Literature DB >> 8449024

Morphometric analysis of human retinal pigment epithelium: correlation with age and location.

R C Watzke1, J D Soldevilla, D R Trune.   

Abstract

Flat bleached preparations of retinal pigment epithelial (RPE) cells from foveal, temporal posterior pole, and temporal equatorial fundus locations of 20 normal human eyes from donors age ranked from 13 to 96 years were analyzed for density, and 10 were analyzed for area, hexagonality and polymegathism. These factors were related to fundus locations and age. Foveal RPE cells were significantly more dense and more hexagonal in eyes from younger donors. Loss of hexagonality in the fovea, but not elsewhere, was correlated with increasing age. As the eye ages, foveal RPE cells selectively lose unique morphologic characteristics and resemble nonfoveal cells. These morphologic changes resemble other pathologic features of age-related degeneration in their proclivity for the fovea and posterior pole.

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Mesh:

Year:  1993        PMID: 8449024     DOI: 10.3109/02713689308999481

Source DB:  PubMed          Journal:  Curr Eye Res        ISSN: 0271-3683            Impact factor:   2.424


  22 in total

1.  Senescence of human multifocal electroretinogram components: a localized approach.

Authors:  Radouil T Tzekov; Christina Gerth; John S Werner
Journal:  Graefes Arch Clin Exp Ophthalmol       Date:  2004-04-15       Impact factor: 3.117

2.  [Methodological limitations in the use of human donor eyes exemplified by age-related alterations in cell density of the retinal pigment epithelium].

Authors:  M Böhm
Journal:  Ophthalmologe       Date:  2017-07       Impact factor: 1.059

3.  Noninvasive near infrared autofluorescence imaging of retinal pigment epithelial cells in the human retina using adaptive optics.

Authors:  Tao Liu; HaeWon Jung; Jianfei Liu; Michael Droettboom; Johnny Tam
Journal:  Biomed Opt Express       Date:  2017-09-07       Impact factor: 3.732

4.  [Retinal pigment epithelium with aging: re-organization, yes: decrease in cell density, no].

Authors:  T Ach
Journal:  Ophthalmologe       Date:  2017-07       Impact factor: 1.059

5.  High-resolution images of retinal structure in patients with choroideremia.

Authors:  Reema Syed; Sanna M Sundquist; Kavitha Ratnam; Shiri Zayit-Soudry; Yuhua Zhang; J Brooks Crawford; Ian M MacDonald; Pooja Godara; Jungtae Rha; Joseph Carroll; Austin Roorda; Kimberly E Stepien; Jacque L Duncan
Journal:  Invest Ophthalmol Vis Sci       Date:  2013-02-01       Impact factor: 4.799

6.  RPE Cell and Sheet Properties in Normal and Diseased Eyes.

Authors:  Alia Rashid; Shagun K Bhatia; Karina I Mazzitello; Micah A Chrenek; Qing Zhang; Jeffrey H Boatright; Hans E Grossniklaus; Yi Jiang; John M Nickerson
Journal:  Adv Exp Med Biol       Date:  2016       Impact factor: 2.622

7.  Varied expression of functionally important genes of RPE and choroid in the macula and in the periphery of normal human eyes.

Authors:  Norbert Kociok; Antonia M Joussen
Journal:  Graefes Arch Clin Exp Ophthalmol       Date:  2006-04-06       Impact factor: 3.117

8.  In vivo autofluorescence imaging of the human and macaque retinal pigment epithelial cell mosaic.

Authors:  Jessica I W Morgan; Alfredo Dubra; Robert Wolfe; William H Merigan; David R Williams
Journal:  Invest Ophthalmol Vis Sci       Date:  2008-10-24       Impact factor: 4.799

9.  Spatially Aware Dense-LinkNet Based Regression Improves Fluorescent Cell Detection in Adaptive Optics Ophthalmic Images.

Authors:  Jianfei Liu; Yoo-Jean Han; Tao Liu; Nancy Aguilera; Johnny Tam
Journal:  IEEE J Biomed Health Inform       Date:  2020-12-04       Impact factor: 5.772

10.  Quantitative autofluorescence and cell density maps of the human retinal pigment epithelium.

Authors:  Thomas Ach; Carrie Huisingh; Gerald McGwin; Jeffrey D Messinger; Tianjiao Zhang; Mark J Bentley; Danielle B Gutierrez; Zsolt Ablonczy; R Theodore Smith; Kenneth R Sloan; Christine A Curcio
Journal:  Invest Ophthalmol Vis Sci       Date:  2014-07-17       Impact factor: 4.799
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