Abstract
There is no three-dimensional (3D) technique to study the microanatomical structures of the in vivo 3D vestibular membranous labyrinth. Recent two MRI methods using a contrast agent can only depict the low-resolution imaging of endolymphatic hydrops. Therefore, we provide the new precise volume rendering algorithms to create the in vivo 3D vestibular membranous labyrinth images from high-resolution temporal bone low-dose CT data. We also ascertain whether the created 3D microstructure images are reliable in anatomical findings. Secondary, we will analyze the age-related changes of the vestibular membranous labyrinth. These created 3D membranous vestibular images were almost consistent with the appearance, dimensions, areas, and angles from those acquired in previous histological works. The age-related image changes showed the enlarged saccule in females, the enlarged utricle in males, and the dilated tendency of the lateral semicircular duct. These results may correlate to the findings of the previous physiological works on cervical and ocular vestibular evoked myogenic potentials, and gait studies. The age-related balance disorders may be associated with the enlargement of each membranous organ in the vestibule. This new imaging technique now enables visualizing microanatomical changes in the in vivo membranous vestibulum, and these created 3D images may suggest physiological information.
Highlights
We assume that our created microanatomical 3D images may represent the imaging changes of the vestibular membranous labyrinth associated with the physiological phenomena at that site
This study aims to develop and use the new volume rendering algorithms that allow for the visualization of in vivo 3D vestibular membranous labyrinth from clinical high-resolution temporal low-dose CT data, to analyze the accuracy of the created 3D images in comparison with the previous microanatomy books and papers[19,20,21,22,23,24,25,26,27,28], to investigate whether the membranous vestibular CT values and dimensions change with age and whether the created 3D microanatomical image may be related to the aging process of the membranous labyrinth and physiological phenomena
We defined that a range of the threshold value was −100 to 160 Hounsfield units (HU), the opacity value was 40% of the average, and the brightness value was 100%
Summary
(4) Prioritizing the voxel values in the abrupt changed voxel values areas such as a surface-based method [like Surface rendering] This study aims to develop and use the new volume rendering algorithms that allow for the visualization of in vivo 3D vestibular membranous labyrinth from clinical high-resolution temporal low-dose CT data, to analyze the accuracy of the created 3D images in comparison with the previous microanatomy books and papers[19,20,21,22,23,24,25,26,27,28], to investigate whether the membranous vestibular CT values and dimensions change with age and whether the created 3D microanatomical image may be related to the aging process of the membranous labyrinth and physiological phenomena
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