Magnetic resonance elastography to study the effect of amyloid plaque accumulation in a mouse model

Background and Purpose Biomechanical changes in the brain have not been fully elucidated in Alzheimer's disease (AD). We aimed to investigate the effect of β‐amyloid accumulation on mouse brain viscoelasticity. Methods Magnetic resonance elastography was used to calculate magnitude of the visco...

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Bibliographic Details
Published in:Journal of neuroimaging 2022-07, Vol.32 (4), p.617-628
Main Authors: Palotai, Miklos, Schregel, Katharina, Nazari, Navid, Merchant, Julie P., Taylor, Walter M., Guttmann, Charles R. G., Sinkus, Ralph, Young‐Pearse, Tracy L., Patz, Samuel
Format: Article
Language:English
Subjects:
Accumulation
Age
Aging
Alzheimer Disease - diagnostic imaging
Alzheimer Disease - pathology
Alzheimer's disease
Animals
Biomechanics
Brain
brain parenchyma
Cross-Sectional Studies
Disease Models, Animal
Elasticity Imaging Techniques
Female
Females
Gadolinium
Hippocampus
J20 mice
Life Sciences
Magnetic resonance
magnetic resonance elastography
Male
Males
Mice
Mice, Inbred C57BL
Mice, Transgenic
MRE
Neurodegenerative diseases
Neuroimaging
Parenchyma
Plaque, Amyloid - diagnostic imaging
Plaque, Amyloid - pathology
Resonance
Rodents
Sex
Stiffening
Subgroups
Transgenic mice
Viscoelasticity
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Summary:Background and Purpose Biomechanical changes in the brain have not been fully elucidated in Alzheimer's disease (AD). We aimed to investigate the effect of β‐amyloid accumulation on mouse brain viscoelasticity. Methods Magnetic resonance elastography was used to calculate magnitude of the viscoelastic modulus (|G*|), elasticity (Gd), and viscosity (Gl) in the whole brain parenchyma (WB) and bilateral hippocampi of 9 transgenic J20 (AD) mice (5 males/4 females) and 10 wild‐type (WT) C57BL/6 mice (5 males/5 females) at 11 and 14 months of age. Results Cross‐sectional analyses showed no significant difference between AD and WT mice at either timepoints. No sex‐specific differences were observed at 11 months of age, but AD females showed significantly higher hippocampal |G*| and Gl and WB |G*|, Gd, and Gl compared to both AD and WT males at 14 months of age. Similar trending differences were found between female AD and female WT animals but did not reach significance. Longitudinal analyses showed significant increases in hippocampal |G*|, Gd, and Gl, and significant decreases in WB |G*|, Gd, and Gl between 11 and 14 months in both AD and WT mice. Each subgroup showed significant increases in all hippocampal and significant decreases in all WB measures, with the exception of AD females, which showed no significant changes in WB |G*|, Gd, or Gl. Conclusion Aging had region‐specific effects on cerebral viscoelasticity, namely, WB softening and hippocampal stiffening. Amyloid plaque deposition may have sex‐specific effects, which require further scrutiny.
ISSN:1051-2284
1552-6569
DOI:10.1111/jon.12996