Visual search and the aging brain: Discerning the effects of age-related brain volume shrinkage on alertness, feature binding, and attentional control.

Brain reserve is a topic of great interest to researchers in aging medicine field. Some individuals retain well-preserved cognitive function until they fulfill their lives despite significant brain pathology. One concept that explains this paradox is the reserve hypothesis, including brain reserve that assumes a virtual ability to mitigate the effects of neuropathological changes and reduce the effects on clinical symptoms flexibly and efficiently by making complete use of the cognitive and compensatory processes. One of the surrogate measures of reserve capacity is brain volume. Evidence that dementia and hearing loss are interrelated has been steadily accumulating, and age-related hearing loss is one of the most promising modifiable risk factors of dementia. Research focused on the imaging analysis of the aged brain relative to auditory function has been gradually increasing. Several morphological studies have been conducted to understand the relationship between hearing loss and brain volume. In this mini review, we provide a brief overview of the concept of brain reserve, followed by a small review of studies addressing brain morphology and hearing loss/hearing compensation, including the findings obtained from our previous study that hearing loss after middle age could affect hippocampal and primary auditory cortex atrophy.

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Age-related effects in the marking of old objects in visual search.

Psychology and Aging ◽

10.1037/0882-7974.15.2.286 ◽

2000 ◽

Vol 15 (2) ◽

pp. 286-296 ◽

Cited By ~ 17

Author(s):

Arthur F. Kramer ◽

Paul Atchley

Keyword(s):

Visual Search ◽

Age Related

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Assessing working memory capacity through picture span and feature binding with visual-graphic symbols during a visual search task with typical children and adults

Augmentative and Alternative Communication ◽

10.1080/07434618.2021.1879932 ◽

2021 ◽

pp. 1-13

Author(s):

Barry T. Wagner ◽

Lauren A. Shaffer ◽

Olivia A Ivanson ◽

James A. Jones

Keyword(s):

Working Memory ◽

Visual Search ◽

Search Task ◽

Visual Search Task ◽

Working Memory Capacity ◽

Memory Capacity ◽

Feature Binding ◽

Graphic Symbols ◽

Visual Graphic

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Electrophysiological signatures of brain aging in autism spectrum disorder

10.1101/2021.03.18.434885 ◽

2021 ◽

Author(s):

Abigail Dickinson ◽

Shafali Jeste ◽

Elizabeth Milne

Keyword(s):

Autism Spectrum Disorder ◽

Brain Aging ◽

Autism Spectrum ◽

Spectrum Disorder ◽

Aging Brain ◽

Significant Group ◽

Care Plans ◽

Alpha Frequency ◽

Age Related ◽

Adults With Asd

AbstractEmerging evidence suggests that aging processes may be altered in adults with autism spectrum disorder (ASD). However, it remains unclear if oscillatory slowing, a key neurophysiological change in the aging brain, manifests atypically in this population. This study sought to examine patterns of age-related oscillatory slowing in adults with ASD, captured by reductions in the brain’s peak alpha frequency. Resting-state EEG data from adults (18-70 years) with ASD (N=93) and age-matched neurotypical (NT) controls (N=87) were pooled from three independent datasets. A robust curve-fitting procedure quantified the peak frequency of alpha oscillations (7-13Hz) across all brain regions. Associations between peak alpha frequency and age were assessed and compared between groups. Consistent with characteristic patterns of oscillatory slowing, peak alpha frequency was negatively associated with age across the entire sample (p<.0001). A significant group by age interaction revealed that this relationship was more pronounced in adults with ASD (p<.01), suggesting that that age-related oscillatory slowing may be accelerated in this population. Scalable EEG measures such as peak alpha frequency could provide insights into neural aging that are crucially needed to inform care plans and preventive interventions that can promote successful aging in ASD.

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The aging mind: neuroplasticity in response to cognitive training

Dialogues in Clinical Neuroscience ◽

10.31887/dcns.2013.15.1/dpark ◽

2013 ◽

Vol 15 (1) ◽

pp. 109-119 ◽

Cited By ~ 48

Keyword(s):

Cognitive Function ◽

Cognitive Training ◽

Neural Plasticity ◽

Cognitive Effort ◽

Aging Brain ◽

Cognitive Domains ◽

Training Techniques ◽

Age Related ◽

Strategy Change ◽

The Brain

Is it possible to enhance neural and cognitive function with cognitive training techniques? Can we delay age-related decline in cognitive function with interventions and stave off Alzheimer's disease? Does an aged brain really have the capacity to change in response to stimulation? In the present paper, we consider the neuroplasticity of the aging brain, that is, the brain's ability to increase capacity in response to sustained experience. We argue that, although there is some neural deterioration that occurs with age, the brain has the capacity to increase neural activity and develop neural scaffolding to regulate cognitive function. We suggest that increase in neural volume in response to cognitive training or experience is a clear indicator of change, but that changes in activation in response to cognitive training may be evidence of strategy change rather than indicative of neural plasticity. We note that the effect of cognitive training is surprisingly durable over time, but that the evidence that training effects transfer to other cognitive domains is relatively limited. We review evidence which suggests that engagement in an environment that requires sustained cognitive effort may facilitate cognitive function.

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Age-related effects in compound production: Evidence from a double-object picture naming task

Quarterly Journal of Experimental Psychology ◽

10.1177/1747021818806491 ◽

2018 ◽

Vol 72 (7) ◽

pp. 1667-1681 ◽

Cited By ~ 1

Author(s):

Antje Lorenz ◽

Pienie Zwitserlood ◽

Stefanie Regel ◽

Rasha Abdel Rahman

Keyword(s):

Attentional Control ◽

Picture Naming ◽

Lexical Processing ◽

Naming Task ◽

The Elderly ◽

Double Object ◽

Processing Load ◽

Semantic Interference ◽

Age Related ◽

Whole Word

This study investigated effects of healthy ageing and of non-verbal attentional control on speech production. Young and older speakers participated in a picture-word interference (PWI) task with compound targets. To increase the processing load, the two pictures of the compounds’ constituents were presented side-by-side for spoken naming (e.g., a picture of a sun + a picture of a flower to be named with sunflower). Written distractors either corresponded to the first or second constituent ( sun or flower → sunflower), or were semantically related either to the first constituent of the target ( moon → sunflower) or to the second constituent/whole word ( tulip → sunflower). Morpho-phonological facilitation was obtained for both constituents, whereas semantic interference was restricted to first-constituent-related semantic distractors. Furthermore, a trend towards facilitation was obtained for distractors that were semantically related to the whole word. Older speakers were slower and produced more errors than young speakers. While morphological effects of first-constituent distractors were stronger for the elderly, the semantic effects were not affected by age. Non-verbal attentional control processes, measured in the Simon task, significantly contributed to morpho-phonological priming in the elderly, but they did not affect semantic interference or semantic facilitation. With a picture naming task that increases the semantic and lexical processing load, we corroborate earlier evidence that word-finding difficulties in the elderly result from deficient phonological encoding, whereas lexical-semantic and morpho-phonological representations remain stable with age.

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An EEG study of the combined effects of top-down and bottom-up attentional selection under varying task difficulty

10.31234/osf.io/4cxmv ◽

2021 ◽

Author(s):

Einat Rashal ◽

Mehdi Senoussi ◽

Elisa Santandrea ◽

Suliann Ben Hamed ◽

Emiliano Macaluso ◽

...

Keyword(s):

Visual Search ◽

Attentional Control ◽

Task Difficulty ◽

Target Selection ◽

Attentional Selection ◽

Combined Effects ◽

Top Down ◽

Bottom Up ◽

Search Tasks

This work reports an investigation of the effect of combined top-down and bottom-up attentional control sources, using known attention-related EEG components that are thought to reflect target selection (N2pc) and distractor suppression (PD), in easy and difficult visual search tasks.

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Drawn to Distraction: Anxiety Impairs Neural Suppression of Known Distractor Features in Visual Search

Journal of Cognitive Neuroscience ◽

10.1162/jocn_a_01743 ◽

2021 ◽

pp. 1-13

Author(s):

Christine Salahub ◽

Stephen M. Emrich

Keyword(s):

Visual Search ◽

Attentional Control ◽

Template Matching ◽

Time Course ◽

High Anxiety ◽

Guided Search ◽

Distractor Processing ◽

Search And Destroy

Abstract When searching for a target, it is possible to suppress the features of a known distractor. This suppression may prevent distractor processing altogether or only after the distractor initially captures attention (i.e., search and destroy). However, suppression may be impaired in individuals with attentional control deficits, such as in high anxiety. In this study (n = 48), we used ERPs to examine the time course of attentional enhancement and suppression when participants were given pretrial information about target or distractor features. Consistent with our hypothesis, we found that individuals with higher levels of anxiety had lower neural measures of suppressing the template-matching distractor, instead showing enhanced processing. These findings indicate that individuals with anxiety are more likely to use a search-and-destroy mechanism of negative templates—highlighting the importance of attentional control abilities in distractor-guided search.

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Neuroimaging Approaches for Elderly Studies

Medical Imaging ◽

10.4018/978-1-5225-0571-6.ch067 ◽

2017 ◽

pp. 1576-1617

Author(s):

Charis Styliadis ◽

Panagiotis Kartsidis ◽

Evangelos Paraskevopoulos

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Structure And Function ◽

Cognitive Capacity ◽

Aging Brain ◽

Cerebral Structure ◽

Age Related ◽

Elderly Populations ◽

And Function ◽

Age Related Changes

Advances in the field of neuroimaging have allowed for the examination of the effects of age-related changes on cognitive capacity in elderly populations. Structural techniques are now routinely used to report cortical atrophic rates in aging and particularly within the context of the Alzheimer's disease, and may be integrated with functional techniques which examine the functional characteristics of the cortex at rest and during the performance of a task. Despite advancing age cognitive function remains highly plastic, allowing for interventions that aim to maintain or even remediate its capacity and the mechanisms by which structure and function are altered among seniors. Overall, information on the integrity of the cerebral structure and function aid in the early detection and treatment of the Alzheimer's disease as well as the evaluation and track of the disease's progression. In this chapter, neuroimaging methods are presented along with findings that are particularly relevant for the study of neuroplasticity in the aging brain.

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Advanced Aging Enhances the Positivity Effect in Memory: Due to Cognitive Control or Age-Related Decline in Emotional Processing?

Collabra Psychology ◽

10.1525/collabra.222 ◽

2019 ◽

Vol 5 (1) ◽

Cited By ~ 2

Author(s):

Michiko Sakaki ◽

Jasmine A. L. Raw ◽

Jamie Findlay ◽

Mariel Thottam

Keyword(s):

Older Adults ◽

Cognitive Control ◽

Emotional Processing ◽

Aging Brain ◽

Control Mechanisms ◽

Younger Adults ◽

Positivity Effect ◽

Old Adults ◽

Age Related ◽

Conditioned Responses

Older adults typically remember more positive than negative information compared to their younger counterparts; a phenomenon referred to as the ‘positivity effect.’ According to the socioemotional selectivity theory (SST), the positivity effect derives from the age-related motivational shift towards attaining emotionally meaningful goals which become more important as the perception of future time becomes more limited. Cognitive control mechanisms are critical in achieving such goals and therefore SST predicts that the positivity effect is associated with preserved cognitive control mechanisms in older adults. In contrast, the aging-brain model suggests that the positivity effect is driven by an age-related decline in the amygdala which is responsible for emotional processing and emotional learning. The aim of the current research was to address whether the age-related positivity effect is associated with cognitive control or impaired emotional processing associated with aging. We included older old adults, younger old adults and younger adults and tested their memory for emotional stimuli, cognitive control and amygdala-dependent fear conditioned responses. Consistent with prior research, older adults, relative to younger adults, demonstrate better memory for positive over negative images. We further found that within a group of older adults, the positivity effect increases as a function of age, such that older old adults demonstrated a greater positivity effect compared to younger older adults. Furthermore, the positivity effect in older old adults was associated with preserved cognitive control, supporting the prediction of SST. Contrary to the prediction of the aging-brain model, participants across all groups demonstrated similar enhanced skin conductance responses to fear conditioned stimuli – responses known to rely on the amygdala. Our results support SST and suggest that the positivity effect in older adults is achieved by the preserved cognitive control mechanisms and is not a reflection of the impaired emotional function associated with age.

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