Relationships between Hippocampal Atrophy, White Matter Disruption, and Gray Matter Hypometabolism in Alzheimer's Disease

Villain, Nicolas; Desgranges, Béatrice; Viader, Fausto; Sayette, Vincent de La; Mézenge, Florence; Landeau, Brigitte; Baron, Jean‐Claude; Eustache, Francis; Chételat, Gaël

doi:10.1523/jneurosci.1392-08.2008

Cited by 335 publications

(289 citation statements)

References 58 publications

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“…The joint recruitment of bilateral hippocampi and RSC during semantic fluency is consistent with the similar activity patterns seen in these structures in a different memory task (60). The involvement of hippocampi and RSC in semantic word fluency may further explain the degraded performance of individuals with Alzheimer's disease on semantic fluency tasks (61), because the earliest metabolic decline in Alzheimer's disease is centered on the RSC (62,63), whereas early structural changes are seen in the hippocampi (63).…”

Section: Contributions Of Dmn Subcomponents To Specific Aspects Of Mesupporting

confidence: 63%

Portraying the unique contribution of the default mode network to internally driven mnemonic processes

Shapira‐Lichter

Oren

Jacob

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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Numerous neuroimaging studies have implicated default mode network (DMN) involvement in both internally driven processes and memory. Nevertheless, it is unclear whether memory operations reflect a particular case of internally driven processing or alternatively involve the DMN in a distinct manner, possibly depending on memory type. This question is critical for refining neurocognitive memory theorem in the context of other endogenic processes and elucidating the functional significance of this key network. We used functional MRI to examine DMN activity and connectivity patterns while participants overtly generated words according to nonmnemonic (phonemic) or mnemonic (semantic or episodic) cues. Overall, mnemonic word fluency was found to elicit greater DMN activity and stronger within-network functional connectivity compared with nonmnemonic fluency. Furthermore, two levels of functional organization of memory retrieval were shown. First, across both mnemonic tasks, activity was greater mainly in the posterior cingulate cortex, implying selective contribution to generic aspects of memory beyond its general involvement in endogenous processes. Second, parts of the DMN showed distinct selectivity for each of the mnemonic conditions; greater recruitment of the anterior prefrontal cortex, retroesplenial cortex, and hippocampi and elevated connectivity between anterior and posterior medial DMN nodes characterized the semantic condition, whereas increased recruitment of posterior DMN components and elevated connectivity between them characterized the episodic condition. This finding emphasizes the involvement of DMN elements in discrete aspects of memory retrieval. Altogether, our results show a specific contribution of the DMN to memory processes, corresponding to the specific type of memory retrieval.free recall | memory search | word fluency T he default mode network (DMN) is known to play a central role in internally based processes, including self-referential operations (1-4), internal mentation (5), and unconstrained thinking (6, 7). Additionally, during the past decades, the DMN has consistently been implicated in both semantic (8, 9) and episodic (10-13) memory processes. However, despite the fact that internal operations are inherent to many, if not all, mnemonic tasks, the unique contributions of the DMN to memory operations beyond its more general role in nonmnemonic internally based processes have not been sufficiently addressed thus far.One example of an internally based mnemonic process is mental search, which plays a central role in memory retrieval (14). Although a significant contribution of the DMN to memory search has been shown (12, 15), it is yet unclear whether this contribution merely reflects the DMN's involvement in nonspecific internal direction of attention or rather, a specific role for the DMN in mnemonic search processes. Direct comparison of DMN recruitment during memory search with its recruitment during nonmnemonic internal search operations may shed light on this matter. This questi...

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Section: Contributions Of Dmn Subcomponents To Specific Aspects Of Mesupporting

confidence: 63%

Portraying the unique contribution of the default mode network to internally driven mnemonic processes

Shapira‐Lichter

Oren

Jacob

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

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“…The role of these three parietal regions indicating a prodromal AD-related assembly of posterior parietal regions is well established in AD [23,88,89]. This suggests that these regions segregate from remaining DMN nodes in prodromal AD, potentially resulting from the high metabolic activity and accumulation of amyloid plaques [22,90,91]. The second cluster comprises the vmPFC and hippocampus.…”

Section: Disrupted Functional Coupling Of Prefrontal and Parietal Dmnmentioning

confidence: 95%

Functional Disintegration of the Default Mode Network in Prodromal Alzheimer’s Disease

Dillen¹,

Jacobs

Kukolja

et al. 2017

JAD

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Abstract. Neurodegenerative brain changes can affect the functional connectivity strength between nodes of the default-mode network (DMN), which may underlie changes in cognitive performance. It remains unclear how the functional connectivity strength of DMN nodes differs from healthy to pathological aging and whether these changes are cognitively relevant. We used resting-state functional magnetic resonance imaging to investigate the functional connectivity strength across five DMN nodes in 25 healthy controls (HC), 28 subjective cognitive decline (SCD) participants, and 25 prodromal Alzheimer's disease (AD) patients. After identifying the ventral medial prefrontal cortex (vmPFC), posterior cingulate cortex (PCC), retrosplenial cortex (RSC), inferior parietal lobule, and the hippocampus we investigated the functional strength between DMN nodes using temporal network modeling. Functional coupling of the vmPFC and PCC in prodromal AD patients was disrupted. This vmPFC-PCC coupling correlated positively with memory performance in prodromal AD. Furthermore, the hippocampus decoupled from posterior DMN nodes in SCD and prodromal AD patients. There was no coupling between the hippocampus and the anterior DMN. Additional mediation analyses indicated that the RSC enables communication between the hippocampus and DMN regions in HC but none of the other two groups. These results suggest an anterior-posterior disconnection and a hippocampal de-coupling from posterior DMN nodes with disease progression. Hippocampal de-coupling already occurring in SCD may provide valuable information for the development of a functional biomarker.

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“…This technique can help diagnosing AD in two ways: on one hand, it allows to measure MTL's atrophy, which is closely related to cognition and memory, with very high definition [103,104] and on the other hand, it enables changes on tissue characteristics due to vascular damage to be detected [87]. MTL's atrophy is earliest evidenced in the hippocampus and the entorhinal cortex [28,[105][106][107], followed closely by the parahippocampus and the amygdala [87].…”

Section: Structural Mrimentioning

confidence: 99%

On the early diagnosis of Alzheimer's Disease from multimodal signals: A survey

Alberdi

Aztiria

Basarab

2016

Artificial Intelligence in Medicine

163

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Relationships between Hippocampal Atrophy, White Matter Disruption, and Gray Matter Hypometabolism in Alzheimer's Disease

Cited by 335 publications

References 58 publications

Portraying the unique contribution of the default mode network to internally driven mnemonic processes

Portraying the unique contribution of the default mode network to internally driven mnemonic processes

Functional Disintegration of the Default Mode Network in Prodromal Alzheimer’s Disease

On the early diagnosis of Alzheimer's Disease from multimodal signals: A survey

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