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Child's Nervous System
Published in: Child's Nervous System 9/2018

01-09-2018 | Multimedia Article

A new MRI tag-based method to non-invasively visualize cerebrospinal fluid flow

Authors: Matthew Borzage, Skorn Ponrartana, Benita Tamrazi, Wende Gibbs, Marvin D. Nelson, J. Gordon McComb, Stefan Blüml

Published in: Child's Nervous System | Issue 9/2018

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Abstract

Purpose

Abnormal cerebrospinal fluid (CSF) dynamics can produce a number of significant clinical problems to include hydrocephalus, loculated areas within the ventricles or subarachnoid spaces as well as impairment of normal CSF movement between the cranial and spinal compartments that can result in a cerebellar ectopia and hydrosyringomyelia. Thus, assessing the patency of fluid flow between adjacent CSF compartments non-invasively by magnetic resonance imaging (MRI) has definite clinical value. Our objective was to demonstrate that a novel tag-based CSF imaging methodology offers improved contrast when compared with a commercially available application.

Methods

In a prospective study, ten normal healthy adult subjects were examined on 3T magnets with time-spatial labeling inversion pulse (Time-SLIP) and a new tag-based flow technique—time static tagging and mono-contrast preservation (Time-STAMP). The image contrast was calculated for dark-untagged CSF and bright-flowing CSF. We tested the results with the D’Agostino and Pearson normality test and Friedman’s test with Dunn’s multiple comparison correction for significance. Separately 96 pediatric patients were evaluated using the Time-STAMP method.

Results

In healthy adults, contrasts were consistently higher with Time-STAMP than Time-SLIP (p < 0.0001, in all ROI comparisons). The contrast between untagged CSF and flowing tagged CSF improved by 15 to 34%. In both healthy adults and pediatric patients, CSF flow between adjacent fluid compartments was demonstrated.

Conclusions

Time-STAMP provided images with higher contrast than Time-SLIP, without diminishing the ability to visualize qualitative CSF movement and between adjacent fluid compartments.
Appendix
Available only for authorised users
Literature
1.
Bradley WG, Kortman KE, Burgoyne B (1986) Flowing cerebrospinal fluid in normal and hydrocephalic states: appearance on MR images. Radiology 159:611–616CrossRefPubMed
2.
Bradley WG, Whittemore AR, Kortman KE, Watanabe AS, Homyak M, Teresi LM et al (1991) Marked cerebrospinal fluid void: indicator of successful shunt in patients with suspected normal-pressure hydrocephalus. Radiology 178:459–466CrossRefPubMed
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Sharma AK, Gaikwad S, Gupta V, Garg A, Mishra NK (2008) Measurement of peak CSF flow velocity at cerebral aqueduct, before and after lumbar CSF drainage, by use of phase-contrast MRI: utility in the management of idiopathic normal pressure hydrocephalus. Clin Neurol Neurosurg 110:363–368CrossRefPubMed
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Yamada S, Tsuchiya K, Bradley WG, Law M, Winkler ML, Borzage MT et al (2014) Current and emerging MR imaging techniques for the diagnosis and management of CSF flow disorders: a review of phase-contrast and time-spatial labeling inversion pulse. Am J Neuroradiol 36(4):623–30. https://​doi.​org/​10.​3174/​ajnr.​A4030
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Yamada S, Miyazaki M, Kanazawa H, Higashi M, Morohoshi Y, Bluml S, McComb JG (2008) Visualization of cerebrospinal fluid movement with spin labeling at MR imaging: preliminary results in normal and pathophysiologic conditions. Radiology 249:644–652CrossRefPubMed
Metadata
Title
A new MRI tag-based method to non-invasively visualize cerebrospinal fluid flow
Authors
Matthew Borzage
Skorn Ponrartana
Benita Tamrazi
Wende Gibbs
Marvin D. Nelson
J. Gordon McComb
Stefan Blüml
Publication date
01-09-2018
Publisher
Springer Berlin Heidelberg
Published in
Child's Nervous System / Issue 9/2018
Print ISSN: 0256-7040
Electronic ISSN: 1433-0350
DOI
https://doi.org/10.1007/s00381-018-3845-3

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