PLoS ONE (Jan 2013)

Micro-MRI study of cerebral aging: ex vivo detection of hippocampal subfield reorganization, microhemorrhages and amyloid plaques in mouse lemur primates.

  • Anne Bertrand,
  • Adrien Pasquier,
  • Alexandra Petiet,
  • Christopher Wiggins,
  • Audrey Kraska,
  • Nelly Joseph-Mathurin,
  • Fabienne Aujard,
  • Nadine Mestre-Francés,
  • Marc Dhenain

DOI
https://doi.org/10.1371/journal.pone.0056593
Journal volume & issue
Vol. 8, no. 2
p. e56593

Abstract

Read online

Mouse lemurs are non-human primate models of cerebral aging and neurodegeneration. Much smaller than other primates, they recapitulate numerous features of human brain aging, including progressive cerebral atrophy and correlation between regional atrophy and cognitive impairments. Characterization of brain atrophy in mouse lemurs has been done by MRI measures of regional CSF volume and by MRI measures of regional atrophy. Here, we further characterize mouse lemur brain aging using ex vivo MR microscopy (31 µm in-plane resolution). First, we performed a non-biased, direct volumetric quantification of dentate gyrus and extended Ammon's horn. We show that both dentate gyrus and Ammon's horn undergo an age-related reorganization leading to a growth of the dentate gyrus and an atrophy of the Ammon's horn, even in the absence of global hippocampal atrophy. Second, on these first MR microscopic images of the mouse lemur brain, we depicted cortical and hippocampal hypointense spots. We demonstrated that their incidence increases with aging and that they correspond either to amyloid deposits or to cerebral microhemorrhages.