Abstract
BACKGROUND AND PURPOSE: Although chronic ischemia is known to induce myelin and axonal damage in animal models, knowledge regarding patients with Moyamoya disease is limited. We aimed to investigate the presence of myelin and axonal damage in Moyamoya disease and their relationship with cognitive performance.
MATERIALS AND METHODS: Eighteen patients with Moyamoya disease (16–55 years of age) and 18 age- and sex-matched healthy controls were evaluated with myelin-sensitive MR imaging based on magnetization transfer saturation imaging and 2-shell diffusion MR imaging. The myelin volume fraction, which reflects the amount of myelin sheath; the g-ratio, which represents the ratio of the inner (axon) to the outer (axon plus myelin) diameter of the fiber; and the axon volume fraction, which reflects axonal components, were calculated and compared between the patients and controls. In the patients with Moyamoya disease, the relationship between these parameters and cognitive task–measuring performance speed was also evaluated.
RESULTS: Compared with the healthy controls, the patients with Moyamoya disease showed a significant decrease in the myelin and axon volume fractions (P < .05) in many WM regions, while the increases in the g-ratio values were not statistically significant. Correlations with cognitive performance were most frequently observed with the axon volume fraction (r = 0.52–0.54; P < .03 in the right middle and posterior cerebral artery areas) and were the strongest with the g-ratio values in the right posterior cerebral artery region (r = 0.64; P = .004).
CONCLUSIONS: Myelin-sensitive MR imaging and diffusion MR imaging revealed that myelin and axonal damage exist in patients with Moyamoya disease. The relationship with cognitive performance might be stronger with axonal damage than with myelin damage.
ABBREVIATIONS:
- ACA
- anterior cerebral artery
- AVF
- axon volume fraction
- GRAPPA
- generalized autocalibrating partially parallel acquisition
- MMD
- Moyamoya disease
- MVF
- myelin volume fraction
- MTsat
- magnetization transfer saturation
- PCA
- posterior cerebral artery
- Vic
- intracellular volume fraction
- Viso
- isotropic volume fraction
- TMT
- Trail-Making Test
- WAIS
- Wechsler Adult Intelligence Scale
Footnotes
This work was supported by Grants-in-Aid for Scientific Research “KAKENHI,” the Japan Society for the Promotion of Science (grants 19K18406 and 16H06280), and a research grant (2017-2020) from the Japanese Society of Neuroradiology.
Preliminary results previously presented at: Annual Meeting of The Japanese Society of Neuroradiology, February 16–18, 2018; Tsukuba, Japan; and Joint Annual Meeting of the International Society for Magnetic Resonance in Medicine and the European Society for Magnetic Resonance in Medicine and Biology, June 16–18, 2018; Paris, France.
Disclosures: Shoko Hara—RELATED: Grant: Grants-in Aid for Scientific Research “KAKENHI” (grant 19K18406), research grant from the Japanese Society for Neuroradiology. Shigeki Aoki—UNRELATED: Board Membership: Canon, Comments: Canon MR Advisory Board; Grants/Grants Pending: Medi-Physics, Daiichi Sankyo, Eisai, FUJIFILM Toyama Chemical Co, Guerbet, Comments: grant for diagnostic radiology from Medi-Physics, Daiichi Sankyo, Eisai, FUJIFILM Toyama Chemical Co, Guerbet*; Payment for Lectures Including Service on Speakers Bureaus: Bayer Yakuhin, Canon, FUJIFILM Toyama Chemical Co, Eisai, Guerbet, GE Healthcare, Medi-Physics, Siemens, Daiichi Sankyo, Comments: payment for lectures/Chair from Bayer Yakuhin, Canon, FUJIFILM Toyama Chemical Co, Eisai, Guerbet, GE Healthcare, Medi-Physics, Siemens, Daiichi Sankyo; Payment for Manuscript Preparation: MIWA-SHOTEN, Gakken Medical Shujunsha, Comments: payment as Journal Editorial Board member of MIWA-SHOTEN, Gakken Medical Shujunsha. *Money paid to the institution.
- © 2020 by American Journal of Neuroradiology
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