Mapping diurnal changes in choroidal, Haller’s and Sattler’s layer thickness using 3-dimensional 1060-nm optical coherence tomography

Purpose To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans. Methods Automatically generated choroidal, Haller’s and Sattler’s layer thic...

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Published in	Graefe's archive for clinical and experimental ophthalmology Vol. 255; no. 10; pp. 1957 - 1963
Main Authors	Gabriel, Maximilian, Esmaeelpour, Marieh, Shams-Mafi, Farnusch, Hermann, Boris, Zabihian, Behrooz, Drexler, Wolfgang, Binder, Susanne, Ansari-Shahrezaei, Siamak
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.10.2017 Springer Nature B.V
Subjects	Adolescent Adult Algorithms Basic Science Choroid - diagnostic imaging Circadian Rhythm Diabetes mellitus Diabetic retinopathy Diurnal Female Healthy Volunteers Humans Imaging, Three-Dimensional Lasers Male Mapping Medicine Medicine & Public Health Middle Aged Ophthalmology Rapid prototyping Reproducibility of Results Retinal Pigment Epithelium - diagnostic imaging Retinopathy Spatial distribution Tomography Tomography, Optical Coherence - methods Young Adult Choroid Diurnal rhythm Choroidal thickness Optical coherence tomography
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ISSN	0721-832X 1435-702X 1435-702X
DOI	10.1007/s00417-017-3723-9

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Abstract	Purpose To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans. Methods Automatically generated choroidal, Haller’s and Sattler’s layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid. Results The choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller’s layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler’s layer was thicker in the morning than in late afternoon (P < 0.0125). Conclusions Our measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler’s layer shows diurnal variation in line with ChT.
AbstractList	Purpose To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans. Methods Automatically generated choroidal, Haller’s and Sattler’s layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid. Results The choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller’s layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler’s layer was thicker in the morning than in late afternoon (P < 0.0125). Conclusions Our measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler’s layer shows diurnal variation in line with ChT. To test the significance of diurnal changes in choroidal, Haller's and Sattler's layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans.PURPOSETo test the significance of diurnal changes in choroidal, Haller's and Sattler's layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans.Automatically generated choroidal, Haller's and Sattler's layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid.METHODSAutomatically generated choroidal, Haller's and Sattler's layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid.The choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller's layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler's layer was thicker in the morning than in late afternoon (P < 0.0125).RESULTSThe choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller's layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler's layer was thicker in the morning than in late afternoon (P < 0.0125).Our measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler's layer shows diurnal variation in line with ChT.CONCLUSIONSOur measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler's layer shows diurnal variation in line with ChT. To test the significance of diurnal changes in choroidal, Haller's and Sattler's layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans. Automatically generated choroidal, Haller's and Sattler's layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid. The choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller's layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler's layer was thicker in the morning than in late afternoon (P < 0.0125). Our measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler's layer shows diurnal variation in line with ChT. To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of three-dimensional (3D) 1060-nm optical coherence tomography (OCT) scans. Automatically generated choroidal, Haller’s and Sattler’s layer thickness maps were statistically analyzed for 19 healthy subjects at two time points (8 a.m. and 6 p.m.) that represent the currently proposed ChT peak and nadir. All subjects were imaged by high-speed 1060-nm OCT over a 36° × 36° field of view. Spatial distribution of layer thickness was analyzed using the Early Treatment Diabetic Retinopathy Study (ETDRS) grid. The choroid was significantly thicker at 8 a.m. than at 6 p.m. (p < 0,0125, paired t-test, Bonferroni correction). Diurnal variation of mean choroidal thickness (ChT) for all ETDRS subfields was 12 μm. Haller’s layer thickness showed no significant diurnal variation (P > 0.0125), but Sattler’s layer was thicker in the morning than in late afternoon (P < 0.0125). Our measurements indicate that diurnal ChT variation may exist, but is less relevant than previously proposed by studies using single location imaging. Sattler’s layer shows diurnal variation in line with ChT.
Author	Zabihian, Behrooz Drexler, Wolfgang Gabriel, Maximilian Esmaeelpour, Marieh Binder, Susanne Ansari-Shahrezaei, Siamak Shams-Mafi, Farnusch Hermann, Boris
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Snippet	Purpose To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of... To test the significance of diurnal changes in choroidal, Haller's and Sattler's layer thickness in healthy subjects using spatial analysis of... To test the significance of diurnal changes in choroidal, Haller’s and Sattler’s layer thickness in healthy subjects using spatial analysis of...
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SubjectTerms	Adolescent Adult Algorithms Basic Science Choroid - diagnostic imaging Circadian Rhythm Diabetes mellitus Diabetic retinopathy Diurnal Female Healthy Volunteers Humans Imaging, Three-Dimensional Lasers Male Mapping Medicine Medicine & Public Health Middle Aged Ophthalmology Rapid prototyping Reproducibility of Results Retinal Pigment Epithelium - diagnostic imaging Retinopathy Spatial distribution Tomography Tomography, Optical Coherence - methods Young Adult
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Title	Mapping diurnal changes in choroidal, Haller’s and Sattler’s layer thickness using 3-dimensional 1060-nm optical coherence tomography
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