Memory consolidation, temporal and parietal atrophy, and metabolism in amyloid-β positive and negative mild cognitive impairment
Cierra M Keith, Marc W Haut, Camila Vieira Ligo Teixeira, Rashi I. Mehta, Holly Phelps, Melanie Ward, Mark Miller, R Osvaldo Navia, Michelle M Coleman, Gary Marano, Xiaofei Wang, Stephanie Pockl, Nafiisah Rajabalee, David M Scarisbrick, William T McCuddy, Pierre-François D’Haese, Ali Rezai, Kirk WilhelmsenBackground
Alzheimer's disease (AD) is classically characterized by alterations in memory consolidation. With the advent of diagnostic biomarkers, some patients clinically diagnosed with AD display biomarkers inconsistent with the diagnosis.
Objective
We aimed to explore differences in memory consolidation and neurodegeneration of the temporal and parietal lobes as a function of amyloid-β status in amnestic mild cognitive impairment (aMCI).
Methods
We examined differences in memory consolidation and neurodegeneration between patients diagnosed with amyloid-β positive aMCI (Aβ+ N = 78), amyloid-β negative aMCI (Aβ− N = 48), and healthy participants (HP; N = 41), within a well-characterized clinical cohort.
Results
Aβ+ exhibited more pronounced consolidation impairments compared to Aβ−, while Aβ− faced more consolidation challenges than HP. Both Aβ+ and Aβ− were similar in hippocampal volume and entorhinal thickness, but Aβ+ had thinner inferior parietal cortex than Aβ−. Using 18F-fluoro-deoxyglucose-positron emission tomography, metabolism in both temporal and parietal regions was lower in Aβ+ relative to Aβ−.
Conclusions
These findings suggest pathologies other than AD likely contribute to memory consolidation difficulties in aMCI, and neurodegeneration of the parietal cortex in combination with hypometabolism may contribute to more pronounced consolidation problems in Aβ+.