Representation of task goals is a critical component of episodic memory retrieval, and yet little is known about the neural coding of mnemonic goals and their potential modulation by attentional preparedness in the context of remembering at the trial level in young adults or in older adults. This topic is particularly important to address in the context of aging because older adulthood is characterized by changes in control and attention that have the potential to affect neural coding of goals and attentional preparedness during retrieval. These components are underexplored in cognitive neuroscience research even though they are key predictors of age-related daily functioning and neurological decline. Motivated by theories of cognitive aging and extant data on shifts in control strategies, fluctuations in dynamic attention, and dedifferentiation of task states in frontoparietal brain networks at the trial level as a function of age, the proposed research program will leverage multivariate decoding analyses and concurrent task-based electroencephalography-functional magnetic resonance imaging (EEG-fMRI) in two experiments using sensitive source memory tasks to address fundamental and as yet unresolved questions regarding age-related changes in goal representations, attentional preparedness, and brain computations and EEG oscillations that underlie these processes during memory retrieval. Each experiment will integrate within- and between-age analytics so that older adult data are not entirely dependent on young adult data.
Aim 1 will delineate how hierarchical domain-general and domain-specific goal representations are computed in frontoparietal networks and relate to medial temporal lobe (MTL) mechanisms of remembering and behaviors (e.g., retrieval success in terms of hits vs. correct rejections) by implementing an experimental manipulation of mnemonic goal processing, and multivariate decoding analyses, in younger and older adults. This experiment will optimize the design and power of Aim 2, though the methods and findings of each aim can function separately. By indexing attentional preparedness via variations in EEG pre- trial alpha and peri-trial theta power, Aim 2 will specify how an experimental manipulation that modulates attentional preparedness before a goal is processed relates to univariate blood oxygen level-dependent (BOLD) signal in frontoparietal networks, multivariate decoding of goal and retrieval success representations, and behaviors in young and older adults.
The aims have the potential to uncover new insights into how age- related changes in neural coding of goals and attentional preparedness affect retrieval. The experiments will leverage sophisticated empirical tools to advance new knowledge that has implications for scientific scholarship and public health. The scope of the investigation on goal processing, attention, and memory, and their interaction, will (a) advance scientific knowledge related to theories and critically underexplored topics in the cognitive neuroscience of aging and memory, and (b) better public health in terms of characterizing age- related changes in neurocognitive processes that affect cognition and behavior in everyday life.

Public Health Relevance

Little is known about the neural representations of mnemonic goals during episodic retrieval, and how they may be modulated by attentional preparedness and interact with medial temporal lobe mechanisms to affect remembering at the trial level in young adults or in older adults, and yet these are critical components of cognition, particularly in older adulthood, that predict daily functioning and neurological issues and that have the potential to impact goal processing, attentional lapses, and age-related memory decline. Sensitive memory paradigms and rigorous methodological techniques ? including multivariate decoding and multi-modal imaging ? will be leveraged to address fundamental and as yet unresolved questions about the hierarchical neural coding of goals and their modulation by attentional preparedness during episodic retrieval in young and older adults, an area of examination particularly motivated by theories of cognitive aging and extant data on shifts in control strategies, fluctuations in dynamic preparedness, and frontoparietal dedifferentiation of task states at the trial level linked to preparatory attention and goal maintenance as a function of age. The proposed research program will advance scientific knowledge of neurocognitive processes and brain network interactions during retrieval by examining both within- and between-age effects, and provide new insights into age-related changes in goal processing, attention, memory, and their interaction that may better public health, cognition, and behavior in everyday life.

Agency
National Institute of Health (NIH)
Institute
National Institute on Aging (NIA)
Type
Postdoctoral Individual National Research Service Award (F32)
Project #
1F32AG059341-01A1
Application #
9608303
Study Section
Special Emphasis Panel (ZRG1)
Program Officer
Wagster, Molly V
Project Start
2018-08-01
Project End
2021-07-31
Budget Start
2018-08-01
Budget End
2019-07-31
Support Year
1
Fiscal Year
2018
Total Cost
Indirect Cost
Name
Stanford University
Department
Psychology
Type
Schools of Arts and Sciences
DUNS #
009214214
City
Stanford
State
CA
Country
United States
Zip Code
94304
Madore, Kevin P; Jing, Helen G; Schacter, Daniel L (2018) Episodic specificity induction and scene construction: Evidence for an event construction account. Conscious Cogn 68:1-11