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Annals of neurology
Nov, 2008;64 (5): 535-46.

Delayed neural network degeneration after neonatal hypoxia-ischemia.

Brian S Stone, Jiangyang Zhang, Devin W Mack, Susumu Mori, Lee J Martin, Frances J Northington
Author Information
  1. Brian S Stone: Department of Pediatrics, Eudowood Neonatal Pulmonary Division, Neonatal Research Laboratory, Johns Hopkins University School of Medicine, Baltimore, MD 21287, USA.
PMID: 19067347 DOI: 10.1002/ana.21517

Abstract

OBJECTIVE: Clinical magnetic resonance studies show delayed and ongoing neurodegeneration after neonatal hypoxia-ischemia (HI), but the mechanisms and timing of this neurodegeneration remain unclear. We used ex vivo diffusion tensor imaging (DTI) and brain neuropathology to determine whether selective injury to white matter tracts occurs after neonatal HI in mice resulting in neural system-associated attrition in remote regions and at delayed times.
METHODS: The Rice-Vannucci model (unilateral carotid ligation + 45 minutes of hypoxia FiO(2) = 0.08) was used to cause brain injury in postnatal day 7 (p7) C57BL6 mice, and ex vivo DTI and correlative neuropathology were performed at p8, p11, p15, p21, p28, and p42.
RESULTS: DTI provides excellent contrast visualization of unmyelinated white matter in the immature mouse brain. Severe ipsilateral injury to the hippocampus is seen with both histopathology and diffusion-weighted magnetic resonance imaging 24 hours after injury. Injury to axons is evident 24 hours after HI in the hippocampal alveus. By p11 and continuing until p28, the ipsilateral fimbria fornix degenerates. At p15, there is injury and loss of axons entering the ipsilateral septal nucleus followed by ipsilateral septal atrophy. Volume loss in the hippocampus is rapid and severe, but is subacute and significantly slower in the ipsilateral septum. Neonatal HI also interrupts the normal developmental increase in fractional anisotropy in the ipsilateral fimbria but not in the contralateral fimbria from p8 to p42.
INTERPRETATION: In neonatal brain, there is progressive systems-preferential injury after HI. DTI allows unparalleled visualization of this neural network-associated attrition so that it can be followed longitudinally in developing brain.

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Grants

  1. NS 45059/NINDS NIH HHS
  2. R01 EB003543/NIBIB NIH HHS
  3. R01 AG016282-08/NIA NIH HHS
  4. AG16282/NIA NIH HHS
  5. R21 NS059529/NINDS NIH HHS
  6. AG 20012/NIA NIH HHS
  7. R01 NS045059/NINDS NIH HHS
  8. R01 AG016282/NIA NIH HHS
  9. R01 ES012665/NIEHS NIH HHS
  10. ES 012665/NIEHS NIH HHS
  11. R01 AG020012/NIA NIH HHS
  12. EB 003543/NIBIB NIH HHS
  13. NS 059529/NINDS NIH HHS

MeSH Term

Animals
Animals, Newborn
Anisotropy
Brain
Brain Mapping
Diffusion Magnetic Resonance Imaging
Disease Models, Animal
Disease Progression
Fornix, Brain
Hippocampus
Hypoxia-Ischemia, Brain
Mice
Mice, Inbred C57BL
Nerve Fibers, Myelinated
Nerve Net
Neural Pathways
Septal Nuclei
Time Factors
Wallerian Degeneration
Journal Article Research Support, N.I.H., Extramural Research Support, Non-U.S. Gov't
Article has an altmetric score of 3

Word Cloud

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