Role of the Nucleus Basalis as a Key Network Node in Temporal Lobe Epilepsy

González, Hernán F J; Narasimhan, Saramati; Johnson, Graham W.; Wills, Kristin E.; Haas, Kevin F.; Konrad, Peter; Chang, Catie; Morgan, Victoria L.; Rubinov, Mikail; Englot, Dario J.

doi:10.1212/wnl.0000000000011523

Cited by 20 publications

(15 citation statements)

References 47 publications

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“…69 Moreover, there are findings showing increased fMRI functional connectivity within limbic mesiotemporal regions co-occurring with decreased connectivity in remote cortical networks. 70 These findings are compatible with network "regularization" in TLE patients, showing an increased emergence of local connections together with disruption of long-range connections associated with increased local segregation and reductions in overall network integration. 66 A similar finding was recently highlighted by an analysis that profiled the distance of functional connectivity patterns (Figure 2C), 71 pointing to reductions in long-range connections of distributed cortical networks, together with local increases in connectivity in temporolimbic circuits proximal to the seizure focus.…”

Section: Hubs In Common Epilepsy Syndromessupporting

confidence: 72%

Epilepsy and brain network hubs

et al. 2022

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Epilepsy is a disorder of brain networks. A better understanding of structural and dynamic network properties may improve epilepsy diagnosis, treatment, and prognostics. Hubs are brain regions with high connectivity to other parts of the brain and are typically situated along the brain's most efficient communication pathways, supporting large-scale brain wiring and many higher order neural functions. The visualization and analysis of hubs offers a perspective on regional and global network organization and can provide novel insights into brain disorders and epilepsy. By notably supporting the interaction between various brain networks, hubs may be implicated in seizure spread and in epilepsy-related phenotypes. In this review, we will discuss the growing literature on atypical hub organization in common epilepsy syndromes, both related to neuroimaging of brain structure and function, and related to neurophysiological data from magneto-and electroencephalographic measures of neural dynamics. With studies increasingly exploring the clinical utility of network neuroscience approaches, we highlight the potential of hub mapping as a candidate biomarker of cognitive dysfunction and postsurgical seizure outcome. We will conclude the review with a discussion of current limitations and outlook for future research.

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Section: Hubs In Common Epilepsy Syndromessupporting

confidence: 72%

Epilepsy and brain network hubs

et al. 2022

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“…Fourth, we cannot rule out the effect of interictal discharges on patient alertness because a synchronous electroencephalogram was not performed during the acquisition of imaging data. Finally, we defined BF subregions using a probabilistic map extracted from the SPM Anatomy Toolbox, which has been extensively used in previous research ( 1 , 17 ). However, the BF subregions are segregated in additional ways ( 52 ).…”

Section: Discussionmentioning

confidence: 99%

“…Temporal lobe epilepsy (TLE), the most frequent form of focal epilepsy in humans, is characterized by sclerosis of the medial temporal lobe and recurring seizures that mainly occur in the hippocampus and amygdala ( 1 ). In general, TLE can be classified into three categories: focal awareness seizures (FAS), focal impaired awareness seizures (FIAS), and focal to bilateral tonic-clonic seizures (FBTCS) ( 2 ).…”

Section: Introductionmentioning

confidence: 99%

“…Recent studies have proven that significant BF neuron degeneration and loss of cortical cholinergic innervation promote cognitive decline in Alzheimer's disease, Parkinson's disease, Wilson's disease, and multiple sclerosis ( 22 – 25 ). Hern'an et al observed aberrant functional connectivity and community between the nucleus basalis of Meynert (NBM) and cerebral hemisphere, related to cognitive impairments in TLE( 1 ).…”

Section: Introductionmentioning

confidence: 99%

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Correlation Between the Functional Connectivity of Basal Forebrain Subregions and Vigilance Dysfunction in Temporal Lobe Epilepsy With and Without Focal to Bilateral Tonic-Clonic Seizure

Fan

Pang

et al. 2022

Front. Psychiatry

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PurposePrevious research has shown that subcortical brain regions are related to vigilance in temporal lobe epilepsy (TLE). However, it is unknown whether alterations in the function and structure of basal forebrain (BF) subregions are associated with vigilance impairment in distinct kinds of TLE. We aimed to investigate changes in the structure and function BF subregions in TLE patients with and without focal to bilateral tonic-clonic seizures (FBTCS) and associated clinical features.MethodsA total of 50 TLE patients (25 without and 25 with FBTCS) and 25 healthy controls (HCs) were enrolled in this study. The structural and functional alterations of BF subregions in TLE were investigated using voxel-based morphometry (VBM) and resting-state functional connectivity (rsFC) analysis. Correlation analyses were utilized to investigate correlations between substantially altered imaging characteristics and clinical data from patients.ResultsFBTCS patients had a lower rsFC between Ch1-3 and the bilateral striatum as well as the left cerebellum posterior lobe than non-FBTCS patients. In comparison to non-FBTCS patients, the rsFC between Ch4 and the bilateral amygdala was also lower in FBTCS patients. Compared to HCs, the TLE patients had reduced rsFC between the BF subregions and the cerebellum, striatum, default mode network, frontal lobe, and occipital lobes. In the FBTCS group, the rsFC between the left Ch1-3 and striatum was positive correlated with the vigilance measures. In the non-FBTCS group, the rsFC between the left Ch4 and striatum was significantly negative correlated with the alertness measure.ConclusionThese results extend current understanding of the pathophysiology of impaired vigilance in TLE and imply that the BF subregions may serve as critical nodes for developing and categorizing TLE biomarkers.

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“…More broadly, Fadaie et al outline that abnormal hierarchical organization in sensory-petal streams exhibited widespread cognitive deficits that were more pronounced in patients with long epilepsy duration and seizure free outcomes [17]. Additionally, in individuals with TLE, Gonza ´lez et al outlined abnormal connectivity involving the nucleus basalis of Meynert (NBM), a subcortical cholinergic arousal structure, which was associated with certain neurocognitive deficits [18]. The NBM is an actively researched stimulation target in Parkinson and Alzheimer disease, but this work suggests striking NBM dysfunction in epilepsy and possibly a future target of DBS to improve cognitive function.…”

Section: Cognitive Outcomementioning

confidence: 99%

Network dysfunction in pre and postsurgical epilepsy: connectomics as a tool and not a destination

Johnson

Doss

Englot

2021

Current Opinion in Neurology

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Purpose of reviewPatients with focal drug-resistant epilepsy (DRE) sometimes continue to have seizures after surgery. Recently, there is increasing interest in using advanced network analyses (connectomics) to better understand this problem. Connectomics has changed the way researchers and clinicians view DRE, but it must be applied carefully in a hypothesis-driven manner to avoid spurious results. This review will focus on studies published in the last 18 months that have thoughtfully used connectomics to advance our fundamental understanding of network dysfunction in DRE -hopefully for the eventual direct benefit to patient care. Recent findingsImpactful recent findings have centered on using patient-specific differences in network dysfunction to predict surgical outcome. These works span functional and structural connectivity and include the modalities of functional and diffusion magnetic resonance imaging (MRI) and electrophysiology. Using functional MRI, many groups have described an increased functional segregation outside of the surgical resection zone in patients who fail surgery. Using electrophysiology, groups have reported network characteristics of resected tissue that suggest whether a patient will respond favorably to surgery.

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Role of the Nucleus Basalis as a Key Network Node in Temporal Lobe Epilepsy

Cited by 20 publications

References 47 publications

Epilepsy and brain network hubs

Epilepsy and brain network hubs

Correlation Between the Functional Connectivity of Basal Forebrain Subregions and Vigilance Dysfunction in Temporal Lobe Epilepsy With and Without Focal to Bilateral Tonic-Clonic Seizure

Network dysfunction in pre and postsurgical epilepsy: connectomics as a tool and not a destination

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