Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters

Mohammad-reza Sedaghat; Hamed Momeni-moghaddam; Abbas Azimi Khorasani; Michael W Belin; Naeemeh Monfared; James S. W. Wolffsohn; Maryam Pakdel; Majid Farrokh Ghate; Zahra Hemmatian

doi:10.1080/02713683.2021.1931343

Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters

Mohammad-reza Sedaghat, Hamed Momeni-moghaddam^*, Abbas Azimi Khorasani, Michael W Belin, Naeemeh Monfared, James S. W. Wolffsohn, Maryam Pakdel, Majid Farrokh Ghate, Zahra Hemmatian

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

Purpose: To compare the corneal cone location on different maps and instruments, and their agreements, with elevation maps.Methods: In 90 left eyes with bilateral keratoconus, the apex of cone location was determined based on the maximum simulated keratometry (Kmax) location on the anterior sagittal curvature map by Pentacam HR, the maximum curvature on the mean curvature map by ATLAS 9000, most elevated point of the island of positive elevation relative to the best fit sphere on the front and back corneal elevation maps by Pentacam HR, and thinnest point on the thickness map by Pentacam HR and Orbscan, and the thinnest points on pachymetry and epithelial thickness maps by RTVue OCT.Results: There was a significant difference among the location on different maps along the x- and y-axes (p < .001). The lowest agreement with the cone apex on both front and back elevation maps was for the anterior sagittal curvature map and the highest agreement for the Pentacam thickness map. The majority of keratoconus cone apexes were displaced in the inferotemporal direction on the different maps except for the epithelial thickness maps.Conclusions: Despite the variability between different devices and methods; the thickness map on the Pentacam HR showed the highest correlation with the front and back elevation maps, while the RTVue epithelial thickness map showed the poorest correlation. Based on this study, epithelial thickness maps and anterior curvature maps should be utilized with caution to determine the location of the cone.

Original language	English
Pages (from-to)	1666-1672
Number of pages	7
Journal	Current Eye Research
Volume	46
Issue number	11
Early online date	17 May 2021
DOIs	https://doi.org/10.1080/02713683.2021.1931343
Publication status	Published - Nov 2021

Bibliographical note

This is an Accepted Manuscript version of the following article, accepted for publication in Current Eye Research. Mohammad-Reza Sedaghat, Hamed Momeni-Moghaddam, Abbas Azimi Khorasani, Michael W Belin, Naeemeh Monfared, James S. W. Wolffsohn, Maryam Pakdel, Majid Farrokh Ghate & Zahra Hemmatian (2021) Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters, Current Eye Research. It is deposited under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.

Keywords

Keratoconus
cone location
curvature map
elevation map
pachymetry map

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10.1080/02713683.2021.1931343

Comparison of Keratoconus Cone Location of Different Topo tomographical Parameters
This is an Accepted Manuscript version of the following article, accepted for publication in Current Eye Research. Mohammad-Reza Sedaghat, Hamed Momeni-Moghaddam, Abbas Azimi Khorasani, Michael W Belin, Naeemeh Monfared, James S. W. Wolffsohn, Maryam Pakdel, Majid Farrokh Ghate & Zahra Hemmatian (2021) Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters, Current Eye Research. It is deposited under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Accepted author manuscript, 565 KBLicence: CC BY-NC 3.0

Cite this

@article{705ccf74076243b1a8fc462cbcf67d74,

title = "Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters",

abstract = "Purpose: To compare the corneal cone location on different maps and instruments, and their agreements, with elevation maps.Methods: In 90 left eyes with bilateral keratoconus, the apex of cone location was determined based on the maximum simulated keratometry (Kmax) location on the anterior sagittal curvature map by Pentacam HR, the maximum curvature on the mean curvature map by ATLAS 9000, most elevated point of the island of positive elevation relative to the best fit sphere on the front and back corneal elevation maps by Pentacam HR, and thinnest point on the thickness map by Pentacam HR and Orbscan, and the thinnest points on pachymetry and epithelial thickness maps by RTVue OCT.Results: There was a significant difference among the location on different maps along the x- and y-axes (p < .001). The lowest agreement with the cone apex on both front and back elevation maps was for the anterior sagittal curvature map and the highest agreement for the Pentacam thickness map. The majority of keratoconus cone apexes were displaced in the inferotemporal direction on the different maps except for the epithelial thickness maps.Conclusions: Despite the variability between different devices and methods; the thickness map on the Pentacam HR showed the highest correlation with the front and back elevation maps, while the RTVue epithelial thickness map showed the poorest correlation. Based on this study, epithelial thickness maps and anterior curvature maps should be utilized with caution to determine the location of the cone.",

keywords = "Keratoconus, cone location, curvature map, elevation map, pachymetry map",

author = "Mohammad-reza Sedaghat and Hamed Momeni-moghaddam and {Azimi Khorasani}, Abbas and Belin, {Michael W} and Naeemeh Monfared and Wolffsohn, {James S. W.} and Maryam Pakdel and {Farrokh Ghate}, Majid and Zahra Hemmatian",

note = "This is an Accepted Manuscript version of the following article, accepted for publication in Current Eye Research. Mohammad-Reza Sedaghat, Hamed Momeni-Moghaddam, Abbas Azimi Khorasani, Michael W Belin, Naeemeh Monfared, James S. W. Wolffsohn, Maryam Pakdel, Majid Farrokh Ghate & Zahra Hemmatian (2021) Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters, Current Eye Research. It is deposited under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.",

year = "2021",

month = nov,

doi = "10.1080/02713683.2021.1931343",

language = "English",

volume = "46",

pages = "1666--1672",

journal = "Current Eye Research",

issn = "0271-3683",

publisher = "Informa Healthcare",

number = "11",

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TY - JOUR

T1 - Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters

AU - Sedaghat, Mohammad-reza

AU - Momeni-moghaddam, Hamed

AU - Azimi Khorasani, Abbas

AU - Belin, Michael W

AU - Monfared, Naeemeh

AU - Wolffsohn, James S. W.

AU - Pakdel, Maryam

AU - Farrokh Ghate, Majid

AU - Hemmatian, Zahra

N1 - This is an Accepted Manuscript version of the following article, accepted for publication in Current Eye Research. Mohammad-Reza Sedaghat, Hamed Momeni-Moghaddam, Abbas Azimi Khorasani, Michael W Belin, Naeemeh Monfared, James S. W. Wolffsohn, Maryam Pakdel, Majid Farrokh Ghate & Zahra Hemmatian (2021) Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters, Current Eye Research. It is deposited under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited.

PY - 2021/11

Y1 - 2021/11

N2 - Purpose: To compare the corneal cone location on different maps and instruments, and their agreements, with elevation maps.Methods: In 90 left eyes with bilateral keratoconus, the apex of cone location was determined based on the maximum simulated keratometry (Kmax) location on the anterior sagittal curvature map by Pentacam HR, the maximum curvature on the mean curvature map by ATLAS 9000, most elevated point of the island of positive elevation relative to the best fit sphere on the front and back corneal elevation maps by Pentacam HR, and thinnest point on the thickness map by Pentacam HR and Orbscan, and the thinnest points on pachymetry and epithelial thickness maps by RTVue OCT.Results: There was a significant difference among the location on different maps along the x- and y-axes (p < .001). The lowest agreement with the cone apex on both front and back elevation maps was for the anterior sagittal curvature map and the highest agreement for the Pentacam thickness map. The majority of keratoconus cone apexes were displaced in the inferotemporal direction on the different maps except for the epithelial thickness maps.Conclusions: Despite the variability between different devices and methods; the thickness map on the Pentacam HR showed the highest correlation with the front and back elevation maps, while the RTVue epithelial thickness map showed the poorest correlation. Based on this study, epithelial thickness maps and anterior curvature maps should be utilized with caution to determine the location of the cone.

AB - Purpose: To compare the corneal cone location on different maps and instruments, and their agreements, with elevation maps.Methods: In 90 left eyes with bilateral keratoconus, the apex of cone location was determined based on the maximum simulated keratometry (Kmax) location on the anterior sagittal curvature map by Pentacam HR, the maximum curvature on the mean curvature map by ATLAS 9000, most elevated point of the island of positive elevation relative to the best fit sphere on the front and back corneal elevation maps by Pentacam HR, and thinnest point on the thickness map by Pentacam HR and Orbscan, and the thinnest points on pachymetry and epithelial thickness maps by RTVue OCT.Results: There was a significant difference among the location on different maps along the x- and y-axes (p < .001). The lowest agreement with the cone apex on both front and back elevation maps was for the anterior sagittal curvature map and the highest agreement for the Pentacam thickness map. The majority of keratoconus cone apexes were displaced in the inferotemporal direction on the different maps except for the epithelial thickness maps.Conclusions: Despite the variability between different devices and methods; the thickness map on the Pentacam HR showed the highest correlation with the front and back elevation maps, while the RTVue epithelial thickness map showed the poorest correlation. Based on this study, epithelial thickness maps and anterior curvature maps should be utilized with caution to determine the location of the cone.

KW - Keratoconus

KW - cone location

KW - curvature map

KW - elevation map

KW - pachymetry map

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UR - http://www.scopus.com/inward/record.url?scp=85113354783&partnerID=8YFLogxK

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DO - 10.1080/02713683.2021.1931343

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VL - 46

SP - 1666

EP - 1672

JO - Current Eye Research

JF - Current Eye Research

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ER -

Comparison of Keratoconus Cone Location of Different Topo/tomographical Parameters

Abstract

Bibliographical note

Keywords

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