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A novel view of computed tomography images similar to the visual field of otologic surgeons
Author(s) -
Kadowaki Yoshinori,
Hirano Takashi,
Suzuki Masashi
Publication year - 2021
Publication title -
laryngoscope investigative otolaryngology
Language(s) - English
Resource type - Journals
ISSN - 2378-8038
DOI - 10.1002/lio2.634
Subject(s) - temporal bone , coronal plane , sigmoid sinus , sagittal plane , medicine , ossicles , middle ear , tomography , sinus (botany) , computer vision , anatomy , radiology , computer science , surgery , botany , thrombosis , biology , genus
Objectives In preparation for endoscopic sinus surgery (ESS), the most important computed tomography (CT) image for otolaryngologists is the coronal plane image because it has a viewpoint similar to that of the surgical visual field. Contrastingly, otologic surgeons refer to axial and coronal plane images before ear surgery and must imagine the anatomical structure of the temporal bone by reconstructing three‐dimensional (3D) images in their minds. We propose a “surgical position view (SPV) image,” a novel viewpoint of CT images that enables otologic surgeons to see a perspective similar to the surgical visual field. Method Sagittal plane CT images of the temporal bone were created from axial plane images with multi‐planar reconstruction (MPR). Then, the SPV image was obtained by rotating it 90° to the supine position. The entire process can be performed anywhere in the hospital within 1 minute using the electronic medical record computer's image viewer. Results SPV images show anatomical structures of the temporal bone, external ear canal, mastoid cavity, sigmoid vein, facial nerve, ossicles, and cochlea, in a similar view to the actual ear surgery. Soft tissue such as cholesteatoma is depicted in the same concentration as the normal CT image. Conclusion The SPV image enables an otologic surgeon to see the temporal bone CT image from the actual ear surgery viewpoint simply and quickly. It helps to visualize the 3D anatomical structure of the temporal bone and can be useful for ear surgery planning. Level of evidence 5

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