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14. Place-Framing for Wider Distribution

Author

Grady Clay

Subjects
Philology. Linguistics, P1-1091
Abstract

Abstract Extracting a new order from geographic experience calls for a jump from specifics to the generic, over-leaping the bottomless pit of specifics. It extracts commonalities; it forms generic conclusions; it is a process of abstraction, a human invention: naming.

Published
1993
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15. A Few Good Words for Generic Places: Especially Those Here Today, Gone Tomorrow

Author

Grady Clay

Subjects
Philology. Linguistics, P1-1091
Abstract

Abstract Names of generic places are reliable indicators of the functions of those places even though they may be ephemeral and may be vaguely defined. These places have a variety of functions and bear such names as Pioneer Settlement, Disaster Site, Auction Yard, Boom Town, Borrow Pit, and Annexation Area. Certain ephemeral placenames are exemplary of the process of generic naming, such as Abandoned Area and Black Neighborhood Auto Repair Street.

Published
1989
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16. A neural mechanism of cognitive reserve: The case of bilingualism.

Author

Stevens WD, Khan N, Anderson JAE, Grady CL, and Bialystok E

Subjects
Humans, Aged, Neuropsychological Tests, Brain diagnostic imaging, Language, Multilingualism, Cognitive Reserve
Abstract

Cognitive Reserve (CR) refers to the preservation of cognitive function in the face of age- or disease-related neuroanatomical decline. While bilingualism has been shown to contribute to CR, the extent to which, and what particular aspect of, second language experience contributes to CR are debated, and the underlying neural mechanism(s) unknown. Intrinsic functional connectivity reflects experience-dependent neuroplasticity that occurs across timescales ranging from minutes to decades, and may be a neural mechanism underlying CR. To test this hypothesis, we used voxel-based morphometry and resting-state functional connectivity analyses of MRI data to compare structural and functional brain integrity between monolingual and bilingual older adults, matched on cognitive performance, and across levels of second language proficiency measured as a continuous variable. Bilingualism, and degree of second language proficiency specifically, were associated with lower gray matter integrity in a hub of the default mode network - a region that is particularly vulnerable to decline in aging and dementia - but preserved intrinsic functional network organization. Bilingualism moderated the association between neuroanatomical differences and cognitive decline, such that lower gray matter integrity was associated with lower executive function in monolinguals, but not bilinguals. Intrinsic functional network integrity predicted executive function when controlling for group differences in gray matter integrity and language status. Our findings confirm that lifelong bilingualism is a CR factor, as bilingual older adults performed just as well as their monolingual peers on tasks of executive function, despite showing signs of more advanced neuroanatomical aging, and that this is a consequence of preserved intrinsic functional network organization., Competing Interests: Declaration of Competing Interest None, (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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17. The biological role of local and global fMRI BOLD signal variability in human brain organization.

Author

Baracchini G, Zhou Y, da Silva Castanheira J, Hansen JY, Rieck J, Turner GR, Grady CL, Misic B, Nomi J, Uddin LQ, and Spreng RN

Abstract

Variability drives the organization and behavior of complex systems, including the human brain. Understanding the variability of brain signals is thus necessary to broaden our window into brain function and behavior. Few empirical investigations of macroscale brain signal variability have yet been undertaken, given the difficulty in separating biological sources of variance from artefactual noise. Here, we characterize the temporal variability of the most predominant macroscale brain signal, the fMRI BOLD signal, and systematically investigate its statistical, topographical and neurobiological properties. We contrast fMRI acquisition protocols, and integrate across histology, microstructure, transcriptomics, neurotransmitter receptor and metabolic data, fMRI static connectivity, and empirical and simulated magnetoencephalography data. We show that BOLD signal variability represents a spatially heterogeneous, central property of multi-scale multi-modal brain organization, distinct from noise. Our work establishes the biological relevance of BOLD signal variability and provides a lens on brain stochasticity across spatial and temporal scales.

Published
2023
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18. Relation of resting brain signal variability to cognitive and socioemotional measures in an adult lifespan sample.

Author

Grady CL, Rieck JR, Baracchini G, and DeSouza B

Subjects
Adult, Humans, Cognition, Chronotype, Circadian Rhythm, Longevity, Brain diagnostic imaging
Abstract

Temporal variability of the fMRI-derived blood-oxygen-level-dependent (BOLD) signal during cognitive tasks shows important associations with individual differences in age and performance. Less is known about relations between spontaneous BOLD variability measured at rest and relatively stable cognitive measures, such as IQ or socioemotional function. Here, we examined associations among resting BOLD variability, cognitive/socioemotional scores from the NIH Toolbox and optimal time of day for alertness (chronotype) in a sample of 157 adults from 20 to 86 years of age. To investigate individual differences in these associations independently of age, we regressed age out from both behavioral and BOLD variability scores. We hypothesized that greater BOLD variability would be related to higher fluid cognition scores, more positive scores on socioemotional scales and a morningness chronotype. Consistent with this idea, we found positive correlations between resting BOLD variability, positive socioemotional scores (e.g. self-efficacy) and morning chronotype, as well as negative correlations between variability and negative emotional scores (e.g. loneliness). Unexpectedly, we found negative correlations between BOLD variability and fluid cognition. These results suggest that greater resting brain signal variability facilitates optimal socioemotional function and characterizes those with morning-type circadian rhythms, but individuals with greater fluid cognition may be more likely to show less temporal variability in spontaneous measures of BOLD activity., (© The Author(s) 2023. Published by Oxford University Press.)

Published
2023
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19. Recollection and prior knowledge recruit the left angular gyrus during recognition.

Author

Bellana B, Ladyka-Wojcik N, Lahan S, Moscovitch M, and Grady CL

Subjects
Humans, Mental Recall physiology, Parietal Lobe diagnostic imaging, Parietal Lobe physiology, Memory, Magnetic Resonance Imaging, Brain Mapping, Recognition, Psychology physiology
Abstract

The human angular gyrus (AG) is implicated in recollection, or the ability to retrieve detailed memory content from a specific episode. A separate line of research examining the neural bases of more general mnemonic representations, extracted over multiple episodes, also highlights the AG as a core region of interest. To reconcile these separate views of AG function, the present fMRI experiment used a Remember-Know paradigm with famous (prior knowledge) and non-famous (no prior knowledge) faces to test whether AG activity could be modulated by both task-specific recollection and general prior knowledge within the same individuals. Increased BOLD activity in the left AG was observed during both recollection in the absence of prior knowledge (recollected > non-recollected or correctly rejected non-famous faces) and when prior knowledge was accessed in the absence of experiment-specific recollection (famous > non-famous correct rejections). This pattern was most prominent for the left AG as compared to the broader inferior parietal lobe. Recollection-related responses in the left AG increased with encoding duration and prior knowledge, despite prior knowledge being incidental to the recognition decision. Overall, the left AG appears sensitive to both task-specific recollection and the incidental access of general prior knowledge, thus broadening our notions of the kinds of mnemonic representations that drive activity in this region., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
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20. Exploration of salient risk factors involved in mild cognitive impairment.

Author

Samson AD, Shen K, Grady CL, and McIntosh AR

Subjects
Male, Female, Humans, Aged, Amyloid beta-Peptides, Apolipoprotein E4 genetics, Biomarkers, Risk Factors, tau Proteins, Cognitive Dysfunction epidemiology, Cognitive Dysfunction diagnosis, Alzheimer Disease epidemiology
Abstract

Mild cognitive impairment (MCI) is a prevalent and complex condition among older adults that often progresses into Alzheimer's disease (AD). Although MCI affects individuals differently, there are specific indicators of risk commonly associated with the development of MCI. The present study explored the prevalence of seven established MCI risk categories within a large sample of older adults with and without MCI. We explored trends across the different diagnostic groups and extracted the most salient risk factors related to MCI using partial least squares. Neuropsychological risk categories showed the largest differences across groups, with the cognitively unimpaired groups outperforming the MCI groups on all measures. Apolipoprotein E4 (ApoE4) carriers were significantly more common among the more severe MCI group, whereas ApoE4 non-carriers were more common in the healthy controls. Participants with subjective and objective cognitive impairment were trending towards AD-like cerebral spinal fluid (CSF) biomarker levels. Increased age, being male and having fewer years of education were identified as important risk factors of MCI. Higher CSF tau levels were correlated with ApoE4 carrier status, age and a decrease in the ability to carry out daily activities across all diagnostic groups. Amyloid beta 1-42 CSF concentration was positively correlated with cognitive and memory performance and non-ApoE4 carrier status regardless of diagnostic status. Unlike previous research, poor cardiovascular health or being female had no relation to MCI. Altogether, the results highlighted risk factors that were specific to persons with MCI, findings that will inform future research in healthy aging, MCI and AD., (© 2022 Federation of European Neuroscience Societies and John Wiley & Sons Ltd.)

Published
2022
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21. Reduced modulation of BOLD variability as a function of cognitive load in healthy aging.

Author

Rieck JR, DeSouza B, Baracchini G, and Grady CL

Subjects
Aged, Aged, 80 and over, Brain diagnostic imaging, Brain Mapping, Cognition, Humans, Magnetic Resonance Imaging, Memory, Short-Term, Healthy Aging
Abstract

BOLD variability, which measures moment-to-moment fluctuations in brain signal, is sensitive to age differences in cognitive performance. However, the effect of aging on BOLD variability in the context of different cognitive demands is still unclear. The current study examined how aging affects brain variability across cognitive loads and the contribution of BOLD variability to working memory abilities. Participants (N = 149, ages 20‒86) completed an fMRI n-back paradigm with 3 loads and 10-minute resting state scan. We found that BOLD variability was greater during rest compared to task and decreased even further as n-back load increased. Older age was associated with smaller load-related modulations of BOLD variability in default mode and fronto-parietal control networks. Increased variability in default mode, fronto-parietal control, and limbic regions and decreased variability in sensori-motor regions during the n-back task was associated with better working memory performance, regardless of age. Our findings suggest that working memory reductions in older ages are related to failure of core cognitive control and default mode regions to modulate dynamic range of activity in the face of increased demands., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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22. Bilingualism contributes to reserve and working memory efficiency: Evidence from structural and functional neuroimaging.

Author

Anderson JAE, Grundy JG, Grady CL, Craik FIM, and Bialystok E

Subjects
Aged, Functional Neuroimaging, Gray Matter diagnostic imaging, Humans, Memory, Short-Term, Multilingualism, White Matter
Abstract

This study compared brain and behavioral outcomes for monolingual and bilingual older adults who reported no cognitive or memory problems on three types of memory that typically decline in older age, namely, working memory (measured by n-back), item, and associative recognition. The results showed that bilinguals were faster on the two-back working memory task than monolinguals but used a set of frontostriatal regions less than monolinguals. There was no group difference on an item/associative recognition task. In brain structure, gray matter volume and white matter integrity (fractional anisotropy) were generally lower in bilinguals than in monolinguals, but bilinguals had better white matter integrity than monolinguals in the bilateral superior corona radiata and better gray matter density in the left inferior temporal gyrus. These regions may help preserve bilinguals' executive functions despite generally more significant atrophy throughout the brain than monolinguals in that these structures contribute to efficient communication between executive frontal regions and subcortical motor regions, and perceptual pathways. Reliable negative correlations between brain structure and age were only observed in bilinguals, and to the extent that bilinguals (but not monolinguals) had better brain structure, their performance was enhanced. Collectively, the findings provide evidence for reserve in bilingual older adults., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published
2021
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23. Dataset of functional connectivity during cognitive control for an adult lifespan sample.

Author

Rieck JR, Baracchini G, Nichol D, Abdi H, and Grady CL

Abstract

We provide functional connectivity matrices generated during functional magnetic resonance imaging ( f MRI) during different tasks of cognitive control in healthy aging adults. These data can be used to replicate the primary results from the related manuscript: Reconfiguration and dedifferentiation of functional networks during cognitive control across the adult lifespan (Rieck et al., 2021). One-hundred-forty-four participants (ages 20-86) were scanned on a Siemens 3T MRI scanner while they were completing tasks to measure functional activity during inhibition, initiation, shifting, and working memory. Estimates of functional connectivity (quantified with timeseries correlations) between different brain regions were computed using three different brain atlases: Schaefer 100 parcel 17 network atlas (Schaefer et al., 2018; Yeo et al., 2011), Power 229 node 10 network atlas (Power et al., 2011), and Schaefer 200 parcel 17 network atlas (Schaefer et al., 2018; Yeo et al., 2011). The resulting functional connectivity correlation matrices are provided as text files with this article. Cov-STATIS (Abdi et al., 2012; a multi-table multivariate statistical technique; https://github.com/HerveAbdi/DistatisR) was used to examine similarity between functional connectivity during the different domains of cognitive control. The effect of aging on these functional connectivity patterns was also examined by computing measures of "task differentiation" and "network segregation." This dataset also provides supplemental analyses from the related manuscript (Rieck et al., 2021) to replicate the primary age findings with additional brain atlases. Cognitive neuroscience researchers can benefit from these data by further investigating the age effects on functional connectivity during tasks of cognitive control, in addition to examining the impact of different brain atlases on functional connectivity estimates. These data can also be used for the development of other multi-table and network-based statistical methods in functional neuroimaging., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships which have or could be perceived to have influenced the work reported in this article., (© 2021 The Author(s).)

Published
2021
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24. Reconfiguration and dedifferentiation of functional networks during cognitive control across the adult lifespan.

Author

Rieck JR, Baracchini G, Nichol D, Abdi H, and Grady CL

Subjects
Adult, Aged, Aged, 80 and over, Aging physiology, Aging psychology, Brain diagnostic imaging, Female, Healthy Aging psychology, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Nerve Net diagnostic imaging, Psychomotor Performance physiology, Young Adult, Brain physiology, Cell Dedifferentiation physiology, Cognition physiology, Healthy Aging physiology, Longevity physiology, Nerve Net physiology
Abstract

Healthy aging is accompanied by reduced cognitive control and widespread alterations in the underlying brain networks; but the extent to which large-scale functional networks in older age show reduced specificity across different domains of cognitive control is unclear. Here we use cov-STATIS (a multi-table multivariate technique) to examine similarity of functional connectivity during different domains of cognitive control-inhibition, initiation, shifting, and working memory-across the adult lifespan. We report two major findings: (1) Functional connectivity patterns during initiation, inhibition, and shifting were more similar in older ages, particularly for control and default networks, a pattern consistent with dedifferentiation of the neural correlates associated with cognitive control; and (2) Networks exhibited age-related reconfiguration such that frontal, default, and dorsal attention networks were more integrated whereas sub-networks of somato-motor system were more segregated in older age. Together these findings offer new evidence for dedifferentiation and reconfiguration of functional connectivity underlying different aspects of cognitive control in normal aging., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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25. Contributions of Brain Function and Structure to Three Different Domains of Cognitive Control in Normal Aging.

Author

Rieck JR, Baracchini G, and Grady CL

Subjects
Brain diagnostic imaging, Brain Mapping, Cognition, Humans, Magnetic Resonance Imaging, Reaction Time, Aging, Memory, Short-Term
Abstract

Cognitive control involves the flexible allocation of mental resources during goal-directed behavior and comprises three correlated but distinct domains-inhibition, shifting, and working memory. The work of Don Stuss and others has demonstrated that frontal and parietal cortices are crucial to cognitive control, particularly in normal aging, which is characterized by reduced control mechanisms. However, the structure-function relationships specific to each domain and subsequent impact on performance are not well understood. In the current study, we examined both age and individual differences in functional activity associated with core domains of cognitive control in relation to fronto-parietal structure and task performance. Participants (n = 140, aged 20-86 years) completed three fMRI tasks: go/no-go (inhibition), task switching (shifting), and n-back (working memory), in addition to structural and diffusion imaging. All three tasks engaged a common set of fronto-parietal regions; however, the contributions of age, brain structure, and task performance to functional activity were unique to each domain. Aging was associated with differences in functional activity for all tasks, largely in regions outside common fronto-parietal control regions. Shifting and inhibition showed greater contributions of structure to overall decreases in brain activity, suggesting that more intact fronto-parietal structure may serve as a scaffold for efficient functional response. Working memory showed no contribution of structure to functional activity but had strong effects of age and task performance. Together, these results provide a comprehensive and novel examination of the joint contributions of aging, performance, and brain structure to functional activity across multiple domains of cognitive control., (© 2021 Massachusetts Institute of Technology.)

Published
2021
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26. Exploring osteoporosis sufferers knowledge on sedentary behaviour in the management of their disease.

Author

Grady CL, Muirhead F, Skelton DA, and Mavroeidi A

Abstract

Objectives: 1) To develop an understanding of the thoughts and opinions of older women diagnosed with osteoporosis regarding sedentary behaviour and 2) Investigate strategies used to reduce sedentary behaviour for future intervention development., Methods: Eleven older women with osteoporosis (mean age=68.2y±6.6(SD)) participated in semi-structured interviews (March-May 2020). They were recruited from the Royal Osteoporosis Society (Scottish) support group networks and the Strathclyde Age-Friendly-Academy. Telephone interviews were recorded, transcribed verbatim and thematically analysed using Braun & Clarke (2006)., Results: Three main themes emerged: 'Older Women's Knowledge', 'Motivators to reduce Sedentary Behaviour' and 'Older Adult's and Technology'. Participants reported an increase/maintenance of physical activity levels after osteoporosis diagnosis, had a good understanding and awareness of sedentary behaviour and how it affects health holistically. Participants identified motivators to interrupt sedentary behaviour (e.g. family/friends) and facilitators of sedentary behaviour (e.g. Television). Technology appeared to be used widely among participants to track movement patterns (e.g. Fitbit) but access and usability were identified as potential barriers when using technology to reduce sedentary behaviour among older adults., Conclusion: Knowledge does not appear to be a factor that needs addressing in relation to sedentary behavior in older women diagnosed with osteoporosis. Identified motivators and barriers could increase awareness of sedentary behaviour among older adults., (Copyright: © 2021 Hylonome Publications.)

Published
2021
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27. Reminders activate the prefrontal-medial temporal cortex and attenuate forgetting of event memory.

Author

Sekeres MJ, Moscovitch M, Winocur G, Pishdadian S, Nichol D, and Grady CL

Subjects
Brain Mapping, Hippocampus diagnostic imaging, Magnetic Resonance Imaging, Prefrontal Cortex diagnostic imaging, Temporal Lobe, Memory, Episodic, Mental Recall
Abstract

Replicas of an aspect of an experienced event can serve as effective reminders, yet little is known about the neural basis of such reminding effects. Here we examined the neural activity underlying the memory-enhancing effect of reminders 1 week after encoding of naturalistic film clip events. We used fMRI to determine differences in network activity associated with recently reactivated memories relative to comparably aged, non-reactivated memories. Reminders were effective in facilitating overall retrieval of memory for film clips, in an all-or-none fashion. Prefrontal cortex and hippocampus were activated during both reminders and retrieval. Peak activation in ventro-lateral prefrontal cortex (vPFC) preceded peak activation in the right hippocampus during the reminders. For film clips that were successfully retrieved after 7 days, pre-retrieval reminders did not enhance the quality of the retrieved memory or the number of details retrieved, nor did they more strongly engage regions of the recollection network than did successful retrieval of a non-reminded film clip. These results suggest that reminders prior to retrieval are an effective means of boosting retrieval of otherwise inaccessible episodic events, and that the inability to recall certain events after a delay of a week largely reflects a retrieval deficit, rather than a storage deficit for this information. The results extend other evidence that vPFC drives activation of the hippocampus to facilitate memory retrieval and scene construction, and show that this facilitation also occurs when reminder cues precede successful retrieval attempts. The time course of vPFC-hippocampal activity during the reminder suggests that reminders may first engage schematic information meditated by vPFC followed by a recollection process mediated by the hippocampus., (© 2020 Wiley Periodicals LLC.)

Published
2021
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28. Influence of sample size and analytic approach on stability and interpretation of brain-behavior correlations in task-related fMRI data.

Author

Grady CL, Rieck JR, Nichol D, Rodrigue KM, and Kennedy KM

Subjects
Adult, Aged, Analysis of Variance, Cerebral Cortex diagnostic imaging, Data Interpretation, Statistical, Datasets as Topic, Female, Humans, Judgment physiology, Magnetic Resonance Imaging, Male, Memory, Short-Term physiology, Middle Aged, Pattern Recognition, Visual physiology, Sample Size, Young Adult, Cerebral Cortex physiology, Functional Neuroimaging methods, Functional Neuroimaging standards, Neuropsychological Tests, Psychomotor Performance physiology
Abstract

Limited statistical power due to small sample sizes is a problem in fMRI research. Most of the work to date has examined the impact of sample size on task-related activation, with less attention paid to the influence of sample size on brain-behavior correlations, especially in actual experimental fMRI data. We addressed this issue using two large data sets (a working memory task, N = 171, and a relational processing task, N = 865) and both univariate and multivariate approaches to voxel-wise correlations. We created subsamples of different sizes and calculated correlations between task-related activity at each voxel and task performance. Across both data sets the magnitude of the brain-behavior correlations decreased and similarity across spatial maps increased with larger sample sizes. The multivariate technique identified more extensive correlated areas and more similarity across spatial maps, suggesting that a multivariate approach would provide a consistent advantage over univariate approaches in the stability of brain-behavior correlations. In addition, the multivariate analyses showed that a sample size of roughly 80 or more participants would be needed for stable estimates of correlation magnitude in these data sets. Importantly, a number of additional factors would likely influence the choice of sample size for assessing such correlations in any given experiment, including the cognitive task of interest and the amount of data collected per participant. Our results provide novel experimental evidence in two independent data sets that the sample size commonly used in fMRI studies of 20-30 participants is very unlikely to be sufficient for obtaining reproducible brain-behavior correlations, regardless of analytic approach., (© 2020 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.)

Published
2021
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29. Functional Connectivity within and beyond the Face Network Is Related to Reduced Discrimination of Degraded Faces in Young and Older Adults.

Author

Grady CL, Rieck JR, Nichol D, and Garrett DD

Subjects
Adult, Aged, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Neural Pathways physiology, Young Adult, Aging physiology, Aging psychology, Brain physiology, Discrimination, Psychological physiology, Facial Recognition physiology
Abstract

Degrading face stimuli reduces face discrimination in both young and older adults, but the brain correlates of this decline in performance are not fully understood. We used functional magnetic resonance imaging to examine the effects of degraded face stimuli on face and nonface brain networks and tested whether these changes would predict the linear declines seen in performance. We found decreased activity in the face network (FN) and a decrease in the similarity of functional connectivity (FC) in the FN across conditions as degradation increased but no effect of age. FC in whole-brain networks also changed with increasing degradation, including increasing FC between the visual network and cognitive control networks. Older adults showed reduced modulation of this whole-brain FC pattern. The strongest predictors of within-participant decline in accuracy were changes in whole-brain network FC and FC similarity of the FN. There was no influence of age on these brain-behavior relations. These results suggest that a systems-level approach beyond the FN is required to understand the brain correlates of performance decline when faces are obscured with noise. In addition, the association between brain and behavior changes was maintained into older age, despite the dampened FC response to face degradation seen in older adults., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2020
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30. Creative, internally-directed cognition is associated with reduced BOLD variability.

Author

Roberts RP, Grady CL, and Addis DR

Subjects
Adolescent, Adult, Brain Mapping, Female, Humans, Image Processing, Computer-Assisted, Individuality, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Young Adult, Brain diagnostic imaging, Cognition physiology, Creativity, Imagination physiology
Abstract

In a range of externally-directed tasks, intra-individual variability of fMRI BOLD signal has been shown to be a stronger predictor of cognitive performance than mean BOLD signal. BOLD variability's strong association with cognitive performance is hypothesised to be due to it capturing the dynamic range of neural systems. Although increased BOLD variability is also speculated to play a role in internally-directed thought, particularly when creative and flexible cognition is required, there is a relative lack of research exploring whether BOLD variability is related to internally-directed cognition. Thus, we investigated the relationship between BOLD variability and a key component of creativity - divergent thinking - in various tasks that required participants to think flexibly. We also determined whether any associations between BOLD variability and creativity overlapped with, or differed, from associations between mean BOLD signal and creativity. First, we performed task Partial Least Squares (PLS) analyses that compared BOLD signal (either mean or variability) during two future imagination conditions that differed in the amount of cognitive flexibility required: a Congruent condition in which autobiographical details (people, places, objects) comprising an imagined event belonged to the same social sphere (e.g., university) and an Incongruent condition in which details belonged to different social spheres and required greater cognitive flexibility to integrate. Results indicated that the Incongruent condition was associated with a widespread reduction in both BOLD variability and mean signal (relative to the Congruent condition), but in largely non-overlapping regions. Next, we used behavioral PLS to determine whether individual differences in performance on future simulation tasks as well as the Alternate Uses Task relates to BOLD variability and mean BOLD signal. Better performance on these tasks was predominantly associated with increases in mean BOLD signal and decreases in BOLD variability, in a range of disparate brain regions. Together, the results suggest that, unlike tasks requiring externally-directed cognition, superior performance on tasks requiring creative internal mentation is associated with less (not more) variability., (Copyright © 2020. Published by Elsevier Inc.)

Published
2020
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31. Holding On to the Past: Older Adults Show Lingering Neural Activation of No-Longer-Relevant Items in Working Memory.

Author

Weeks JC, Grady CL, Hasher L, and Buchsbaum BR

Subjects
Aged, Aging, Humans, Magnetic Resonance Imaging, Recognition, Psychology, Young Adult, Attention, Memory, Short-Term
Abstract

Goal-relevant information can be maintained in working memory over a brief delay interval to guide an upcoming decision. There is also evidence suggesting the existence of a complementary process: namely, the ability to suppress information that is no longer relevant to ongoing task goals. Moreover, this ability to suppress or inhibit irrelevant information appears to decline with age. In this study, we compared younger and older adults undergoing fMRI on a working memory task designed to address whether the modulation of neural representations of relevant and no-longer-relevant items during a delay interval is related to age and overall task performance. Following from the theoretical predictions of the inhibitory deficit hypothesis of aging, we hypothesized that older adults would show higher activation of no-longer-relevant items during a retention delay compared to young adults and that higher activation of these no-longer-relevant items would predict worse recognition memory accuracy for relevant items. Our results support this prediction and more generally demonstrate the importance of goal-driven modulation of neural activity in successful working memory maintenance. Furthermore, we showed that the largest age differences in the regulation of category-specific pattern activity during working memory maintenance were seen throughout the medial temporal lobe and prominently in the hippocampus, further establishing the importance of "long-term memory" retrieval mechanisms in the context of high-load working memory tasks that place large demands on attentional selection mechanisms.

Published
2020
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32. Differential effects of mind-wandering and visual distraction on age-related changes in neuro-electric brain activity and variability.

Author

Maillet D, Yu L, Lau B, Chow R, Alain C, and Grady CL

Subjects
Aged, Cognition, Female, Humans, Male, Reaction Time, Young Adult, Aging physiology, Attention physiology, Brain physiology, Evoked Potentials
Abstract

Optimal performance in many tasks requires minimizing the impact of both visual distractors in the environment and distracting internal thoughts (i.e., mind-wandering). Prior research has indicated that older adults are disproportionately affected by the presence of visual distractors compared to young adults, but are not excessively affected by distracting thoughts. Yet an explanation for these dissociable effects remains elusive. In the current study, we assessed age-related differences in event-related potentials and neural variability associated with internal distraction and visual distractors in a go/no-go task. Compared to young adults, older adults showed an increased visual distraction cost in mean reaction time (RT) and RT variability but a reduction in internal distraction frequency and a reduced internal distraction cost on go accuracy and RT variability. Visual distraction and internal distraction were associated with opposite patterns of behavioral and neural effects. Behaviorally, across age groups, internal distraction was associated with more no-go errors whereas visual distraction was associated with reduced no-go errors. Across groups, internal distraction was associated with decreased P3 amplitude, whereas visual distraction was associated with increased P3 amplitude. In addition, internal distraction was associated with an increase in neural variability (more so in young versus older adults), while visual distraction was associated with a reduction in variability in young adults only. We suggest that the opposing effects of the two distractor types on behavioral and neural measures occur because visual distraction is associated with increased attentional resources devoted to the task to overcome visual interference whereas internal distraction is associated with decreased attentional resources devoted to the task. Moreover, older adults exhibited reduced flexibility of neural variability as a function of both distractor types, which may correspond to a diminished ability to up-regulate attention in the face of visual distraction and a diminished shift in attention away from the task during internal distraction., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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33. Age-related differences in the impact of mind-wandering and visual distraction on performance in a go/no-go task.

Author

Maillet D, Yu L, Hasher L, and Grady CL

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Aging, Female, Humans, Male, Middle Aged, Reaction Time, Young Adult, Attention physiology, Inhibition, Psychological, Task Performance and Analysis
Abstract

Optimal performance in many tasks requires minimizing the impact of both visual distraction and mind-wandering. Yet, so far, these two types of distraction have been studied in isolation and it remains unclear whether they act in similar or dissociable ways across age groups. Here, we studied the impact of visual distraction and mind-wandering on performance in a go/no-go task in young and older adults. Older adults reported higher task focus than young, which was associated with a specific age-related reduction in mind-wandering, rather than to thoughts triggered by the task. Older adults exhibited fewer no-go errors, higher mean reaction time (RT) and reduced RT variability compared to young adults. In contrast, visual distraction was associated with a disproportionate effect in older versus young adults on go accuracy, mean RT, and RT variability. Decreasing task focus was similarly associated with reduced go- and no-go accuracy and increased RT variability across age groups. In summary, our results suggest that whereas older adults are disproportionately affected by visual distraction compared to young, they exhibit a reduction in mind-wandering frequency. Moreover, the impact of decreasing task focus on task performance is similar across age groups. Our results suggest a dissociation of the impact of visual distraction and mind-wandering as a function of age. (PsycInfo Database Record (c) 2020 APA, all rights reserved).

Published
2020
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34. Frontostriatal functional connectivity supports reward-enhanced memory in older adults.

Author

Bowen HJ, Ford JH, Grady CL, and Spaniol J

Subjects
Adult, Aged, Cognition physiology, Cues, Female, Humans, Male, Motivation, Young Adult, Aging psychology, Caudate Nucleus physiology, Executive Function physiology, Memory physiology, Neural Pathways physiology, Prefrontal Cortex physiology, Reward
Abstract

Both younger and older adults prioritize reward-associated stimuli in memory, but there has been little research on possible age differences in the neural mechanisms mediating this effect. In the present study, we examine neural activation and functional connectivity in healthy younger and older adults to test the hypothesis that older adults would engage prefrontal regions to a greater extent in the service of reward-enhanced memory. While undergoing MRI, target stimuli were presented after high- or low-reward cues. The cues indicated the reward value for successfully recognizing the stimulus on a memory test 24 hours later. We replicated prior findings that both older and younger adults had better memory for high- compared to low-reward stimuli. Critically, in older but not younger adults, this enhanced subsequent memory for high-reward items was supported by greater connectivity between the caudate and bilateral inferior frontal gyrus. The findings add to the growing literature on motivation-cognition interactions in healthy aging and provide novel findings of the neural underpinnings of reward-motivated encoding., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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35. Variability in the analysis of a single neuroimaging dataset by many teams.

Author

Botvinik-Nezer R, Holzmeister F, Camerer CF, Dreber A, Huber J, Johannesson M, Kirchler M, Iwanir R, Mumford JA, Adcock RA, Avesani P, Baczkowski BM, Bajracharya A, Bakst L, Ball S, Barilari M, Bault N, Beaton D, Beitner J, Benoit RG, Berkers RMWJ, Bhanji JP, Biswal BB, Bobadilla-Suarez S, Bortolini T, Bottenhorn KL, Bowring A, Braem S, Brooks HR, Brudner EG, Calderon CB, Camilleri JA, Castrellon JJ, Cecchetti L, Cieslik EC, Cole ZJ, Collignon O, Cox RW, Cunningham WA, Czoschke S, Dadi K, Davis CP, Luca A, Delgado MR, Demetriou L, Dennison JB, Di X, Dickie EW, Dobryakova E, Donnat CL, Dukart J, Duncan NW, Durnez J, Eed A, Eickhoff SB, Erhart A, Fontanesi L, Fricke GM, Fu S, Galván A, Gau R, Genon S, Glatard T, Glerean E, Goeman JJ, Golowin SAE, González-García C, Gorgolewski KJ, Grady CL, Green MA, Guassi Moreira JF, Guest O, Hakimi S, Hamilton JP, Hancock R, Handjaras G, Harry BB, Hawco C, Herholz P, Herman G, Heunis S, Hoffstaedter F, Hogeveen J, Holmes S, Hu CP, Huettel SA, Hughes ME, Iacovella V, Iordan AD, Isager PM, Isik AI, Jahn A, Johnson MR, Johnstone T, Joseph MJE, Juliano AC, Kable JW, Kassinopoulos M, Koba C, Kong XZ, Koscik TR, Kucukboyaci NE, Kuhl BA, Kupek S, Laird AR, Lamm C, Langner R, Lauharatanahirun N, Lee H, Lee S, Leemans A, Leo A, Lesage E, Li F, Li MYC, Lim PC, Lintz EN, Liphardt SW, Losecaat Vermeer AB, Love BC, Mack ML, Malpica N, Marins T, Maumet C, McDonald K, McGuire JT, Melero H, Méndez Leal AS, Meyer B, Meyer KN, Mihai G, Mitsis GD, Moll J, Nielson DM, Nilsonne G, Notter MP, Olivetti E, Onicas AI, Papale P, Patil KR, Peelle JE, Pérez A, Pischedda D, Poline JB, Prystauka Y, Ray S, Reuter-Lorenz PA, Reynolds RC, Ricciardi E, Rieck JR, Rodriguez-Thompson AM, Romyn A, Salo T, Samanez-Larkin GR, Sanz-Morales E, Schlichting ML, Schultz DH, Shen Q, Sheridan MA, Silvers JA, Skagerlund K, Smith A, Smith DV, Sokol-Hessner P, Steinkamp SR, Tashjian SM, Thirion B, Thorp JN, Tinghög G, Tisdall L, Tompson SH, Toro-Serey C, Torre Tresols JJ, Tozzi L, Truong V, Turella L, van 't Veer AE, Verguts T, Vettel JM, Vijayarajah S, Vo K, Wall MB, Weeda WD, Weis S, White DJ, Wisniewski D, Xifra-Porxas A, Yearling EA, Yoon S, Yuan R, Yuen KSL, Zhang L, Zhang X, Zosky JE, Nichols TE, Poldrack RA, and Schonberg T

Subjects
Female, Humans, Male, Brain diagnostic imaging, Brain physiology, Logistic Models, Meta-Analysis as Topic, Models, Neurological, Reproducibility of Results, Software, Data Analysis, Data Science methods, Data Science standards, Datasets as Topic statistics & numerical data, Functional Neuroimaging, Magnetic Resonance Imaging, Research Personnel organization & administration, Research Personnel standards
Abstract

Data analysis workflows in many scientific domains have become increasingly complex and flexible. Here we assess the effect of this flexibility on the results of functional magnetic resonance imaging by asking 70 independent teams to analyse the same dataset, testing the same 9 ex-ante hypotheses 1 . The flexibility of analytical approaches is exemplified by the fact that no two teams chose identical workflows to analyse the data. This flexibility resulted in sizeable variation in the results of hypothesis tests, even for teams whose statistical maps were highly correlated at intermediate stages of the analysis pipeline. Variation in reported results was related to several aspects of analysis methodology. Notably, a meta-analytical approach that aggregated information across teams yielded a significant consensus in activated regions. Furthermore, prediction markets of researchers in the field revealed an overestimation of the likelihood of significant findings, even by researchers with direct knowledge of the dataset 2-5 . Our findings show that analytical flexibility can have substantial effects on scientific conclusions, and identify factors that may be related to variability in the analysis of functional magnetic resonance imaging. The results emphasize the importance of validating and sharing complex analysis workflows, and demonstrate the need for performing and reporting multiple analyses of the same data. Potential approaches that could be used to mitigate issues related to analytical variability are discussed.

Published
2020
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36. Resting State BOLD Variability of the Posterior Medial Temporal Lobe Correlates with Cognitive Performance in Older Adults with and without Risk for Cognitive Decline.

Author

Good TJ, Villafuerte J, Ryan JD, Grady CL, and Barense MD

Subjects
Aged, Cognition, Humans, Magnetic Resonance Imaging, Memory, Temporal Lobe diagnostic imaging, Alzheimer Disease, Cognitive Dysfunction diagnostic imaging
Abstract

Local brain signal variability [SD of the BOLD signal (SD BOLD ]] correlates with age and cognitive performance, and recently differentiated Alzheimer's disease (AD) patients from healthy controls. However, it is unknown whether changes to SD BOLD precede diagnosis of AD or mild cognitive impairment. We compared ostensibly healthy older adult humans who scored below the recommended threshold on the Montreal cognitive assessment (MoCA) and who showed reduced medial temporal lobe (MTL) volume in a previous study ("at-risk" group, n  = 20), with healthy older adults who scored within the normal range on the MoCA ("control" group, n  = 20). Using multivariate partial least-squares analysis we assessed the correlations between SD BOLD and age, MoCA score, global fractional anisotropy, global mean diffusivity, and four cognitive factors. Greater SD BOLD in the MTL and occipital cortex positively correlated with performance on cognitive control/speed tasks but negatively correlated with memory scores in the control group. These relations were weaker in the at-risk group. A post hoc analysis assessed associations between MTL volumes and SD BOLD in both groups. This revealed a negative correlation, most robust in the at-risk group, between MTL SD BOLD and MTL subregion volumetry, particularly the entorhinal and parahippocampal regions. Together, these results suggest that the association between SD BOLD and cognition differs between the at-risk and control groups, which may be because of lower MTL volumes in the at-risk group. Our data indicate relations between MTL SD BOLD and cognition may be helpful in understanding brain differences in individuals who may be at risk for further cognitive decline., (Copyright © 2020 Good et al.)

Published
2020
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37. Meta-analytic and functional connectivity evidence from functional magnetic resonance imaging for an anterior to posterior gradient of function along the hippocampal axis.

Author

Grady CL

Subjects
Cognition physiology, Humans, Memory, Short-Term physiology, Hippocampus diagnostic imaging, Hippocampus physiology, Magnetic Resonance Imaging methods, Nerve Net diagnostic imaging, Nerve Net physiology
Abstract

There is considerable evidence from non-human animal studies that the anterior and posterior regions of the hippocampus have different anatomical connections and support different behavioural functions. Although there are some recent human studies using functional magnetic resonance imaging (fMRI) that have addressed this idea directly in the memory and spatial processing domains and provided support for it, there has been no broader meta-analysis of the fMRI literature to determine if there is consistent evidence for functional dissociations in anterior and posterior hippocampus across all of the different cognitive domains in which the hippocampus participates. The purpose of this review is to address this gap in our knowledge using three approaches. One approach involved PubMed searches to identify relevant fMRI papers reporting hippocampal activation during episodic encoding and retrieval, semantic retrieval, working memory, spatial navigation, simulation/scene construction, transitive inference, and social cognition tasks. The second was to use a large meta-analytic database (neurosynth) to find text terms and coactivation maps associated with the anterior and posterior hippocampal regions identified in the literature search. The third approach was to contrast the resting-state functional connectivity of the anterior and posterior hippocampal regions using a publicly available database that includes a large sample of adults. These three approaches provided converging evidence that not only are cognitive processes differently distributed along the hippocampal axis, but there also are distinct areas coactivated and functionally connected with the anterior and posterior segments. This anterior/posterior distinction involving multiple cognitive domains is consistent with the animal literature and provides strong support from fMRI for the idea of functional dissociations across the long axis of the hippocampus., (© 2019 Wiley Periodicals, Inc.)

Published
2020
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38. Neural Correlates of Enhanced Memory for Meaningful Associations with Age.

Author

Amer T, Giovanello KS, Nichol DR, Hasher L, and Grady CL

Subjects
Adult, Aged, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Neural Pathways physiology, Young Adult, Aging physiology, Aging psychology, Association Learning physiology, Brain physiology, Memory physiology
Abstract

Evidence suggests that age differences in associative memory are attenuated for associations that are consistent with prior knowledge. Such knowledge structures have traditionally been associated with the default network (DN), which also shows reduced modulation with age. In the present study, we investigated whether DN activity and connectivity patterns could account for this age-related effect. Younger and older adults underwent functional magnetic resonance imaging as they learned realistic and unrealistic prices of common grocery items. Both groups showed greater activity in the DN during the encoding of realistic, relative to unrealistic, prices. Moreover, DN activity at encoding and retrieval and its connectivity with an attention control network at encoding were associated with enhanced memory for realistic prices. Finally, older adults showed overactivation of control regions during retrieval of realistic prices relative to younger adults. Our findings suggest that DN activity and connectivity patterns (traditionally viewed as indicators of cognitive failure with age), and additional recruitment of control regions, might underlie older adults' enhanced memory for meaningful associations., (© The Author(s) 2019. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published
2019
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39. Reminders reinstate context-specificity to generalized remote memories in rats: relation to activity in the hippocampus and aCC.

Author

Sekeres MJ, Moscovitch M, Grady CL, Sullens DG, and Winocur G

Subjects
Animals, Fear, Proto-Oncogene Proteins c-fos analysis, Rats, Conditioning, Classical physiology, Generalization, Psychological physiology, Gyrus Cinguli physiology, Hippocampus physiology, Memory, Long-Term physiology, Mental Recall physiology, Neurons physiology
Abstract

Conditioned fear memories that are context-specific shortly after conditioning generalize over time. We exposed rats to a context reminder 30 d after conditioning, which served to reinstate context-specificity, and investigated how this reminder alters retrieval-induced activity in the hippocampus and anterior cingulate cortex (aCC) relative to a no reminder condition. c-Fos expression in dorsal CA1 was observed following retrieval in the original context, but not in a novel context, whether or not the memory was reactivated, suggesting that dCA1 retains the context-specific representation. c-Fos was highly expressed in aCC following remote memory testing in both contexts, regardless of reminder condition, indicating that aCC develops generalized representations that are insensitive to memory reactivation., (© 2020 Sekeres et al.; Published by Cold Spring Harbor Laboratory Press.)

Published
2019
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40. Age differences in the neural response to negative feedback.

Author

Bowen HJ, Grady CL, and Spaniol J

Subjects
Adult, Age Factors, Aged, Anticipation, Psychological physiology, Brain diagnostic imaging, Female, Functional Neuroimaging, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Reaction Time physiology, Reward, Young Adult, Brain physiology, Feedback
Abstract

Affective processing is one domain that remains relatively intact in healthy aging. Investigations into the neural responses associated with reward anticipation have revealed that older and younger adults recruit the same midbrain reward regions, but other evidence suggests this recruitment may differ depending on the valence (gain, loss) of the incentive cue. The goal of the current study was to examine functional covariance during gain and loss feedback in younger and healthy older adults. A group of 15 older adults (mean age = 68.5) and 16 younger adults (mean age = 25.4) completed a revised Monetary Incentive Delay task (rMID; Knutson, Westdorp, Kaiser, & Hommer, 2000) while in the fMRI scanner. The rMID is a reaction time task where successful performance, either gaining a reward or avoiding a loss, is defined by hitting a button during the brief presentation of a visual target. Participants receive gain and loss anticipation cues before each trial and feedback after each trial with four possible outcomes: +$5.00, +0.00, -$5.00, and -$0.00. Using seed-voxel partial least squares analyses, with seed voxels in the caudate and ventromedial prefrontal cortex, whole-brain functional covariance revealed that younger and older adults engage the same network of regions to support general feedback processing. However, older adults engaged two additional networks to support processing of negative feedback, gain_miss (+0), loss_miss (-$5), and loss_hit (-0), specifically. These findings are in line with theories of a positivity effect in aging and may have implications for reward-stimulus learning and decision making following performance-contingent negative feedback.

Published
2019
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41. The intrinsic neural architecture of inhibitory control: The role of development and emotional experience.

Author

Petrican R and Grady CL

Subjects
Adolescent, Adult, Affect physiology, Aged, Aged, 80 and over, Child, Cognition physiology, Connectome, Female, Humans, Magnetic Resonance Imaging, Male, Memory, Short-Term physiology, Mental Processes physiology, Middle Aged, Motivation, Nervous System Physiological Phenomena, Theory of Mind, Young Adult, Aging psychology, Emotions physiology, Inhibition, Psychological
Abstract

Inhibitory control is a key determinant of goal-directed behavior. Its susceptibility to reward implies that its variations may not only reflect cognitive ability, but also sensitivity to goal-relevant information. Since cognitive ability and motivational sensitivity vary as a function of age and mood, we hypothesized that their relevance for predicting individual differences in inhibition would similarly vary. Here, we tested this prediction with respect to the brain's intrinsic functional architecture. Specifically, we reasoned that age and affective functioning would both moderate the relationship between inhibition and resting state expression of the dynamic neural organization patterns linked to engaging in cognitive effort versus those involved in manipulating motivationally salient information. First, we used task fMRI data from the Human Connectome Project (N = 359 participants) to identify the brain organization patterns unique to effortful cognitive processing versus manipulation of motivationally relevant information. We then assessed the association between inhibitory control and relative expression of these two neural patterns in an independent resting state dataset from the Nathan Kline Institute-Rockland lifespan sample (N = 247). As hypothesized, the relation between inhibition and intrinsic functional brain architecture varied as a function of age and affective functioning. Among those with superior affective functioning, better inhibitory control in adolescence and early adulthood was associated with stronger resting state expression of the brain pattern that typified processing of motivationally salient information. The opposite effect emerged beyond the age of 49. Among individuals with poorer affective functioning, a significant link between inhibition and brain architecture emerged only before the age of 28. In this group, superior inhibition was associated with stronger resting state expression of the neural pattern that typified effortful cognitive processing. Our results thus imply that motivational relevance makes a unique contribution to superior cognitive functioning during earlier life stages. However, its relevance to higher-order mentation decreases with aging and increased prevalence of mood-related problems, which raises the possibility that patterns of neurobehavioral responsiveness to motivational salience may constitute sensitive markers of successful lifespan development., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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43. Author Correction: Maintenance, reserve and compensation: the cognitive neuroscience of healthy ageing.

Author

Cabeza R, Albert M, Belleville S, Craik FIM, Duarte A, Grady CL, Lindenberger U, Nyberg L, Park DC, Reuter-Lorenz PA, Rugg MD, Steffener J, and Rajah MN

Abstract

In the originally published version of article, there were two errors in the references. The reference "Nilsson, J. & Lövdén, M. Naming is not explaining: future directions for the "cognitive reserve" and "brain maintenance" theories. Alzheimer's Res. Ther. 10, 34 (2018)" was missing. This reference has been added as REF.  14 in the HTML and PDF versions of the article and cited at the end of the sentence "However, over the years, these terms have been used inconsistently, creating confusion and slowing progress." on page 701 and at the end of the sentence "If reserve is defined merely as the factor that individuals with greater reserve have and then this factor is used to explain why some individuals have greater reserve, the argument is clearly circular." on page 704. The reference list has been renumbered accordingly. In addition, in the original reference list, REF.  91 was incorrect. The reference should have read "Cabeza, R. Hemispheric asymmetry reduction in older adults. The HAROLD model. Psychol. Aging 17, 85-100 (2002)". This reference, which is REF.  92 in the corrected reference list, has been corrected in the HTML and PDF versions of the article.

Published
2018
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44. Publisher Correction: Maintenance, reserve and compensation: the cognitive neuroscience of healthy ageing.

Author

Cabeza R, Albert M, Belleville S, Craik FIM, Duarte A, Grady CL, Lindenberger U, Nyberg L, Park DC, Reuter-Lorenz PA, Rugg MD, Steffener J, and Rajah MN

Abstract

In Figure 3b of the originally published article, the colours of the bars were incorrectly reversed. The bars shown in green should have been shown in blue to represent the findings from older adults, whereas the bars shown in blue should have been shown in green to represent the findings from young adults. This has been corrected in the HTML and PDF versions of the article. Images of the original figure are shown in the correction notice.

Published
2018
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45. Maintenance, reserve and compensation: the cognitive neuroscience of healthy ageing.

Author

Cabeza R, Albert M, Belleville S, Craik FIM, Duarte A, Grady CL, Lindenberger U, Nyberg L, Park DC, Reuter-Lorenz PA, Rugg MD, Steffener J, and Rajah MN

Subjects
Cognitive Neuroscience, Cognitive Reserve, Humans, Brain physiology, Cognitive Aging physiology, Cognitive Aging psychology, Healthy Aging physiology, Healthy Aging psychology
Abstract

Cognitive ageing research examines the cognitive abilities that are preserved and/or those that decline with advanced age. There is great individual variability in cognitive ageing trajectories. Some older adults show little decline in cognitive ability compared with young adults and are thus termed 'optimally ageing'. By contrast, others exhibit substantial cognitive decline and may develop dementia. Human neuroimaging research has led to a number of important advances in our understanding of the neural mechanisms underlying these two outcomes. However, interpreting the age-related changes and differences in brain structure, activation and functional connectivity that this research reveals is an ongoing challenge. Ambiguous terminology is a major source of difficulty in this venture. Three terms in particular - compensation, maintenance and reserve - have been used in a number of different ways, and researchers continue to disagree about the kinds of evidence or patterns of results that are required to interpret findings related to these concepts. As such inconsistencies can impede progress in both theoretical and empirical research, here, we aim to clarify and propose consensual definitions of these terms.

Published
2018
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46. Changes in patterns of neural activity underlie a time-dependent transformation of memory in rats and humans.

Author

Sekeres MJ, Winocur G, Moscovitch M, Anderson JAE, Pishdadian S, Martin Wojtowicz J, St-Laurent M, McAndrews MP, and Grady CL

Subjects
Adult, Analysis of Variance, Animals, Avoidance Learning physiology, Brain diagnostic imaging, Fear psychology, Female, Functional Laterality, Hippocampus diagnostic imaging, Hippocampus physiology, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Proto-Oncogene Proteins c-fos metabolism, Random Allocation, Rats, Rats, Long-Evans, Time Factors, Young Adult, Brain physiology, Hippocampus cytology, Memory Consolidation physiology, Memory, Episodic, Neurons physiology
Abstract

The dynamic process of memory consolidation involves a reorganization of brain regions that support a memory trace over time, but exactly how the network reorganizes as the memory changes remains unclear. We present novel converging evidence from studies of animals (rats) and humans for the time-dependent reorganization and transformation of different types of memory as measured both by behavior and brain activation. We find that context-specific memories in rats, and naturalistic episodic memories in humans, lose precision over time and activity in the hippocampus decreases. If, however, the retrieved memories retain contextual or perceptual detail, the hippocampus is engaged similarly at recent and remote timepoints. As the interval between the timepoint increases, the medial prefrontal cortex is engaged increasingly during memory retrieval, regardless of the context or the amount of retrieved detail. Moreover, these hippocampal-frontal shifts are accompanied by corresponding changes in a network of cortical structures mediating perceptually-detailed as well as less precise, schematic memories. These findings provide cross-species evidence for the crucial interplay between hippocampus and neocortex that reflects changes in memory representation over time and underlies systems consolidation., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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47. Impaired Recent, but Preserved Remote, Autobiographical Memory in Pediatric Brain Tumor Patients.

Author

Sekeres MJ, Riggs L, Decker A, de Medeiros CB, Bacopulos A, Skocic J, Szulc-Lerch K, Bouffet E, Levine B, Grady CL, Mabbott DJ, Josselyn SA, and Frankland PW

Subjects
Adolescent, Cerebellar Neoplasms diagnostic imaging, Cerebellar Neoplasms radiotherapy, Child, Female, Hippocampus diagnostic imaging, Humans, Magnetic Resonance Imaging, Male, Medulloblastoma diagnostic imaging, Medulloblastoma radiotherapy, Neuropsychological Tests, Organ Size, Retrospective Studies, Cerebellar Neoplasms psychology, Cranial Irradiation adverse effects, Hippocampus radiation effects, Medulloblastoma psychology, Memory, Episodic, Mental Recall radiation effects
Abstract

Medulloblastomas, the most common malignant brain tumor in children, are typically treated with radiotherapy. Refinement of this treatment has greatly improved survival rates in this patient population. However, radiotherapy also profoundly affects the developing brain and is associated with reduced hippocampal volume and blunted hippocampal neurogenesis. Such hippocampal (as well as extrahippocampal) abnormalities likely contribute to cognitive impairments in this population. While several aspects of memory have been examined in this population, the impact of radiotherapy on autobiographical memory has not previously been evaluated. Here we evaluated autobiographical memory in male and female patients who received radiotherapy for posterior fossa tumors (PFTs), including medulloblastoma, during childhood. Using the Children's Autobiographical Interview, we retrospectively assessed episodic and nonepisodic details for events that either preceded (i.e., remote) or followed (i.e., recent) treatment. For post-treatment events, PFT patients reported fewer episodic details compared with control subjects. For pretreatment events, PFT patients reported equivalent episodic details compared with control subjects. In a range of conditions associated with reduced hippocampal volume (including medial temporal lobe amnesia, mild cognitive impairment, Alzheimer's disease, temporal lobe epilepsy, transient epileptic amnesia, frontal temporal dementia, traumatic brain injury, encephalitis, and aging), loss of episodic details (even in remote memories) accompanies hippocampal volume loss. It is therefore surprising that pretreatment episodic memories in PFT patients with reduced hippocampal volume are retained. We discuss these findings in light of the anterograde and retrograde impact on memory of experimentally suppressing hippocampal neurogenesis in rodents. SIGNIFICANCE STATEMENT Pediatric medulloblastoma survivors develop cognitive dysfunction following cranial radiotherapy treatment. We report that radiotherapy treatment impairs the ability to form new autobiographical memories, but spares preoperatively acquired autobiographical memories. Reductions in hippocampal volume and cortical volume in regions of the recollection network appear to contribute to this pattern of preserved preoperative, but impaired postoperative, memory. These findings have significant implications for understanding disrupted mnemonic processing in the medial temporal lobe memory system and in the broader recollection network, which are inadvertently affected by standard treatment methods for medulloblastoma tumors in children., (Copyright © 2018 the authors 0270-6474/18/388252-11$15.00/0.)

Published
2018
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48. Prior knowledge modulates the neural substrates of encoding and retrieving naturalistic events at short and long delays.

Author

Bonasia K, Sekeres MJ, Gilboa A, Grady CL, Winocur G, and Moscovitch M

Subjects
Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Neural Pathways physiology, Time Factors, Young Adult, Brain physiology, Memory, Episodic, Mental Recall physiology, Neurons physiology
Abstract

Congruence with prior knowledge and incongruence/novelty have long been identified as two prominent factors that, despite their opposing characteristics, can both enhance episodic memory. Using narrative film clip stimuli, this study investigated these effects in naturalistic event memories - examining behaviour and neural activation to help explain this paradox. Furthermore, we examined encoding, immediate retrieval, and one-week delayed retrieval to determine how these effects evolve over time. Behaviourally, both congruence with prior knowledge and incongruence/novelty enhanced memory for events, though incongruent events were recalled with more errors over time. During encoding, greater congruence with prior knowledge was correlated with medial prefrontal cortex (mPFC) and parietal activation, suggesting that these areas may play a key role in linking current episodic processing with prior knowledge. Encoding of increasingly incongruent events, on the other hand, was correlated with increasing activation in, and functional connectivity between, the medial temporal lobe (MTL) and posterior sensory cortices. During immediate and delayed retrieval the mPFC and MTL each demonstrated functional connectivity that varied based on the congruence of events with prior knowledge; with connectivity between the MTL and occipital regions found for incongruent events, while congruent events were associated with functional connectivity between the mPFC and the inferior parietal lobules and middle frontal gyri. These results demonstrate patterns of neural activity and connectivity that shift based on the nature of the event being experienced or remembered, and that evolve over time. Furthermore, they suggest potential mechanisms by which both congruence with prior knowledge and incongruence/novelty may enhance memory, through mPFC and MTL functional connectivity, respectively., (Copyright © 2018. Published by Elsevier Inc.)

Published
2018
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49. Brain signal variability is modulated as a function of internal and external demand in younger and older adults.

Author

Grady CL and Garrett DD

Subjects
Adult, Age Factors, Aged, Cerebral Cortex diagnostic imaging, Female, Humans, Magnetic Resonance Imaging, Male, Nerve Net diagnostic imaging, Young Adult, Aging physiology, Cerebral Cortex physiology, Functional Neuroimaging methods, Judgment physiology, Nerve Net physiology, Psychomotor Performance physiology, Uncertainty
Abstract

Variability in the Blood Oxygen-Level Dependent (BOLD) signal from fMRI is often associated with better cognitive performance and younger age. It has been proposed that neural variability enables flexible responding to uncertainty in a changing environment. However, signal variability reflecting environmental uncertainty may reduce to the extent that a task depends on internally-directed attention and is supported by neural "solutions" that are schematic and relatively stable within each individual. Accordingly, we examined the hypothesis that BOLD variability will be low at rest, higher during internally-directed tasks, and higher still during externally-directed tasks, and that this effect will be reduced with aging. Modulation of BOLD variability across conditions was consistent with these hypotheses, and was associated with faster and more stable behavioral performance in both young and older adults. These data support the idea that brain signal variability may modulate in response to environmental uncertainty, which is presumed to be greater in the external environment than in the internal milieu. Reduced flexibility of signal variability with age may indicate less ability to switch between internal and external brain states., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2018
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50. Repetition lag training eliminates age-related recollection deficits (and gains are maintained after three months) but does not transfer: Implications for the fractionation of recollection.

Author

Anderson ND, Ebert PL, Grady CL, and Jennings JM

Subjects
Adult, Aged, Aged, 80 and over, Aging psychology, Female, Humans, Male, Middle Aged, Time Factors, Young Adult, Exercise physiology, Memory Disorders therapy, Mental Recall physiology
Abstract

The objectives of this study were to replicate age-related decrements in recollection and source memory, and to determine if repetition lag training improves recollection and whether these effects maintain and transfer to other tasks. Sixteen young adults and 46 healthy older adults participated, the latter of whom comprised hi-old (n = 16) and lo-old (n = 30) based on neuropsychological memory tests. All participants completed memory tests and questionnaires at baseline, and then half of the lo-old underwent nine days of repetition lag training while the other half engaged in a 9-day active control program. The memory tests and questionnaires were repeated immediately after the training or control program, and again three months later. The baseline data replicated well-established age-related decrements in recollection. Repetition lag training improved objective measures of recollection, eliminated the age-related recollection decrement, and these improvements maintained over three months. However, training did not transfer to any other objective test of memory thought to rely on recollection, or to any subjective memory measure. The results demonstrate for the first time that repetition lag training improves objective measures of recollection, eliminates recollection differences between younger and older adults, and that these gains maintain over a 3-month period posttraining. The lack of transfer to other tasks, however, indicates that training one type of recollection (for the studied modality in this case) does not affect other types of recollection (e.g., of an item's recency). We suggest that recollection can be fractionated into many distinct types. (PsycINFO Database Record, ((c) 2018 APA, all rights reserved).)

Published
2018
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