Aberrant Functional Connectivity in Dissociable Hippocampal Networks Is Associated with Deficits in Memory

Voets, Natalie L.; Zamboni, Giovanna; Stokes, Mark G.; Carpenter, Katherine; Stacey, Richard; Adcock, Jane

doi:10.1523/jneurosci.4281-13.2014

Cited by 70 publications

(89 citation statements)

References 64 publications

(8 reference statements)

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“…In addition, we show that edgewise connectivity of these structures are affected to different extents in left and right TLE, with the insula and parahippocampal gyrus most affected in right TLE, and the superior temporal gyrus and thalamus most affected in left TLE. The hippocampus and posterior cingulate were affected in both left and right TLE, similar to previous research (James et al, 2013), and is consistent with the selective vulnerability of functional connections between the hippocampal and posterior cingulate regions of the DMN identified in previous rs-fMRI studies (Voets et al, 2014). …”

Section: Discussionsupporting

confidence: 91%

“…This may reflect compensatory changes necessitated by greater cognitive deficits in left TLE (Mayeux et al, 1980), resulting in reorganization and less impairment from reductions in left TLE connectivity. Alternatively, this may also represent a maladaptive process leading to greater cognitive deficits in left TLE, as research increasingly supports the notion that upregulations in mesial temporal lobe connectivity are not functionally efficient (Voets et al, 2014). Further investigation is needed to improve understanding of circumstances under which these functional changes are compensatory or maladaptive (Saurand Hartwigsen, 2012; Voets et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

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Differences in graph theory functional connectivity in left and right temporal lobe epilepsy

et al. 2014

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Summary Purpose To investigate lateralized differences in limbic system functional connectivity between left and right temporal lobe epilepsy (TLE) using graph theory. Methods Interictal resting state fMRI was performed in 14 left TLE patients, 11 right TLE patients, and 12 controls. Graph theory analysis of 10 bilateral limbic regions of interest was conducted. Changes in edgewise functional connectivity, network topology, and regional topology were quantified, and then left and right TLE were compared. Results Limbic edgewise functional connectivity was predominantly reduced in both left and right TLE. More regional connections were reduced in right TLE, most prominently involving reduced interhemispheric connectivity between the bilateral insula and bilateral hippocampi. A smaller number of limbic connections were increased in TLE, more so in left than in right TLE. Topologically, the most pronounced change was a reduction in average network betweenness centrality and concurrent increase in left hippocampal betweenness centrality in right TLE. In contrast, left TLE exhibited a weak trend toward increased right hippocampal betweenness centrality, with no change in average network betweenness centrality. Conclusion Limbic functional connectivity is predominantly reduced in both left and right TLE, with more pronounced reductions in right TLE. In contrast, left TLE exhibits both edgewise and topological changes that suggest a tendency toward reorganization. Network changes in TLE and lateralized differences thereof may have important diagnostic and prognostic implications.

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Section: Discussionsupporting

confidence: 91%

Section: Discussionmentioning

confidence: 99%

Differences in graph theory functional connectivity in left and right temporal lobe epilepsy

et al. 2014

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“…In other words, a plausible explanation for the significant differences in connectivity noted between the healthy and diseased state may be due to a disease-related reorganization of brain networks, or even merely because of individual variation, especially but not exclusively in terms spatial extent 35 . This is particularly relevant with regards to our conclusion that the changes in connectivity are “burnt in” after years of disease, given that reorganization of functional networks is likely to occur over longer time periods.…”

Section: Discussionmentioning

confidence: 99%

Postoperative seizure freedom does not normalize altered connectivity in temporal lobe epilepsy

et al. 2017

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Summary Objectives Specific changes in the functional connectivity of brain networks occur in patients with epilepsy. Yet whether such changes reflect a stable disease effect or one that is a function of active seizure burden remains unclear. Here we longitudinally assessed the connectivity of canonical cognitive functional networks in patients with intractable temporal lobe epilepsy (TLE), both before and after undergoing epilepsy surgery and achieving seizure freedom. Methods Seventeen patients with intractable TLE who underwent epilepsy surgery with Engel Class I outcome and seventeen matched healthy controls took part in the study. The functional connectivity of a set of cognitive functional networks derived from typical cognitive tasks was assessed in patients, preoperatively and postoperatively, as well as in controls, using stringent methods of artifact reduction. Results Preoperatively, functional networks in TLE patients differed significantly from healthy controls, with differences that largely, but not exclusively, involved the default mode and temporal/auditory subnetworks. However, undergoing epilepsy surgery and achieving seizure freedom did not lead to significant changes in network connectivity, with postoperative functional network abnormalities closely mirroring the preoperative state. Significance This result argues for a stable chronic effect of the disease on brain connectivity, with changes that are largely “burned in” by the time a patient with intractable TLE undergoes epilepsy surgery, which typically occurs years after the initial diagnosis. The result has potential implications for the treatment of intractable epilepsy, suggesting that delaying surgical intervention that may achieve seizure freedom may lead to functional network changes that are no longer reversible by the time of epilepsy surgery.

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“…Nevertheless, several fMRI studies have reported distinct patterns of activation across anterior and posterior regions of the hippocampus (e.g. (Baumann and Mattingley, 2013; Hirshhorn et al, 2012; Kuhn and Gallinat, 2014; Nadel et al, 2013; Strange et al, 1999; Voets et al, 2014). Another promising approach has been to examine patterns of resting functional connectivity with other structures, using for example, resting state fMRI (rsfMRI).…”

Section: Introductionmentioning

confidence: 99%

Evidence for an anterior–posterior differentiation in the human hippocampal formation revealed by meta-analytic parcellation of fMRI coordinate maps: Focus on the subiculum

et al. 2015

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Previous studies, predominantly in experimental animals, have suggested the presence of a differentiation of function across the hippocampal formation. In rodents, ventral regions are thought to be involved in emotional behavior while dorsal regions mediate cognitive or spatial processes. Using a combination of modeling the co-occurrence of significant activations across thousands of neuroimaging experiments and subsequent data-driven clustering of these data we were able to provide evidence of distinct subregions within a region corresponding to the human subiculum, a critical hub within the hippocampal formation. This connectivity-based model consists of a bilateral anterior region, as well as separate posterior and intermediate regions on each hemisphere. Functional connectivity assessed both by meta-analytic and resting fMRI approaches revealed that more anterior regions were more strongly connected to the default mode network, and more posterior regions were more strongly connected to ‘task positive’ regions. In addition, our analysis revealed that the anterior subregion was functionally connected to the ventral striatum, midbrain and amygdala, a circuit that is central to models of stress and motivated behavior. Analysis of a behavioral taxonomy provided evidence for a role for each subregion in mnemonic processing, as well as implication of the anterior subregion in emotional and visual processing and the right posterior subregion in reward processing. These findings lend support to models which posit anterior-posterior differentiation of function within the human hippocampal formation and complement other early steps toward a comparative (cross-species) model of the region.

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Aberrant Functional Connectivity in Dissociable Hippocampal Networks Is Associated with Deficits in Memory

Cited by 70 publications

References 64 publications

Differences in graph theory functional connectivity in left and right temporal lobe epilepsy

Differences in graph theory functional connectivity in left and right temporal lobe epilepsy

Postoperative seizure freedom does not normalize altered connectivity in temporal lobe epilepsy

Evidence for an anterior–posterior differentiation in the human hippocampal formation revealed by meta-analytic parcellation of fMRI coordinate maps: Focus on the subiculum

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