慢性脑积水时顶点处脑脊液吸收受阻：蛛网膜颗粒阻塞还是静脉压升高？

Cerebrospinal fluid absorption block at the vertex in chronic hydrocephalus: obstructed arachnoid granulations or elevated venous pressure?

作者信息

Bateman Grant A, Siddique Sabbir H

机构信息

Department of Medical Imaging, John Hunter Hospital, Locked Bag 1, Newcastle Region Mail Center, Newcastle 2310, Australia ; Newcastle University Faculty of Health, Callaghan Campus, Newcastle, Australia.

出版信息

Fluids Barriers CNS. 2014 May 23;11:11. doi: 10.1186/2045-8118-11-11. eCollection 2014.

DOI:10.1186/2045-8118-11-11

PMID:24955236

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4045963/

Abstract

BACKGROUND

The lack of absorption of CSF at the vertex in chronic hydrocephalus has been ascribed to an elevation in the arachnoid granulation outflow resistance (Rout). The CSF infusion studies measuring Rout are dependent on venous sinus pressure but little is known about the changes in pressure which occur throughout life or with the development of hydrocephalus.

METHODS

Twenty patients with chronic hydrocephalus underwent MR venography and MR flow quantification techniques. The venous outflow pressure was estimated from the sinus blood flow and the cross-sectional area of the transverse sinuses. Adult controls as well as a normal young cohort were selected to estimate the change in sinus pressure which occurs throughout life and following the development of hydrocephalus. Significance was tested with a Student's t-test.

RESULTS

The size of the transverse sinuses was unchanged from the 1(st) to the 5(th) decade of life, indicating a stable outflow resistance. However, the blood flow was reduced by 42%, indicating a likely similar reduction in pressure gradient across the sinuses. The sinuses of hydrocephalus patients were 38% smaller than matched controls, indicating a 2.5 times increase in resistance. Despite the 24% reduction in blood flow, a significant increase in sinus pressure is suggested.

CONCLUSIONS

The size of the venous sinuses normally does not change over the age range investigated but sinus pressure is reduced proportional to an age-related blood flow reduction. Hydrocephalus is associated with much smaller sinuses than normal and an elevation in venous pressure may explain the lack of CSF absorption into the arachnoid granulations in chronic hydrocephalus.

摘要

背景

慢性脑积水患者脑脊液在顶点处吸收缺乏被归因于蛛网膜颗粒流出阻力（Rout）升高。测量Rout的脑脊液灌注研究依赖于静脉窦压力，但对于一生中或脑积水发展过程中发生的压力变化知之甚少。

方法

20例慢性脑积水患者接受了磁共振静脉造影和磁共振血流定量技术检查。根据窦血流和横窦横截面积估算静脉流出压力。选择成年对照组以及正常年轻队列来估算一生中及脑积水发展后窦压力的变化。采用学生t检验进行显著性检验。

结果

从生命的第1个十年到第5个十年，横窦大小无变化，表明流出阻力稳定。然而，血流减少了42%，表明横跨窦的压力梯度可能有类似程度的降低。脑积水患者的窦比匹配对照组小38%，表明阻力增加了2.5倍。尽管血流减少了24%，但提示窦压力显著升高。

结论

在所研究的年龄范围内，静脉窦大小通常无变化，但窦压力与年龄相关的血流减少成比例降低。脑积水与比正常情况小得多的窦相关，静脉压力升高可能解释了慢性脑积水患者脑脊液无法吸收进入蛛网膜颗粒的原因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/beff/4045963/841cda2e63ed/2045-8118-11-11-1.jpg

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慢性脑积水时顶点处脑脊液吸收受阻：蛛网膜颗粒阻塞还是静脉压升高？

Cerebrospinal fluid absorption block at the vertex in chronic hydrocephalus: obstructed arachnoid granulations or elevated venous pressure?

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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