TY - JOUR
T1 - Assessing brain involvement in Fabry disease with deep learning and the brain-age paradigm
AU - Montella, Alfredo
AU - Tranfa, Mario
AU - Scaravilli, Alessandra
AU - Barkhof, Frederik
AU - Brunetti, Arturo
AU - Cole, James
AU - Gravina, Michela
AU - Marrone, Stefano
AU - Riccio, Daniele
AU - Riccio, Eleonora
AU - Sansone, Carlo
AU - Spinelli, Letizia
AU - Petracca, Maria
AU - Pisani, Antonio
AU - Cocozza, Sirio
AU - Pontillo, Giuseppe
N1 - Publisher Copyright: © 2024 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.
PY - 2024/4/1
Y1 - 2024/4/1
N2 - While neurological manifestations are core features of Fabry disease (FD), quantitative neuroimaging biomarkers allowing to measure brain involvement are lacking. We used deep learning and the brain-age paradigm to assess whether FD patients' brains appear older than normal and to validate brain-predicted age difference (brain-PAD) as a possible disease severity biomarker. MRI scans of FD patients and healthy controls (HCs) from a single Institution were, retrospectively, studied. The Fabry stabilization index (FASTEX) was recorded as a measure of disease severity. Using minimally preprocessed 3D T1-weighted brain scans of healthy subjects from eight publicly available sources (N = 2160; mean age = 33 years [range 4–86]), we trained a model predicting chronological age based on a DenseNet architecture and used it to generate brain-age predictions in the internal cohort. Within a linear modeling framework, brain-PAD was tested for age/sex-adjusted associations with diagnostic group (FD vs. HC), FASTEX score, and both global and voxel-level neuroimaging measures. We studied 52 FD patients (40.6 ± 12.6 years; 28F) and 58 HC (38.4 ± 13.4 years; 28F). The brain-age model achieved accurate out-of-sample performance (mean absolute error = 4.01 years, R2 =.90). FD patients had significantly higher brain-PAD than HC (estimated marginal means: 3.1 vs. −0.1, p =.01). Brain-PAD was associated with FASTEX score (B = 0.10, p =.02), brain parenchymal fraction (B = −153.50, p =.001), white matter hyperintensities load (B = 0.85, p =.01), and tissue volume reduction throughout the brain. We demonstrated that FD patients' brains appear older than normal. Brain-PAD correlates with FD-related multi-organ damage and is influenced by both global brain volume and white matter hyperintensities, offering a comprehensive biomarker of (neurological) disease severity.
AB - While neurological manifestations are core features of Fabry disease (FD), quantitative neuroimaging biomarkers allowing to measure brain involvement are lacking. We used deep learning and the brain-age paradigm to assess whether FD patients' brains appear older than normal and to validate brain-predicted age difference (brain-PAD) as a possible disease severity biomarker. MRI scans of FD patients and healthy controls (HCs) from a single Institution were, retrospectively, studied. The Fabry stabilization index (FASTEX) was recorded as a measure of disease severity. Using minimally preprocessed 3D T1-weighted brain scans of healthy subjects from eight publicly available sources (N = 2160; mean age = 33 years [range 4–86]), we trained a model predicting chronological age based on a DenseNet architecture and used it to generate brain-age predictions in the internal cohort. Within a linear modeling framework, brain-PAD was tested for age/sex-adjusted associations with diagnostic group (FD vs. HC), FASTEX score, and both global and voxel-level neuroimaging measures. We studied 52 FD patients (40.6 ± 12.6 years; 28F) and 58 HC (38.4 ± 13.4 years; 28F). The brain-age model achieved accurate out-of-sample performance (mean absolute error = 4.01 years, R2 =.90). FD patients had significantly higher brain-PAD than HC (estimated marginal means: 3.1 vs. −0.1, p =.01). Brain-PAD was associated with FASTEX score (B = 0.10, p =.02), brain parenchymal fraction (B = −153.50, p =.001), white matter hyperintensities load (B = 0.85, p =.01), and tissue volume reduction throughout the brain. We demonstrated that FD patients' brains appear older than normal. Brain-PAD correlates with FD-related multi-organ damage and is influenced by both global brain volume and white matter hyperintensities, offering a comprehensive biomarker of (neurological) disease severity.
KW - Fabry disease
KW - brain-age
KW - deep learning
KW - neuroimaging biomarkers
KW - quantitative imaging
UR - http://www.scopus.com/inward/record.url?scp=85188551983&partnerID=8YFLogxK
U2 - 10.1002/hbm.26599
DO - 10.1002/hbm.26599
M3 - Article
C2 - 38520360
SN - 1065-9471
VL - 45
JO - Human brain mapping
JF - Human brain mapping
IS - 5
M1 - e26599
ER -