Abstract
Optical coherence tomography (OCT) has been gaining acceptance in image-guided microsurgery as a noninvasive imaging technique. However, when using B-mode OCT imaging, it is difficult to continuously keep the surgical tool in the imaging field, and the image of the tissue beneath the tool is corrupted by shadow effects. The alternative using C-mode OCT imaging is either too slow in imaging speed when operating in a high-resolution mode, or provides a poor image resolution in a high-speed mode, with the sweep rate less than one million hertz. Moreover, the 3-dimensional rendering of C-mode OCT image makes it difficult to visualize the tissue structure and track the surgical tool beneath the tissue surface. To solve these problems, we propose a BC-mode OCT image visualization method. This method uses a sparse C-scanning scheme, which provides a set of high-resolution B-mode OCT images at sparsely spaced cross sections. The final BC-mode OCT image is obtained by averaging the image set, with inter frame variance processing to enhance the signal of the surgical tool and tissue layers. The performance of BC-mode OCT images, such as image resolution, signal to noise ratio (SNR), imaging speed, and surgical tool tracking accuracy, is analyzed theoretically and verified experimentally. The feasibility of the proposed method is evaluated by guiding the insertion of a 30-gauge needle into the cornea of an ex-vivo human eye freehand. The results show that this provides better visualization of both the surgical tool and the tissue structure than the conventional B- or C- mode OCT image.
Highlights
Microsurgery, such as ophthalmic surgery and neurosurgery, involves manipulation of delicate tissues and requires precise control of the surgical tool [1]
When the tool is in the imaging plane, the tissue signal is blocked by the surgical tool, which results in shadow effects in the B-mode Optical coherence tomography (OCT) image
The results show that this provides better visualization than the conventional Bor C- mode OCT image, which validates its effectiveness in guiding the surgical tool during microsurgery
Summary
Microsurgery, such as ophthalmic surgery and neurosurgery, involves manipulation of delicate tissues and requires precise control of the surgical tool [1]. Different visualization modes for OCT images have been explored to better guide the surgical tool. This work shows that A-mode and M-mode OCT images only provide depth information, and their visualization can be difficult to interpret. Without projection to a 2-dimensional plane, the 3-dimensional rendering of C-mode OCT image highlights the tissue surface, so it is difficult to visualize the tissue structure and track the surgical tool beneath the surface. Compared with the C-mode OCT image, B-mode OCT image provides a clearer cross-sectional view of tissue structure and surgical tool underneath the tissue surface, and it is faster in imaging speed. In conventional B-mode OCT imaging, it is difficult to continuously keep the surgical tool in the imaging field since it provides only one cross-sectional image of a single plane. When the tool is in the imaging plane, the tissue signal is blocked by the surgical tool, which results in shadow effects in the B-mode OCT image
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