Traumatic stress is linked to a deficit in associative episodic memory

Guez, Jonathan; Naveh–Benjamin, Moshe; Yankovsky, Yan; Cohen, Jonathan; Shiber, Asher; Shalev, Hadar

doi:10.1002/jts.20635

Cited by 36 publications

(33 citation statements)

References 17 publications

(20 reference statements)

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“…First, performance on the item recognition test was significantly better than on the associative recognition one. Such results replicate previous finding regarding young and middle-age adults (e.g., Guez et al, 2011;Naveh-Benjamin, Guez, Kilb, et al, 2004). Second, the excitation and interference manipulations did cause enhancement and reduction in performance, respectively, in comparison to the neutral stimuli, indicating the success of these manipulations.…”

Section: Discussionsupporting

confidence: 88%

Proactive interference and concurrent inhibitory processes do not differentially affect item and associative recognition: Implication for the age-related associative memory deficit

Guez

Naveh–Benjamin

2015

Memory

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Previous studies have suggested an associative deficit hypothesis [Naveh-Benjamin, M. ( 2000 ). Adult age differences in memory performance: Tests of an associative deficit hypothesis. Journal of Experimental Psychology: Learning, Memory, and Cognition, 26, 1170-1187] to explain age-related episodic memory declines. The hypothesis attributes part of the deficient episodic memory performance in older adults to a difficulty in creating and retrieving cohesive episodes. In this article, we further evaluate this hypothesis by testing two alternative processes that potentially mediate associative memory deficits in older adults. Four experiments are presented that assess whether failure of inhibitory processes (proactive interference in Experiments 1 and 2), and concurrent inhibition (in Experiments 3 and 4) are mediating factors in age-related associative deficits. The results suggest that creating conditions that require the operation of inhibitory processes, or that interfere with such processes, cannot simulate associative memory deficit in older adults. Instead, such results support the idea that associative memory deficits reflect a unique binding failure in older adults. This failure seems to be independent of other cognitive processes, including inhibitory and other resource-demanding processes.

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Section: Discussionsupporting

confidence: 88%

Proactive interference and concurrent inhibitory processes do not differentially affect item and associative recognition: Implication for the age-related associative memory deficit

Guez

Naveh–Benjamin

2015

Memory

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confidence: 90%

Reduced Corpus‐Callosum Volume in Posttraumatic Stress Disorder Highlights the Importance of Interhemispheric Connectivity for Associative Memory

Saar‐Ashkenazy

Cohen

Guez

et al. 2014

Journal of Traumatic Stress

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Memory deficits are a common complaint of patients with posttraumatic stress disorder (PTSD). Despite vivid trauma-related memory, previous studies report memory impairment for nontrauma-related stimuli when compared to controls, specifically in associative memory (Guez et al., 2011). Healthy individuals show hemispheric memory asymmetry with left-prefrontal lateralization of encoding and right-prefrontal lateralization of episodic retrieval, suggesting a role for interhemispheric communication in memory-related tasks (Gazzaniga, ; Ringo, Doty, Demeter, & Simard, ). Because brain magnetic resonance imaging (bMRI) studies in PTSD patients report volume changes in various regions, including white matter and corpus callosum (CC), we aimed to test the relationship between memory deficits and CC volume in PTSD patients. We probed for specific alterations in associative memory in PTSD and measured the volume of subportions within the CC employing bMRI. Our main finding was a reduction in CC white-matter volume in PTSD patients, as compared to controls, t(35) = -2.7, p = .010, that was correlated with lower associative performance (r = .76, p = .003). We propose that CC volume reduction is a substrate for the associative memory deficits found in PTSD.

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“…These symptoms have been linked to deficits in attentional control (2–4), threat sensitivity (5–7), episodic memory (8–10), and fear extinction (11, 12), functions subserved by cortico-subcortical circuits involving amygdala, insula, ventromedial prefrontal cortex (vmPFC) and hippocampus (13, 14). While the activation patterns of these regions have been examined extensively in the past, identifying dysregulated patterns of connectivity between these regions could shed important and unique light on the brain-basis of PTSD (15, 16), and on previously unexplained mechanisms of PTSD symptom development.…”

Section: Introductionmentioning

confidence: 99%

Neural Dysregulation in Posttraumatic Stress Disorder

Sripada

King

Welsh

et al. 2012

Psychosomatic Medicine

363

211

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Objective Convergent neuroimaging and neuropsychological research demonstrates disrupted attention and heightened threat sensitivity in PTSD. This might be linked to aberrations in large-scale networks subserving detection of salient stimuli, i.e. the salience network (SN), and stimulus-independent, internally-focused thought, i.e. the default mode network (DMN). Methods Resting state brain activity was measured in returning veterans who served in Iraq or Afghanistan with (n=15) and without PTSD (n=15) and in healthy community controls (n=15). Correlation coefficients were calculated between the time course of seed regions in key SN and DMN regions (posterior cingulate, ventromedial prefrontal cortex, and bilateral anterior insula) and all other voxels of the brain. Results Compared to control groups, PTSD participants showed reduced functional connectivity within DMN (between DMN seeds and other DMN regions), including rostral ACC/vmPFC (Z=3.31; p=.005, corrected) and hippocampus (Z=2.58; p=.005), and increased connectivity within SN (between insula seeds and other SN regions), including amygdala (Z=3.03; p=.01, corrected). PTSD participants also demonstrated increased cross-network connectivity. DMN seeds exhibited elevated connectivity with SN regions, including insula (Z=3.06; p=.03, corrected), putamen, and supplementary motor area (Z=4.14; Z=4.08; p<.001), and SN seeds exhibited elevated connectivity with DMN regions, including hippocampus (Z=3.10; p=.048, corrected). Conclusions During resting state scanning, PTSD participants showed reduced coupling within DMN, greater coupling within SN, and increased coupling between DMN and SN. Our findings suggest a relative dominance of threat-sensitive circuitry in PTSD, even in task-free conditions. Disequilibrium between large-scale networks subserving salience detection versus internally focused thought may be associated with PTSD pathophysiology.

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Traumatic stress is linked to a deficit in associative episodic memory

Cited by 36 publications

References 17 publications

Proactive interference and concurrent inhibitory processes do not differentially affect item and associative recognition: Implication for the age-related associative memory deficit

Proactive interference and concurrent inhibitory processes do not differentially affect item and associative recognition: Implication for the age-related associative memory deficit

Reduced Corpus‐Callosum Volume in Posttraumatic Stress Disorder Highlights the Importance of Interhemispheric Connectivity for Associative Memory

Neural Dysregulation in Posttraumatic Stress Disorder

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