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The Effect of Body Posture on Brain Glymphatic Transport

The Journal of neuroscience, 2015-08, Vol.35 (31), p.11034-11044 [Peer Reviewed Journal]

Copyright © 2015 the authors 0270-6474/15/3511034-11$15.00/0. ;Copyright © 2015 the authors 0270-6474/15/3511034-11$15.00/0 2015 ;ISSN: 0270-6474 ;EISSN: 1529-2401 ;DOI: 10.1523/jneurosci.1625-15.2015 ;PMID: 26245965

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  • Title:
    The Effect of Body Posture on Brain Glymphatic Transport
  • Author: Lee, Hedok ; Xie, Lulu ; Yu, Mei ; Kang, Hongyi ; Feng, Tian ; Deane, Rashid ; Logan, Jean ; Nedergaard, Maiken ; Benveniste, Helene
  • Subjects: Amyloid beta-Peptides - metabolism ; Animals ; Biological Transport ; Brain - metabolism ; Cerebrospinal Fluid - metabolism ; Female ; Magnetic Resonance Imaging ; Mice ; Posture - physiology ; Rats ; Rats, Sprague-Dawley
  • Is Part Of: The Journal of neuroscience, 2015-08, Vol.35 (31), p.11034-11044
  • Description: The glymphatic pathway expedites clearance of waste, including soluble amyloid β (Aβ) from the brain. Transport through this pathway is controlled by the brain's arousal level because, during sleep or anesthesia, the brain's interstitial space volume expands (compared with wakefulness), resulting in faster waste removal. Humans, as well as animals, exhibit different body postures during sleep, which may also affect waste removal. Therefore, not only the level of consciousness, but also body posture, might affect CSF-interstitial fluid (ISF) exchange efficiency. We used dynamic-contrast-enhanced MRI and kinetic modeling to quantify CSF-ISF exchange rates in anesthetized rodents' brains in supine, prone, or lateral positions. To validate the MRI data and to assess specifically the influence of body posture on clearance of Aβ, we used fluorescence microscopy and radioactive tracers, respectively. The analysis showed that glymphatic transport was most efficient in the lateral position compared with the supine or prone positions. In the prone position, in which the rat's head was in the most upright position (mimicking posture during the awake state), transport was characterized by "retention" of the tracer, slower clearance, and more CSF efflux along larger caliber cervical vessels. The optical imaging and radiotracer studies confirmed that glymphatic transport and Aβ clearance were superior in the lateral and supine positions. We propose that the most popular sleep posture (lateral) has evolved to optimize waste removal during sleep and that posture must be considered in diagnostic imaging procedures developed in the future to assess CSF-ISF transport in humans. The rodent brain removes waste better during sleep or anesthesia compared with the awake state. Animals exhibit different body posture during the awake and sleep states, which might affect the brain's waste removal efficiency. We investigated the influence of body posture on brainwide transport of inert tracers of anesthetized rodents. The major finding of our study was that waste, including Aβ, removal was most efficient in the lateral position (compared with the prone position), which mimics the natural resting/sleeping position of rodents. Although our finding awaits testing in humans, we speculate that the lateral position during sleep has advantage with regard to the removal of waste products including Aβ, because clinical studies have shown that sleep drives Aβ clearance from the brain.
  • Publisher: United States: Society for Neuroscience
  • Language: English
  • Identifier: ISSN: 0270-6474
    EISSN: 1529-2401
    DOI: 10.1523/jneurosci.1625-15.2015
    PMID: 26245965
  • Source: GFMER Free Medical Journals
    MEDLINE
    PubMed Central
    Alma/SFX Local Collection
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