisades of Vogt and the limbal crypts with sub-micrometer axial resolution optical coherence tomography.Ìý
  • Tan, B., Hosseinaee, Z., & Bizheva, K. (2017). Dense concentric circle scanning protocol for measuring pulsatile retinal blood flow in rats with Doppler optical coherence tomography.Ìý
  • Hall, B., Forrest, J. A., & Jones, L. (2017). A Review of Techniques to Measure Protein Sorption to Soft Contact Lenses.Ìý
  • Omali, N. B., Lada, M., Lakkis, C., Morgan, P. B., Nichols, J. J., Subbaraman, L. N., & Jones, L. W. (2017). Lipid Deposition on Contact Lenses when Using Contemporary Care Solutions.Ìý
  • Otchere, H., Jones, L. W., & Sorbara, L. (2017). Effect of Time on Scleral Lens Settling and Change in Corneal Clearance.Ìý
  • Heynen, M., Babaei Omali, N., Fadli, Z., Coles-Brennan, C., Subbaraman, L. N., & Jones, L. (2017). Selectivity and localization of lysozyme uptake in contemporary hydrogel contact lens materials.
  • Otchere, H., Jones, L., & Sorbara, L. (2017). The Impact of Scleral Contact Lens Vault on Visual Acuity and Comfort.Ìý
  • Omali, N. B., Subbaraman, L. N., Heynen, M., Fadli, Z., Coles-Brennan, C., & Jones, L. W. (2017). In Vitro Effect of Lysozyme on Albumin Deposition to Hydrogel Contact Lens Materials.
  • Wong, S., Murphy, P. J., & Jones, L. (2017). Tear evaporation rates: What does the literature tell us?.Ìý
  • Postnikoff, C., & Gorbet, M. (2017). The Effect of Closed-Eye Tear Film Conditions on Blood-Isolated Neutrophils, In Vitro.Ìý
  • Molladavoodi, S., Robichaud, M., Wulff, D., & Gorbet, M. (2017). Corneal epithelial cells exposed to shear stress show altered cytoskeleton and migratory behaviour.Ìý
  • Jin, T., Emptage, L., DeVries, D., Kitor, M., & Campbell, M. C. (2017). The effects of amyloid-β deposits on retinal tissue assessed from polarization properties.ÌýInvestigative Ophthalmology & Visual Science,Ìý58(8), 3367-3367.
  • Redekop, R., Cookson, C., DeVries, D., & Campbell, M. C. (2017). Imaging hemozoin and amyloid beta in the retina of individuals with malaria using polarised light.ÌýInvestigative Ophthalmology & Visual Science,Ìý58(8), 3366-3366.
  • Campbell, M. C., Corapi, F., Emptage, L., Redekop, R., Shah, N., Kitor, M., ... & Mackenzie, I. R. (2017). THE RELATIONSHIP BETWEEN AMYLOID IN THE RETINA AND A BRAIN-BASED POST-MORTEM DIAGNOSIS OF ALZHEIMER’S DISEASE.Ìý
  • Almazroa, A., Alodhayb, S., Raahemifar, K., & Lakshminarayanan, V. (2017). An automatic image processing system for glaucoma screening.
  • Parthasarathy, M. K., & Lakshminarayanan, V. (2017). A Brief History of Aberrometry Applications in Ophthalmology and Vision Science. InÌý
  • Almazroa, A., Sun, W., Alodhayb, S., Raahemifar, K., & Lakshminarayanan, V. (2017). Optic disc segmentation for glaucoma screening system using fundus images.Ìý
  • Leopold, H. A., Orchard, J., Zelek, J., & Lakshminarayanan, V. (2017, February). Use of Gabor filters and deep networks in the segmentation of retinal vessel morphology. InÌý
  • Leopold, H. A., Orchard, J., Zelek, J., & Lakshminarayanan, V. (2017, February). Segmentation and feature extraction of retinal vascular morphology. InÌý
  • Almazroa, A., Sun, W., Alodhayb, S., Raahemifar, K., & Lakshminarayanan, V. (2017, March). Optic disc segmentation: level set methods and blood vessels inpainting. In
  • Almazroa, A., Alodhayb, S., Osman, E., Ramadan, E., Hummadi, M., Dlaim, M., ... & Lakshminarayanan, V. (2017). Agreement among ophthalmologists in marking the optic disc and optic cup in fundus images.Ìý
  • Dhakal, K. R., & Lakshminarayanan, V. (2017). Optical Tweezers: Fundamentals and Some Biophysical Applications.Ìý

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