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Investigation of the Human Neural Correlates of Memory for Sequences of Events and Their Changes in Typical Aging

Investigation of the Human Neural Correlates of Memory for Sequences of Events and Their Changes in Typical Aging
Author: Veronique Kristin Boucquey
Publisher:
Total Pages: 135
Release: 2016
Genre:
ISBN: 9781369227826
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Memory for sequences of events, an ability present in humans, nonhuman primates, and rodents, is a critical component of episodic memory and is known to decline in typical aging (Allen and Fortin, 2013; Allen et al., 2015; Fabiani and Friedman, 1997; Pinto-Hamuy and Linck, 1965; Roberts et al., 2014; Tolentino et al., 2012; Tulving, 1984). The use of a crossspecies task allows for complementary approaches in the rat and human in order to provide a greater understanding of the neural mechanisms underlying sequence memory ability. Using a non-spatial sequence memory paradigm in combination with blood-oxygen-level-dependent (BOLD) functional magnetic resonance imaging (fMRI), we present evidence that memory for sequences of events activates the hippocampus and medial prefrontal cortex in humans, paralleling recording studies and temporary inactivations in rats performing the cross-species task. In addition, these areas show functional connectivity over the course of the task to a greater degree than other regions, supporting the hypothesis that sequence memory in the human is subserved by the hippocampus and medial prefrontal cortex and their functional interactions. After demonstrating homology for the neural substrates of sequence memory in the rat and human, we sought to investigate the behavioral and neural changes associated with typical aging. We found that typically aging older adults showed behavioral impairments on the sequence memory task. Equating performance between young and older adults, using BOLD fMRI we found evidence for similar neural substrates, but decreased activity in older adults. In addition, we found that functional connectivity between hippocampus and medial prefrontal cortex decreased with age, as did connectivity between other regions that in young adults showed high connectivity. Future studies using variants of the cross-species task in both rats and humans, combined with additional imaging modalities, will further elucidate the underlying neurobiological changes in typical aging.

Memory and Aging

Memory and Aging
Author: Moshe Naveh-Benjamin
Publisher: Psychology Press
Total Pages: 441
Release: 2012-05-04
Genre: Psychology
ISBN: 1136583025
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Current demographical patterns predict an aging worldwide population. It is projected that by 2050, more than 20% of the US population and 40% of the Japanese population will be older than 65. A dramatic increase in research on memory and aging has emerged to understand the age-related changes in memory since the ability to learn new information and retrieve previously learned information is essential for successful aging, and allows older adults to adapt to changes in their environment, self-concept, and social roles. This volume represents the latest psychological research on different aspects of age-related changes in memory. Written by a group of leading international researchers, its chapters cover a broad array of issues concerning the changes that occur in memory as people grow older, including the mechanisms and processes underlying these age-related memory changes, how these changes interact with social and cultural environments, and potential programs intended to increase memory performance in old age. Similarly, the chapters draw upon diverse methodological approaches, including cross-cultural extreme group experimental designs, longitudinal designs assessing intra-participant change, and computational approaches and neuroimaging assessment. Together, they provide converging evidence for stability and change in memory as people grow older, for the underlying causes of these patterns, as well as for the heterogeneity in older adults’ performance. Memory and Aging is essential reading for researchers in memory, cognitive aging, and gerontology.

Cognitive Aging

Cognitive Aging
Author: Institute of Medicine
Publisher: National Academies Press
Total Pages: 300
Release: 2015-07-21
Genre: Medical
ISBN: 0309368650
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For most Americans, staying "mentally sharp" as they age is a very high priority. Declines in memory and decision-making abilities may trigger fears of Alzheimer's disease or other neurodegenerative diseases. However, cognitive aging is a natural process that can have both positive and negative effects on cognitive function in older adults - effects that vary widely among individuals. At this point in time, when the older population is rapidly growing in the United States and across the globe, it is important to examine what is known about cognitive aging and to identify and promote actions that individuals, organizations, communities, and society can take to help older adults maintain and improve their cognitive health. Cognitive Aging assesses the public health dimensions of cognitive aging with an emphasis on definitions and terminology, epidemiology and surveillance, prevention and intervention, education of health professionals, and public awareness and education. This report makes specific recommendations for individuals to reduce the risks of cognitive decline with aging. Aging is inevitable, but there are actions that can be taken by individuals, families, communities, and society that may help to prevent or ameliorate the impact of aging on the brain, understand more about its impact, and help older adults live more fully and independent lives. Cognitive aging is not just an individual or a family or a health care system challenge. It is an issue that affects the fabric of society and requires actions by many and varied stakeholders. Cognitive Aging offers clear steps that individuals, families, communities, health care providers and systems, financial organizations, community groups, public health agencies, and others can take to promote cognitive health and to help older adults live fuller and more independent lives. Ultimately, this report calls for a societal commitment to cognitive aging as a public health issue that requires prompt action across many sectors.

Brain Networks in Aging: Reorganization and Modulation by Interventions

Brain Networks in Aging: Reorganization and Modulation by Interventions
Author: Junfeng Sun
Publisher: Frontiers Media SA
Total Pages: 170
Release: 2018-02-22
Genre:
ISBN: 2889454169
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Old adults undertake multiple reduced cognitive abilities in aging, which are accompanied with specific brain reorganization in forms of regional brain activity and brain tissues, inter-region connectivity, and topology of whole brain networks in both function and structure. The plasticity changes of brain activities in old adults are explained by the mechanisms of compensation and dedifferentiation. For example, older adults have been observed to have greater, usually bilateral, prefrontal activities during memory tasks compared to the typical unilateral prefrontal activities in younger adults, which was explained as a compensation for the reduced brain activities in visual processing cortices. Dedifferentiation is another mechanism to explain that old adults are with much less selective and less distinct activity in task-relevant brain regions compared with younger adults. A larger number of studies have examined the plasticity changes of brain from the perspective of regional brain activities. However, studies on only regional brain activities cannot fully elucidate the neural mechanisms of reduced cognitive abilities in aging, as multiple regions are integrated together to achieve advanced cognitive function in human brain. In recent years, brain connectivity/network, which targets how brain regions are integrated, have drawn increasing attention in neuroscience with the development of neuroimaging techniques and graph theoretical analysis. Connectivity quantifies functional association or neural fibers between two regions that may be spatially far separated, and graph theoretical analysis of brain network examines the complex interactions among multiple regions from the perspective of topology. Studies showed that compared to younger adults, older adults had altered strength of task-relevant functional connectivity between specific brain regions in cognitive tasks, and the alternation of connectivity are correlated to behavior performance. For example, older adults had weaker functional connectivity between the premotor cortex and a region in the left dorsolateral prefrontal cortex in a working memory task. Interventions like cognitive training and neuro-modulation (e.g., transcranial magnetic stimulation) have been shown to be promising in regaining or retaining the decreasing cognitive abilities in aging. However, only few neuroimaging studies have examined the influence of interventions to old adult’s brain activity, connectivity, and cognitive performance. This Research Topic calls for contributions on brain network of subjects in normal aging or with age-related diseases like mild cognitive impairment and Alzheimer’s disease. The studies are expected to be based on neuroimaging techniques including but not limited to functional magnetic resonance imaging, Electroencephalography, and diffusion tensor imaging, and contributions on the influence of interventions to brain networks in aging are highly encouraged. All these studies would enrich our understanding of neural mechanisms underlying aging, and offer new insights for developing possible interventions to retain cognitive abilities in aging subjects.

Memory, Aging and the Brain

Memory, Aging and the Brain
Author: Lars Bäckman
Publisher: Psychology Press
Total Pages: 366
Release: 2009-09-11
Genre: Psychology
ISBN: 1135238790
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This book brings together some of the best known experts in their fields to offer a cross-disciplinary summary of current research on human memory. More than this however, the book pays tribute to the work of Lars-Göran Nilsson and his many contributions to the psychology of human memory. The book is divided into three subsections: General Issues in Human Memory, Memory and Aging, and Memory and the Brain. These sections represent the three cornerstones in Lars-Göran's scientific career and comprise contributions from senior collaborators, colleagues and former students. Areas of discussion include: long-term and working memory: how do they interact? an epidemiological approach to cognitive health in aging the cognitive neuroscience of signed language Covering a broad range of topics, Memory, Aging and the Brain will be of great interest to all those involved in the study and research of human memory.

The Neural Correlates Of The Age-Related Decrements in Selective Attention That Occur in Healthy Cognitive Aging

The Neural Correlates Of The Age-Related Decrements in Selective Attention That Occur in Healthy Cognitive Aging
Author:
Publisher:
Total Pages: 266
Release: 2014
Genre:
ISBN:
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There is growing evidence that cognitive changes associated with healthy aging occur much earlier than previously believed. Yet, the vast majority of healthy cognitive aging studies neglect to analyze the gradual neural and behavioural age-related changes that surreptitiously begin in mid-adulthood and continue into late-life. Attention serves as an example of one of these mid-life behavioural changes and, as such, offers an excellent opportunity for investigation into the early, behavioural changes that begin in mid-adulthood and their associated neural underpinnings. In this study, we attempted to unearth the neural correlates of these incremental changes by subjecting participants to a rapid event-related adaptation of the classic Stroop Task, concurrently with functional MRI scans. We recruited 60 cognitively normal participants from 40-90 years of age, with 12 participants within each decade group. We found that the bilateral Middle Frontal Gyrus (MFG) was the only area to exhibit unanimous, linear age-associated declines in activity amongst all participants. Anticipating major differences in neural activity between participants who exhibited large and small Stroop interference, in comparison to their age-matched peers, we divided participants into three separate groups, based on performance. Interestingly, those who performed well on the Stroop task exhibited declines only in the MFG, while participants who performed relatively poorly demonstrated age-associated declines in every single examined region of the Frontoparietal Attention Network. Furthermore, in accordance with studies of effective age-associated functional compensation, we discovered that high performers of the Stroop task solely relied on bilateral prefrontal Attentional Network regions to maintain optimal cognitive performance. In contrast, the relatively poor performance of those who exhibited larger Stroop effects was attributable to activity in areas involved in intact distraction suppression mechanisms, like the Intraparietal Sulcus (Superior and Inferior Parietal Lobules) and the Supramarginal Gyrus of the Temporoparietal Junction. Taken together, this investigation provides corroborative evidence for the high sensitivity of the Stroop task in detecting early neural age effects, novel insights into the linear changes associated with aging from mid- to late-life, and conclusive testimony of the widening interindividual variability in the functional patterns of the brain, and subsequently behaviour, in the elderly.

Effects of Age on Neural Correlates of Episodic Encoding and Brain Structure, and Their Relation to Cognitive Performance

Effects of Age on Neural Correlates of Episodic Encoding and Brain Structure, and Their Relation to Cognitive Performance
Author: Eleanor Liu
Publisher:
Total Pages: 0
Release: 2022
Genre: Aging
ISBN:
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Episodic memory – memory for unique personal events – is essential to our daily life. Relative to other forms of memory, episodic memory declines disproportionately with advancing age. One prominent account of such decline proposes a reduction in the efficacy of episodic encoding in older individuals. Numerous studies have employed functional magnetic resonance imaging to investigate the neural correlates of episodic encoding in young and older adults with the “subsequent memory procedure”. With this procedure, encoding related neural activity is contrasted based on subsequent memory performance for the study items. These studies have consistently reported that neural activity during encoding is predictive of later memory performance. Such subsequent memory effects (SMEs) take two forms: positive SMEs, where enhanced neural activity is associated with study items later remembered relative to study items that are less well remembered or forgotten; and negative SMEs, that take the opposite pattern. Studies have generally reported age-invariant positive SMEs whereas negative effects tend to be attenuated in older adults. Of importance, neural activity preceding the onset of a study item has also been shown to predict subsequent memory. Few studies have examined the effect of age on such pre-stimulus subsequent memory effects (pre-stimulus SMEs). Experiment 1 (Chapter 2) describes findings on pre-stimulus neural activity in healthy young and older adults. The results revealed age-invariant and age-dependent pre-stimulus SMEs in different brain regions, although age differences were mostly quantitative rather than qualitative. In contrast to prior reports of pre-stimulus SMEs, the effects in the present study were negative in direction. They could reflect allocation of neural resources in preparation of the upcoming study event. The study reported in Chapter 3 combined data from 2 independent experiments to examine age differences in poststimulus SMEs. The 2 regions of a priori interest were the hippocampus and left inferior frontal gyrus (IFG). Positive and negative SMEs were evident in both age groups. Of importance, the hippocampal SMEs were equivalent across age groups; and there was no evidence of age-related right-frontal over-recruitment. There was an age-invariant relationship between hippocampal SMEs and memory performance, suggesting intact hippocampal encoding activity in healthy older adults, and consistent with the notion that hippocampal activity reflects the amount of information encoded. A positive relationship between left IFG SME and memory performance was observed in older adults only. The study in Chapter 4 took an integrated approach to examine the relationship between structural and functional measures, and memory performance in young and older adults. Consistent with the literature, robust age-related decline was evident in hippocampal volume and cortical thickness. Results from an integrated statistical model revealed that hippocampal encoding activity, but not hippocampal volume, was predictive of memory performance in both age groups. On the other hand, cortical thickness negatively correlated with performance in young adults, but positively correlated with performance in older adults. Both cortical thickness and cortical SMEs explained unique variance in memory performance. Of importance, IFG thickness-memory relationships were no longer significant after controlling for global thickness. In conclusion, both pre-stimulus and encoding-related neural activity can be resistant to the effects of age, although the left IFG acts as a ‘bottleneck’ in older adults. Age differences in pre-stimulus SMEs require a nuanced interpretation, rather than appeal to a generic construct. Moreover, age differences appear to be more robust in structural rather than in functional measures. Lastly, the age-dependent cortical thickness-memory relationship was general rather than region-specific.

Investigations of Age-related Effects on the Neural Correlates of Recollection and Familiarity

Investigations of Age-related Effects on the Neural Correlates of Recollection and Familiarity
Author: Tracy Hsiang-Yi Wang
Publisher:
Total Pages: 332
Release: 2013
Genre: Age
ISBN:
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The present research investigated age-related differences in the neural correlates of two putative processes (recollection and familiarity) supporting recognition memory. Functional magnetic resonance imaging (fMRI) and electroencephalography (EEG) were utilized in concert with retrieval tasks that allow trials associated with recollection to be segregated from trials associated with familiarity. Some studies investigating age-related effects on the neural correlates of successful retrieval have reported that the neural correlates of retrieval are larger and more widespread in older subjects than in the young ('cortical over-recruitment'). These studies, however, vary widely in their methodologies, analyses, and even characterization of memory retrieval. The aim of the research described here is to elucidate the effects of age on the neural correlates of recognition memory. The second chapter of this dissertation describes an experiment that characterizes the neural correlates of episodic memory in subjects typically considered 'older' (between the ages of 63-77) and 'younger' (between the ages of 18-30) as indexed by functional magnetic resonance imaging (fMRI). The third chapter describes an analogous Event-related potential (ERP) study that investigated the electrophysiological correlates of recollection and familiarity in the same age groups as the study described in the second chapter. Finally, the fourth chapter describes the final experiment that investigated cortical reinstatement of material-specific recollection related effects in young and older subjects. This final study utilized univariate analysis to identify cortical reinstatement of material specific recollection-related activity, while using multivariate pattern analysis to quantify the amount of reinstatement in each age group. Overall, the findings provide evidence that there is no significant neural reorganization for the retrieval of episodic memory in the face of advancing age. Rather, the presented research suggests that under circumstances where encoding and retrieval are well controlled, the neural correlates of episodic retrieval remain largely invariant as a function of age.

Cognitive Changes and the Aging Brain

Cognitive Changes and the Aging Brain
Author: Kenneth M. Heilman
Publisher: Cambridge University Press
Total Pages:
Release: 2019-12-05
Genre: Medical
ISBN: 1108688497
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This book describes the changes in the brain and in cognitive functions that occur with aging in the absence of a neurological, psychiatric, or medical disease. It discusses aging-related changes in many brain functions, including memory, language, sensory perception, motor function, creativity, attention, executive functions, emotions and mood. The neural mechanisms that may account for specific aging-related changes in cognition, perception and behavior are explored, as well as the means by which aging-related cognitive decrements can be managed and possibly ameliorated. Consequently, this book will be of value to clinicians, including neurologists, psychiatrists, geriatricians, primary care physicians, psychologists and speech-language pathologists. In addition, researchers and graduate students who want to learn about the aging brain will find this an indispensable guide.

Investigating Age-related Differences in Functional Brain Activity and Connectivity Underlying Source Memory

Investigating Age-related Differences in Functional Brain Activity and Connectivity Underlying Source Memory
Author: Elizabeth Ankudowich
Publisher:
Total Pages:
Release: 2018
Genre:
ISBN:
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"Episodic memory encompasses an extraordinary range of diverse cognitive functions that are integral to daily functioning. Healthy aging is associated with declines in episodic memory, which may impair older adults' ability to remember the rich contextual details of previously experienced events. By the age of sixty, older individuals may have a reduced ability to remember spatial or temporal contextual features of past events (e.g., where or when you last took a prescription medication). Previous studies have focused on understanding the anatomical and functional neural correlates of episodic memory decline in young and older adulthood, but how these underlying mechanisms contribute to episodic memory to across the adult lifespan remains to be explored. In this series of studies, we aim to advance our understanding of the differences in episodic memory that develop across the adult lifespan and the neural basis of this age-related decline, as measured by functional magnetic resonance imaging (fMRI). Using a lifespan sample of young, middle-aged, and older adults, we employ a source memory paradigm to assess individuals' memory for the spatial and temporal contextual details of photographs of faces. In addition, we analyze fMRI data collected during both initial encoding and subsequent retrieval of contextual information in order to examine differential effects of age on encoding- and retrieval-specific processes. In Study 1, we demonstrate that declines in source memory may be discernible by midlife, extend into older adulthood, and are associated with reduced modulation of phase-specific activity in anterior prefrontal (PFC) and posterior ventral visual areas. We also show that older adulthood may be associated with increased phase-specific modulation, particularly in areas of lateral PFC and medial temporal lobes (MTL) at retrieval. In Study 2, we extend these findings to show how lifespan differences in phase-specific activity directly contribute to source memory performance. In particular, we find that older individuals engage dorsolateral PFC (DLPFC) to a greater extent at encoding and hippocampus (HC) to a greater extent at retrieval, during the phase when it does not seem to help performance across individuals. In Study 3, we address whether these age-related increases in encoding- or retrieval-specific activation might be related to differences in whole-brain connectivity. We examine whether age-related increases in DLPFC (Study 2 encoding) and posterior HC (Study 2 retrieval) differentially correlate with activity across the rest of the brain and with performance. In young adults, we demonstrate that connectivity between lateral PFC, parietal, and ventral visual cortical regions and our DLPFC seed relates to better performance. In older adults, these same regions show greater connectivity with posterior HC and relate to worse performance. Converging findings across studies suggests that activity and connectivity among fronto-parietal regions support the recollection of visual information and source memory performance in young adults, whereas aging may be associated with altered modulation of fronto-parietal activity and connectivity with posterior HC, which does not support source memory performance." --