Your search keyword '"Nyberg, L."' showing total 63 results

1. Forecasting memory function in aging: pattern-completion ability and hippocampal activity relate to visuospatial functioning over 25 years.

Author

Nyberg L, Grande X, Andersson M, Berron D, Lundquist A, Stiernstedt M, Fjell A, Walhovd K, and Orädd G

Subjects

Age Factors, Aged, Aged, 80 and over, Diffusion Magnetic Resonance Imaging, Female, Forecasting, Hippocampus diagnostic imaging, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Aging physiology, Aging psychology, Cognition physiology, Hippocampus physiology, Memory physiology, Pattern Recognition, Visual physiology, Spatial Processing physiology

Abstract

Heterogeneity in episodic memory functioning in aging was assessed with a pattern-completion functional magnetic resonance imaging task that required reactivation of well-consolidated face-name memory traces from fragmented (partial) or morphed (noisy) face cues. About half of the examined individuals (N = 101) showed impaired (chance) performance on fragmented faces despite intact performance on complete and morphed faces, and they did not show a pattern-completion response in hippocampus or the examined subfields (CA1, CA23, DGCA4). This apparent pattern-completion deficit could not be explained by differential hippocampal atrophy. Instead, the impaired group displayed lower cortical volumes, accelerated reduction in mini-mental state examination scores, and lower general cognitive function as defined by longitudinal measures of visuospatial functioning and speed-of-processing. In the full sample, inter-individual differences in visuospatial functioning predicted performance on fragmented faces and hippocampal CA23 subfield activity over 25 years. These findings suggest that visuospatial functioning in middle age can forecast pattern-completion deficits in aging., (Copyright © 2020 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2020

2. Successful Memory Aging.

Author

Nyberg L and Pudas S

Subjects

Aging genetics, Healthy Aging genetics, Humans, Aging physiology, Healthy Aging physiology, Memory physiology

Abstract

For more than 50 years, psychologists, gerontologists, and, more recently, neuroscientists have considered the possibility of successful aging. How to define successful aging remains debated, but well-preserved age-sensitive cognitive functions, like episodic memory, is an often-suggested criterion. Evidence for successful memory aging comes from cross-sectional and longitudinal studies showing that some older individuals display high and stable levels of performance. Successful memory aging may be accomplished via multiple paths. One path is through brain maintenance, or relative lack of age-related brain pathology. Through another path, successful memory aging can be accomplished despite brain pathology by means of efficient compensatory and strategic processes. Genetic, epigenetic, and lifestyle factors influence memory aging via both paths. Some of these factors can be promoted throughout the life course, which, at the individual as well as the societal level, can positively impact successful memory aging.

Published

2019

3. Maintained memory in aging is associated with young epigenetic age.

Author

Degerman S, Josefsson M, Nordin Adolfsson A, Wennstedt S, Landfors M, Haider Z, Pudas S, Hultdin M, Nyberg L, and Adolfsson R

Subjects

Aged, Aged, 80 and over, Female, Humans, Longitudinal Studies, Male, Middle Aged, Aging genetics, Aging psychology, Cognition physiology, DNA Methylation genetics, Epigenesis, Genetic genetics, Memory physiology

Abstract

Epigenetic alterations during aging have been proposed to contribute to decline in physical and cognitive functions, and accelerated epigenetic aging has been associated with disease and all-cause mortality later in life. In this study, we estimated epigenetic age dynamics in groups with different memory trajectories (maintained high performance, average decline, and accelerated decline) over a 15-year period. Epigenetic (DNA-methylation [DNAm]) age was assessed, and delta age (DNAm age - chronological age) was calculated in blood samples at baseline (age: 55-65 years) and 15 years later in 52 age- and gender-matched individuals from the Betula study in Sweden. A lower delta DNAm age was observed for those with maintained memory functions compared with those with average (p = 0.035) or accelerated decline (p = 0.037). Moreover, separate analyses revealed that DNAm age at follow-up, but not chronologic age, was a significant predictor of dementia (p = 0.019). Our findings suggest that young epigenetic age contributes to maintained memory in aging., (Copyright © 2017 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2017

4. Midlife memory ability accounts for brain activity differences in healthy aging.

Author

Pudas S, Persson J, Nilsson LG, and Nyberg L

Subjects

Aged, Aged, 80 and over, Aging pathology, Female, Functional Neuroimaging, Hippocampus pathology, Humans, Longitudinal Studies, Magnetic Resonance Imaging, Male, Middle Aged, Prefrontal Cortex pathology, Regression Analysis, Aging physiology, Aging psychology, Hippocampus physiology, Memory physiology, Prefrontal Cortex physiology

Abstract

Cross-sectional neuroimaging studies suggest that hippocampal and prefrontal cortex functions underlie individual differences in memory ability in older individuals, but it is unclear how individual differences in cognitive ability in youth contribute to cognitive and neuroimaging measures in older age. Here, we investigated the relative influences of midlife memory ability and age-related memory change on memory-related BOLD-signal variability at one time point, using a sample from a longitudinal population-based aging study (N = 203, aged 55-80 years). Hierarchical regression analyses showed that midlife memory ability, assessed 15-20 years earlier, explained at least as much variance as memory change in clusters in the left inferior prefrontal cortex and the bilateral hippocampus, during memory encoding. Furthermore, memory change estimates demonstrated higher sensitivity than current memory levels in identifying distinct frontal regions where activity was selectively related to age-related memory change, as opposed to midlife memory. These findings highlight challenges in interpreting individual differences in neurocognitive measures as age-related changes in the absence of longitudinal data and also demonstrate the improved sensitivity of longitudinal measures., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

5. Additive genetic effect of APOE and BDNF on hippocampus activity.

Author

Kauppi K, Nilsson LG, Persson J, and Nyberg L

Subjects

Aged, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Apolipoproteins E genetics, Brain-Derived Neurotrophic Factor genetics, Genotype, Hippocampus physiology, Memory physiology

Abstract

Human memory is a highly heritable polygenic trait with complex inheritance patterns. To study the genetics of memory and memory-related diseases, hippocampal functioning has served as an intermediate phenotype. The importance of investigating gene-gene effects on complex phenotypes has been emphasized, but most imaging studies still focus on single polymorphisms. APOE ε4 and BDNF Met, two of the most studied gene variants for variability in memory performance and neuropsychiatric disorders, have both separately been related to poorer episodic memory and altered hippocampal functioning. Here, we investigated the combined effect of APOE and BDNF on hippocampal activation (N=151). No non-additive interaction effects were seen. Instead, the results revealed decreased activation in bilateral hippocampus and parahippocampus as a function of the number of APOE ε4 and BDNF Met alleles present (neither, one, or both). The combined effect was stronger than either of the individual effects, and both gene variables explained significant proportions of variance in BOLD signal change. Thus, there was an additive gene-gene effect of APOE and BDNF on medial temporal lobe (MTL) activation, showing that a larger proportion of variance in brain activation attributed to genetics can be explained by considering more than one gene variant. This effect might be relevant for the understanding of normal variability in memory function as well as memory-related disorders associated with APOE and BDNF., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2014

6. Relationship between natural teeth and memory in a healthy elderly population.

Author

Hansson P, Sunnegårdh-Grönberg K, Bergdahl J, Bergdahl M, Nyberg L, and Nilsson LG

Subjects

Aged, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Regression Analysis, Cognition physiology, Memory physiology, Tooth Loss

Abstract

The relationship between mastication and cognitive function remains unclear, but both animal and experimental human studies suggest a possible causal relationship. In the present study it was hypothesized that natural teeth are of importance for hippocampus-based cognitive processes, such as episodic long-term memory. A population-based sample of 273 participants (55-80 yr of age; 145 women) was investigated in a cross-sectional study. The participants underwent health assessment, completed a battery of cognitive tests, and took part in an extensive clinical oral examination. The number of natural teeth contributed uniquely and significantly to explaining variance (3-4%) in performance on measures of episodic memory and semantic memory over and above individual differences in age, years of education, gender, occupation, living conditions, and medical history. The number of natural teeth did not have an influence on the performance of measures of working memory, visuospatial ability, or processing speed. Within the limitations of the current study, a small, but significant, relationship between episodic memory and number of natural teeth is evident., (© 2013 Eur J Oral Sci.)

Published

2013

7. Preserved hippocampus activation in normal aging as revealed by fMRI.

Author

Persson J, Kalpouzos G, Nilsson LG, Ryberg M, and Nyberg L

Subjects

Acoustic Stimulation methods, Adult, Aged, Female, Humans, Male, Middle Aged, Photic Stimulation methods, Young Adult, Aging physiology, Hippocampus physiology, Magnetic Resonance Imaging methods, Memory physiology, Reaction Time physiology

Abstract

The hippocampus is deteriorated in various pathologies such as Alzheimer's disease (AD) and such deterioration has been linked to memory impairment. By contrast, the structural and functional effects of normal aging on the hippocampus is a matter of debate, with some findings suggesting deterioration and others providing evidence of preservation. This constitutes a crucial question since many investigations on AD are based on the assumption that the deterioration of the hippocampus is the breaking point between normal and pathological aging. A growing number of fMRI studies specifically aimed at investigating hippocampal engagement in various cognitive tasks, notably memory tasks, but the results have been inconclusive. Here, we optimized the episodic face-name paired-associates task in order to test the functioning of the hippocampus in normal aging. Critically, we found no difference in the activation of the hippocampus between the young and a group of older participants. Analysis of individual patterns of activation substantiated this impression. Collectively, these findings provide evidence of preserved hippocampal functioning in normal aging., (Copyright © 2010 Wiley-Liss, Inc.)

Published

2011

8. Neurocognitive systems related to real-world prospective memory.

Author

Kalpouzos G, Eriksson J, Sjölie D, Molin J, and Nyberg L

Subjects

Adult, Eye Movements, Female, Humans, Magnetic Resonance Imaging, Male, Cognition, Memory

Abstract

Background: Prospective memory (PM) denotes the ability to remember to perform actions in the future. It has been argued that standard laboratory paradigms fail to capture core aspects of PM., Methodology/principal Findings: We combined functional MRI, virtual reality, eye-tracking and verbal reports to explore the dynamic allocation of neurocognitive processes during a naturalistic PM task where individuals performed errands in a realistic model of their residential town. Based on eye movement data and verbal reports, we modeled PM as an iterative loop of five sustained and transient phases: intention maintenance before target detection (TD), TD, intention maintenance after TD, action, and switching, the latter representing the activation of a new intention in mind. The fMRI analyses revealed continuous engagement of a top-down fronto-parietal network throughout the entire task, likely subserving goal maintenance in mind. In addition, a shift was observed from a perceptual (occipital) system while searching for places to go, to a mnemonic (temporo-parietal, fronto-hippocampal) system for remembering what actions to perform after TD. Updating of the top-down fronto-parietal network occurred at both TD and switching, the latter likely also being characterized by frontopolar activity., Conclusion/significance: Taken together, these findings show how brain systems complementary interact during real-world PM, and support a more complete model of PM that can be applied to naturalistic PM tasks and that we named PROspective MEmory DYnamic (PROMEDY) model because of its dynamics on both multi-phase iteration and the interactions of distinct neurocognitive networks.

Published

2010

9. Examination of the common cause account in a population-based longitudinal study with narrow age cohort design.

Author

Sternäng O, Jonsson B, Wahlin A, Nyberg L, and Nilsson LG

Subjects

Aged, Aged, 80 and over, Central Nervous System physiology, Cohort Effect, Cross-Sectional Studies, Female, Humans, Intelligence Tests, Longitudinal Studies, Male, Middle Aged, Research Design, Statistics as Topic, Sweden epidemiology, Aging physiology, Aging psychology, Cognition physiology, Memory physiology, Sensation physiology

Abstract

Background: The common cause account suggests that there is a third factor causing aging effects in both sensory and cognitive functioning, hypothesized to be the integrity of the central nervous system [Lindenberger and Baltes; Psychol Aging 1994;9:339-355]. Importantly, the common cause account was developed based on cross-sectional data, which are especially biased by cohort effects. However, cohort effects can be controlled for in narrow age cohort (NAC) designs and by longitudinal examination. Findings from the few longitudinal studies that have studied the relation between age-related changes in sensory and cognitive functions are complex and give only partial support to the common cause account., Objective: The present paper examines the common cause account within a longitudinal setting., Method: Our study is unique in the sense that it tests the common cause account within a longitudinal NAC design using data from the Betula project. The participants (n = 1,057) were in the age range of 45-90 years., Results: The findings indicate that the relationship between sensory and memory functioning in both a longitudinal age-heterogeneous and a longitudinal NAC design are much weaker than that detected by an age-heterogeneous cross-sectional design., Conclusion: The demonstrated weak age-associated sensory-cognitive link raises questions regarding the explanatory value of the common cause account and related theoretical accounts for accounting for age-related cognitive changes., (Copyright © 2010 S. Karger AG, Basel.)

Published

2010

10. Performance level modulates adult age differences in brain activation during spatial working memory.

Author

Nagel IE, Preuschhof C, Li SC, Nyberg L, Bäckman L, Lindenberger U, and Heekeren HR

Subjects

Adult, Aged, Brain anatomy & histology, Female, Frontal Lobe anatomy & histology, Frontal Lobe physiology, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Motor Cortex anatomy & histology, Motor Cortex physiology, Nerve Net anatomy & histology, Nerve Net physiology, Parietal Lobe anatomy & histology, Parietal Lobe physiology, Task Performance and Analysis, Young Adult, Aging physiology, Aging psychology, Brain physiology, Memory physiology

Abstract

Working memory (WM) shows pronounced age-related decline. Functional magnetic resonance imaging (fMRI) studies have revealed age differences in task-related brain activation. Evidence based primarily on episodic memory studies suggests that brain activation patterns can be modulated by task difficulty in both younger and older adults. In most fMRI aging studies on WM, however, performance level has not been considered, so that age differences in activation patterns are confounded with age differences in performance level. Here, we address this issue by comparing younger and older low and high performers in an event-related fMRI study. Thirty younger (20-30 years) and 30 older (60-70 years) healthy adults were tested with a spatial WM task with three load levels. A region-of-interest analysis revealed marked differences in the activation patterns between high and low performers in both age groups. Critically, among the older adults, a more "youth-like" load-dependent modulation of the blood oxygen level-dependent signal was associated with higher levels of spatial WM performance. These findings underscore the need of taking performance level into account when studying changes in functional brain activation patterns from early to late adulthood.

Published

2009

11. Distinct control networks for cognition and emotion in the prefrontal cortex.

Author

Kompus K, Hugdahl K, Ohman A, Marklund P, and Nyberg L

Subjects

Brain Mapping, Facial Expression, Female, Humans, Magnetic Resonance Imaging, Male, Verbal Behavior, Young Adult, Attention physiology, Cognition physiology, Emotions physiology, Memory physiology, Prefrontal Cortex physiology

Abstract

The activation of dorsolateral prefrontal cortex (dlPFC) has been suggested to reflect the engagement of a control mechanism for top-down biasing of context processing in resource-demanding memory tasks. Here we tested the hypothesis that the dlPFC subserves a similar function also in attention and emotion tasks. 18 healthy young adults were tested in a functional magnetic resonance imaging (fMRI) study where the demands for context processing were manipulated in three different cognitive domains: auditory attention, episodic retrieval, and emotion regulation. We found that the right dlPFC was jointly sensitive to increased cognitive demands in the attention and memory tasks. By contrast, increased demands in the emotion task (reappraisal) were associated with increased activity in ventromedial PFC along with decreased amygdala activity. Our findings of divergent prefrontal control networks for cognitive and emotional control extend previous separations of cognition and emotion in the anterior cingulate cortex.

Published

2009

12. Dynamic switching between semantic and episodic memory systems.

Author

Kompus K, Olsson CJ, Larsson A, and Nyberg L

Subjects

Brain blood supply, Brain physiology, Brain Mapping, Color Perception physiology, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Oxygen blood, Photic Stimulation, Reaction Time physiology, Association Learning physiology, Memory physiology, Nonlinear Dynamics, Pattern Recognition, Visual physiology, Semantics

Abstract

It has been suggested that episodic and semantic long-term memory systems interact during retrieval. Here we examined the flexibility of memory retrieval in an associative task taxing memories of different strength, assumed to differentially engage episodic and semantic memory. Healthy volunteers were pre-trained on a set of 36 face-name pairs over a 6-week period. Another set of 36 items was shown only once during the same time period. About 3 months after the training period all items were presented in a randomly intermixed order in an event-related fMRI study of face-name memory. Once presented items differentially activated anterior cingulate cortex and a right prefrontal region that previously have been associated with episodic retrieval mode. High-familiar items were associated with stronger activation of posterior cortices and a left frontal region. These findings fit a model of memory retrieval by which early processes determine, on a trial-by-trial basis, if the task can be solved by the default semantic system. If not, there is a dynamic shift to cognitive control processes that guide retrieval from episodic memory.

Published

2009

13. Striatal dopamine D2 binding is related to frontal BOLD response during updating of long-term memory representations.

Author

Nyberg L, Andersson M, Forsgren L, Jakobsson-Mo S, Larsson A, Marklund P, Nilsson LG, Riklund K, and Bäckman L

Subjects

Aged, Humans, Image Interpretation, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Tomography, Emission-Computed, Single-Photon, Brain Mapping, Corpus Striatum metabolism, Memory physiology, Models, Neurological, Receptors, Dopamine D2 metabolism

Abstract

Multi-modal brain imaging was used to examine the relation between individual differences in resting-state striatal dopamine D2 binding and the magnitude of prefrontal BOLD activation during updating of long-term memory (LTM) representations. Increased activity in the left prefrontal cortex was observed when LTM updating was required, and there was a positive correlation between striatal D2 activity and the magnitude of left prefrontal activity during updating. These findings support predictions from neurocomputational models of a relation of dopaminergic neurotransmission to transient cognitive operations and related brain activity.

Published

2009

14. Neural correlates of variable working memory load across adult age and skill: dissociative patterns within the fronto-parietal network.

Author

Nyberg L, Dahlin E, Stigsdotter Neely A, and Bäckman L

Subjects

Adult, Aged, Cerebral Cortex physiology, Female, Humans, Magnetic Resonance Imaging, Male, Aging physiology, Brain Mapping, Memory physiology

Abstract

We examined neural changes related to variations in working memory load by using an n-back task with three levels and functional magnetic resonance imaging. Younger adults were divided into high- and low-performing groups (Young-High; Young-Low) and compared with older adults. Relative to Young-High, capacity-constraints in working memory were apparent between load 1-2 for the elderly and between load 2-3 for Young-Low. Capacity-constraints in neural activity followed this pattern by showing a monotonically increasing response in parietal cortex and thalamus for Young-High, whereas activity leveled off at 1-back for the elderly and at 2-back for Young-Low. The response in dorsal frontal cortex followed a similar pattern with the addition that the magnitude of activation differed within capacity limitations (Old > Young at 1-back; Young-Low > Young-High at 2-back). These findings indicate that an important determinant of WM capacity is the ability to keep the frontal cortex adequately engaged in relation to current task demands.

Published

2009

15. Item-specific training reduces prefrontal cortical involvement in perceptual awareness.

Author

Eriksson J, Larsson A, and Nyberg L

Subjects

Adult, Attention physiology, Female, Humans, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Male, Neural Pathways blood supply, Neural Pathways physiology, Photic Stimulation methods, Prefrontal Cortex blood supply, Awareness physiology, Brain Mapping, Memory physiology, Prefrontal Cortex physiology, Visual Perception physiology

Abstract

Previous studies on the neural correlates of perceptual awareness implicate sensory-specific regions and higher cortical regions such as the prefrontal cortex (PFC) in this process. The specific role of PFC regions is, however, unknown. PFC activity could be bottom-up driven, integrating signals from sensory regions. Alternatively, PFC regions could serve more active top-down processes that help to define the content of consciousness. To compare these alternative views of PFC function, we used functional magnetic resonance imaging and measured brain activity specifically related to conscious perception of items that varied in ease of identification (by being presented 0, 12, or 60 times previously). A bottom-up account predicts that PFC activity would be largely insensitive to stimulus difficulty, whereas a top-down account predicts reduced PFC activity as identification becomes easier. The results supported the latter prediction by showing reduced activity for previously presented compared to novel items in the PFC and several other regions. This was further confirmed by a functional connectivity analysis showing that the interaction between frontal and visual sensory regions declined as a function of ease of identification. Given the attribution of top-down processing to PFC regions in combination with the marked decline in PFC activity for easy items, these findings challenge the prevailing notion that the PFC is necessary for consciousness.

Published

2008

16. Transfer of learning after updating training mediated by the striatum.

Author

Dahlin E, Neely AS, Larsson A, Bäckman L, and Nyberg L

Subjects

Adult, Aging, Brain Mapping, Humans, Magnetic Resonance Imaging, Corpus Striatum physiology, Learning, Memory, Teaching

Abstract

Process-specific training can improve performance on untrained tasks, but the magnitude of gain is variable and often there is no transfer at all. We demonstrate transfer to a 3-back test of working memory after 5 weeks of training in updating. The transfer effect was based on a joint training-related activity increase for the criterion (letter memory) and transfer tasks in a striatal region that also was recruited pretraining. No transfer was observed to a task that did not engage updating and striatal regions, and age-related striatal changes imposed constraints on transfer. These findings indicate that transfer can occur if the criterion and transfer tasks engage specific overlapping processing components and brain regions.

Published

2008

17. Brain activation while forming memories of fearful and neutral faces in women and men.

Author

Fischer H, Sandblom J, Nyberg L, Herlitz A, and Bäckman L

Subjects

Adult, Brain anatomy & histology, Female, Humans, Magnetic Resonance Imaging, Male, Affect, Brain physiology, Face, Facial Expression, Memory

Abstract

Event-related functional MRI (fMRI) was used to assess brain activity during encoding of fearful and neutral faces in 12 women and 12 men. In a subsequent memory analysis, the authors separated successful from unsuccessful encoding of both types of faces, based on whether they were remembered or forgotten in a later recognition memory test. Overall, women and men recruited overlapping neural circuitries. Both sexes activated right-sided medial-temporal regions during successful encoding of fearful faces. Successful encoding of neutral faces was associated with left-sided lateral prefrontal and right-sided superior frontal activation in both sexes. In women, relatively greater encoding related activity for neutral faces was seen in the superior parietal and parahippocampal cortices. By contrast, men activated the left and right superior/middle frontal cortex more than women during successful encoding of the same neutral faces. These findings suggest that women and men use similar neural networks to encode facial information, with only subtle sex differences observed for neutral faces.

Published

2007

18. Sustained and transient neural modulations in prefrontal cortex related to declarative long-term memory, working memory, and attention.

Author

Marklund P, Fransson P, Cabeza R, Petersson KM, Ingvar M, and Nyberg L

Subjects

Adult, Cognition physiology, Discrimination Learning physiology, Evoked Potentials physiology, Female, Humans, Magnetic Resonance Imaging, Male, Mental Processes physiology, Prefrontal Cortex cytology, Psychomotor Performance physiology, Reference Values, Visual Perception physiology, Attention physiology, Memory physiology, Neurons physiology, Prefrontal Cortex physiology, Verbal Learning physiology

Abstract

Common activations in prefrontal cortex (PFC) during episodic and semantic long-term memory (LTM) tasks have been hypothesized to reflect functional overlap in terms of working memory (WM) and cognitive control. To evaluate a WM account of LTM-general activations, the present study took into consideration that cognitive task performance depends on the dynamic operation of multiple component processes, some of which are stimulus-synchronous and transient in nature; and some that are engaged throughout a task in a sustained fashion. PFC and WM may be implicated in both of these temporally independent components. To elucidate these possibilities we employed mixed blocked/event-related functional magnetic resonance imaging (fMRI) procedures to assess the extent to which sustained or transient activation patterns overlapped across tasks indexing episodic and semantic LTM, attention (ATT), and WM. Within PFC, ventrolateral and medial areas exhibited sustained activity across all tasks, whereas more anterior regions including right frontopolar cortex were commonly engaged in sustained processing during the three memory tasks. These findings do not support a WM account of sustained frontal responses during LTM tasks, but instead suggest that the pattern that was common to all tasks reflects general attentional set/vigilance, and that the shared WM-LTM pattern mediates control processes related to upholding task set. Transient responses during the three memory tasks were assessed relative to ATT to isolate item-specific mnemonic processes and were found to be largely distinct from sustained effects. Task-specific effects were observed for each memory task. In addition, a common item response for all memory tasks involved left dorsolateral PFC (DLPFC). The latter response might be seen as reflecting WM processes during LTM retrieval. Thus, our findings suggest that a WM account of shared PFC recruitment in LTM tasks holds for common transient item-related responses rather than sustained state-related responses that are better seen as reflecting more general attentional/control processes.

Published

2007

19. The influence of APOE status on episodic and semantic memory: data from a population-based study.

Author

Nilsson LG, Adolfsson R, Bäckman L, Cruts M, Nyberg L, Small BJ, and Van Broeckoven C

Subjects

Adult, Aged, Aged, 80 and over, Aging psychology, Apolipoprotein E4 genetics, Cohort Studies, Cues, Female, Genotype, Heterozygote, Humans, Male, Mental Recall physiology, Middle Aged, Neuropsychological Tests, Population, Prospective Studies, Recognition, Psychology physiology, Reverse Transcriptase Polymerase Chain Reaction, Sex Characteristics, Verbal Behavior physiology, Apolipoproteins E genetics, Memory physiology

Abstract

In a prospective cohort study, the authors demonstrated a more pronounced epsilon4-related deficit for participants 70 years of age and older in tasks assessing episodic recall. Apolipoprotein E (APOE) and age interacted for episodic memory tasks, whereas the interaction for semantic memory tasks was between APOE and test wave. Heterozygotes of epsilon4 between middle-age and young-old participants performed at a higher level than noncarriers of this allele in recall tasks. A dose effect was found such that carriers of 2 epsilon4 alleles failed more profoundly in acquiring and recollecting episodic information than carriers of 1 epsilon4 allele, who in turn failed more than carriers of non-epsilon4 alleles. The pattern of findings observed for older epsilon4 carriers suggests that these individuals have particular difficulty when the executive task demands are high. Several factors (e.g., smaller hippocampal volumes, less effective neural repair mechanisms) may account for these findings. On the basis of the data obtained, the authors argue that analyses of the effect of specific genes in cognition should be accompanied by assessment of performance at a specific level, with due attention to the individual's age.

Published

2006

20. Structure-function correlates of cognitive decline in aging.

Author

Persson J, Nyberg L, Lind J, Larsson A, Nilsson LG, Ingvar M, and Buckner RL

Subjects

Adaptation, Physiological physiology, Aged, Cognition Disorders pathology, Cognition Disorders physiopathology, Female, Humans, Male, Aging physiology, Brain Mapping, Cognition physiology, Hippocampus anatomy & histology, Hippocampus physiology, Magnetic Resonance Imaging, Memory physiology

Abstract

To explore neural correlates of cognitive decline in aging, we used longitudinal behavioral data to identify two groups of older adults (n = 40) that differed with regard to whether their performance on tests of episodic memory remained stable or declined over a decade. Analysis of structural and diffusion tensor imaging (DTI) revealed a heterogeneous set of differences associated with cognitive decline. Manual tracing of hippocampal volume showed significant reduction in those older adults with a declining memory performance as did DTI-measured fractional anisotropy in the anterior corpus callosum. Functional magnetic resonance imaging during incidental episodic encoding revealed increased activation in left prefrontal cortex for both groups and additional right prefrontal activation for the elderly subjects with the greatest decline in memory performance. Moreover, mean DTI measures in the anterior corpus callosum correlated negatively with activation in right prefrontal cortex. These results demonstrate that cognitive decline is associated with differences in the structure as well as function of the aging brain, and suggest that increased activation is either caused by structural disruption or is a compensatory response to such disruption.

Published

2006

21. Memory-provoked rCBF-SPECT as a diagnostic tool in Alzheimer's disease?

Author

Sundström T, Elgh E, Larsson A, Näsman B, Nyberg L, and Riklund KA

Subjects

Adult, Aged, Brain Mapping methods, Cerebrovascular Circulation, Evoked Potentials, Female, Humans, Male, Radiopharmaceuticals, Reproducibility of Results, Sensitivity and Specificity, Alzheimer Disease diagnostic imaging, Brain blood supply, Brain diagnostic imaging, Image Interpretation, Computer-Assisted methods, Memory, Technetium Tc 99m Exametazime, Tomography, Emission-Computed, Single-Photon methods

Abstract

Purpose: Alzheimer's disease (AD) is a primary degenerative disease that progressively affects all brain functions, with devastating consequences for the patient, the patient's family and society. Rest regional cerebral blood flow (rCBF) could have a strategic role in differentiating between AD patients and normal controls, but its use for this purpose has a low discriminatory capacity. The purpose of this study was to evaluate whether the diagnostic sensitivity of rCBF single-photon emission computed tomography (SPECT) could be increased by using an episodic memory task provocation, i.e. memory-provoked rCBF-SPECT (MP-SPECT)., Methods: Eighteen persons (73.2+/-4.8 years) with mild AD and 18 healthy elderly (69.4+/-3.9 years) were included in the study. The subjects were injected with (99m)Tc-hexamethylpropylene amine oxime (HMPAO) during memory provocation with faces and names, followed by an rCBF-SPECT study. The rCBF (99m)Tc-HMPAO SPECT images were analysed using statistical parametric mapping (SPM2). Peaks with a false discovery rate corrected value of 0.05 were considered significant., Results: On MP-SPECT, the AD group showed a significant rCBF reduction in the left parietal cortex in comparison with healthy elderly. At rest, no significant group differences were seen., Conclusion: Memory provocation increased the sensitivity of rCBF-SPECT for the detection of AD-related blood flow changes in the brain at the group level. Further studies are needed to evaluate MP-SPECT as a diagnostic tool at the individual level. If a higher sensitivity for AD at the individual level is verified in future studies, a single MP-SPECT study might be sufficient in the clinical setting.

Published

2006

22. Any novelty in hippocampal formation and memory?

Author

Nyberg L

Subjects

Humans, Attention physiology, Exploratory Behavior physiology, Hippocampus physiology, Memory physiology

Abstract

Purpose of Review: Novel events tend to attract attention and become more effectively encoded in memory than predictable events. The hippocampus and medial-temporal cortical regions, along with regions of the prefrontal cortex, have been associated with enhanced memory for novel events. This review provides an update on recent studies of hippocampal novelty responses in relation to memory., Recent Findings: Several different types of novelty have been studied. Stimulus novelty effects have been observed as reduced neural activity in the medial-temporal and prefrontal regions when the same stimulus is repeatedly presented. Contextual novelty effects, the detection of a stimulus or event in an unexpected context, is impaired in patients with hippocampal damage. Single-trial analyses of brain activity show that the hippocampus rapidly habituates to contextually novel situations. Associative novelty, the detection of new arrangements of familiar stimuli, has also been related to the medial-temporal regions. A division of labour among the medial-temporal regions has been proposed such that associative novelty selectively engages the hippocampus, whereas stimulus novelty is mediated by the perirhinal cortex. However, a simple account of when the hippocampus versus other medial-temporal cortical regions is recruited awaits further studies. Increased dopaminergic and cholinergic neurotransmission may account for enhanced memory encoding of novel events, and relate to structural neuronal changes., Summary: Interindividual variability in the responsiveness of the hippocampal-novelty system may be genetically mediated, and personality factors can also play a role. A better understanding of such variability can have implications for interventions aimed at supporting memory and for the treatment of drug abuse.

Published

2005

23. Common fronto-parietal activity in attention, memory, and consciousness: shared demands on integration?

Author

Naghavi HR and Nyberg L

Subjects

Cognition physiology, Humans, Magnetic Resonance Imaging, Attention physiology, Consciousness physiology, Cooperative Behavior, Frontal Lobe physiology, Memory physiology, Parietal Lobe physiology

Abstract

Fronto-parietal activity has been frequently observed in fMRI and PET studies of attention, working memory, and episodic memory retrieval. Several recent fMRI studies have also reported fronto-parietal activity during conscious visual perception. A major goal of this review was to assess the degree of anatomical overlap among activation patterns associated with these four functions. A second goal was to shed light on the possible cognitive relationship of processes that relate to common brain activity across functions. For all reviewed functions we observed a consistent and overlapping pattern of brain activity. The overlap was most pronounced for the bilateral parietal cortex (BA 7 and BA 40; close to the intraparietal sulcus), and dorsolateral prefrontal cortex (right BA 9 and left BA 6). The common fronto-parietal activity will be discussed in terms of processes related to integration of distributed representations in the brain.

Published

2005

24. Intact frontal memory effect in older age and dementia.

Author

Nyberg L

Subjects

Association Learning physiology, Brain Mapping, Humans, Semantics, Verbal Learning physiology, Aging physiology, Dementia physiopathology, Memory physiology, Prefrontal Cortex physiology

Abstract

Older adults and demented patients show preserved functioning on certain tests of implicit memory. In this issue of Neuron, Lustig and Buckner demonstrate that both groups show comparable repetition-based effects on response time and prefrontal activity relative to younger adults.

Published

2004

25. The memory-enhancing effects of Ginseng and Ginkgo biloba in healthy volunteers.

Author

Persson J, Bringlöv E, Nilsson LG, and Nyberg L

Subjects

Adult, Aged, Aged, 80 and over, Cohort Studies, Female, Humans, Male, Middle Aged, Neuropsychological Tests, Plant Preparations pharmacology, Prospective Studies, Time Factors, Ginkgo biloba chemistry, Memory drug effects, Panax chemistry

Abstract

Rationale: The use of herbal remedies, such as Ginkgo biloba and Ginseng, for improving cognitive performance has become increasingly popular during recent years. Several previous studies have indicated that administration of Ginkgo biloba and Ginseng may improve aspects of learning and memory in healthy volunteers. These results, however, are generally not supported by well-controlled clinical studies. Also, positive results have often been reported from studies investigating effects related to short-term, chronic administration of the extract. Nonetheless, both Ginkgo biloba and Ginseng are marketed as having the capacity to enhance cognitive functions, such as memory and learning, in the long term., Objective: This study aimed at investigating whether the use of Ginkgo biloba and Ginseng for a long period of time has positive effects on performance on learning and memory., Methods: Community-dwelling volunteers ( n=3500) from The Betula prospective cohort study: memory, health, and aging were included in the study., Results: It was found that the use of neither Ginkgo biloba ( n=40) nor Ginseng ( n=86) was associated with enhanced memory performance in any of the eight memory tests examined, relative to control groups either using or not using nutritional supplements., Conclusions: These findings indicate that use of Ginkgo biloba or Ginseng does not provide any quantifiable beneficial effects on memory performance in the long-term in healthy adult volunteers.

Published

2004

26. Neural correlates of training-related memory improvement in adulthood and aging.

Author

Nyberg L, Sandblom J, Jones S, Neely AS, Petersson KM, Ingvar M, and Bäckman L

Subjects

Adult, Aged, Brain pathology, Female, Humans, Male, Memory Disorders, Memory, Short-Term, Mental Recall, Practice, Psychological, Prefrontal Cortex pathology, Aging, Memory, Neurons pathology

Abstract

Cognitive studies show that both younger and older adults can increase their memory performance after training in using a visuospatial mnemonic, although age-related memory deficits tend to be magnified rather than reduced after training. Little is known about the changes in functional brain activity that accompany training-induced memory enhancement, and whether age-related activity changes are associated with the size of training-related gains. Here, we demonstrate that younger adults show increased activity during memory encoding in occipito-parietal and frontal brain regions after learning the mnemonic. Older adults did not show increased frontal activity, and only those elderly persons who benefited from the mnemonic showed increased occipito-parietal activity. These findings suggest that age-related differences in cognitive reserve capacity may reflect both a frontal processing deficiency and a posterior production deficiency.

Published

2003

27. High prevalence of white matter hyperintensities in normal aging: relation to blood pressure and cognition.

Author

Söderlund H, Nyberg L, Adolfsson R, Nilsson LG, and Launer LJ

Subjects

Aged, Analysis of Variance, Cognition Disorders epidemiology, Comorbidity, Female, Humans, Hypertension epidemiology, Intelligence, Magnetic Resonance Imaging, Male, Memory Disorders epidemiology, Neuropsychological Tests, Reference Values, Sweden epidemiology, Aging pathology, Aging psychology, Brain pathology, Cognition physiology, Hypertension physiopathology, Memory physiology

Abstract

The occurrence of cerebral white matter hyperintensities (WMHs), and their associations with blood pressure, episodic memory, and other cognitive tasks, were examined in a population-based sample of 123 individuals between 64 and 74 years old. Magnetic Resonance Imaging (MRI) detected subcortical and periventricular hyperintensities in 90% and 67% of the cases, respectively. Subcortical WMHs were related to elevated diastolic blood pressure measured ten years earlier, and periventricular WMHs were related to elevated diastolic blood pressure measured five and ten years earlier. Subcortical hyperintensities were weakly associated with impaired motor speed, but this association was not significant. Periventricular WMHs had a negative effect on episodic memory, although the relation was not linear. Collectively, the notion that white matter hyperintensities impair cognitive function got weak support in this Swedish sample.

Published

2003

28. Selective adult age differences in an age-invariant multifactor model of declarative memory.

Author

Nyberg L, Maitland SB, Rönnlund M, Bäckman L, Dixon RA, Wahlin A, and Nilsson LG

Subjects

Adult, Aged, Aged, 80 and over, Female, Humans, Knowledge, Male, Middle Aged, Semantics, Aging psychology, Memory, Models, Psychological

Abstract

Confirmatory factor analysis was used to test competing models of declarative memory. Data from middle-aged participants provided support for a model comprised of 2 2nd-order (episodic and semantic memory) and 4 1st-order (recall, recognition, fluency, and knowledge) factors. Extending this model across young-old and old-old participants established support for age invariance. Tests of group differences showed an age deficit in episodic memory that was more pronounced for recall than for recognition. For semantic memory, there was an increase in knowledge from middle to young-old age and thereafter a decrease. Overall, the results support the view that episodic memory is more age sensitive than semantic memory, but they also indicate that aging has differential effects within these 2 forms of memory.

Published

2003

29. Functional neuroimaging of memory.

Author

Cabeza R and Nyberg L

Subjects

Brain diagnostic imaging, Humans, Magnetic Resonance Imaging, Temporal Lobe diagnostic imaging, Temporal Lobe physiology, Tomography, Emission-Computed, Brain physiology, Memory physiology

Published

2003

30. Attention-related activity during episodic memory retrieval: a cross-function fMRI study.

Author

Cabeza R, Dolcos F, Prince SE, Rice HJ, Weissman DH, and Nyberg L

Subjects

Adult, Brain Mapping, Female, Humans, Magnetic Resonance Imaging, Male, Models, Neurological, Recognition, Psychology physiology, Task Performance and Analysis, Attention physiology, Brain physiology, Memory physiology

Abstract

In functional neuroimaging studies of episodic retrieval (ER), activations in prefrontal, parietal, anterior cingulate, and thalamic regions are typically attributed to episodic retrieval processes. However, these activations are also frequent during visual attention (VA) tasks, suggesting that their role in ER may reflect attentional rather than mnemonic processes. To investigate this possibility, we directly compared brain activity during ER and VA tasks using event-related fMRI. The ER task was a word recognition test with a retrieval mode component, and the VA task was a target detection task with a sustained attention component. The study yielded three main findings. First, a common fronto-parietal-cingulate-thalamic network was found for ER and VA, suggesting that the involvement of these regions during ER reflects general attentional processes. This idea is compatible with some of the interpretations proposed in the ER literature (e.g. postretrieval monitoring), which may be rephrased in terms of attentional processes. Second, several subregions were differentially involved in ER versus VA. For example, the frontopolar cortex and the precuneus were more activated for ER than for VA, possibly reflecting retrieval mode and processing of internally generated stimuli, respectively. Finally, the study yielded an unexpected finding: some medial temporal lobe regions were similarly activated for ER and VA. This finding suggests that the medial temporal lobes may be involved in indexing representations within the focus of consciousness, regardless of whether they are mnemonic or perceptual. Overall, the present results suggest that many of the activations attributed to specific cognitive processes, such as episodic memory, may actually reflect more general cognitive operations.

Published

2003

31. Common prefrontal activations during working memory, episodic memory, and semantic memory.

Author

Nyberg L, Marklund P, Persson J, Cabeza R, Forkstam C, Petersson KM, and Ingvar M

Subjects

Adult, Humans, Male, Models, Neurological, Neuropsychological Tests, Prefrontal Cortex diagnostic imaging, Task Performance and Analysis, Tomography, Emission-Computed, Brain Mapping methods, Memory physiology, Prefrontal Cortex physiology

Abstract

Regions of the prefrontal cortex (PFC) are typically activated in many different cognitive functions. In most studies, the focus has been on the role of specific PFC regions in specific cognitive domains, but more recently similarities in PFC activations across cognitive domains have been stressed. Such similarities may suggest that a region mediates a common function across a variety of cognitive tasks. In this study, we compared the activation patterns associated with tests of working memory, semantic memory and episodic memory. The results converged on a general involvement of four regions across memory tests. These were located in left frontopolar cortex, left mid-ventrolateral PFC, left mid-dorsolateral PFC and dorsal anterior cingulate cortex. These findings provide evidence that some PFC regions are engaged during many different memory tests. The findings are discussed in relation to theories about the functional contribution of the PFC regions and the architecture of memory.

Published

2003

32. Decreased activity in inferotemporal cortex during explicit memory: dissociating priming, novelty detection, and recognition.

Author

Persson J, Habib R, and Nyberg L

Subjects

Adult, Brain Mapping, Cerebrovascular Circulation physiology, Female, Functional Laterality physiology, Humans, Male, Neural Pathways anatomy & histology, Neural Pathways diagnostic imaging, Neuropsychological Tests, Photic Stimulation, Temporal Lobe anatomy & histology, Temporal Lobe diagnostic imaging, Tomography, Emission-Computed, Visual Cortex anatomy & histology, Visual Cortex diagnostic imaging, Down-Regulation physiology, Memory physiology, Neural Pathways physiology, Recognition, Psychology physiology, Temporal Lobe physiology, Visual Cortex physiology

Abstract

Studies of non-human primates have shown that activity in inferotemporal (IT) brain regions decrease over repeated stimulus exposure, a phenomenon known as repetition suppression. In the present study, repetition suppression was examined during recognition of personally experienced events (explicit memory). Brain activity was measured while subjects encoded and subsequently recognized scenic pictures. First, two recognition conditions were compared; one that mainly included familiar pictures and one that mainly included novel pictures. Responses derived from this contrast may reflect recognition memory, perceptual priming, or novelty detection. To test specifically for responses associated with recognition memory, subjects encoded a new set of pictures followed by two recognition tests. All test pictures had been presented during the course of the experiment, and the subjects identified pictures that appeared in the second encoding list. Since all pictures were familiar, repetition suppression was specifically associated with recognition memory. In the first contrast, relative change in brain activity was observed in inferotemporal, extra-striate, and hippocampal regions during recognition of familiar versus novel pictures. In the second contrast, decreased activity in IT cortex was found. The location of this region overlapped with that for the region identified in the first contrast, and a conjunction analysis showed that reduced activity in left IT cortex was common to both contrasts. These results suggest that repetition suppression in IT cortex reflects recognition memory, and that such a response is not a simple function of stimulus repetition but can be modulated by top-down processing.

Published

2002

33. Individual differences in memory enhancement by encoding enactment: relationships to adult age and biological factors.

Author

Nyberg L, Persson J, and Nilsson LG

Subjects

Dopamine metabolism, Humans, Motor Cortex metabolism, Motor Cortex physiology, Aging physiology, Learning physiology, Memory physiology

Abstract

Numerous studies have demonstrated an age-related decline in episodic memory performance. However, both younger and older adults benefit from various kinds of encoding support, suggesting that memory functioning remains plastic in older age. The present review is concerned with encoding support in the form of enactment. Memory for simple commands is substantially higher if the commands are enacted during encoding than only read/heard. Such memory enhancement has been demonstrated for many age groups and patient groups, suggesting that it is a general effect. Analysis of the results from 1000 participants ranging in age between 35 and 80 years revealed that about 5% of the participants had low memory performance after enacted encoding and showed no enactment effect. The majority of these were older. Comparisons of participants that did or did not show an enactment effect for a select set of biological and neuropsychological factors provided tentative evidence that a failure to benefit from encoding enactment reflects a dysfunctional motor system. This is in agreement with findings from recent functional neuroimaging studies that associate the enactment effect with motor areas in the brain. Variation in the ability to benefit from encoding enactment is discussed in relation to an age-related decline in dopamine function.

Published

2002

34. Genetic variation in memory functioning.

Author

Nilsson LG, Nyberg L, and Bäckman L

Subjects

Alleles, Alzheimer Disease genetics, Cohort Studies, Cross-Sectional Studies, Dementia genetics, Female, Humans, Male, Prospective Studies, Quantitative Trait Loci, Aging genetics, Apolipoproteins E genetics, Genetic Variation, Memory physiology, Memory Disorders genetics

Abstract

On the basis of a review of the literature the contribution of genetic factors for individual differences in memory performance is discussed. Explorations of such influences on memory have just begun. Most of those studies that have been conducted in order to find a quantitative trait locus for memory have focused on ApolipoproteinE (ApoE). One form of this gene is strongly associated with cardiovascular disease in middle age and to late-onset Alzheimer's disease. Some studies have demonstrated an association between ApoE and memory even in non-demented individuals. Other studies have failed to demonstrate this association. Based on data from a prospective cohort study (Betula) in our own laboratory, we have assessed and examined associations between three different forms of ApoE and performance on episodic memory tests. Cross-sectional comparisons revealed non-significant differences in episodic memory performance between carriers of the three alleles. Analyses of change scores in longitudinal data revealed that allele epsilon 4 was related to a lower level of memory performance than alleles epsilon 2 and epsilon 3. This effect was most pronounced in tasks providing cognitive support at both encoding and retrieval, suggesting a deficit in utilizing such support in carriers of the epsilon 4 allele.

Published

2002

35. Levels of processing: a view from functional brain imaging.

Author

Nyberg L

Subjects

Brain diagnostic imaging, Humans, Magnetic Resonance Imaging, Mental Recall physiology, Tomography, Emission-Computed, Brain physiology, Memory physiology

Abstract

This paper briefly reviews two central assumptions of the levels-of-processing framework in the light of findings from recent PET and fMRI studies: First, to address the suggestion that memory traces can be seen as records of analyses carried out for the purposes of perception and comprehension, studies on encoding-retrieval overlap in brain activation patterns are considered. Second, to address the suggestion that deeper, more semantic, processing results in more durable traces, studies of how encoding activity relates to processing depth and subsequent memory performance are examined. The results show that some of the sensory regions that are activated during initial perception are subsequently reactivated during retrieval, and activity in frontal and medial-temporal brain regions is related to depth of processing and level of memory performance. Collectively, these results provide support for central components of the levels framework.

Published

2002

36. Memory functions and rCBF (99m)Tc-HMPAO SPET: developing diagnostics in Alzheimer's disease.

Author

Elgh E, Sundström T, Näsman B, Ahlström R, and Nyberg L

Subjects

Aged, Aged, 80 and over, Brain diagnostic imaging, Female, Humans, Male, Middle Aged, Reference Values, Reproducibility of Results, Statistics, Nonparametric, Time Factors, Tomography, Emission-Computed, Single-Photon, Alzheimer Disease diagnostic imaging, Alzheimer Disease psychology, Brain Mapping methods, Cerebrovascular Circulation physiology, Memory, Radiopharmaceuticals, Technetium Tc 99m Exametazime

Abstract

Alzheimer's disease (AD) is a primary degenerative disease of the brain. The prevalence increases with age, with devastating consequences for the individual and society. The aim of this study was to evaluate whether patients with early AD show an altered regional cerebral blood flow (rCBF) compared with control persons. Furthermore, we aimed to investigate the correlation between rCBF in sublobar volumes of the brain and performance on memory tests. Memory tests were chosen to evaluate episodic and semantic memory. Fourteen patients (aged 75.2+/-8.8 years) with early AD and 15 control persons (aged 71.4+/-3.2 years) were included. rCBF measurements with single-photon emission tomography (SPET) using technetium-99m hexamethylpropylene amine oxime (HMPAO) were performed. The rCBF (99m)Tc-HMPAO SPET images were spatially transformed to fit a brain atlas and normalised for differences in rCBF (Computerised Brain Atlas software). Cortical and subcortical volumes of interest (VOIs) were analysed and compared. Compared with the controls, AD patients showed a significantly lower rCBF ratio in temporoparietal regions, including the left hippocampus. The diagnostic sensitivity and specificity for AD were high in temporoparietal regions. AD patients had significantly reduced performance on semantic and, in particular, episodic memory tests compared with age-matched normative data, and their performance on several episodic tests correlated with rCBF ratios in parietal and temporal regions, including the left hippocampus. The correlation between rCBF ratio and level of episodic memory performance suggests that abnormalities in rCBF pattern underlie impaired episodic memory functioning in AD.

Published

2002

37. Similarities and differences in the neural correlates of episodic memory retrieval and working memory.

Author

Cabeza R, Dolcos F, Graham R, and Nyberg L

Subjects

Adult, Cues, Female, Frontal Lobe physiology, Hippocampus physiology, Humans, Information Storage and Retrieval, Language, Male, Parahippocampal Gyrus physiology, Prefrontal Cortex physiology, Recognition, Psychology physiology, Brain physiology, Memory physiology

Abstract

Functional neuroimaging studies have shown that different cognitive functions activate overlapping brain regions. An activation overlap may occur because a region is involved in operations tapped by different cognitive functions or because the activated area comprises subregions differentially involved in each of the functions. To investigate these issues, we directly compared brain activity during episodic retrieval (ER) and working memory (WM) using event-related functional MRI (fMRI). ER was investigated with a word recognition test, and WM was investigated with a word delayed-response test. Two-phase trials distinguished between retrieval mode and cue-specific aspects of ER, as well as between encoding/maintenance and retrieval aspects of WM. The results revealed a common fronto-parieto-cerebellar network for ER and WM, as well as subregions differentially involved in each function. Specifically, there were two main findings. First, the results differentiated common and specific subregions within the prefrontal cortex: (i) left dorsolateral areas were recruited by both functions, possibly reflecting monitoring operations; (ii) bilateral anterior and ventrolateral areas were more activated during ER than during WM, possibly reflecting retrieval mode and cue-specific ER operations, respectively; and (iii) left posterior/ventral (Broca's area) and bilateral posterior/dorsal areas were more activated during WM than during ER, possibly reflecting phonological and generic WM operations, respectively. Second, hippocampal and parahippocampal regions were activated not only for ER but also for WM. This result suggests that indexing operations mediated by the medial temporal lobes apply to both long-term and short-term memory traces. Overall, our results show that direct cross-function comparisons are critical to understand the role of different brain regions in various cognitive functions., (2002 Elsevier Science (USA))

Published

2002

38. Brain imaging of human memory systems: between-systems similarities and within-system differences.

Author

Nyberg L, Forkstam C, Petersson KM, Cabeza R, and Ingvar M

Subjects

Adult, Cerebrovascular Circulation physiology, Cues, Female, Humans, Image Processing, Computer-Assisted, Male, Memory, Short-Term physiology, Mental Recall physiology, Nerve Net physiology, Photic Stimulation, Psycholinguistics, Psychomotor Performance physiology, Brain physiology, Memory physiology

Abstract

There is much evidence for the existence of multiple memory systems. However, it has been argued that tasks assumed to reflect different memory systems share basic processing components and are mediated by overlapping neural systems. Here we used multivariate analysis of PET-data to analyze similarities and differences in brain activity for multiple tests of working memory, semantic memory, and episodic memory. The results from two experiments revealed between-systems differences, but also between-systems similarities and within-system differences. Specifically, support was obtained for a task-general working-memory network that may underlie active maintenance. Premotor and parietal regions were salient components of this network. A common network was also identified for two episodic tasks, cued recall and recognition, but not for a test of autobiographical memory. This network involved regions in right inferior and polar frontal cortex, and lateral and medial parietal cortex. Several of these regions were also engaged during the working-memory tasks, indicating shared processing for episodic and working memory. Fact retrieval and synonym generation were associated with increased activity in left inferior frontal and middle temporal regions and right cerebellum. This network was also associated with the autobiographical task, but not with living/non-living classification, and may reflect elaborate retrieval of semantic information. Implications of the present results for the classification of memory tasks with respect to systems and/or processes are discussed., (Copyright 2002 Elsevier Science B.V.)

Published

2002

39. Brain activation during episodic memory retrieval: sex differences.

Author

Nyberg L, Habib R, and Herlitz A

Subjects

Adult, Brain diagnostic imaging, Female, Humans, Least-Squares Analysis, Male, Sex Factors, Tomography, Emission-Computed, Brain physiology, Brain Mapping, Memory physiology

Abstract

Behavioral studies have shown a tendency for women to outperform men on episodic memory tasks. Here, data from a series of positron emission tomography (PET) studies were analyzed to examine sex differences in brain activity associated with episodic memory retrieval (yes/no recognition). A total of 17 women and 17 men were included in the analyses. The strongest effect of the design was a retrieval-related increase in activity, involving right prefrontal and anterior cingulate regions, that was common to women and men. In addition, a significant task-by-sex interaction effect was observed which involved a distributed set of brain regions, including several frontal areas. These results suggest that while the neural correlate of episodic memory retrieval is largely the same for men and women, some differences do exist. Possible explanations for the observed differences are discussed, and it is concluded that biological and experiential factors jointly contribute to sex differences in brain activity.

Published

2000

40. Conjunction analysis of cortical activations common to encoding and retrieval.

Author

Persson J and Nyberg L

Subjects

Brain Mapping, Cerebrovascular Circulation, Evoked Potentials physiology, Hemodynamics, Humans, Image Processing, Computer-Assisted, Parietal Lobe blood supply, Parietal Lobe diagnostic imaging, Memory physiology, Mental Recall physiology, Parietal Lobe physiology, Tomography, Emission-Computed methods

Abstract

The notion of overlap between encoding and retrieval processes is central in cognitive theories of episodic memory, but to date most functional neuroimaging studies have emphasized differences between these processes. In the present study, overlap between encoding and retrieval processes was investigated by analyzing data from a positron emission tomography (PET) study of encoding and retrieval of different kinds of event information. Using a conjunction analysis, we specifically aimed at identifying overlap in activation patterns for encoding and retrieval of three classes of event information: item, temporal, and spatial. It was found that both encoding and retrieval of spatial information activated posterior parietal areas bilaterally. In addition, item encoding and retrieval were associated with increased activity in the right temporal pole, and temporal encoding and retrieval with left inferior frontal and left inferior temporal regions. These findings suggest that when specific episodic information is retrieved from memory, regions involved in encoding of the same information are engaged., (Copyright 2000 Wiley-Liss, Inc.)

Published

2000

41. Reactivation of encoding-related brain activity during memory retrieval.

Author

Nyberg L, Habib R, McIntosh AR, and Tulving E

Subjects

Adult, Female, Humans, Tomography, Emission-Computed, Memory physiology

Abstract

Neuronal models predict that retrieval of specific event information reactivates brain regions that were active during encoding of this information. Consistent with this prediction, this positron-emission tomography study showed that remembering that visual words had been paired with sounds at encoding activated some of the auditory brain regions that were engaged during encoding. After word-sound encoding, activation of auditory brain regions was also observed during visual word recognition when there was no demand to retrieve auditory information. Collectively, these observations suggest that information about the auditory components of multisensory event information is stored in auditory responsive cortex and reactivated at retrieval, in keeping with classical ideas about "redintegration, " that is, the power of part of an encoded stimulus complex to evoke the whole experience.

Published

2000

42. Perceptual priming and extrastriate cortex: consensus and controversy.

Author

Nyberg L

Subjects

Alzheimer Disease complications, Alzheimer Disease physiopathology, Alzheimer Disease psychology, Humans, Learning Disabilities etiology, Learning Disabilities physiopathology, Learning Disabilities psychology, Magnetic Resonance Imaging, Prefrontal Cortex physiology, Subliminal Stimulation, Brain Mapping, Cerebral Cortex physiology, Learning physiology, Memory physiology, Pattern Recognition, Visual physiology, Perception physiology

Published

2000

43. Neural bases of learning and memory: functional neuroimaging evidence.

Author

Cabeza R and Nyberg L

Subjects

Humans, Brain diagnostic imaging, Brain pathology, Brain physiology, Learning physiology, Magnetic Resonance Imaging, Memory physiology, Tomography, Emission-Computed

Abstract

Positron emission tomography and functional magnetic resonance imaging studies have identified brain regions associated with different forms of memory. Working memory has been associated primarily with the bilateral prefrontal and parietal regions; semantic memory with the left prefrontal and temporal regions; episodic memory encoding with the left prefrontal and medial temporal regions; episodic memory retrieval with the right prefrontal, posterior midline and medial temporal regions; and skill learning with the motor, parietal, and subcortical regions. Recent studies have provided higher specificity, by dissociating the neural correlates of different subcomponents of complex memory tasks, and the cognitive roles of different subregions of larger brain areas.

Published

2000

44. Prefrontal cortex and episodic memory retrieval mode.

Author

Lepage M, Ghaffar O, Nyberg L, and Tulving E

Subjects

Humans, Magnetic Resonance Imaging, Models, Neurological, Prefrontal Cortex anatomy & histology, Tomography, Emission-Computed, Memory physiology, Prefrontal Cortex physiology

Abstract

A multistudy analysis of positron emission tomography data identified three right prefrontal and two left prefrontal cortical sites, as well as a region in the anterior cingulate gyrus, where neuronal activity is correlated with the maintenance of episodic memory retrieval mode (REMO), a basic and necessary condition of remembering past experiences. The right prefrontal sites were near the frontal pole [Brodmann's area (BA) 10], frontal operculum (BA 47/45), and lateral dorsal area (BA 8/9). The two left prefrontal sites were homotopical with the right frontal pole and opercular sites. The same kinds of REMO sites were not observed in any other cerebral region. Many previous functional neuroimaging studies of episodic memory retrieval have reported activations near the frontal REMO sites identified here, although their function has not been clear. Many of these, too, probably have signaled their involvement in REMO. We propose that REMO activations largely if not entirely account for the frontal hemispheric asymmetry of retrieval as described by the original hemispheric encoding retrieval asymmetry model.

Published

2000

45. Large scale neurocognitive networks underlying episodic memory.

Author

Nyberg L, Persson J, Habib R, Tulving E, McIntosh AR, Cabeza R, and Houle S

Subjects

Adult, Cerebral Cortex cytology, Female, Humans, Male, Neural Pathways, Photic Stimulation, Tomography, Emission-Computed, Verbal Learning physiology, Cerebral Cortex physiology, Cognition physiology, Memory physiology

Abstract

Large-scale networks of brain regions are believed to mediate cognitive processes, including episodic memory. Analyses of regional differences in brain activity, measured by functional neuroimaging, have begun to identify putative components of these networks. To more fully characterize neurocognitive networks, however, it is necessary to use analytical methods that quantify neural network interactions. Here, we used positron emission tomography (PET) to measure brain activity during initial encoding and subsequent recognition of sentences and pictures. For each type of material, three recognition conditions were included which varied with respect to target density (0%, 50%, 100%). Analysis of large-scale activity patterns identified a collection of foci whose activity distinguished the processing of sentences vs. pictures. A second pattern, which showed strong prefrontal cortex involvement, distinguished the type of cognitive process (encoding or retrieval). For both pictures and sentences, the manipulation of target density was associated with minor activation changes. Instead, it was found to relate to systematic changes of functional connections between material-specific regions and several other brain regions, including medial temporal, right prefrontal and parietal regions. These findings provide evidence for large-scale neural interactions between material-specific and process-specific neural substrates of episodic encoding and retrieval.

Published

2000

46. Age-related differences in neural activity during item and temporal-order memory retrieval: a positron emission tomography study.

Author

Cabeza R, Anderson ND, Houle S, Mangels JA, and Nyberg L

Subjects

Adult, Aged, Functional Laterality physiology, Humans, Temporal Lobe physiology, Verbal Learning physiology, Aging physiology, Memory physiology, Prefrontal Cortex physiology, Tomography, Emission-Computed

Abstract

Positron emission tomography (PET) was used to investigate the hypothesis that older adults' difficulties with temporal-order memory are related to deficits in frontal function. Young (mean 24.7 years) and old (mean 68.6 years) participants studied a list of words, and were then scanned while retrieving information about what words were in the list (item retrieval) or when they occurred within the list (temporal-order retrieval). There were three main results. First, whereas the younger adults engaged right prefrontal regions more during temporal-order retrieval than during item retrieval, the older adults did not. This result is consistent with the hypothesis that context memory deficits in older adults are due to frontal dysfunction. Second, ventromedial temporal activity during item memory was relatively unaffected by aging. This finding concurs with evidence that item memory is relatively preserved in old adults and with the notion that medial temporal regions are involved in automatic retrieval operations. Finally, replicating the result of a previous study (Cabeza, R., Grady, C. L., Nyberg, L., McIntosh, A. R. , Tulving, E., Kapur, S., Jennings, J. M., Houle, S., and Craik, F. I. M., 1997), the old adults showed weaker activations than the young adults in the right prefrontal cortex but stronger activations in the left prefrontal cortex. The age-related increase in left prefrontal activity may be interpreted as compensatory. Taken together, the results suggest that age-related changes in brain activity are rather process- and region-specific, and that they involve increases as well as decreases in neural activity.

Published

2000

47. Imaging episodic memory: implications for cognitive theories and phenomena.

Author

Nyberg L

Subjects

Brain diagnostic imaging, Humans, Neuropsychology methods, Tomography, Emission-Computed, Brain physiology, Memory physiology

Abstract

Functional neuroimaging studies are beginning to identify neuroanatomical correlates of various cognitive functions. This paper presents results relevant to several theories and phenomena of episodic memory, including component processes of episodic retrieval, encoding specificity, inhibition, item versus source memory, encoding-retrieval overlap, and the picture-superiority effect. Overall, by revealing specific activation patterns, the results provide support for existing theoretical views and they add some unique information which may be important to consider in future attempts to develop cognitive theories of episodic memory.

Published

1999

48. Brain regions associated with episodic retrieval in normal aging and Alzheimer's disease.

Author

Bäckman L, Andersson JL, Nyberg L, Winblad B, Nordberg A, and Almkvist O

Subjects

Aged, Brain Mapping, Female, Humans, Male, Middle Aged, Psychiatric Status Rating Scales, Time Factors, Alzheimer Disease physiopathology, Alzheimer Disease psychology, Brain physiopathology, Memory physiology

Abstract

Objective: To examine patterns of brain activation during verbal episodic retrieval in normal elderly subjects and patients in an early phase of AD., Background: It is established that 1) a profound episodic memory impairment is a cardinal symptom of AD; and 2) some of the earliest brain changes in this disease occur in regions critical to episodic memory, such as the hippocampus and neighboring regions. Yet, it remains largely unknown whether the episodic memory deficit seen in AD is paralleled by concomitant alterations in brain activity during actual task performance in these or other brain areas., Methods: Using PET, blood flow was assessed in normal elderly subjects and patients with early AD during two retrieval conditions involving completion of word stems: baseline and cued recall., Results: The patients with AD showed a marked performance deficit in cued recall, although the two groups were indistinguishable in the baseline task condition. Both groups showed bilateral activity in orbital and dorsolateral prefrontal cortex, left precuneus, and right cerebellum, as well as decreased activity in distinct left temporal regions during cued recall. The normal elderly alone activated the left parietal cortex and the left hippocampal formation during episodic retrieval. By contrast, AD-related increases in activity during cued recall were observed in the left orbital prefrontal cortex and left cerebellum., Conclusions: The similar patterns of activations in the two groups suggest that a large distributed network involved in episodic memory retrieval functions relatively normally in early AD. Those retrieval activations seen in the normal elderly, as opposed to the patients, may reflect AD-related failures in semantic processing and successful recollection of the target information, respectively. Finally, the AD-related increases in activity were interpreted in terms of compensatory reactions to the difficulties in performing the episodic memory task.

Published

1999

49. Positron emission tomography correlations in and beyond medial temporal lobes.

Author

Tulving E, Habib R, Nyberg L, Lepage M, and McIntosh AR

Subjects

Brain Mapping, Humans, Radiography, Brain diagnostic imaging, Brain physiology, Memory physiology, Temporal Lobe diagnostic imaging, Temporal Lobe physiology, Tomography, Emission-Computed methods

Abstract

This article discusses the potential usefulness of brain/ behavior correlational analyses in functional neuroimaging studies of memory, and how such analyses can illuminate the role of medial temporal lobes (MTL) and the hippocampus in episodic and declarative memory processes such as encoding and retrieval. Reanalysis of the results of four previously reported positron emission tomography (PET) studies yielded evidence of both positive and negative between-subjects correlations between recognition-memory accuracy and regional blood flow. The sites of these correlations were in MTL regions as well as in other cortical and subcortical areas, including frontal lobes (Brodmann areas 6, 9, 10, 11, and 47), temporal lobes (BAs 21, 22, and 38), insula, fusiform gyrus, and cuneus/precuneus. These findings were discussed with respect to issues such as localization of the correlation sites, the distinction between brain sites revealed by brain/cognition correlational analyses ("how" sites) and those yielded by cognitive subtraction methods ("what" sites), the tendency of the "how" sites in MTL to occur in the left hemisphere, the tendency of other "how" sites to occur in one or the other hemisphere, rather than bilaterally, and the meaning and "reality" of both brain/behavior correlations and task-related activations. Because of the known incidence of false-positives, all neuroimaging data, including those involving the localization of "what" and "how" memory sites in MTL and other brain regions, need to be interpreted cautiously, and findings of individual studies should not be overinterpreted.

Published

1999

50. Mapping episodic memory.

Author

Nyberg L

Subjects

Animals, Humans, Brain anatomy & histology, Brain physiology, Brain Mapping, Memory physiology

Abstract

This paper presents an analysis of brain regions generally associated with a frequently used episodic memory task; visual word recognition. The results from five positron emission tomography studies of regional cerebral blood flow, involving a total of nine pairwise comparisons of brain activity related to episodic retrieval and to performance on non-episodic reference tasks, were considered. Across studies, increased activity has been observed in the right anterior and posterior prefrontal, anterior cingulate, bilateral parietal, and cerebellar regions. Decreased activity has been found in bilateral temporal and left midfrontal regions. Comparison of this activation pattern with those of other memory tasks, episodic and semantic, indicate that the right anterior and posterior prefrontal regions guide processes selectively demanded by episodic memory retrieval. There is suggestive evidence from subtraction analyses that these prefrontal regions are activated by different processing components, and analyses of functional connectivity provide further support for functional differentiation. These analyses also point to a critical role of medial-temporal brain regions in episodic retrieval. Taken together, these results show that episodic memory retrieval is mediated by an extensive set of brain regions, some of which seem to be specifically engaged by episodic remembering.

Published

1998