Diurnal variations in luminal and stromal areas of choroid in normal eyes

Kinoshita, Takamasa; Mitamura, Yoshinori; Shinomiya, Kayo; Egawa, Mariko; Iwata, Akiko; Fujihara, Akiko; Ogushi, Yoko; Semba, Kentaro; Akaiwa, Kei; Uchino, Eisuke; Sonoda, Shozo; Sakamoto, Taiji

doi:10.1136/bjophthalmol-2016-308594

Cited by 75 publications

(73 citation statements)

References 25 publications

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“…From normative data, CT measurements vary no more than 10μm during office hours (9 am to 6 pm). 41 Accordingly, for participants in clinical trials, the CT variations are minimal. For this population, the estimated median imaging time – reported previously from a subset as 12:54 pm 38 – almost coincides with the mean nadir time (12:26 pm) and is farthest from the mean acrophase time (11:26 pm) of the diurnal cycle of choroidal thickness fluctuations.…”

Section: Methods and Subjectsmentioning

confidence: 99%

Optical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration

et al. 2017

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Purpose The appearance of geographic atrophy (GA) on color photography (CP) is preceded by specific features on spectral domain optical coherence tomography (SDOCT). We aimed to build SDOCT-based risk assessment models for 5-year new onset of GA and central GA on CP. Design Prospective longitudinal study. Participants Age-related macular degeneration (AMD) patients with bilateral large drusen and/or non-central GA, and at least one eye without advanced disease (n=317) enrolled in the multicenter Age-Related Eye Disease Study 2 (AREDS2) Ancillary SDOCT study. Methods For one eye per participant, qualitative and quantitative SDOCT variables were derived, respectively, from standardized grading and semi-automated segmentation at baseline. Up to 7 years later, annual outcomes were extracted and analyzed to fit multivariate logistic regression models and build a risk calculator. Main Outcome Measures New onset of CP-visible GA and central GA. Results Over a follow-up median of 4.0 years and among 292 AMD eyes (without advanced disease at baseline) with complete outcome data, 46 (15.8%) developed central GA. Among a subset of 265 eyes without any GA on baseline CP, 70 (26.4%) developed CP-visible GA. Final multivariate models were adjusted for age. In the model for GA, the independent predicting SDOCT factors (p <0.001 to 0.03) were (1) hyperreflective foci (HF) and (2) retinal pigment epithelium layer atrophy or absence (RPEA), followed by (3) choroidal thickness in absence of subretinal drusenoid deposits, (4) photoreceptor outer segment loss, (5) RPE drusen complex (RPEDC) volume and (6) RPEDC abnormal thinning (RAT) volume. For central GA, the independent predicting SDOCT factors (p<0.001) were (1) RAT volume, (2) intraretinal fluid or cystoid spaces, (3) HF, and (4) RPEA. The models yielded a calculator that computes the probabilities of CP-visible new-onset GA and central GA after 1 through 5 years. Conclusions For AMD eyes with large drusen and no advanced disease, we built a novel risk assessment model – based on age and SDOCT segmentation, drusen characteristics, and retinal pathology – for progression to CP-visible GA over up to 5 years. This calculator may simplify SDOCT grading and, with future validation, have a promising role as a clinical prognostic tool.

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Section: Methods and Subjectsmentioning

confidence: 99%

Optical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration

et al. 2017

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“…20 In eyes from diabetic patients and eyes with exudative AMD, there were decreased CVI with no significant change in CT. 26,28,29 CVI was also shown to provide additional information to CT in terms of longitudinal choroidal structural changes in diseases such as panuveitis 20 ; Vogt-Koyanagi-Harada (VKH) disease 25 ; central serous chorioretinopathy (CSCR) 24 ; and myopic choroidal neovascularization. 27 Changes in L/C ratio or a similar index called L/S ratio (ratio of choroidal luminal area to stromal area) were investigated and found to yield valuable information in normal physiologic conditions including diurnal variation 22 and dynamic exercise 23 as well as in a number of ocular diseases including exudative AMD 21 ; polypoidal choroidal vasculopathy (PCV) 34 ; CSCR 32,33 ; VKH disease 30,31 ; and retinitis pigmentosa. 36 In this study, we compared the agreement between markers of choroidal vascularity (CVI and L/C ratio) measured by twoimage binarization techniques and significant differences were found between the two measurements.…”

Section: Discussionmentioning

confidence: 99%

Comparison of Choroidal Vascularity Markers on Optical Coherence Tomography Using Two-Image Binarization Techniques

Wei

Sonoda

Mishra

et al. 2018

Invest. Ophthalmol. Vis. Sci.

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METHODS. Spectral-domain OCT using enhanced-depth imaging was performed in 100 eyes from 52 normal subjects. Choroidal images were binarized to luminal area and stromal area using two different algorithms. Choroidal vascularity marker was defined as the ratio of luminal area to total choroidal area and they were termed ''luminal/choroidal area ratio (L/C ratio)'' and ''choroidal vascularity index (CVI)'' per the algorithm. The agreement between choroidal vascularity markers measured by the two techniques was compared using intraclass correlation coefficient (ICC) and Bland-Altman analysis. RESULTS.The mean values of choroidal vascularity markers were 70.12% (range, 56.76%-78.55%) for CVI and 67.44% (range, 51.09%-81.31%) for L/C ratio. Low level of absolute agreement between the two binarization techniques was reflected by an adjusted ICC of 0.353 using linear mixed model with age, sex, and spherical equivalent as covariates.CONCLUSIONS. There was discrepancy between measurements of choroidal vascularity using two commonly adopted image binarization techniques. It remained unclear what was the true choroidal vascularity and which binarization algorithm was more accurate. Future studies with enhanced image quality and improved image analysis algorithm are required to decipher the ground truth for choroidal vascularity.

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“…Whilst better segmentation algorithms are already available to overcome the current limitations, the biggest challenge is that choroidal thinning undergoes significant diurnal fluctuations (Kinoshita et al, 2016) and its thinning is seen in many other conditions, including aging (Barteselli et al, 2012), myopia (Ho et al, 2013), uveitis (Baltmr et al, 2014), chronic obstructive pulmonary disease (Ozcimen et al, 2016). It also has limited application in the detection of age-related macular degeneration (Pilotto et al, 2015; Yiu et al, 2015) and glaucoma (Li et al, 2015; Toprak et al, 2016).…”

Section: Retinal Biomarkersmentioning

confidence: 99%

The Eye As a Biomarker for Alzheimer's Disease

et al. 2016

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Alzheimer's disease (AD) is a progressive neurodegenerative disorder resulting in dementia and eventual death. It is the leading cause of dementia and the number of cases are projected to rise in the next few decades. Pathological hallmarks of AD include the presence of hyperphosphorylated tau and amyloid protein deposition. Currently, these pathological biomarkers are detected either through cerebrospinal fluid analysis, brain imaging or post-mortem. Though effective, these methods are not widely available due to issues such as the difficulty in acquiring samples, lack of infrastructure or high cost. Given that the eye possesses clear optics and shares many neural and vascular similarities to the brain, it offers a direct window to cerebral pathology. These unique characteristics lend itself to being a relatively inexpensive biomarker for AD which carries the potential for wide implementation. The development of ocular biomarkers can have far implications in the discovery of treatments which can improve the quality of lives of patients. In this review, we consider the current evidence for ocular biomarkers in AD and explore potential future avenues of research in this area.

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Diurnal variations in luminal and stromal areas of choroid in normal eyes

Cited by 75 publications

References 25 publications

Optical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration

Optical Coherence Tomography Predictors of Risk for Progression to Non-Neovascular Atrophic Age-Related Macular Degeneration

Comparison of Choroidal Vascularity Markers on Optical Coherence Tomography Using Two-Image Binarization Techniques

The Eye As a Biomarker for Alzheimer's Disease

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