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The relationship between resting-state amplitude fluctuations and memory-related deactivations of the default mode network in young and older adults.

Jasmin M KizilirmakJoram SochHartmut SchützeEmrah DüzelHannah FeldhoffLarissa FischerLea KnopfAnne MaassMatthias RaschickAnnika SchultRenat YakupovAnni RichterBjörn Hendrik Schott
Published in: Human brain mapping (2023)
The default mode network (DMN) typically exhibits deactivations during demanding tasks compared to periods of relative rest. In functional magnetic resonance imaging (fMRI) studies of episodic memory encoding, increased activity in DMN regions even predicts later forgetting in young healthy adults. This association is attenuated in older adults and, in some instances, increased DMN activity even predicts remembering rather than forgetting. It is yet unclear whether this phenomenon is due to a compensatory mechanism, such as self-referential or schema-dependent encoding, or whether it reflects overall reduced DMN activity modulation in older age. We approached this question by systematically comparing DMN activity during successful encoding and tonic, task-independent, DMN activity at rest in a sample of 106 young (18-35 years) and 111 older (60-80 years) healthy participants. Using voxel-wise multimodal analyses, we assessed the age-dependent relationship between DMN resting-state amplitude (mean percent amplitude of fluctuation, mPerAF) and DMN fMRI signals related to successful memory encoding, as well as their modulation by age-related hippocampal volume loss, while controlling for regional grey matter volume. Older adults showed lower resting-state DMN amplitudes and lower task-related deactivations. However, a negative relationship between resting-state mPerAF and subsequent memory effect within the precuneus was observed only in young, but not older adults. Hippocampal volumes showed no relationship with the DMN subsequent memory effect or mPerAF. Lastly, older adults with higher mPerAF in the DMN at rest tend to show higher memory performance, pointing towards the importance of a maintained ability to modulate DMN activity in old age.
Keyphrases
  • resting state
  • functional connectivity
  • physical activity
  • working memory
  • middle aged
  • magnetic resonance imaging
  • brain injury
  • subarachnoid hemorrhage
  • drug induced
  • network analysis
  • diffusion weighted imaging