Che-1/AATF: A Critical Cofactor for Both Wild-Type- and Mutant-p53 Proteins

The influential notion that the hippocampus supports associative memory by interacting with functionally distinct and distributed brain regions has not been directly tested in humans. We therefore used targeted noninvasive electromagnetic stimulation to modulate human cortical-hippocampal networks and tested effects of this manipulation on memory. Multi-session stimulation increased functional connectivity among distributed cortical-hippocampal network regions and concomitantly improved associative memory performance. These alterations involved localized long-term plasticity, because increases were highly selective to the targeted brain regions, and enhancements of connectivity and associative memory persisted for ~24 hours following stimulation. Targeted cortical-hippocampal networks can thus be enhanced noninvasively, demonstrating their role in associative memory.

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Associative Recognition Memory Awareness Improved by Theta-Burst Stimulation of Frontopolar Cortex

Ryals

Rogers

Gross

et al. 2015

Cereb. Cortex

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Neuroimaging and lesion studies have implicated specific prefrontal cortex locations in subjective memory awareness. Based on this evidence, a rostrocaudal organization has been proposed whereby increasingly anterior prefrontal regions are increasingly involved in memory awareness. We used theta-burst transcranial magnetic stimulation (TBS) to temporarily modulate dorsolateral versus frontopolar prefrontal cortex to test for distinct causal roles in memory awareness. In three sessions, participants received TBS bilaterally to frontopolar cortex, dorsolateral prefrontal cortex, or a control location prior to performing an associative-recognition task involving judgments of memory awareness. Objective memory performance (i.e., accuracy) did not differ based on stimulation location. In contrast, frontopolar stimulation significantly influenced several measures of memory awareness. During study, judgments of learning were more accurate such that lower ratings were given to items that were subsequently forgotten selectively following frontopolar TBS. Confidence ratings during test were also higher for correct trials following frontopolar TBS. Finally, trial-by-trial correspondence between overt performance and subjective awareness during study demonstrated a linear increase across control, dorsolateral, and frontopolar TBS locations, supporting a rostrocaudal hierarchy of prefrontal contributions to memory awareness. These findings indicate that frontopolar cortex contributes causally to memory awareness, which was improved selectively by anatomically targeted TBS.

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The recognition without cued recall phenomenon: Support for a feature-matching theory over a partial recollection account

Ryals

Cleary

2012

Journal of Memory and Language

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Familiarity from the configuration of objects in 3-dimensional space and its relation to déjà vu: A virtual reality investigation

Cleary

Brown

Sawyer

et al. 2012

Consciousness and Cognition

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Can déjà vu result from similarity to a prior experience? Support for the similarity hypothesis of déjà vu

Cleary

Ryals

Nomi

2009

Psychonomic Bulletin & Review

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Anthony J. Ryals

Targeted enhancement of cortical-hippocampal brain networks and associative memory

Associative Recognition Memory Awareness Improved by Theta-Burst Stimulation of Frontopolar Cortex

The recognition without cued recall phenomenon: Support for a feature-matching theory over a partial recollection account

Familiarity from the configuration of objects in 3-dimensional space and its relation to déjà vu: A virtual reality investigation

Can déjà vu result from similarity to a prior experience? Support for the similarity hypothesis of déjà vu

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