脑脊液压力的动态不对称性：顺应性区域差异的一个指标。

Dynamic asymmetry in cerebrospinal fluid pressure: An indicator of regional differences in compliance.

作者信息

English Connor J, Taylor Zachary, Cramberg Michael, Young Bruce A

机构信息

Department of Anatomy, Kirksville College of Osteopathic Medicine, Kirksville, Missouri, United States.

出版信息

Surg Neurol Int. 2023 Jun 2;14:187. doi: 10.25259/SNI_365_2023. eCollection 2023.

DOI:10.25259/SNI_365_2023

PMID:37404526

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10316229/

Abstract

BACKGROUND

Dural compliance influences the shape and magnitude of the cerebrospinal fluid (CSF) pulsations. In humans, cranial compliance is approximately 2× greater than spinal compliance; the differential has been attributed to the associated vasculature. In alligators, the spinal cord is surrounded by a large venous sinus, which suggests that the spinal compartment may have higher compliance than is found in mammals.

METHODS

Pressure catheters were surgically implanted into the cranial and spinal subdural spaces of eight subadult American alligators (). The CSF was propelled through the subdural space by orthostatic gradients and rapid changes in linear acceleration.

RESULTS

CSF pressure recordings taken from the cranial compartment were consistently, and significantly, larger than those taken from the spinal compartment. After the myodural bridge of was surgically released, the asymmetry in CSF pressure was decreased.

CONCLUSION

Unlike the situation in humans, the spinal compartment of has greater compliance than the cranial compartment, presumably due to the presence of the large spinal venous sinus surrounding the dura. The change in CSF pressures after myodural surgical release supports the hypothesis that the myodural bridge functions, at least in part, to modulate dural compliance and the exchange of CSF between the cranial and spinal compartments.

摘要

背景

硬脑膜顺应性影响脑脊液（CSF）搏动的形状和幅度。在人类中，颅骨顺应性约比脊髓顺应性大2倍；这种差异归因于相关的脉管系统。在短吻鳄中，脊髓被一个大的静脉窦包围，这表明脊髓腔可能比哺乳动物具有更高的顺应性。

方法

将压力导管通过手术植入8只亚成年美国短吻鳄的颅骨和脊髓硬膜下间隙（）。脑脊液通过体位性梯度和线性加速度的快速变化在硬膜下间隙中推进。

结果

从颅腔记录的脑脊液压力始终且显著大于从脊髓腔记录的压力。在手术切断[]的肌硬膜桥后，脑脊液压力的不对称性降低。

结论

与人类的情况不同，[]的脊髓腔比颅腔具有更大的顺应性，推测是由于围绕硬脑膜的大的脊髓静脉窦的存在。肌硬膜手术切断后脑脊液压力的变化支持了这样的假设，即肌硬膜桥至少部分地起到调节硬脑膜顺应性以及颅腔和脊髓腔之间脑脊液交换的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/50f2/10316229/fbca46bfc69e/SNI-14-187-g001.jpg

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脑脊液压力的动态不对称性：顺应性区域差异的一个指标。

Dynamic asymmetry in cerebrospinal fluid pressure: An indicator of regional differences in compliance.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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