Literature DB >> 35037498

Coupling between cerebrovascular oscillations and CSF flow fluctuations during wakefulness: An fMRI study.

Ho-Ching Shawn Yang1, Ben Inglis2, Thomas M Talavage3, Vidhya Vijayakrishnan Nair1, Jinxia Fiona Yao1, Bradley Fitzgerald4, Amy J Schwichtenberg5, Yunjie Tong1.   

Abstract

It is commonly believed that cerebrospinal fluid (CSF) movement is facilitated by blood vessel wall movements (i.e., hemodynamic oscillations) in the brain. A coherent pattern of low frequency hemodynamic oscillations and CSF movement was recently found during non-rapid eye movement (NREM) sleep via functional MRI. This finding raises other fundamental questions: 1) the explanation of coupling between hemodynamic oscillations and CSF movement from fMRI signals; 2) the existence of the coupling during wakefulness; 3) the direction of CSF movement. In this resting state fMRI study, we proposed a mechanical model to explain the coupling between hemodynamics and CSF movement through the lens of fMRI. Time delays between CSF movement and global hemodynamics were calculated. The observed delays between hemodynamics and CSF movement match those predicted by the model. Moreover, by conducting separate fMRI scans of the brain and neck, we confirmed the low frequency CSF movement at the fourth ventricle is bidirectional. Our finding also demonstrates that CSF movement is facilitated by changes in cerebral blood volume mainly in the low frequency range, even when the individual is awake.

Entities:  

Keywords:  Cerebrospinal fluid; cerebral blood movement; cerebrovascular; functional MRI; hemodynamic

Mesh:

Year:  2022        PMID: 35037498      PMCID: PMC9125495          DOI: 10.1177/0271678X221074639

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.960


  63 in total

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2.  Human amyloid-beta synthesis and clearance rates as measured in cerebrospinal fluid in vivo.

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3.  Visualization of cerebrospinal fluid movement with spin labeling at MR imaging: preliminary results in normal and pathophysiologic conditions.

Authors:  Shinya Yamada; Mitsue Miyazaki; Hitoshi Kanazawa; Minako Higashi; Yukuo Morohoshi; Stefan Bluml; J Gordon McComb
Journal:  Radiology       Date:  2008-11       Impact factor: 11.105

4.  Extraction of the cardiac waveform from simultaneous multislice fMRI data using slice sorted averaging and a deep learning reconstruction filter.

Authors:  Serdar Aslan; Lia Hocke; Nicolette Schwarz; Blaise Frederick
Journal:  Neuroimage       Date:  2019-05-23       Impact factor: 6.556

5.  Vasomotion as a Driving Force for Paravascular Clearance in the Awake Mouse Brain.

Authors:  Susanne J van Veluw; Steven S Hou; Maria Calvo-Rodriguez; Michal Arbel-Ornath; Austin C Snyder; Matthew P Frosch; Steven M Greenberg; Brian J Bacskai
Journal:  Neuron       Date:  2019-12-03       Impact factor: 17.173

6.  Sensory and optogenetically driven single-vessel fMRI.

Authors:  Xin Yu; Yi He; Maosen Wang; Hellmut Merkle; Stephen J Dodd; Afonso C Silva; Alan P Koretsky
Journal:  Nat Methods       Date:  2016-02-08       Impact factor: 28.547

7.  The impact of neurovascular, blood-brain barrier, and glymphatic dysfunction in neurodegenerative and metabolic diseases.

Authors:  Molly Braun; Jeffrey J Iliff
Journal:  Int Rev Neurobiol       Date:  2020-07-14       Impact factor: 3.230

8.  Entrainment of Arteriole Vasomotor Fluctuations by Neural Activity Is a Basis of Blood-Oxygenation-Level-Dependent "Resting-State" Connectivity.

Authors:  Celine Mateo; Per M Knutsen; Philbert S Tsai; Andy Y Shih; David Kleinfeld
Journal:  Neuron       Date:  2017-10-26       Impact factor: 17.173

9.  Human brain motion and cerebrospinal fluid circulation demonstrated with MR velocity imaging.

Authors:  D A Feinberg; A S Mark
Journal:  Radiology       Date:  1987-06       Impact factor: 11.105

10.  Flow of cerebrospinal fluid is driven by arterial pulsations and is reduced in hypertension.

Authors:  Humberto Mestre; Jeffrey Tithof; Ting Du; Wei Song; Weiguo Peng; Amanda M Sweeney; Genaro Olveda; John H Thomas; Maiken Nedergaard; Douglas H Kelley
Journal:  Nat Commun       Date:  2018-11-19       Impact factor: 14.919
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  5 in total

1.  Ultra-slow fMRI fluctuations in the fourth ventricle as a marker of drowsiness.

Authors:  Javier Gonzalez-Castillo; Isabel S Fernandez; Daniel A Handwerker; Peter A Bandettini
Journal:  Neuroimage       Date:  2022-06-30       Impact factor: 7.400

2.  Cerebrovascular activity is a major factor in the cerebrospinal fluid flow dynamics.

Authors:  Yicun Wang; Peter van Gelderen; Jacco A de Zwart; Pinar S Özbay; Hendrik Mandelkow; Dante Picchioni; Jeff H Duyn
Journal:  Neuroimage       Date:  2022-06-08       Impact factor: 7.400

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Authors:  Jose De Andres; Salim Hayek; Christophe Perruchoud; Melinda M Lawrence; Miguel Angel Reina; Carmen De Andres-Serrano; Ruben Rubio-Haro; Mathew Hunt; Tony L Yaksh
Journal:  Front Pain Res (Lausanne)       Date:  2022-06-16

Review 4.  Cerebrospinal fluid dynamics along the optic nerve.

Authors:  Jinqiao Sheng; Qi Li; Tingting Liu; Xiaofei Wang
Journal:  Front Neurol       Date:  2022-08-15       Impact factor: 4.086

5.  Human CSF movement influenced by vascular low frequency oscillations and respiration.

Authors:  Vidhya Vijayakrishnan Nair; Brianna R Kish; Ben Inglis; Ho-Ching Shawn Yang; Adam M Wright; Yu-Chien Wu; Xiaopeng Zhou; Amy J Schwichtenberg; Yunjie Tong
Journal:  Front Physiol       Date:  2022-08-19       Impact factor: 4.755
  5 in total

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