At present, the incidence of breast cancer is high worldwide and the most effective way to treat breast cancer is surgery. This study mainly explores the application of pathological three-dimensional reconstruction based on VR technology in the evaluation of the margins of breast-conserving surgery and the adjustment of radiotherapy for breast cancer. In the process of making pathological large slices, the slice markers are counted and the upper and outer cutting edges are located and placed in a large embedding box to prevent tissue deformation. ACDSEE6.0 is used to convert the aligned image BMP format into JPG format, the JPG images of each breast are cropped in batches under the same range and size, and then 3DDOCTOR1.0 is imported to edit the images. The boundary edit tool is activated to segment the target area layer by layer to create a boundary data set of the target structure. The stored file is opened and 3D rendering simple surface and volume rendering on the computer is run to display the surface data 3D display and the volume data 3D display. During VR image processing, the data are imported into the VR image workstation and the Radio Dexter software system is used for image adjustment, trimming, and sequence extraction. Then, the preliminary processed CTand MRI data are displayed in pairs. Through multiplane comparison, manual or automatic fusion tools are used to reduce the gap between image sequences. The surgical process is simulated under VR: by changing the window size and viewing angle; using virtual electric drills, cutting tools, and other virtual instruments; ad selecting the operating microscope perspective; and simulating steps such as breast opening, visual field exposure, and tumor resection. The breast tomographic image was reconstructed in multiple planes, and two-dimensional images of any plane could be observed. 10 cases showed high-density shadows and 5 cases showed isodensity shadows. This research contributes to the precise treatment of breast-conserving surgery.
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