Progression of intermediate age-related macular degeneration with proliferation and inner retinal migration of hyperreflective foci.

[1]  Cynthia A Toth,et al.  Spectral-domain optical coherence tomography characteristics of intermediate age-related macular degeneration. , 2013, Ophthalmology.

[2]  Stefanie G. Schuman,et al.  Spatial correlation between hyperpigmentary changes on color fundus photography and hyperreflective foci on SDOCT in intermediate AMD. , 2012, Investigative ophthalmology & visual science.

[3]  R. Vohra,et al.  Interaction between VEGF and Calcium-Independent Phospholipase A2 in Proliferation and Migration of Retinal Pigment Epithelium , 2012, Current eye research.

[4]  D. Teti,et al.  Association between oxidative stress and macromolecular damage in elderly patients with age-related macular degeneration , 2012, Aging Clinical and Experimental Research.

[5]  Sina Farsiu,et al.  Validated automatic segmentation of AMD pathology including drusen and geographic atrophy in SD-OCT images. , 2012, Investigative ophthalmology & visual science.

[6]  Joel S Schuman,et al.  Documentation of intraretinal retinal pigment epithelium migration via high-speed ultrahigh-resolution optical coherence tomography. , 2010, Ophthalmology.

[7]  Sina Farsiu,et al.  Quantitative comparison of drusen segmented on SD-OCT versus drusen delineated on color fundus photographs. , 2010, Investigative ophthalmology & visual science.

[8]  Joseph A. Izatt,et al.  Automatic segmentation of seven retinal layers in SDOCT images congruent with expert manual segmentation , 2010, Optics express.

[9]  W. Wong,et al.  Microglia in the Mouse Retina Alter the Structure and Function of Retinal Pigmented Epithelial Cells: A Potential Cellular Interaction Relevant to AMD , 2009, PloS one.

[10]  Sina Farsiu,et al.  Photoreceptor layer thinning over drusen in eyes with age-related macular degeneration imaged in vivo with spectral-domain optical coherence tomography. , 2009, Ophthalmology.

[11]  Steffen Schmitz-Valckenberg,et al.  High-resolution spectral domain-OCT imaging in geographic atrophy associated with age-related macular degeneration. , 2008, Investigative ophthalmology & visual science.

[12]  Thomas S Hwang,et al.  Retinal precursors and the development of geographic atrophy in age-related macular degeneration. , 2008, Ophthalmology.

[13]  Ronald Klein,et al.  Fifteen-year cumulative incidence of age-related macular degeneration: the Beaver Dam Eye Study. , 2007, Ophthalmology.

[14]  Paul Mitchell,et al.  Ten-year incidence and progression of age-related maculopathy: the blue Mountains Eye Study. , 2007, Ophthalmology.

[15]  S. Sugita,et al.  Immunosuppressive properties of the pigmented epithelial cells and the subretinal space. , 2007, Chemical immunology and allergy.

[16]  E Reichel,et al.  Ultrahigh resolution optical coherence tomography in non-exudative age related macular degeneration , 2006, British Journal of Ophthalmology.

[17]  Ronald Klein,et al.  A simplified severity scale for age-related macular degeneration: AREDS Report No. 18. , 2005, Archives of ophthalmology.

[18]  A. Edwards,et al.  Complement Factor H Polymorphism and Age-Related Macular Degeneration , 2005, Science.

[19]  J. Ott,et al.  Complement Factor H Polymorphism in Age-Related Macular Degeneration , 2005, Science.

[20]  R. Klein,et al.  Risk factors for incident age-related macular degeneration: pooled findings from 3 continents. , 2003, Ophthalmology.

[21]  H. Yamashita,et al.  Regulation mechanisms of retinal pigment epithelial cell migration by the TGF-beta superfamily. , 2003, Acta ophthalmologica Scandinavica.

[22]  Sonia H Yoo,et al.  Age-related macular degeneration: etiology, pathogenesis, and therapeutic strategies. , 2003, Survey of ophthalmology.

[23]  Paul Mitchell,et al.  Risk of age-related macular degeneration in eyes with macular drusen or hyperpigmentation: the Blue Mountains Eye Study cohort. , 2003, Archives of ophthalmology.

[24]  A. Milam,et al.  Activated microglia in human retinitis pigmentosa, late-onset retinal degeneration, and age-related macular degeneration. , 2003, Experimental eye research.

[25]  Robert F Mullins,et al.  A role for local inflammation in the formation of drusen in the aging eye. , 2002, American journal of ophthalmology.

[26]  The Age-Related Eye Disease Study system for classifying age-related macular degeneration from stereoscopic color fundus photographs: the Age-Related Eye Disease Study Report Number 6. , 2001, American journal of ophthalmology.

[27]  D. Hinton,et al.  Promotion of adhesion and migration of RPE cells to provisional extracellular matrices by TNF-alpha. , 2000, Investigative ophthalmology & visual science.

[28]  A Kijlstra,et al.  Polarized vascular endothelial growth factor secretion by human retinal pigment epithelium and localization of vascular endothelial growth factor receptors on the inner choriocapillaris. Evidence for a trophic paracrine relation. , 1999, American Journal of Pathology.

[29]  P. D. de Jong,et al.  Increased expression of angiogenic growth factors in age-related maculopathy , 1997, The British journal of ophthalmology.

[30]  J. Duker,et al.  Optical coherence tomography of age-related macular degeneration and choroidal neovascularization. , 1996, Ophthalmology.

[31]  R. Klein,et al.  The Wisconsin age-related maculopathy grading system. , 1991, Ophthalmology.

[32]  V. Reppucci,et al.  RPE destruction causes choriocapillary atrophy. , 1984, Investigative ophthalmology & visual science.