光学相干断层扫描和光学相干断层扫描血管造影:检测青光眼和疾病进展的基本工具。

IF 3 2区 社会学 Q2 BUSINESS Competition & Change Pub Date : 2023-01-01 Epub Date: 2023-07-28 DOI:10.3389/fopht.2023.1217125
Yukihiro Shiga, Takashi Nishida, Jin Wook Jeoung, Adriana Di Polo, Brad Fortune
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引用次数: 0

摘要

青光眼是世界范围内导致不可逆失明的主要原因,早期诊断和发现疾病进展对青光眼成功的治疗干预至关重要。光学相干断层扫描(OCT)是一种非侵入性成像技术,可以在体内客观量化视网膜和视神经头(ONH)的关键青光眼结构变化。OCT技术的进步提高了扫描速度,增强了图像质量,有助于青光眼的早期诊断和监测,以及ONH深处至关重要的结构的可视化,如网层。OCT血管造影(OCTA)是一种无染色技术,用于无创评估眼部微血管系统,包括黄斑、乳头周围视网膜和ONH区域的每个神经丛内的毛细血管,以及脉络膜的深层血管。这种对微血管的层特异性评估提供了证据,表明视网膜和脉络膜血管损伤可能发生在青光眼的早期阶段,这表明octa衍生的测量可以用作加强青光眼及其进展检测的生物标志物,以及揭示病理生理学的新见解。此外,这些创新表明,在青光眼的早期阶段可以观察到黄斑的损伤,黄斑是与视力相关的生活质量的关键区域,导致青光眼监测的范式转变。软件和硬件的其他进步,如基于人工智能的算法、自适应光学和可见光OCT,可能会在未来进一步有利于青光眼的临床管理。本文综述了OCT和OCTA在青光眼诊断和疾病进展检测中的应用,强调了青光眼中黄斑损伤检测的重要性,并对OCT和OCTA的未来发展前景进行了展望。我们认为OCT和OCTA是重要的青光眼检测和监测工具,为患者和社会带来了临床和经济效益。
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Optical Coherence Tomography and Optical Coherence Tomography Angiography: Essential Tools for Detecting Glaucoma and Disease Progression.

Early diagnosis and detection of disease progression are critical to successful therapeutic intervention in glaucoma, the leading cause of irreversible blindness worldwide. Optical coherence tomography (OCT) is a non-invasive imaging technique that allows objective quantification in vivo of key glaucomatous structural changes in the retina and the optic nerve head (ONH). Advances in OCT technology have increased the scan speed and enhanced image quality, contributing to early glaucoma diagnosis and monitoring, as well as the visualization of critically important structures deep within the ONH, such as the lamina cribrosa. OCT angiography (OCTA) is a dye-free technique for noninvasively assessing ocular microvasculature, including capillaries within each plexus serving the macula, peripapillary retina and ONH regions, as well as the deeper vessels of the choroid. This layer-specific assessment of the microvasculature has provided evidence that retinal and choroidal vascular impairments can occur during early stages of glaucoma, suggesting that OCTA-derived measurements could be used as biomarkers for enhancing detection of glaucoma and its progression, as well as to reveal novel insights about pathophysiology. Moreover, these innovations have demonstrated that damage to the macula, a critical region for the vision-related quality of life, can be observed in the early stages of glaucomatous eyes, leading to a paradigm shift in glaucoma monitoring. Other advances in software and hardware, such as artificial intelligence-based algorithms, adaptive optics, and visible-light OCT, may further benefit clinical management of glaucoma in the future. This article reviews the utility of OCT and OCTA for glaucoma diagnosis and disease progression detection, emphasizes the importance of detecting macula damage in glaucoma, and highlights the future perspective of OCT and OCTA. We conclude that the OCT and OCTA are essential glaucoma detection and monitoring tools, leading to clinical and economic benefits for patients and society.

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CiteScore
7.20
自引率
7.70%
发文量
37
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