脊髓蛛网膜下腔内鞘内脑脊液动力学的人体模型:脊髓神经根增加稳定流动。
Anthropomorphic Model of Intrathecal Cerebrospinal Fluid Dynamics Within the Spinal Subarachnoid Space: Spinal Cord Nerve Roots Increase Steady-Streaming.
作者信息
Khani Mohammadreza, Sass Lucas R, Xing Tao, Keith Sharp M, Balédent Olivier, Martin Bryn A
机构信息
Neurophysiological Imaging and Modeling Laboratory, Department of Biological Engineering, University of Idaho, Moscow, ID 83844 e-mail: .
Department of Mechanical Engineering, University of Idaho, Moscow, ID 83844 e-mail: .
出版信息
J Biomech Eng. 2018 Aug 1;140(8):0810121-08101215. doi: 10.1115/1.4040401.
Abstract
Cerebrospinal fluid (CSF) dynamics are thought to play a vital role in central nervous system (CNS) physiology. The objective of this study was to investigate the impact of spinal cord (SC) nerve roots (NR) on CSF dynamics. A subject-specific computational fluid dynamics (CFD) model of the complete spinal subarachnoid space (SSS) with and without anatomically realistic NR and nonuniform moving dura wall deformation was constructed. This CFD model allowed detailed investigation of the impact of NR on CSF velocities that is not possible in vivo using magnetic resonance imaging (MRI) or other noninvasive imaging methods. Results showed that NR altered CSF dynamics in terms of velocity field, steady-streaming, and vortical structures. Vortices occurred in the cervical spine around NR during CSF flow reversal. The magnitude of steady-streaming CSF flow increased with NR, in particular within the cervical spine. This increase was located axially upstream and downstream of NR due to the interface of adjacent vortices that formed around NR.
摘要
脑脊液(CSF)动力学被认为在中枢神经系统(CNS)生理学中起着至关重要的作用。本研究的目的是调查脊髓(SC)神经根(NR)对脑脊液动力学的影响。构建了一个特定于个体的完整脊髓蛛网膜下腔(SSS)的计算流体动力学(CFD)模型,该模型包含和不包含符合解剖学实际的神经根以及非均匀移动硬脑膜壁变形。这个CFD模型能够详细研究神经根对脑脊液速度的影响,而这在体内使用磁共振成像(MRI)或其他非侵入性成像方法是不可能实现的。结果表明,神经根在速度场、稳流和涡旋结构方面改变了脑脊液动力学。在脑脊液流动逆转期间,颈椎周围的神经根处出现了涡旋。随着神经根的存在,稳流脑脊液流动的幅度增加,特别是在颈椎内。由于在神经根周围形成的相邻涡旋的界面,这种增加位于神经根的轴向上下游。
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