Browsing by Subject "Late‐onset AD (LOAD)"

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    Dissociable spatial topography of neurodegeneration in Early‐onset and Late‐onset Alzheimer’s Disease: A head‐to‐head comparison of MRI‐derived atrophy measures between the LEADS and ADNI cohorts
    (Wiley, 2025-01-09) Katsumi, Yuta; Touroutoglou, Alexandra; Brickhouse, Michael; Eckbo, Ryan; La Joie, Renaud; Eloyan, Ani; Nudelman, Kelly N.; Foroud, Tatiana M.; Dage, Jeffrey L.; Carrillo, Maria C.; Rabinovici, Gil D.; Apostolova, Liana G.; Dickerson, Bradford C.; LEADS Consortium; Neurology, School of Medicine
    Background: Understanding how early‐onset Alzheimer’s disease (EOAD) differs from typical late‐onset AD (LOAD) is an important goal of AD research that may help increase the sensitivity of unique biomarkers for each phenotype. Building upon prior work based on small samples, here we leveraged two large, well‐characterized natural history study cohorts of AD patients (LEADS and ADNI3) to test the hypothesis that EOAD patients would show more prominent lateral and medial parietal and lateral temporal cortical atrophy sparing the medial temporal lobe (MTL), whereas LOAD patients would show prominent MTL atrophy. Method: We investigated differences in the spatial topography of cortical atrophy between EOAD and LOAD patients by analyzing structural MRI data collected from 211 patients with sporadic EOAD and 88 cognitively unimpaired (CU) participants from the LEADS cohort as well as 144 patients with LOAD and 365 CU participants from the ADNI3 cohort. MRI data were processed via FreeSurfer v6.0 to estimate cortical thickness for each participant. A direct comparison of cortical thickness was performed between EOAD and LOAD patients based on W‐scores (i.e., Z‐scores adjusted for age and sex relative to CU participants within each cohort) while controlling for MMSE total scores. All patients underwent amyloid PET with 18F‐Florbetaben or 18F‐Florbetapir and amyloid positivity was centrally determined by quantification‐supported visual read. Result: As expected, a direct comparison of cortical thickness between patients with EOAD and LOAD revealed a double dissociation between AD clinical phenotype and localization of cortical atrophy: EOAD patients showed greater atrophy in widespread cortical areas including the inferior parietal lobule (EOAD marginal mean W‐score ± SEM = ‐1.33±0.08 vs. LOAD = ‐0.52±0.09, p<.001, η2=.097), precuneus (‐1.66±0.09 vs. ‐0.59±0.10, p<.001, η2=.13), and caudal middle frontal gyrus (‐1.65±0.08 vs. ‐0.90±0.10, p<.001, η2=.074), whereas LOAD patients showed greater atrophy in the entorhinal/perirhinal cortex and temporal pole (‐1.00±0.09 vs. ‐1.41±0.11, p<.008, η2=.019). Conclusion: These findings demonstrate a clearly dissociable spatial pattern of neurodegeneration between EOAD and LOAD, supporting our previously developed LOAD and EOAD signatures of cortical atrophy, which underlies the distinct episodic memory and other cognitive characteristics of these AD clinical phenotypes.
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    Effects of APOE genotype on cortical atrophy in early onset Alzheimer’s disease
    (Wiley, 2025-01-09) Chan, Diane; Brickhouse, Michael; Zaitsev, Alexander; Wong, Bonnie; Hammers, Dustin B.; Dage, Jeffrey L.; Foroud, Tatiana M.; Eloyan, Ani; Nudelman, Kelly N.; Nemes, Sára; Carrillo, Maria C.; Rabinovici, Gil D.; Apostolova, Liana G.; Dickerson, Bradford C.; Touroutoglou, Alexandra; LEADS Consortium; Medical and Molecular Genetics, School of Medicine
    Background: APOE‐ɛ4 is a major risk factor for Alzheimer’s disease (AD); its effects have been examined in late‐onset AD (LOAD) but less so in early‐onset AD (EOAD). In LOAD, APOE genotype has strong effects on episodic memory and medial temporal lobe (MTL) atrophy (Wolk & Dickerson, 2010). However, EOAD often presents with more cognitive impairments in executive function, language, and visuospatial abilities than memory. These differences reflect more prominent atrophy in posterior lateral temporal and inferior parietal cortex that mainly constitute the EOAD‐signature of atrophy. Based on the cognitive and neuroanatomical profile of EOAD, we hypothesized that EOAD ɛ4 carriers will have relatively more atrophy in MTL regions subserving episodic memory, whereas non carriers would express more atrophy in cortical regions of the EOAD‐signature involved in executive function, language, and visuospatial abilities including inferior parietal and posterior temporal regions. We also expected worse performance on episodic memory tests in ɛ4 carriers with EOAD. Methods: We examined the effects of APOE genotype on cortical atrophy and episodic memory of 144 ɛ4 carriers and 117 ɛ4 non‐carriers with EOAD from the Longitudinal Early‐Onset Alzheimer’s Disease Study (LEADS). Between‐group comparisons using independent T‐tests were made for morphometric measures of cortical atrophy in MTL and hippocampus localized in LOAD as well as in cortical regions within our newly developed EOAD‐Signature tool (Touroutoglou et al., 2023). ANCOVA with Bonferonni’s correction was used to evaluate for effects of age on significant differences between groups. Results: As predicted, ɛ4 carriers with EOAD had more atrophy in the MTL and bilateral hippocampi, whereas non‐carriers had more atrophy in regions of the EOAD‐signature including bilateral caudal temporal, parietal lobule, middle frontal gyrus, mid temporal, posterior cingulate cortex, precuneus, superior frontal gyrus, superior parietal lobule. Post hoc vertex wise cortical maps further confirmed the specificity of the results. In addition, ɛ4 carriers had worse performance on episodic memory testing (AVLT delayed recall). These results were not explained by a difference in age between the groups. Conclusions: These results are consistent with prior work (Nemes et al. 2023) and support the hypothesis that the ɛ4 genotype modulates distinct neuroanatomic phenotypes of AD in EOAD patients.