Please use this identifier to cite or link to this item: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1620
Title: Advanced structural brain aging in preclinical autosomal dominant Alzheimer disease
Authors: Millar, Peter R
Gordon, Brian A
Wisch, Julie K
Schultz, Stephanie A
Benzinger, Tammie LS
Cruchaga, Carlos
Hassenstab, Jason J
Ibanez, Laura
Karch, Celeste
Llibre Guerra, Jorge J
Morris, John C
Perrin, Richard J
Supnet Bell, Charlene
Xiong, Chengjie
Allegri, Ricardo F
Berman, Sarah B
Chhatwal, Jasmeer P
Chrem Mendez, Patricio A
Day, Gregory S
Hofmann, Anna
Ikeuchi, Takeshi
Jucker, Mathias
Lee, Jae-Hong
Levin, Johannes
Lopera, Francisco
Niimi, Yoshiki
Sánchez González, Victor Javier
Schofield, Peter R
Sosa Ortiz, Ana Luisa
Vöglein, Jonathan
Bateman, Randall J
Ances, Beau M
McDade, Eric M
Keywords: Brain aging
Alzheimer disease
Structural MRI
Machine learning
Issue Date: Dec-2023
Publisher: Springer Nature
Citation: Millar et al. (2023). Advanced structural brain aging in preclinical autosomal dominant Alzheimer disease. Molecular Neurodegeneration 18:98. DOI: https://doi.org/10.1186/s13024-023-00688-3
Series/Report no.: Molecular Neurodegeneration;Volume 18, article number 98
Abstract: Background “Brain-predicted age” estimates biological age from complex, nonlinear features in neuroimaging scans. The brain age gap (BAG) between predicted and chronological age is elevated in sporadic Alzheimer disease (AD), but is underexplored in autosomal dominant AD (ADAD), in which AD progression is highly predictable with minimal confounding age-related co-pathology. Methods We modeled BAG in 257 deeply-phenotyped ADAD mutation-carriers and 179 non-carriers from the Dominantly Inherited Alzheimer Network using minimally-processed structural MRI scans. We then tested whether BAG differed as a function of mutation and cognitive status, or estimated years until symptom onset, and whether it was associated with established markers of amyloid (PiB PET, CSF amyloid-β-42/40), phosphorylated tau (CSF and plasma pTau-181), neurodegeneration (CSF and plasma neurofilament-light-chain [NfL]), and cognition (global neuropsychological composite and CDR-sum of boxes). We compared BAG to other MRI measures, and examined heterogeneity in BAG as a function of ADAD mutation variants, APOE ε4 carrier status, sex, and education. Results Advanced brain aging was observed in mutation-carriers approximately 7 years before expected symptom onset, in line with other established structural indicators of atrophy. BAG was moderately associated with amyloid PET and strongly associated with pTau-181, NfL, and cognition in mutation-carriers. Mutation variants, sex, and years of education contributed to variability in BAG. Conclusions We extend prior work using BAG from sporadic AD to ADAD, noting consistent results. BAG associates well with markers of pTau, neurodegeneration, and cognition, but to a lesser extent, amyloid, in ADAD. BAG may capture similar signal to established MRI measures. However, BAG offers unique benefits in simplicity of data processing and interpretation. Thus, results in this unique ADAD cohort with few age-related confounds suggest that brain aging attributable to AD neuropathology can be accurately quantified from minimally-processed MRI.
Description: Artículo
URI: http://repositorio.cualtos.udg.mx:8080/jspui/handle/123456789/1620
ISSN: 1750-1326
Appears in Collections:3209 Artículos



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