Increased hindbrain motion in Chiari I malformation patients measured through 3D amplified MRI (3D aMRI)

Q3 Engineering
Javid Abderezaei , Fargol Rezayaraghi , Aymeric Pionteck , Ya-Chen Chuang , Alejandro Carrasquilla , Gizem Bilgili , Tianyi Ren , Tyson Lam , Tse-An Lu , Miriam Scadeng , Patrick Fillingham , Peter Morgenstern , Michael R. Levitt , Richard G. Ellenbogen , Yang Yang , Samantha J. Holdsworth , Raj Shrivastava , Mehmet Kurt
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Abstract

Chiari Malformation type 1 (CM-I) is a neurological disorder characterized by morphological defects including excessive cerebellar tonsillar ectopia and associated manifestations. We used 3D amplified MRI on a cohort of healthy and CM-I subjects to investigate the brain’s intrinsic motion, its association with the morphology and patient’s symptomatology, and surgical outcomes. We observed that the regional brain motion in CM-I was significantly higher than that of the healthy subjects, with anterior-posterior (AP) and superior-inferior (SI) displacements in cerebellar tonsils and medulla having the highest differences between the healthy and CM-I (45%–73% increased motion in the CM-I group). Interestingly, we found the ratio of neural tissue in the foramen magnum to be directly correlated with the SI tonsillar motion (r=0.58). Tonsillar herniation was directly correlated with the AP motion of the tonsils (r=0.61), and AP and medial-lateral (ML) motions of the medulla (r=0.66, and r=0.57). Subjects with higher tonsillar ML motion prior to surgery showed improved outcome (p=0.03, and AUC=0.95). Although we did not observe a significant correlation between the brains motion and morphometrics on the CM-I symptoms (perhaps due to our small sample size), illustrative cases increase our hope for the development of a future tool based on brain biomechanics.
通过三维放大磁共振成像(3D aMRI)测量 Chiari I 畸形患者后脑运动增加的情况
Chiari 畸形 1 型(CM-I)是一种神经系统疾病,其特征是形态缺陷,包括小脑扁桃体过度异位及相关表现。我们使用三维放大核磁共振成像技术对一组健康和 CM-I 患者进行了研究,以了解大脑的固有运动、其与形态学和患者症状的关联以及手术效果。我们观察到,CM-I 患者的大脑区域运动明显高于健康受试者,其中小脑扁桃体和延髓的前后(AP)和上下(SI)位移在健康和 CM-I 之间的差异最大(CM-I 组的运动增加了 45%~73%)。有趣的是,我们发现枕骨大孔中神经组织的比例与扁桃体SI运动直接相关(r=0.58)。扁桃体疝与扁桃体的 AP 运动(r=0.61)以及髓质的 AP 和内外侧(ML)运动(r=0.66 和 r=0.57)直接相关。手术前扁桃体 ML 运动较高的受试者预后较好(P=0.03,AUC=0.95)。虽然我们没有观察到大脑运动与 CM-I 症状上的形态计量学之间存在明显的相关性(可能是由于我们的样本量较小),但说明性的病例增加了我们对未来开发基于大脑生物力学的工具的希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Brain multiphysics
Brain multiphysics Physics and Astronomy (General), Modelling and Simulation, Neuroscience (General), Biomedical Engineering
CiteScore
4.80
自引率
0.00%
发文量
0
审稿时长
68 days
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