Selenite nuclear cataractogenesis: A scanning electron microscope study

Ruth S. Anderson; Thomas R. Shearer

doi:10.3109/02713689208999540

Selenite nuclear cataractogenesis: A scanning electron microscope study

Ruth S. Anderson, Thomas R. Shearer

Integrative Biosciences

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7 Scopus citations

Abstract

The sequential changes during selenite nuclear cataractogenesis were examined with a scanning electron microscope (SEM) and correlated with slit lamp observations. A posterior opacity, visible with the slit lamp 1-2 days after injection of sodium selenite, was found to consist of masses of vacuoles in the superficial posterior cortex by SEM. 2-3 days post injection, a biomicroscopic refractile ring around the nucleus was represented by SEM abnormalities suggesting membrane damage and possible loss of cytosol in the perinuclear region. All normal structure in this region was lost by 5 days after injection when the central nucleus had become opaque. SEM also showed evidence for damage in areas which were still clear by slit lamp examination. Changes, characteristic of aging, were found near selenite induced damage in peripheral (younger) fibers.

Original language	English (US)
Pages (from-to)	1147-1160
Number of pages	14
Journal	Current Eye Research
Volume	11
Issue number	12
DOIs	https://doi.org/10.3109/02713689208999540
State	Published - 1992

ASJC Scopus subject areas

Ophthalmology
Sensory Systems
Cellular and Molecular Neuroscience

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title = "Selenite nuclear cataractogenesis: A scanning electron microscope study",

abstract = "The sequential changes during selenite nuclear cataractogenesis were examined with a scanning electron microscope (SEM) and correlated with slit lamp observations. A posterior opacity, visible with the slit lamp 1-2 days after injection of sodium selenite, was found to consist of masses of vacuoles in the superficial posterior cortex by SEM. 2-3 days post injection, a biomicroscopic refractile ring around the nucleus was represented by SEM abnormalities suggesting membrane damage and possible loss of cytosol in the perinuclear region. All normal structure in this region was lost by 5 days after injection when the central nucleus had become opaque. SEM also showed evidence for damage in areas which were still clear by slit lamp examination. Changes, characteristic of aging, were found near selenite induced damage in peripheral (younger) fibers.",

author = "Anderson, {Ruth S.} and Shearer, {Thomas R.}",

note = "Funding Information: ACKNOWLEDGEMENTS Partially supported by NIH Grant #EY03600 to T.R.S. The authors thank Mr. Mitsuoshi Azuma and Mr. Jay Wright for expert technical assistance.",

year = "1992",

doi = "10.3109/02713689208999540",

language = "English (US)",

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journal = "Current Eye Research",

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T1 - Selenite nuclear cataractogenesis

T2 - A scanning electron microscope study

AU - Anderson, Ruth S.

AU - Shearer, Thomas R.

N1 - Funding Information: ACKNOWLEDGEMENTS Partially supported by NIH Grant #EY03600 to T.R.S. The authors thank Mr. Mitsuoshi Azuma and Mr. Jay Wright for expert technical assistance.

PY - 1992

Y1 - 1992

N2 - The sequential changes during selenite nuclear cataractogenesis were examined with a scanning electron microscope (SEM) and correlated with slit lamp observations. A posterior opacity, visible with the slit lamp 1-2 days after injection of sodium selenite, was found to consist of masses of vacuoles in the superficial posterior cortex by SEM. 2-3 days post injection, a biomicroscopic refractile ring around the nucleus was represented by SEM abnormalities suggesting membrane damage and possible loss of cytosol in the perinuclear region. All normal structure in this region was lost by 5 days after injection when the central nucleus had become opaque. SEM also showed evidence for damage in areas which were still clear by slit lamp examination. Changes, characteristic of aging, were found near selenite induced damage in peripheral (younger) fibers.

AB - The sequential changes during selenite nuclear cataractogenesis were examined with a scanning electron microscope (SEM) and correlated with slit lamp observations. A posterior opacity, visible with the slit lamp 1-2 days after injection of sodium selenite, was found to consist of masses of vacuoles in the superficial posterior cortex by SEM. 2-3 days post injection, a biomicroscopic refractile ring around the nucleus was represented by SEM abnormalities suggesting membrane damage and possible loss of cytosol in the perinuclear region. All normal structure in this region was lost by 5 days after injection when the central nucleus had become opaque. SEM also showed evidence for damage in areas which were still clear by slit lamp examination. Changes, characteristic of aging, were found near selenite induced damage in peripheral (younger) fibers.

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Selenite nuclear cataractogenesis: A scanning electron microscope study

Abstract

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