# Distinct Sensitivity of MRI Versus [18F]FDG‐PET To Detect Cerebral Changes Across the Alzheimer's Continuum in Down Syndrome: A Multimodal Imaging Study

**Authors:** José Enrique Arriola‐Infante, Alejandra O. Morcillo‐Nieto, Maria Franquesa‐Mullerat, Sara E Zsadanyi, Lídia Vaqué‐Alcázar, Mateus Rozalem Aranha, José Allende Parra, Zili Zhao, Javier Arranz, Íñigo Rodríguez‐Baz, Lucía Maure‐Blesa, Laura Videla, Isabel Barroeta, Laura Del Hoyo, Bessy Benejam, Susana Fernandez, Aida Sanjuan Hernandez, Sandra Giménez, Daniel Alcolea, Olivia Belbin, Albert Flotats, Valle Camacho, Alberto Lleó, Maria Carmona‐Iragui, Juan Fortea, Alexandre Bejanin

PMC · DOI: 10.1002/alz70856_107114 · Alzheimer's & Dementia · 2026-01-11

## TL;DR

This study compares MRI and PET scans in detecting early brain changes in Alzheimer's disease among people with Down syndrome.

## Contribution

The study reveals that MRI is more sensitive than PET in detecting cerebral changes in Alzheimer's stages in Down syndrome.

## Key findings

- MRI shows greater sensitivity than [18F]FDG-PET in detecting brain volume changes in Alzheimer's stages in Down syndrome.
- Amyloid pathology in asymptomatic Down syndrome is linked to frontal lobe atrophy without significant hypometabolism.
- Symptomatic stages show widespread atrophy and hypometabolism, with MRI detecting more pronounced changes.

## Abstract

To date, limited evidence exists on the different sensitivity of MRI versus [18F]FDG‐PET to detect early cerebral changes along the Alzheimer's disease (AD) continuum in Down syndrome (DS). Therefore, we aimed to characterize volume and metabolism alterations in adults with DS and compare their performance in detecting AD clinical stages.

Cross‐sectional study, including 92 adults with DS from the Down‐Alzheimer Barcelona Neuroimaging Initiative (34 asymptomatic without amyloid pathology [aDS A−], 20 asymptomatic with amyloid pathology [aDS A+], 12 with prodromal AD [pDS], and 26 with AD dementia [dDS]; Table 1), who underwent 3T‐MRI and [18F]FDG‐PET. Amyloid status in the aDS group was determined using amyloid‐PET (>20 centiloids, n = 29) or CSF Aβ42/Aβ40 ratio (<0.062, Lumipulse, n = 25). Brain volume and metabolism values were extracted using the Hammers atlas, normalizing MRI volumes by total intracranial volume and PET images using the pons as reference region. We calculated standardized‐β coefficients, adjusted for sex and scanner, to assess the effectiveness of MRI and PET scans in identifying stages of AD (aDS A− vs. aDS A+; aDS vs. symptomatic DS [sDS=pDS + dDS]).

Progressive brain volume loss and metabolic decline were observed along the AD continuum in DS. Compared to aDS A−, aDS A+ exhibited lower volume in multiple regions, particularly in the frontal lobe. sDS individuals showed widespread atrophy, predominantly in temporal areas (Figure 1). In contrast, no significant hypometabolism was detected in aDS A+ compared to aDS A−, but sDS individuals exhibited global hypometabolism, primarily in temporo‐parietal regions (Figure 2).

Amyloid pathology in aDS individuals is linked to frontal‐predominant atrophy without clear hypometabolism. In symptomatic stages, both MRI and [18F]FDG‐PET revealed widespread involvement, with atrophy predominating in temporal regions and hypometabolism in temporo‐parietal areas. Unlike in sporadic AD, no brain region showed greater hypometabolism than atrophy, suggesting alternative contributing factors in the general population. Our findings also suggest that MRI outperforms [18F]FDG‐PET in identifying brain changes associated with AD clinical stages in DS, which has implications for early diagnosis and clinical trials.

## Linked entities

- **Chemicals:** [18F]FDG (PubChem CID 68614)
- **Diseases:** Alzheimer's disease (MONDO:0004975), Down syndrome (MONDO:0008608)

## Figures

3 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12790846/full.md

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Source: https://tomesphere.com/paper/PMC12790846