Towards linking diffusion MRI based macro- and microstructure measures with cortico-cortical transmission in brain tumor patients(脑肿瘤患者基于磁共振弥散成像的宏观和微观结构测量与皮质传递的联系) 9 x1 j, c5 D( ]6 e P5 ~, F) b* u; Q! l( G3 c
We aimed to link macro- and microstructure measures of brain white matter obtained from diffusion MRI with effective connectivity measures based on a propagation of cortico-cortical evoked potentials induced with intrasurgical7 s0 {2 h- V! i/ a+ x% u0 z
direct electrical stimulation. For this, we compared streamline lengths and log-transformed ratios of streamlines computed from presurgical diffusion-weighted images, and the delays and amplitudes of N1 peaks recorded intrasurgically with electrocorticography electrodes in a pilot study of 9 brain tumor patients. Our results showed positive correlation between these two modalities in the vicinity of the stimulation sites (Pearson coefficient 0.54±0.13 for N1 delays, and 0.47±0.23 for N1 amplitudes), which could correspond to the neural propagation via U-fibers. In addition, we reached high sensitivities (0.78±0.07) and very high specificities (0.93±0.03) in a binary variant of our comparison. Finally, we used the structural connectivity measures to predict the effective connectivity using a multiple linear regression model, and showed a significant role of brain microstructure-related indices in this relation.7 U4 r4 `/ r4 F3 |+ o8 I
j6 h+ I' P! ~" e Keywords: structural connectivity, brain white matter microstrucure, effective connectivity, cortico-cortical evoked potentials, direct electrical stimulation, tractography6 i3 G, G2 T* J1 ~- s q) A+ s
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发表于 2020-12-18 11:31
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