4.6 Article

Microscope integrated optical coherence tomography system combined with augmented reality

期刊

OPTICS EXPRESS
卷 29, 期 6, 页码 9407-9418

出版社

OPTICAL SOC AMER
DOI: 10.1364/OE.420375

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资金

  1. National Key Research and Development Program of China [2016YFF0102000, 2016YFF0102002, 2016YFF0102003]
  2. Key Research Program of Frontier Sciences [QYZDB-SSW-JSC03]
  3. Jiangsu Science and Technology Plan Program [BE2018667]

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This paper proposes a simple registration method that combines augmented reality with MI-OCT systems to overcome the problem of displaying medical images acquired via different modalities independently. By using guided laser points, the method successfully obtains two-dimensional microscopic images with depth information and a registration error within the limits of medical and surgical errors, showing potential applications in ophthalmic procedures.
One of the disadvantages in microscope-integrated optical coherence tomography (MI-OCT) systems is that medical images acquired via different modalities are usually displayed independently. Hence, surgeons have to match two-dimensional and three-dimensional images of the same operative region subjectively. In this paper, we propose a simple registration method to overcome this problem by using guided laser points. This method combines augmented reality with an existing MI-OCT system. The basis of our idea is to introduce a guiding laser into the system, which allows us to identify fiducials in microscopic images. At first, the applied voltages of the scanning galvanometer mirror are used to calculate the fiducials' coordinates in an OCT model. After gathering data at the corresponding points' coordinates, the homography matrix and camera parameters are used to superimpose a reconstructed model on microscopic images. After performing experiments with artificial and animal eyes, we successfully obtain two-dimensional microscopic images of scanning regions with depth information. Moreover, the registration error is 0.04 mm, which is within the limits of medical and surgical errors. Our proposed method could have many potential applications in ophthalmic procedures. (C) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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