Quantification of real-time confocal images of the human cornea

Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface cells represent the barrier between the tear layer and the internal cellular environment and as such, the state of these cells is indicative of...

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Published inJournal of neuroscience methods Vol. 54; no. 2; pp. 197 - 203
Main Authors Beuerman, R.W., Laird, J.A., Kaufman, S.C., Kaufman, H.E.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Amsterdam Elsevier B.V 01.10.1994
Elsevier Science
Subjects
Animals
Automation
Biological and medical sciences
Confocal microscopy
Cornea
Cornea - cytology
Fundamental and applied biological sciences. Psychology
Gamma distribution
General aspects. Models. Methods
Human
Humans
Microscopy, Confocal - instrumentation
Microscopy, Confocal - methods
Nuclei quantification
Primates
Real-time
Software
Surface cell analysis
Vertebrates: nervous system and sense organs
Gamma distribution
Human
Cornea
Surface cell analysis
Real-time
Nuclei quantification
Confocal microscopy
Eye
Visual system
Cell nucleus
Epithelial cell
Method
Imagery
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Abstract Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface cells represent the barrier between the tear layer and the internal cellular environment and as such, the state of these cells is indicative of the health of the cornea. In our study, confocal microscopy of the surface cells revealed prominent, centrally located nuclei. With the use of a series of image analysis procedures, the nuclei were located automatically and distances to the nearest neighbors were determined. Comparison of these procedures in 8 human corneas and 1 non-human primate cornea showed that unaided computer analysis of the surface cells was as accurate as manual location of the cell nuclei. The distribution of nearest-neighbor distances was found to be best fitted by a gamma distribution. Simulation of a condition marked by loss of surface cells demonstrated that the alpha (shape) and beta (scale) parameters could be used to compare the distribution of nearest-neighbor distances. Thus, confocal microscopy coupled with these image analysis and statistical procedures could provide an objective, quantitative approach to monitoring the epithelial barrier under clinical and experimental conditions, for example during post-surgical or post-traumatic healing or in the evaluation of the efficacy of topical therapeutic agents.
AbstractList Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface cells represent the barrier between the tear layer and the internal cellular environment and as such, the state of these cells is indicative of the health of the cornea. In our study, confocal microscopy of the surface cells revealed prominent, centrally located nuclei. With the use of a series of image analysis procedures, the nuclei were located automatically and distances to the nearest neighbors were determined. Comparison of these procedures in 8 human corneas and 1 non-human primate cornea showed that unaided computer analysis of the surface cells was as accurate as manual location of the cell nuclei. The distribution of nearest-neighbor distances was found to be best fitted by a gamma distribution. Simulation of a condition marked by loss of surface cells demonstrated that the alpha (shape) and beta (scale) parameters could be used to compare the distribution of nearest-neighbor distances. Thus, confocal microscopy coupled with these image analysis and statistical procedures could provide an objective, quantitative approach to monitoring the epithelial barrier under clinical and experimental conditions, for example during post-surgical or post-traumatic healing or in the evaluation of the efficacy of topical therapeutic agents.
Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface cells represent the barrier between the tear layer and the internal cellular environment and as such, the state of these cells is indicative of the health of the cornea. In our study, confocal microscopy of the surface cells revealed prominent, centrally located nuclei. With the use of a series of image analysis procedures, the nuclei were located automatically and distances to the nearest neighbors were determined. Comparison of these procedures in 8 human corneas and 1 non-human primate cornea showed that unaided computer analysis of the surface cells was as accurate as manual location of the cell nuclei. The distribution of nearest-neighbor distances was found to be best fitted by a gamma distribution. Simulation of a condition marked by loss of surface cells demonstrated that the alpha (shape) and beta (scale) parameters could be used to compare the distribution of nearest-neighbor distances. Thus, confocal microscopy coupled with these image analysis and statistical procedures could provide an objective, quantitative approach to monitoring the epithelial barrier under clinical and experimental conditions, for example during post-surgical or post-traumatic healing or in the evaluation of the efficacy of topical therapeutic agents.Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface cells represent the barrier between the tear layer and the internal cellular environment and as such, the state of these cells is indicative of the health of the cornea. In our study, confocal microscopy of the surface cells revealed prominent, centrally located nuclei. With the use of a series of image analysis procedures, the nuclei were located automatically and distances to the nearest neighbors were determined. Comparison of these procedures in 8 human corneas and 1 non-human primate cornea showed that unaided computer analysis of the surface cells was as accurate as manual location of the cell nuclei. The distribution of nearest-neighbor distances was found to be best fitted by a gamma distribution. Simulation of a condition marked by loss of surface cells demonstrated that the alpha (shape) and beta (scale) parameters could be used to compare the distribution of nearest-neighbor distances. Thus, confocal microscopy coupled with these image analysis and statistical procedures could provide an objective, quantitative approach to monitoring the epithelial barrier under clinical and experimental conditions, for example during post-surgical or post-traumatic healing or in the evaluation of the efficacy of topical therapeutic agents.
Author Laird, J.A.
Kaufman, S.C.
Kaufman, H.E.
Beuerman, R.W.
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Cites_doi 10.1111/j.1749-6632.1986.tb34549.x
10.1002/sca.4950160305
10.1016/S0161-6420(94)31326-1
10.1364/JOSA.58.000661
10.1126/science.4071051
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Issue 2
Keywords Gamma distribution
Human
Cornea
Surface cell analysis
Real-time
Nuclei quantification
Confocal microscopy
Eye
Visual system
Cell nucleus
Epithelial cell
Method
Imagery
Language English
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  year: 1988
  ident: 10.1016/0165-0270(94)90193-7_bib13
  article-title: Structure and function of the cornea
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Snippet Real-time confocal microscopy was used to obtain images of the surface cells of the cornea in vivo in human subjects and in non-human primates. The surface...
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SubjectTerms Animals
Automation
Biological and medical sciences
Confocal microscopy
Cornea
Cornea - cytology
Fundamental and applied biological sciences. Psychology
Gamma distribution
General aspects. Models. Methods
Human
Humans
Microscopy, Confocal - instrumentation
Microscopy, Confocal - methods
Nuclei quantification
Primates
Real-time
Software
Surface cell analysis
Vertebrates: nervous system and sense organs
Title Quantification of real-time confocal images of the human cornea
URI https://dx.doi.org/10.1016/0165-0270(94)90193-7
https://www.ncbi.nlm.nih.gov/pubmed/7869752
https://www.proquest.com/docview/77763900
Volume 54
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