Crossing muscle fibers of the human tongue resolved in vivo using constrained spherical deconvolution

Crossing muscle fibers of the human tongue resolved in vivo using constrained spherical deconvolution

Background Surgical resection of tongue cancer may impair swallowing and speech. Knowledge of tongue muscle architecture affected by the resection could aid in patient counseling. Diffusion tensor imaging (DTI) enables reconstructions of muscle architecture in vivo. Reconstructing crossing fibers in...

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Bibliographic Details
Published in:Journal of magnetic resonance imaging Vol. 50; no. 1; pp. 96 - 105
Main Authors: Voskuilen, Luuk, Mazzoli, Valentina, Oudeman, Jos, Balm, Alfons J.M., van der Heijden, Ferdinand, Froeling, Martijn, de Win, Maartje M.L., Strijkers, Gustav J., Smeele, Ludi E., Nederveen, Aart J.
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-07-2019
Wiley Subscription Services, Inc
Subjects:
Angular resolution
Architecture
constrained spherical deconvolution
Deconvolution
Diffusion
diffusion tensor imaging
Evaluation
Fiber orientation
Fibers
Field strength
Hyoid bone
Image acquisition
In vivo methods and tests
Inhomogeneity
inhomogeneity correction
Magnetic resonance imaging
Mandible
Mathematical analysis
muscle architecture
Muscles
Oral cancer
Original Research
Qualitative analysis
Response functions
Statistical analysis
Statistical tests
Swallowing
Tensors
Tongue
tongue cancer
tractography
diffusion tensor imaging
tongue cancer
tractography
muscle architecture
inhomogeneity correction
constrained spherical deconvolution
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Summary:Background Surgical resection of tongue cancer may impair swallowing and speech. Knowledge of tongue muscle architecture affected by the resection could aid in patient counseling. Diffusion tensor imaging (DTI) enables reconstructions of muscle architecture in vivo. Reconstructing crossing fibers in the tongue requires a higher‐order diffusion model. Purpose To develop a clinically feasible diffusion imaging protocol, which facilitates both DTI and constrained spherical deconvolution (CSD) reconstructions of tongue muscle architecture in vivo. Study Type Cross‐sectional study. Subjects/Specimen One ex vivo bovine tongue resected en bloc from mandible to hyoid bone. Ten healthy volunteers (mean age 25.5 years; range 21–34 years; four female). Field Strength/Sequence Diffusion‐weighted echo planar imaging at 3 T using a high‐angular resolution diffusion imaging scheme acquired twice with opposing phase‐encoding for B0‐field inhomogeneity correction. The scan of the healthy volunteers was divided into four parts, in between which the volunteers were allowed to swallow, resulting in a total acquisition time of 10 minutes. Assessment The ability of resolving crossing muscle fibers using CSD was determined on the bovine tongue specimen. A reproducible response function was estimated and the optimal peak threshold was determined for the in vivo tongue. The quality of tractography of the in vivo tongue was graded by three experts. Statistical Tests The within‐subject coefficient of variance was calculated for the response function. The qualitative results of the grading of DTI and CSD tractography were analyzed using a multilevel proportional odds model. Results Fiber orientation distributions in the bovine tongue specimen showed that CSD was able to resolve crossing muscle fibers. The response function could be determined reproducibly in vivo. CSD tractography displayed significantly improved tractography compared with DTI tractography (P = 0.015). Data Conclusion The 10‐minute diffusion imaging protocol facilitates CSD fiber tracking with improved reconstructions of crossing tongue muscle fibers compared with DTI. Level of Evidence: 2 Technical Efficacy: Stage 1 J. Magn. Reson. Imaging 2019;50:96–105.
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ISSN:1053-1807
1522-2586
DOI:10.1002/jmri.26609