OCT segmentation pattern

Optical coherence tomography imaging protocol and analysis, for both foveal-centered and temporally centered scans.

Laura Dell’Arti (4904104)
Giulio Barteselli (561256)
Lorenzo Riva (4904107)
Elisa Carini (4904098)
Giovanna Graziadei (4904095)
Eleonora Benatti (4904092)
Alessandro Invernizzi (4904101)
Maria D. Cappellini (4872370)
Francesco Viola (749477)

March 2018

(Left column) Color-coded retinal thickness maps were generated by the built-in software of the d...

Multicenter reliability of semiautomatic retinal layer segmentation using OCT.

Oberwahrenbrock, Timm
Traber, Ghislaine L
Lukas, Sebastian
Gabilondo, Iñigo
Nolan, Rachel
Songster, Christopher
Balk, Lisanne
Petzold, Axel
Paul, Friedemann
Villoslada, Pablo
Brandt, Alexander U
Green, Ari J
Schippling, Sven

May 2018

ObjectiveTo evaluate the inter-rater reliability of semiautomated segmentation of spectral domain op...

Automated Retinal Layer Segmentation Using Spectral Domain Optical Coherence Tomography: Evaluation of Inter-Session Repeatability and Agreement between Devices.

Louise Terry
Nicola Cassels
Kelly Lu
Jennifer H Acton
Tom H Margrain
Rachel V North
James Fergusson
Nick White
Ashley Wood

January 2016

Retinal and intra-retinal layer thicknesses are routinely generated from optical coherence tomograph...

Overview of the OCT imaging and analysis procedures used in the study.

Scott A. Read (788751)
David Alonso-Caneiro (3396812)
Stephen J. Vincent (2842109)

June 2017

At each study visit each child had 2 repeated series of OCT scans collected, each consisting of 6...

AUTOMATED SEGMENTATION OF RETINAL LAYERS IN OCT IMAGING AND DERIVED OPHTHALMIC MEASURES

Rossant, Florence
Ghorbel, Itebeddine
Bloch, Isabelle
Paques, Michel
Tick, Sarah

June 2009

International audienceThis paper proposes an automated method for the segmentation of eight retinal ...

Example of fd-OCT-generated inner macular thickness measurements.

Leonardo Provetti Cunha (2623171)
Luciana Cheker Lopes (2623177)
Luciana Virgínia Ferreira Costa-Cunha (2623186)
Carolina Ferreira Costa (2623180)
Leopoldo Antônio Pires (2623183)
Ana Laura Maciel Almeida (2623174)
Mário Luiz Ribeiro Monteiro (2623168)

April 2016

Left: scanned area (7x7 mm). The inner retinal layers thickness measurements are show in each 10x...

Sample OCT measurement and segmentation.

Elisa Schneider (424831)
Hanna Zimmermann (319981)
Timm Oberwahrenbrock (323102)
Falko Kaufhold (319982)
Ella Maria Kadas (323098)
Axel Petzold (120705)
Frieder Bilger (424832)
Nadja Borisow (424833)
Sven Jarius (25658)
Brigitte Wildemann (316416)
Klemens Ruprecht (187598)
Alexander U. Brandt (309955)
Friedemann Paul (25657)

June 2013

A) Sample scanning laser ophthalmoscopy image showing the peripapillary ring-scan for retinal ner...

Segmentation map of macular OCT in a patient without macular pathology.

Sruthi Arepalli (5819111)
Sunil K. Srivastava (618953)
Ming Hu (38573)
Peter M. Kaiser (5819114)
Neeley Dukles (5819117)
Jamie L. Reese (5819120)
Justis P. Ehlers (618952)

October 2018

(A) Segmentation of inner and outer retinal layers, at the inner limiting membrane (ILM, blue), oute...

Divisions of the segmented retinal layer using Spectralis SD-OCT.

Eun Kyoung Kim (2817499)
Hae-Young Lopilly Park (766061)
Chan Kee Park (698195)

August 2017

Retinal thickness analysis protocol showing mean thicknesses for each of eight subfields: scan ar...

Example of the segmentation applied to each macula OCT image including the retinal layer boundaries: The internal limiting membrane (ILM), the ganglion cell layer (GCL)/nerve fibre layer (NFL) boundary, the inner nuclear layer (INL)/inner plexiform layer (IPL) boundary, the outer plexiform (OPL)/inner nuclear layer (INL) boundary, the external limiting membrane (ELM), the inner boundary of the inner segment ellipsoid band (ISe), and the outer boundary of the retinal pigment epithelium (RPE).

Rebecca A. Cox (13531591)
Scott A. Read (7884875)
Shelley Hopkins (13531594)
David Alonso-Caneiro (3396812)
Joanne M. Wood (3144249)

August 2022

Also shown are the total retinal thickness (TRT) measurement, and the individual layer thickness mea...

Manual segmentation: the thickness of GCIP and INL is reduced in Wilson’s disease. A

Philipp Albrecht (171205)
Ann-Kristin Müller (171206)
Marius Ringelstein (171207)
David Finis (298298)
Gerd Geerling (298299)
Eva Cohn (171209)
Orhan Aktas (25659)
Hans-Peter Hartung (112650)
Harald Hefter (298300)
Axel Methner (26360)

February 2013

The different retinal layers were manually segmented in single horizontal foveal scans and the im...

Representative optical coherence tomographic (OCT) images and retinal segmentation of the images.

Ryutaro Akiba (3390491)
Hirotaka Yokouchi (3390488)
Masahiro Mori (528273)
Toshiyuki Oshitari (3390485)
Takayuki Baba (2372914)
Setsu Sawai (508902)
Satoshi Kuwabara (611904)
Shuichi Yamamoto (182616)

December 2016

(A) Orange segmentation lines define the ganglion cell layer and inner plexiform layer (GCIP), th...

Automated Segmentation of Intraretinal Layers from Macular Optical Coherence Tomography Images

Michael D. Abràmoffa C D

October 2015

Commercially-available optical coherence tomography (OCT) systems (e.g., Stratus OCT-3) only segment...

Repeatability of Foveal Measurements Using Spectralis Optical Coherence Tomography Segmentation Software

Ctori Irene
Huntjens Byki

June 2015

To investigate repeatability and reproducibility of thickness of eight individual retinal layers at ...

ETDRS grid and example 10 intra-retinal layer segmentation.

Louise Terry (3097746)
Nicola Cassels (3097740)
Kelly Lu (3097737)
Jennifer H. Acton (317579)
Tom H. Margrain (3097752)
Rachel V. North (3097749)
James Fergusson (3097743)
Nick White (2278135)
Ashley Wood (559652)

September 2016

(A) Standard ETDRS grid showing the foveal subfield (black). The inner ring is an average of the ...

Optical coherence tomography imaging protocol and analysis, for both foveal-centered and temporally centered scans.

Laura Dell’Arti (4904104)
Giulio Barteselli (561256)
Lorenzo Riva (4904107)
Elisa Carini (4904098)
Giovanna Graziadei (4904095)
Eleonora Benatti (4904092)
Alessandro Invernizzi (4904101)
Maria D. Cappellini (4872370)
Francesco Viola (749477)

March 2018

(Left column) Color-coded retinal thickness maps were generated by the built-in software of the d...

Multicenter reliability of semiautomatic retinal layer segmentation using OCT.

Oberwahrenbrock, Timm
Traber, Ghislaine L
Lukas, Sebastian
Gabilondo, Iñigo
Nolan, Rachel
Songster, Christopher
Balk, Lisanne
Petzold, Axel
Paul, Friedemann
Villoslada, Pablo
Brandt, Alexander U
Green, Ari J
Schippling, Sven

May 2018

ObjectiveTo evaluate the inter-rater reliability of semiautomated segmentation of spectral domain op...

Automated Retinal Layer Segmentation Using Spectral Domain Optical Coherence Tomography: Evaluation of Inter-Session Repeatability and Agreement between Devices.

Louise Terry
Nicola Cassels
Kelly Lu
Jennifer H Acton
Tom H Margrain
Rachel V North
James Fergusson
Nick White
Ashley Wood

January 2016

Retinal and intra-retinal layer thicknesses are routinely generated from optical coherence tomograph...

Overview of the OCT imaging and analysis procedures used in the study.

Scott A. Read (788751)
David Alonso-Caneiro (3396812)
Stephen J. Vincent (2842109)

June 2017

At each study visit each child had 2 repeated series of OCT scans collected, each consisting of 6...

AUTOMATED SEGMENTATION OF RETINAL LAYERS IN OCT IMAGING AND DERIVED OPHTHALMIC MEASURES

Rossant, Florence
Ghorbel, Itebeddine
Bloch, Isabelle
Paques, Michel
Tick, Sarah

June 2009

International audienceThis paper proposes an automated method for the segmentation of eight retinal ...

Example of fd-OCT-generated inner macular thickness measurements.

Leonardo Provetti Cunha (2623171)
Luciana Cheker Lopes (2623177)
Luciana Virgínia Ferreira Costa-Cunha (2623186)
Carolina Ferreira Costa (2623180)
Leopoldo Antônio Pires (2623183)
Ana Laura Maciel Almeida (2623174)
Mário Luiz Ribeiro Monteiro (2623168)

April 2016

Left: scanned area (7x7 mm). The inner retinal layers thickness measurements are show in each 10x...

Sample OCT measurement and segmentation.

Elisa Schneider (424831)
Hanna Zimmermann (319981)
Timm Oberwahrenbrock (323102)
Falko Kaufhold (319982)
Ella Maria Kadas (323098)
Axel Petzold (120705)
Frieder Bilger (424832)
Nadja Borisow (424833)
Sven Jarius (25658)
Brigitte Wildemann (316416)
Klemens Ruprecht (187598)
Alexander U. Brandt (309955)
Friedemann Paul (25657)

June 2013

A) Sample scanning laser ophthalmoscopy image showing the peripapillary ring-scan for retinal ner...

Segmentation map of macular OCT in a patient without macular pathology.

Sruthi Arepalli (5819111)
Sunil K. Srivastava (618953)
Ming Hu (38573)
Peter M. Kaiser (5819114)
Neeley Dukles (5819117)
Jamie L. Reese (5819120)
Justis P. Ehlers (618952)

October 2018

(A) Segmentation of inner and outer retinal layers, at the inner limiting membrane (ILM, blue), oute...

Divisions of the segmented retinal layer using Spectralis SD-OCT.

Eun Kyoung Kim (2817499)
Hae-Young Lopilly Park (766061)
Chan Kee Park (698195)

August 2017

Retinal thickness analysis protocol showing mean thicknesses for each of eight subfields: scan ar...

Example of the segmentation applied to each macula OCT image including the retinal layer boundaries: The internal limiting membrane (ILM), the ganglion cell layer (GCL)/nerve fibre layer (NFL) boundary, the inner nuclear layer (INL)/inner plexiform layer (IPL) boundary, the outer plexiform (OPL)/inner nuclear layer (INL) boundary, the external limiting membrane (ELM), the inner boundary of the inner segment ellipsoid band (ISe), and the outer boundary of the retinal pigment epithelium (RPE).

Rebecca A. Cox (13531591)
Scott A. Read (7884875)
Shelley Hopkins (13531594)
David Alonso-Caneiro (3396812)
Joanne M. Wood (3144249)

August 2022

Also shown are the total retinal thickness (TRT) measurement, and the individual layer thickness mea...

Manual segmentation: the thickness of GCIP and INL is reduced in Wilson’s disease. A

Philipp Albrecht (171205)
Ann-Kristin Müller (171206)
Marius Ringelstein (171207)
David Finis (298298)
Gerd Geerling (298299)
Eva Cohn (171209)
Orhan Aktas (25659)
Hans-Peter Hartung (112650)
Harald Hefter (298300)
Axel Methner (26360)

February 2013

The different retinal layers were manually segmented in single horizontal foveal scans and the im...

Representative optical coherence tomographic (OCT) images and retinal segmentation of the images.

Ryutaro Akiba (3390491)
Hirotaka Yokouchi (3390488)
Masahiro Mori (528273)
Toshiyuki Oshitari (3390485)
Takayuki Baba (2372914)
Setsu Sawai (508902)
Satoshi Kuwabara (611904)
Shuichi Yamamoto (182616)

December 2016

(A) Orange segmentation lines define the ganglion cell layer and inner plexiform layer (GCIP), th...

Automated Segmentation of Intraretinal Layers from Macular Optical Coherence Tomography Images

Michael D. Abràmoffa C D

October 2015

Commercially-available optical coherence tomography (OCT) systems (e.g., Stratus OCT-3) only segment...

Repeatability of Foveal Measurements Using Spectralis Optical Coherence Tomography Segmentation Software

Ctori Irene
Huntjens Byki

June 2015

To investigate repeatability and reproducibility of thickness of eight individual retinal layers at ...

ETDRS grid and example 10 intra-retinal layer segmentation.

Louise Terry (3097746)
Nicola Cassels (3097740)
Kelly Lu (3097737)
Jennifer H. Acton (317579)
Tom H. Margrain (3097752)
Rachel V. North (3097749)
James Fergusson (3097743)
Nick White (2278135)
Ashley Wood (559652)

September 2016

(A) Standard ETDRS grid showing the foveal subfield (black). The inner ring is an average of the ...

Optical coherence tomography imaging protocol and analysis, for both foveal-centered and temporally centered scans.

Laura Dell’Arti (4904104)
Giulio Barteselli (561256)
Lorenzo Riva (4904107)
Elisa Carini (4904098)
Giovanna Graziadei (4904095)
Eleonora Benatti (4904092)
Alessandro Invernizzi (4904101)
Maria D. Cappellini (4872370)
Francesco Viola (749477)

March 2018

(Left column) Color-coded retinal thickness maps were generated by the built-in software of the d...

Multicenter reliability of semiautomatic retinal layer segmentation using OCT.

Oberwahrenbrock, Timm
Traber, Ghislaine L
Lukas, Sebastian
Gabilondo, Iñigo
Nolan, Rachel
Songster, Christopher
Balk, Lisanne
Petzold, Axel
Paul, Friedemann
Villoslada, Pablo
Brandt, Alexander U
Green, Ari J
Schippling, Sven

May 2018

ObjectiveTo evaluate the inter-rater reliability of semiautomated segmentation of spectral domain op...

Automated Retinal Layer Segmentation Using Spectral Domain Optical Coherence Tomography: Evaluation of Inter-Session Repeatability and Agreement between Devices.

Louise Terry
Nicola Cassels
Kelly Lu
Jennifer H Acton
Tom H Margrain
Rachel V North
James Fergusson
Nick White
Ashley Wood

January 2016

Retinal and intra-retinal layer thicknesses are routinely generated from optical coherence tomograph...

OCT segmentation pattern

Abstract

Extracted data

OCT segmentation pattern

Abstract

Extracted data

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