Michael Balas , Vethushan Ramalingam , Bhadra Pandya , Ahmed Abdelaal , Runjie Bill Shi
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引用次数: 0
Abstract
Adaptive Optics (AO) has emerged as a revolutionary technology in ophthalmology, offering an unprecedented view into the eye's microstructures with high-resolution imaging capabilities. Originally developed for astronomy, AO technology has been adapted to correct the eye’s optical aberrations, enabling the visualization of individual cellular structures such as photoreceptors, retinal pigment epithelium cells, and capillaries within the retinal vasculature. This review provides a comprehensive overview of AO, discussing its historical background, technical principles, and incorporation into existing systems. We explore its transformative impact on ophthalmic research and clinical practice, highlighting its role in enhancing our understanding of ocular physiology, disease progression, and response to therapies. The clinical applications of AO, including early disease detection and monitoring, are examined alongside the patient experience and economic considerations. Despite its potential, AO's widespread adoption is currently limited by factors such as high costs, technical complexity, and patient cooperation challenges. We discuss these barriers and the innovative solutions emerging to overcome them, including system simplification, expanded fields of view, and advanced image analysis techniques. The article concludes by reflecting on the promising future of AO, with its evolving role in disease management, surgical planning, and systemic disease monitoring. As AO technology continues to advance, it promises to reshape the landscape of ophthalmic care, offering deeper insights into eye health and more precise patient care.
自适应光学(AO)已成为眼科领域的一项革命性技术,它通过高分辨率成像功能,为观察眼睛的微观结构提供了前所未有的视角。自适应光学技术最初是为天文学开发的,现在已被用于校正眼球的光学像差,从而实现了单个细胞结构的可视化,如感光器、视网膜色素上皮细胞和视网膜血管内的毛细血管。本综述全面概述了光学视差,讨论了其历史背景、技术原理以及与现有系统的结合。我们探讨了 AO 对眼科研究和临床实践的变革性影响,强调了 AO 在加深我们对眼部生理学、疾病进展和疗法反应的了解方面所起的作用。我们还研究了光学视网膜的临床应用,包括早期疾病检测和监控,以及患者体验和经济方面的考虑。尽管人工晶体植入术潜力巨大,但其广泛应用目前受到高成本、技术复杂性和患者合作困难等因素的限制。我们讨论了这些障碍以及为克服这些障碍而出现的创新解决方案,包括系统简化、扩大视野和先进的图像分析技术。文章最后展望了人工晶体植入术的美好前景,以及它在疾病管理、手术规划和系统性疾病监测方面不断发展的作用。随着光学视网膜技术的不断进步,它有望重塑眼科护理的格局,为人们提供更深入的眼部健康知识和更精确的患者护理。
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