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Three‐dimensional mapping of lingual myoarchitecture by diffusion tensor MRI
Author(s) -
Kim Sungheon,
Barnett Alan S.,
Pierpaoli Carlo,
ChiFishman Gloria
Publication year - 2008
Publication title -
nmr in biomedicine
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.278
H-Index - 114
eISSN - 1099-1492
pISSN - 0952-3480
DOI - 10.1002/nbm.1215
Subject(s) - diffusion mri , tongue , tensor (intrinsic definition) , fractional anisotropy , segmentation , eigenvalues and eigenvectors , anatomy , voxel , computer science , artificial intelligence , mathematics , pattern recognition (psychology) , geometry , physics , medicine , radiology , magnetic resonance imaging , pathology , quantum mechanics
Abstract This study was performed to assess the feasibility of investigating the complex lingual myoarchitecture through segmentation of muscles from diffusion tensor imaging (DTI) data. The primary eigenvectors were found to be adequate for delineating the superior and inferior longitudinalis, genioglossus, and hyoglossus. The tertiary eigenvector orientations effectively revealed the homogeneous and systematic change of muscle orientation in the tongue core. In the longitudinalis near the tongue tip, the secondary eigenvectors were oriented in the radial direction. Lingual muscles were segmented using two methods: modified directional correlation (DC) and tensor coherence (TC) methods. The DC method, based on one eigenvector, was found to be inadequate for lingual muscle segmentation, whereas the TC method, based on the tensor shape and orientation, was used successfully to segment most lingual muscles. The segmentation result was used to report the diffusion tensor properties of individual lingual muscles. Also found was a continuous change in skewness of the intrinsic tongue core from negative in the anterior region to positive in the posterior region. DTI and the proposed segmentation method provide an adequate means of imaging and visualizing the complex, compartmentalized musculature of the tongue. The potential for in vivo research and clinical applications is demonstrated. Copyright © 2007 John Wiley & Sons, Ltd.

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