Going Their Separate Ways: Dissociation of Hippocampal and Dorsolateral Prefrontal Activation during Episodic Retrieval and Post-retrieval Processing

Israel, Sarah L.; Seibert, Tyler M.; Black, Michelle L.; Brewer, James B.

doi:10.1162/jocn.2009.21198

Cited by 20 publications

(33 citation statements)

References 77 publications

(83 reference statements)

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“…Event-related fMRI was used to investigate BOLD responses during cued recall and post-retrieval processing of previously studied word pairs relative to a non-memory classification task. Consistent with prior evidence of hippocampal deactivation during elaborative associative recall of paired visual objects (Israel et al, 2010), results confirmed that hippocampal deactivation occurs during elaborative associative recall of paired words, allowing further isolation and examination of the factors that modulate this suppression. To investigate the neural correlates underlying retrieval-related components of memory search, successful retrieval, and post-retrieval processing, we examined task conditions that had different levels of each.…”

Section: Introductionsupporting

confidence: 87%

“…Task-related deactivation, such as that seen in default network regions, might also explain relative signal differences in the hippocampus. A prior study demonstrated robust hippocampal deactivation during cued recall and post-retrieval processing of visual paired associates (Israel et al, 2010), described as “elaborative associative recall.” Externally directed thought and task difficulty are known to deactivate the default network (Greicius et al, 2003b; McKiernan et al, 2003; Vincent et al, 2008), and maintenance of an item in working memory can suppress hippocampal activity (Axmacher et al, 2007). It is therefore possible that either directed search effort prior to retrieval or post-retrieval working memory processing is a primary mediator of hippocampal activity during memory retrieval, rather than the retrieval event, itself.…”

Section: Introductionmentioning

confidence: 99%

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Search-Related Suppression of Hippocampus and Default Network Activity during Associative Memory Retrieval

Reas¹,

Gimbel²,

Hales³

et al. 2011

Front. Hum. Neurosci.

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Episodic memory retrieval involves the coordinated interaction of several cognitive processing stages such as mental search, access to a memory store, associative re-encoding, and post-retrieval monitoring. The neural response during memory retrieval is an integration of signals from multiple regions that may subserve supportive cognitive control, attention, sensory association, encoding, or working memory functions. It is particularly challenging to dissociate contributions of these distinct components to brain responses in regions such as the hippocampus, which lies at the interface between overlapping memory encoding and retrieval, and “default” networks. In the present study, event-related functional magnetic resonance imaging (fMRI) and measures of memory performance were used to differentiate brain responses to memory search from subcomponents of episodic memory retrieval associated with successful recall. During the attempted retrieval of both poorly and strongly remembered word pair associates, the hemodynamic response was negatively deflected below baseline in anterior hippocampus and regions of the default network. Activations in anterior hippocampus were functionally distinct from those in posterior hippocampus and negatively correlated with response times. Thus, relative to the pre-stimulus period, the hippocampus shows reduced activity during intensive engagement in episodic memory search. Such deactivation was most salient during trials that engaged only pre-retrieval search processes in the absence of successful recollection or post-retrieval processing. Implications for interpretation of hippocampal fMRI responses during retrieval are discussed. A model is presented to interpret such activations as representing modulation of encoding-related activity, rather than retrieval-related activity. Engagement in intensive mental search may reduce neural and attentional resources that are otherwise tonically devoted to encoding an individual’s stream of experience into episodic memory.

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Section: Introductionsupporting

confidence: 87%

Section: Introductionmentioning

confidence: 99%

Search-Related Suppression of Hippocampus and Default Network Activity during Associative Memory Retrieval

Reas¹,

Gimbel²,

Hales³

et al. 2011

Front. Hum. Neurosci.

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“…In this study, although the hippocampal response during successful recall was below threshold, the hippocampal response during failed recall was robustly deactivated, consistent with Reas et al (2011). Despite evidence for default network activations during memory retrieval, which are generally attributed to autobiographical or self-referential task conditions (Spreng & Grady, 2010; Maguire, 2001; Andreasen et al, 1995), these results provide further evidence for task-negative responses in these regions during effortful episodic memory retrieval (Gimbel & Brewer, 2011; Israel, Seibert, Black, & Brewer, 2010), which may be driven by mental search processes (Reas et al, 2011). Furthermore, they expand on prior studies, which did not simultaneously assess effects of search and associative memory strength, to reveal that default network deactivations are more likely attributable to search than retrieval strength differences.…”

Section: Discussionsupporting

confidence: 64%

Retrieval Search and Strength Evoke Dissociable Brain Activity during Episodic Memory Recall

Reas¹,

Brewer²

2013

Journal of Cognitive Neuroscience

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Neuroimaging studies of episodic memory retrieval have revealed activations in the human frontal, parietal, and medial-temporal lobes that are associated with memory strength. However, it remains unclear whether these brain responses are veritable signals of memory strength or are instead regulated by concomitant subcomponents of retrieval such as retrieval effort or mental search. This study used event-related fMRI during cued recall of previously memorized word-pair associates to dissociate brain responses modulated by memory search from those modulated by the strength of a recalled memory. Search-related deactivations, dissociated from activity due to memory strength, were observed in regions of the default network, whereas distinctly strength-dependent activations were present in superior and inferior parietal and dorsolateral PFC. Both search and strength regulated activity in dorsal anterior cingulate and anterior insula. These findings suggest that, although highly correlated and partially subserved by overlapping cognitive control mechanisms, search and memory strength engage dissociable regions of frontoparietal attention and default networks.

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“…Furthermore, it is noteworthy that several of the studies demonstrating hippocampal deactivations in arguably hippocampusrelevant conditions reported worse behavioral performance in that particular condition (Lambrey et al, 2012;Rodriguez, 2010;Shipman & Astur, 2008;Rekkas et al, 2005). However, the coupling of the hippocampus with other default regions during memory retrieval appears to vary according to task condition Huijbers, Pennartz, Cabeza, & Daselaar, 2011;Reas et al, 2011), which indicates that the areas deactivated during memory retrieval may only partially overlap with those deactivated during nonmemory tasks (Israel, Seibert, Black, & Brewer, 2010). In relation to this, although the more difficult EC condition was associated with deactivations in default regions such as the medial pFC, the posterior cingulate cortex, and the inferior parietal lobule, it was associated with strong activations in another default region, the retrosplenial cortex (Buckner, Andrews-Hanna, & Schacter, 2008).…”

Section: Discussionmentioning

confidence: 99%

Negative BOLD Response in the Hippocampus during Short-term Spatial Memory Retrieval

Nilsson

Ferrier

Coventry

et al. 2013

Journal of Cognitive Neuroscience

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A parieto-medial temporal pathway is thought to underlie spatial navigation in humans. fMRI was used to assess the role of this pathway, including the hippocampus, in the cognitive processes likely to underlie navigation based on environmental cues. Participants completed a short-term spatial memory task in virtual space, which required no navigation but involved the recognition of a target location from a foil location based on environmental landmarks. The results showed that spatial memory retrieval based on environmental landmarks was indeed associated with increased signal in regions of the parieto-medial temporal pathway, including the superior parietal cortex, the retrosplenial cortex, and the lingual gyrus. However, the hippocampus demonstrated a signal decrease below the fixation baseline during landmark-based retrieval, whereas there was no signal change from baseline during retrieval based on viewer position. In a discussion of the origins of such negative BOLD response in the hippocampus, we consider both a suppression of default activity and an increase in activity without a corresponding boost in CBF as possible mechanisms.

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Going Their Separate Ways: Dissociation of Hippocampal and Dorsolateral Prefrontal Activation during Episodic Retrieval and Post-retrieval Processing

Cited by 20 publications

References 77 publications

Search-Related Suppression of Hippocampus and Default Network Activity during Associative Memory Retrieval

Search-Related Suppression of Hippocampus and Default Network Activity during Associative Memory Retrieval

Retrieval Search and Strength Evoke Dissociable Brain Activity during Episodic Memory Recall

Negative BOLD Response in the Hippocampus during Short-term Spatial Memory Retrieval

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