Overcoming Challenges of Cranial Nerve Tractography: A Targeted Review

纤维束成像 医学 颅神经 磁共振弥散成像 背景(考古学) 神经影像学 神经解剖学 连接组学 神经血管束 解剖 磁共振成像 医学物理学 放射科 神经科学 心理学 连接体 功能连接 古生物学 精神科 生物
作者
Timothée Jacquesson,Carole Frindel,Gabriel Kocevar,Moncef Berhouma,Emmanuel Jouanneau,Arnaud Attyé,François Cotton
出处
期刊:Neurosurgery [Lippincott Williams & Wilkins]
卷期号:84 (2): 313-325 被引量:39
标识
DOI:10.1093/neuros/nyy229
摘要

Diffusion imaging tractography caught the attention of the scientific community by describing the white matter architecture in vivo and noninvasively, but its application to small structures such as cranial nerves remains difficult. The few attempts to track cranial nerves presented highly variable acquisition and tracking settings.To conduct and present a targeted review collecting all technical details and pointing out challenges and solutions in cranial nerve tractography.A "targeted" review of the scientific literature was carried out using the MEDLINE database. We selected studies that reported how to perform the tractography of cranial nerves, and extracted the following: clinical context; imaging acquisition settings; tractography parameters; regions of interest (ROIs) design; and filtering methods.Twenty-one published articles were included. These studied the optic nerves in suprasellar tumors, the trigeminal nerve in neurovascular conflicts, the facial nerve position around vestibular schwannomas, or all cranial nerves. Over time, the number of MRI diffusion gradient directions increased from 6 to 101. Nine tracking software packages were used which offered various types of tridimensional display. Tracking parameters were disparately detailed except for fractional anisotropy, which ranged from 0.06 to 0.5, and curvature angle, which was set between 20° and 90°. ROI design has evolved towards a multi-ROI strategy. Furthermore, new algorithms are being developed to avoid spurious tracts and improve angular resolution.This review highlights the variability in the settings used for cranial nerve tractography. It points out challenges that originate both from cranial nerve anatomy and the tractography technology, and allows a better understanding of cranial nerve tractography.
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