通过计算流体分析对存在和不存在扁桃体异位情况下的脑脊液流体动力学进行表征。

Characterization of CSF hydrodynamics in the presence and absence of tonsillar ectopia by means of computational flow analysis.

作者信息

Roldan A, Wieben O, Haughton V, Osswald T, Chesler N

机构信息

Department of Radiology, University of Wisconsin, Madison, WI 53792, USA.

出版信息

AJNR Am J Neuroradiol. 2009 May;30(5):941-6. doi: 10.3174/ajnr.A1489. Epub 2009 Mar 19.

DOI:10.3174/ajnr.A1489

PMID:19299486

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7051682/

Abstract

BACKGROUND AND PURPOSE

Phase-contrast MR imaging (PCMR) has only partially characterized cyclic CSF flow and pressure, which, hypothetically, have a role in the pathogenesis of syrinx and symptoms in the Chiari I malformation. Our goal was to use computational flow analysis (CFA) to better understand CSF hydrodynamics.

MATERIALS AND METHODS

High-resolution MR images were obtained in a healthy volunteer and a patient with Chiari I malformation. With standard segmentation and discretization techniques, 3D models of the subarachnoid space, cerebellum, and spinal canal were created. CSF flow during systole and diastole were simulated with the boundary element method in the models. CSF velocities and pressures computed in the patient with Chiari I malformation were compared with those in the healthy volunteer. Flow patterns were also compared with PCMR results for validation of the technique.

RESULTS

The CFA and PCMR results agreed well. Inhomogeneous flow patterns characterized by fluid jets anterior and lateral to the spinal cord were demonstrated in both the Chiari I and volunteer models by CFA. Significant circumferential velocities were evident, suggesting swirling flow in the spinal canal. Higher magnitude jets were found in the patient with Chiari I than in the healthy volunteer. Relatively even pressure gradients were found along the spinal canal in both cases, with a 50% steeper gradient in the patient with Chiari I malformation.

CONCLUSIONS

Circumferential velocities and pressure gradients in the spinal canal, which may be clinically relevant to Chiari I and other malformations, can be obtained by CFA in patient-specific geometries.

摘要

背景与目的

相位对比磁共振成像（PCMR）仅部分表征了脑脊液的周期性流动和压力，而理论上，脑脊液的流动和压力在脊髓空洞症的发病机制及Chiari I畸形的症状中起作用。我们的目标是使用计算流体分析（CFA）来更好地理解脑脊液流体动力学。

材料与方法

对一名健康志愿者和一名Chiari I畸形患者进行了高分辨率磁共振成像检查。采用标准的分割和离散化技术，创建了蛛网膜下腔、小脑和椎管的三维模型。在模型中使用边界元法模拟了收缩期和舒张期的脑脊液流动。将Chiari I畸形患者计算得到的脑脊液速度和压力与健康志愿者的进行比较。还将流动模式与PCMR结果进行比较，以验证该技术。

结果

CFA和PCMR结果吻合良好。CFA在Chiari I畸形模型和志愿者模型中均显示出以脊髓前方和外侧的流体射流为特征的不均匀流动模式。明显存在显著的圆周速度，表明椎管内有涡流。Chiari I畸形患者的射流强度高于健康志愿者。在两种情况下，沿椎管均发现相对均匀的压力梯度，Chiari I畸形患者的压力梯度陡50%。

结论

通过CFA可以在特定患者的几何结构中获得椎管内的圆周速度和压力梯度，这在临床上可能与Chiari I畸形及其他畸形相关。

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