Graph theoretical analysis of magnetoencephalographic functional connectivity in Alzheimer's disease

Stam, Cornelis J.; Haan, Willem de; Daffertshofer, Andreas; Jones, Bethany F.; Manshanden, Ilonka; Walsum, Anne‐Marie van Cappellen van; Montez, Teresa; Verbunt, J.P.A.; Munck, Jan C. de; Dijk, Bob W. van; Berendse, Henk W.; Scheltens, Philip

doi:10.1093/brain/awn262

Cited by 822 publications

(796 citation statements)

References 78 publications

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“…Therefore, the increased synchronization between regions can be interpreted as increased involvement of the network, but little can be said about the nature of that involvement. It should be noted that there is significant evidence in studies using electrophysiological methods (e.g., MEG, EEG) supporting the current findings in fMRI (see Castellanos et al, 2010;Stam et al, 2009;Stam et al, 2006;Stam et al, 2007;Tijms et al, 2013), so although neurovascular methods cannot clarify the nature of the neural activity, it is highly unlikely that the current findings can be explained as a vascular anomaly alone (e.g., decoupling between vascular and neuronal signaling).…”

Section: Discussion Primary Findingssupporting

confidence: 59%

Hyperconnectivity is a fundamental response to neurological disruption.

et al. 2015

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Objective: In the cognitive and clinical neurosciences, the past decade has been marked by dramatic growth in a literature examining brain "connectivity" using noninvasive methods. We offer a critical review of the blood oxygen level dependent functional MRI (BOLD fMRI) literature examining neural connectivity changes in neurological disorders with focus on brain injury and dementia. The goal is to demonstrate that there are identifiable shifts in local and large-scale network connectivity that can be predicted by the degree of pathology. We anticipate that the most common network response to neurological insult is hyperconnectivity but that this response depends upon demand and resource availability. Method: To examine this hypothesis, we initially reviewed the results from 1,426 studies examining functional brain connectivity in individuals diagnosed with multiple sclerosis, traumatic brain injury, mild cognitive impairment, and Alzheimer's disease. Based upon inclusionary criteria, 126 studies were included for detailed analysis. Results: Results from 126 studies examining local and whole brain connectivity demonstrated increased connectivity in traumatic brain injury and multiple sclerosis. This finding is juxtaposed with findings in mild cognitive impairment and Alzheimer's disease where there is a shift to diminished connectivity as degeneration progresses. Conclusion: This summary of the functional imaging literature using fMRI methods reveals that hyperconnectivity is a common response to neurological disruption and that it may be differentially observable across brain regions. We discuss the factors contributing to both hyper-and hypoconnectivity results after neurological disruption and the implications these findings have for network plasticity.

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Section: Discussion Primary Findingssupporting

confidence: 59%

Hyperconnectivity is a fundamental response to neurological disruption.

et al. 2015

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“…MCI subject showed a hyper-synchronization (compensatory effect), whereas SMC a hypo-synchronization (the brain is not still compensating for the fails of the memory networks, being a pathological or dementia effect). AD patients show an impairment of their functional connectivity (Stam et al 2009) zation in favour of the MCIs over anterior and central regions, these patterns are widely distributed when comparing MCIs and SMC, which accounts for their diminution in the synchronization values along the whole sensor area. This hypo-synchronization could underlie the memory difficulties in the day-to-day activities reported by SMC subjects.…”

Section: Discussionmentioning

confidence: 99%

“…This hypo-synchronization could underlie the memory difficulties in the day-to-day activities reported by SMC subjects. Thus, the difficulties in achieving a correct coupling between brain regions diminish the probability of an efficient transmission of information (Stam et al 2009) leading to memory failures. A compensation mechanism showed by MCI subjects, seems to be unnecessary at this point since memory difficulties are not yet severe enough.…”

Section: Discussionmentioning

confidence: 99%

“…Taking the healthy elderly subjects' profile of functional connectivity as a standard at the SMC stage, subjects show a hypo-synchronization of their memory-related networks and at the MCI stage, memory networks increase their coupling as a compensatory mechanism (Bajo et al 2010) and finally AD patients show an impairment of their functional connectivity (Stam et al 2009). Thus, at the stage of SMC, compensatory mechanisms are still not necessary because the memory deficit is not severe enough to be detected by memory tests and does not dramatically disturb daily living activities.…”

Section: Discussionmentioning

confidence: 99%

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Early dysfunction of functional connectivity in healthy elderly with subjective memory complaints

Bajo

Castellanos

López

et al. 2011

AGE

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It is still an open question whether subjective memory complaints (SMC) can actually be considered to be clinically relevant predictors for the development of an objective memory impairment and even dementia. There is growing evidence that suggests that SMC are associated with an increased risk of dementia and with the presence of biological correlates of early Alzheimer's disease. In this paper, in order to shed some light on this issue, we try to discern whether subjects with SMC showed a different profile of functional connectivity compared with subjects with mild cognitive impairment (MCI) and healthy elderly subjects. In the present study, we compare the degree of synchronization of brain signals recorded with magnetoencephalography between three groups of subjects (56 in total): 19 with MCI, 12 with SMC and 25 healthy controls during a memory task. Synchronization likelihood, an index based on the theory of nonlinear dynamical systems, was used to measure functional connectivity. Briefly, results show that subjects with SMC have a very similar pattern of connectivity to control group, but on average, they present a lower synchronization value. These results could indicate that SMC are representing an initial stage with a hypo-synchronization (in comparison with the control group) where the brain system is still not compensating for the failing memory networks, but behaving as controls when compared with the MCI subjects.

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“…These neuroimaging techniques can be used to identify brain networks involved in normal brain functions(behavioral response to stimulus, learning , memory) as well as in neurological disorders like epilepsy, Alzheimer, Schizophrenia [1].…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal Analysis of Brain Functional Connectivity

et al. 2015

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Abstract-Brain functions are based on interactions between neural assemblies distributed within and across distinct cerebral regions. During cognitive tasks, these interactions are dynamic and take place at the millisecond time scale. In this context, the excellent temporal resolution (<1 ms) of the Electroencephalographic -EEG-signals allows for detection of very short-duration events and therefore, offers the unique opportunity to follow, over time, the dynamic properties of cognitive processes.In this paper we propose a new algorithm to track the functional brain connectivity dynamics. During picture recognition and naming task, this algorithm aims at segmenting high resolution (hr) EEG functional connectivity microstates. The proposed algorithm is based on the K-means clustering of the connectivity graphs obtained from the Phase Locking Values (PLV). Results show that the algorithm is able to track the brain functional connectivity dynamics during picture naming task.

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Graph theoretical analysis of magnetoencephalographic functional connectivity in Alzheimer's disease

Cited by 822 publications

References 78 publications

Hyperconnectivity is a fundamental response to neurological disruption.

Hyperconnectivity is a fundamental response to neurological disruption.

Early dysfunction of functional connectivity in healthy elderly with subjective memory complaints

Spatiotemporal Analysis of Brain Functional Connectivity

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