Ma Guangshen, McCloud Morgan, Tian Yuan, Narawane Amit, Shi Harvey, Trout Robert, McNabb Ryan P, Kuo Anthony N, Draelos Mark
Department of Robotics, University of Michigan Ann Arbor, MI 48105, USA.
Department of Biomedical Engineering, Duke University, Durham, NC 27705, USA.
Biomed Opt Express. 2025 Jan 16;16(2):578-602. doi: 10.1364/BOE.547943. eCollection 2025 Feb 1.
Optical coherence tomography (OCT) is an interferometric technique for micron-level imaging in biological and non-biological contexts. As a non-invasive, non-ionizing, and video-rate imaging modality, OCT is widely used in biomedical and clinical applications, especially ophthalmology, where it functions in many roles, including tissue mapping, disease diagnosis, and intrasurgical visualization. In recent years, the rapid growth of medical robotics has led to new applications for OCT, primarily for 3D free-space scanning, volumetric perception, and novel optical designs for specialized medical applications. This review paper surveys these recent developments at the intersection of OCT and robotics and organizes them by degree of integration and application, with a focus on biomedical and clinical topics. We conclude with perspectives on how these recent innovations may lead to further advances in imaging and medical technology.
光学相干断层扫描(OCT)是一种用于生物和非生物环境中微米级成像的干涉测量技术。作为一种非侵入性、非电离且具有视频速率的成像方式,OCT在生物医学和临床应用中广泛使用,尤其是在眼科领域,它发挥着多种作用,包括组织成像、疾病诊断和手术中的可视化。近年来,医疗机器人技术的快速发展为OCT带来了新的应用,主要用于三维自由空间扫描、体积感知以及针对特殊医疗应用的新型光学设计。这篇综述文章调查了OCT与机器人技术交叉领域的这些最新进展,并按集成程度和应用进行了组织,重点关注生物医学和临床主题。我们最后展望了这些最新创新如何可能导致成像和医疗技术的进一步发展。