scholarly journals The neuropsychology of emerging psychosis and the role of working memory in episodic memory encoding

2018 ◽  
Vol Volume 11 ◽  
pp. 157-168 ◽  
Author(s):  
Marlon O Pflueger ◽  
Pasquale Calabrese ◽  
Erich Studerus ◽  
Ronan Zimmermann ◽  
Ute Gschwandtner ◽  
...  
Keyword(s):  
Working Memory ◽  
Episodic Memory ◽  
Memory Encoding

Frontal lobe contributions to recognition and recall: Linking basic research with clinical evaluation and remediation

2006 ◽  
Vol 12 (2) ◽  
pp. 210-223 ◽  
Author(s):  
PATRICK S. R. DAVIDSON ◽  
ANGELA K. TROYER ◽  
MORRIS MOSCOVITCH
Keyword(s):  
Decision Making ◽  
Episodic Memory ◽  
Clinical Evaluation ◽  
Basic Research ◽  
Frontal Lobes ◽  
Focal Lesion ◽  
Memory Encoding ◽  
Memory Impairments ◽  
Memory Problems

The role of the human frontal lobes in episodic memory is becoming better understood, thanks mainly to focal lesion and neuroimaging studies. Here we review some recent findings from basic research on the frontal lobes in memory encoding, search, and decision-making at retrieval. For each of these processes, researchers have uncovered cases in which frontal memory impairments can be attenuated by various task manipulations. We suggest ways in which these findings may inform clinical evaluation and rehabilitation of memory problems following frontal damage. (JINS, 2006,12, 210–223.)

Individual Differences in Value-Directed Remembering

2019 ◽  
Author(s):  
Blake L. Elliott ◽  
Samuel M. McClure ◽  
Gene Arnold Brewer
Keyword(s):  
Working Memory ◽  
Individual Differences ◽  
Episodic Memory ◽  
Structural Equation ◽  
Working Memory Capacity ◽  
Human Memory ◽  
Memory Capacity ◽  
Equation Modeling ◽  
Memory Encoding ◽  
Capacity Limits

Prioritized encoding and retrieval of valuable information is an essential component of human memory due to capacity limits. Individual differences in value-directed encoding may derive from variability in stimulus valuation, memory encoding, or from strategic abilities related to maintenance in working memory. We collected multiple cognitive ability measures to test whether variation in episodic memory, working memory capacity, or both predict differences in value-directed remembering among a large sample of participants (n=205). Confirmatory factor analysis and structural equation modeling was used to assess the contributions of episodic and working memory to value sensitivity in value-directed remembering tasks. Episodic memory ability, but not working memory capacity, was predictive of value-directed remembering. These results suggest that cognitive processes may be differentially related to value-based memory encoding.

scholarly journals Complementary Role of Frontoparietal Activity and Cortical Pattern Similarity in Successful Episodic Memory Encoding

2012 ◽  
Vol 23 (7) ◽  
pp. 1562-1571 ◽  
Author(s):  
Gui Xue ◽  
Qi Dong ◽  
Chuansheng Chen ◽  
Zhong-Lin Lu ◽  
Jeanette A. Mumford ◽  
...  
Keyword(s):  
Episodic Memory ◽  
Memory Encoding ◽  
Complementary Role ◽  
Pattern Similarity

Imaging Cognition II: An Empirical Review of 275 PET and fMRI Studies

2000 ◽  
Vol 12 (1) ◽  
pp. 1-47 ◽  
Author(s):  
Roberto Cabeza ◽  
Lars Nyberg
Keyword(s):  
Working Memory ◽  
Episodic Memory ◽  
Semantic Memory ◽  
Memory Retrieval ◽  
Procedural Memory ◽  
Spatial Problem ◽  
Memory Encoding ◽  
Functional Neuroanatomy ◽  
Activation Patterns ◽  
Space Motion

Positron emission tomography (PET) and functional magnetic resonance imaging (fMRI) have been extensively used to explore the functional neuroanatomy of cognitive functions. Here we review 275 PET and fMRI studies of attention (sustained, selective, Stroop, orientation, divided), perception (object, face, space/motion, smell), imagery (object, space/ motion), language (written/spoken word recognition, spoken/ no spoken response), working memory (verbal/numeric, object, spatial, problem solving), semantic memory retrieval (categorization, generation), episodic memory encoding (verbal, object, spatial), episodic memory retrieval (verbal, nonverbal, success, effort, mode, context), priming (perceptual, conceptual), and procedural memory (conditioning, motor, and nonmotor skill learning). To identify consistent activation patterns associated with these cognitive operations, data from 412 contrasts were summarized at the level of cortical Brodmann's areas, insula, thalamus, medial-temporal lobe (including hippocampus), basal ganglia, and cerebellum. For perception and imagery, activation patterns included primary and secondary regions in the dorsal and ventral pathways. For attention and working memory, activations were usually found in prefrontal and parietal regions. For language and semantic memory retrieval, typical regions included left prefrontal and temporal regions. For episodic memory encoding, consistently activated regions included left prefrontal and medial-temporal regions. For episodic memory retrieval, activation patterns included prefrontal, medial-temporal, and posterior midline regions. For priming, deactivations in prefrontal (conceptual) or extrastriate (perceptual) regions were consistently seen. For procedural memory, activations were found in motor as well as in non-motor brain areas. Analysis of regional activations across cognitive domains suggested that several brain regions, including the cerebellum, are engaged by a variety of cognitive challenges. These observations are discussed in relation to functional specialization as well as functional integration.

scholarly journals Modeling the role of working memory and episodic memory in behavioral tasks

Hippocampus ◽  
2008 ◽  
Vol 18 (2) ◽  
pp. 193-209 ◽  
Author(s):  
Eric A. Zilli ◽  
Michael E. Hasselmo
Keyword(s):  
Working Memory ◽  
Episodic Memory ◽  
Behavioral Tasks

scholarly journals Influence of Cognitive Reserve on Cognitive Trajectories: Role of Brain Pathologies

Neurology ◽  
2021 ◽  
pp. 10.1212/WNL.0000000000012728
Author(s):  
Xuerui Li ◽  
Ruixue Song ◽  
Xiuying Qi ◽  
Hui Xu ◽  
Wenzhe Yang ◽  
...  
Keyword(s):  
Working Memory ◽  
Cognitive Function ◽  
Episodic Memory ◽  
Cognitive Reserve ◽  
Late Life ◽  
Mixed Effect ◽  
Mixed Effect Models ◽  
Global Cognition

Background and Objectives:Evidence on the association of the cognitive reserve (CR) with the cognitive trajectories is limited. We aimed to examine the influence of CR indicator on domain-specific cognitive trajectories taking brain pathologies into account.Methods:Within the Rush Memory and Aging Project, 1,697 dementia-free participants (mean age: 79.6 years) were followed up to 21 years. CR indicator encompassing education, early-life, mid-life, and late-life cognitive activities, and late-life social activity was ascertained at baseline and categorized as tertiles (the lowest, middle, and highest). Global cognition, episodic memory, semantic memory, working memory, visuospatial ability, and perceptual speed were assessed annually with 19 tests, from which composite scores were derived. During the follow-up, 648 died and underwent autopsies to evaluate brain pathologies. Data were analyzed using linear mixed-effect models.Results:Among the participants, the score of the CR indicator ranged from -8.00 to 5.74 (mean: 0.00±2.23). In multi-adjusted mixed-effect models, compared to the lowest CR, the highest was related to a slower decline in global cognition (β=0.028, 95% confidence interval [CI]: 0.012 to 0.043), episodic memory (β=0.028, 95% CI: 0.010 to 0.047) and working memory (β=0.019, 95% CI: 0.005 to 0.033) during the follow-up. In brain pathological data analysis, the association of the highest CR with cognitive function changes remained significant among participants with high Alzheimer’s disease pathology or gross infarcts.Discussion:High CR indicator is associated with preserved global cognitive function, episodic memory, and working memory, even in the presence of brain pathologies. Our findings highlight the important role of high CR accumulation in the prevention of cognitive decline.

scholarly journals Optogenetic scrambling of hippocampal theta oscillations alters working memory retrieval but not hippocampal spatiotemporal codes

2021 ◽  
Author(s):  
Guillaume Etter ◽  
Suzanne van der Veldt ◽  
Jisoo Choi ◽  
Sylvain Williams
Keyword(s):  
Working Memory ◽  
Memory Retrieval ◽  
Recognition Task ◽  
Medial Septum ◽  
Inhibitory Neurons ◽  
Memory Encoding ◽  
Exact Role ◽  
Match To Sample ◽  
Hippocampal Theta

The precise temporal coordination of activity in the brain is thought to be fundamental for memory encoding and retrieval. The medial septum (MS) provides the largest source of innervation to the hippocampus (HPC), and its inhibitory neurons play a major role in controlling HPC theta (~8 Hz) oscillations. While pharmacological inhibition of the MS is associated with memory impairment, the exact role of MS inhibitory neurons in HPC function and memory is not fully understood. While HPC place cells were previously reported to not depend on MS inputs, the exact role of MS inputs on HPC temporal codes is still a matter of debate. Moreover, pharmacological manipulations do not have the temporal resolution to distinguish the role of MS activity on working memory encoding, retention and retrieval. Here we stimulated the MS with optogenetics to either pace or ablate theta, while recording large hippocampal assemblies over time using calcium imaging along with local field potentials to monitor theta control. Using scrambled light stimulation, we could robustly ablate theta signals, which was associated with direct modulation of a subpopulation of neurons in the HPC. We found that such stimulation led to decreased working memory retrieval, but not encoding in both a delayed non-match to sample task and a novel place object recognition task. Strikingly, scrambled stimulations were not associated with disrupted spatiotemporal codes. Importantly, we show that our opsin did not transfect cholinergic cells and stimulation did not disrupt HPC ripple activity or running speed, suggesting a specific role for MS GABAergic cells in memory maintenance and retrieval that is independent from these other potential confounding mechanisms. Our study suggests that theta signals play a specific and essential role in supporting working memory retrieval and maintenance while not being necessary for hippocampal spatiotemporal codes.

scholarly journals Enhancing visual working memory encoding: The role of target novelty

2011 ◽  
Vol 19 (7) ◽  
pp. 863-885 ◽  
Author(s):  
Jutta S. Mayer ◽  
Jejoong Kim ◽  
Sohee Park
Keyword(s):  
Working Memory ◽  
Visual Working Memory ◽  
Memory Encoding

scholarly journals Dopamine D2 receptor availability is linked to hippocampal–caudate functional connectivity and episodic memory

2016 ◽  
Vol 113 (28) ◽  
pp. 7918-7923 ◽  
Author(s):  
Lars Nyberg ◽  
Nina Karalija ◽  
Alireza Salami ◽  
Micael Andersson ◽  
Anders Wåhlin ◽  
...  
Keyword(s):  
Working Memory ◽  
Functional Connectivity ◽  
Episodic Memory ◽  
Dopamine D2 Receptor ◽  
Temporal Cortex ◽  
D2 Receptor ◽  
Resting State Functional Connectivity ◽  
D2 Dopamine Receptors ◽  
Specific Contribution

D1 and D2 dopamine receptors (D1DRs and D2DRs) may contribute differently to various aspects of memory and cognition. The D1DR system has been linked to functions supported by the prefrontal cortex. By contrast, the role of the D2DR system is less clear, although it has been hypothesized that D2DRs make a specific contribution to hippocampus-based cognitive functions. Here we present results from 181 healthy adults between 64 and 68 y of age who underwent comprehensive assessment of episodic memory, working memory, and processing speed, along with MRI and D2DR assessment with [11C]raclopride and PET. Caudate D2DR availability was positively associated with episodic memory but not with working memory or speed. Whole-brain analyses further revealed a relation between hippocampal D2DR availability and episodic memory. Hippocampal and caudate D2DR availability were interrelated, and functional MRI-based resting-state functional connectivity between the ventral caudate and medial temporal cortex increased as a function of caudate D2DR availability. Collectively, these findings indicate that D2DRs make a specific contribution to hippocampus-based cognition by influencing striatal and hippocampal regions, and their interactions.

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