Insights into atypical segmental layer thicknesses and phase retardation in thick corneas using ultrahigh-resolution polarization-sensitive optical coherence tomography.

IF 4.1 1区 医学 Q1 OPHTHALMOLOGY
Rahul P Patil, Rohit Shetty, Pooja Khamar, Yash G Patel, Raghav R Narasimhan, Anushree A Bhatkal, Christopher K Hitzenberger, Michael Pircher, Rudy M M R Nuijts, Abhijit Sinha Roy
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Abstract

Background: Accurately assessing corneal structural status is challenging when thickness deviates from the average. Polarization-sensitive optical coherence tomography (PS-OCT) measures tissue-specific polarization changes, providing additional contrast for accurate segmentations and aids in phase retardation (PR) measurements. Previous studies have shown PR's effectiveness in identifying sub-clinical keratoconus (KC) in asymmetric cases. Thus, this study aims to assess PR distribution in thick corneas with and without KC.

Methods: In this retrospective and cross-sectional study, 45 thick corneas from 30 Asian-Indian subjects, categorized into healthy (n = 26) and KC (n = 19) groups were analyzed. All eyes underwent standard clinical evaluations, tomographic assessments, and corneal biomechanics measurements. PR and individual layer thicknesses were measured using custom-designed ultrahigh-resolution PS-OCT. PR en-face maps were generated. Individual layer thicknesses and PR analysis was conducted across multiple zones, extending up to 8-10 mm in diameter. All eyes in the study had not undergone interventions, received topical medications, or had previous corneal disease history.

Results: Significant differences were found in spherical and cylindrical powers, keratometry, pachymetry, and biomechanical indices (all P < 0.01). Thickness profiles from PS-OCT showed significant differences in the 4-8 mm zones only. Bowman's layer thickness significantly differed only in the central 2 mm zone (P = 0.02). The median PR values showed marginal differences in the central 2 mm zone (P = 0.0565). Additionally, there were significant differences observed in the 2-4 mm and 4-6 mm zones (P = 0.0274 and P = 0.0456, respectively). KC eyes exhibited an atypical PR distribution and corneal thinning, while normal eyes maintained a uniform Bowman's layer thickness and PR maps with larger areas of higher PR.

Conclusion: The study revealed distinctive PR distribution in thick corneas among healthy and KC groups. Using an ultrahigh-resolution PS-OCT the significance of Bowman's layer thickness in these groups was also emphasized. The study offered potential improvements in clinical diagnostics by enhancing our understanding of corneal structure and its altered function.

利用超高分辨率偏振敏感光学相干断层扫描,深入了解厚角膜的非典型节段层厚度和相位延迟。
背景:当角膜厚度偏离平均值时,准确评估角膜结构状态是一项挑战。偏振敏感光学相干断层扫描(PS-OCT)可测量组织特异性偏振变化,为准确分割提供额外对比度,并有助于相位延迟(PR)测量。以往的研究表明,PR 能有效识别不对称病例中的亚临床角膜病(KC)。因此,本研究旨在评估 PR 在有 KC 和无 KC 的厚角膜中的分布情况:在这项回顾性横断面研究中,分析了来自 30 名亚洲-印度受试者的 45 个厚角膜,分为健康组(26 人)和 KC 组(19 人)。所有眼睛都接受了标准的临床评估、断层扫描评估和角膜生物力学测量。使用定制的超高分辨率 PS-OCT 对 PR 和单层厚度进行了测量。生成了 PR 全面图。单个角膜层厚度和 PR 分析横跨多个区域,直径可达 8-10 毫米。研究中的所有眼睛都没有接受过干预、局部用药或角膜病史:结果:在球面和柱面力量、角膜测量、角膜厚度和生物力学指数方面都发现了显著差异(均为 P 结论:研究结果表明,PR 在厚角膜中的分布非常明显:该研究揭示了厚角膜 PR 在健康组和 KC 组中的独特分布。利用超高分辨率 PS-OCT 技术,还强调了鲍曼层厚度在这些组别中的重要性。这项研究通过加深我们对角膜结构及其功能变化的了解,为临床诊断提供了潜在的改进方案。
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来源期刊
Eye and Vision
Eye and Vision OPHTHALMOLOGY-
CiteScore
8.60
自引率
2.40%
发文量
89
审稿时长
15 weeks
期刊介绍: Eye and Vision is an open access, peer-reviewed journal for ophthalmologists and visual science specialists. It welcomes research articles, reviews, methodologies, commentaries, case reports, perspectives and short reports encompassing all aspects of eye and vision. Topics of interest include but are not limited to: current developments of theoretical, experimental and clinical investigations in ophthalmology, optometry and vision science which focus on novel and high-impact findings on central issues pertaining to biology, pathophysiology and etiology of eye diseases as well as advances in diagnostic techniques, surgical treatment, instrument updates, the latest drug findings, results of clinical trials and research findings. It aims to provide ophthalmologists and visual science specialists with the latest developments in theoretical, experimental and clinical investigations in eye and vision.
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