A Precuneal Causal Loop Mediates External and Internal Information Integration in the Human Brain

AbstractA central goal of neuroscience is to understand how the brain synthesises information from multiple inputs to give rise to a unified conscious experience. This process is widely believed to require integration of information. Here, we combine information theory and network science to address two fundamental questions: how is the human information-processing architecture functionally organised? And how does this organisation support human consciousness? To address these questions, we leverage the mathematical framework of Integrated Information Decomposition to delineate a cognitive architecture wherein specialised modules interact with a “synergistic global workspace,” comprising functionally distinct gateways and broadcasters. Gateway regions gather information from the specialised modules for processing in the synergistic workspace, whose contents are then further integrated to later be made widely available by broadcasters. Through data-driven analysis of resting-state functional MRI, we reveal that gateway regions correspond to the brain’s well-known default mode network, whereas broadcasters of information coincide with the executive control network. Demonstrating that this synergistic workspace supports human consciousness, we further apply Integrated Information Decomposition to BOLD signals to compute integrated information across the brain. By comparing changes due to propofol anaesthesia and severe brain injury, we demonstrate that most changes in integrated information happen within the synergistic workspace. Furthermore, it was found that loss of consciousness corresponds to reduced integrated information between gateway, but not broadcaster, regions of the synergistic workspace. Thus, loss of consciousness may coincide with breakdown of information integration by this synergistic workspace of the human brain. Together, these findings demonstrate that refining our understanding of information-processing in the human brain through Integrated Information Decomposition can provide powerful insights into the human neurocognitive architecture, and its role in supporting consciousness.

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A Precuneal Causal Loop Mediates External and Internal Information Integration in the Human Brain

10.1101/2020.08.20.259846 ◽

2020 ◽

Author(s):

D. Lu ◽

I. Pappas ◽

D. K. Menon ◽

E. A. Stamatakis

Keyword(s):

Information Integration ◽

Task Difficulty ◽

Large Scale ◽

Posterior Part ◽

Imaging Data ◽

Cognitive Demands ◽

Internal Information ◽

Large Scale Networks ◽

Human Brains ◽

External Stimuli

AbstractHuman brains interpret external stimuli based on internal representations. One untested hypothesis is that the default-mode network (DMN) while responsible for internally oriented cognition can also encode externally oriented information. The unique neuroanatomical and functional fingerprint of the posterior part of the DMN supports a prominent role for the precuneus in this process. By utilising imaging data during two tasks from 100 participants, we found that the precuneus is functionally divided into dorsal and ventral subdivisions, each one differentially connecting to internally and externally oriented networks. The strength and direction of their connectivity is modulated by task difficulty in a manner dictated by the balance of internal versus external cognitive demands. Our study provides evidence that the medial posterior part of the DMN may drive interactions between large-scale networks, potentially allowing access to stored representations for moment to moment interpretation of an ever-changing environment.

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EEG resting-state functional connectivity: evidence for an imbalance of external/ internal information integration in Autism

10.21203/rs.3.rs-1107850/v1 ◽

2021 ◽

Author(s):

Prany Wantzen ◽

Patrice Clochon ◽

Franck Doidy ◽

Fabrice Wallois ◽

Mahdi Mahmoudzadeh ◽

...

Keyword(s):

Functional Connectivity ◽

Information Integration ◽

Resting State ◽

Phase Synchronization ◽

Current Source ◽

Autism Spectrum ◽

High Temporal Resolution ◽

Alpha Band ◽

Eyes Closed ◽

Internal Information

Abstract Background Autism spectrum disorder (ASD) is associated with atypical neural activity in resting-state. Most of the studies have focused on abnormalities in alpha-frequency, as a marker of ASD dysfunctions. However, few have explored alpha synchronization, with a specific interest in resting-state networks: the default mode network (DMN), the sensorimotor network (SMN), and the dorsal attention network (DAN). These functional connectivity analyses provide relevant insight into the neurophysiological correlates of multimodal integration in ASD. Methods Using the high temporal resolution of EEG, the present study investigates the functional connectivity in the alpha band within and between the DMN, SMN, and the DAN. We examined eyes-closed EEG alpha lagged phase synchronization, using standardized Low-Resolution Brain Electromagnetic Tomography (sLORETA) in 29 participants with ASD and 38 age,- sex- and IQ-matched typically developing (TD) controls. Results We observed reduced functional connectivity in the ASD group relative to TD controls, within and between the DMN, the SMN, and the DAN. We identified three hubs of dysconnectivity in ASD: the posterior cingulate cortex, the precuneus, and the medial frontal gyrus. These three regions also presented decreased current source density in the alpha band. Conclusion These results may account for impairments in multimodal - sensory and internal information - integration frequently observed in ASD. Underconnectivity potentially involves difficulties switching between this externally oriented attention and internally oriented thoughts and, more broadly, may impact embodied cognition.

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The influence of competitive pressure on manufacturer internal information integration

International Journal of Production Research ◽

10.1080/00207543.2015.1131866 ◽

2016 ◽

Vol 54 (22) ◽

pp. 6683-6692 ◽

Cited By ~ 4

Author(s):

José Moyano-Fuentes ◽

Pedro-José Martínez-Jurado

Keyword(s):

Information Integration ◽

Competitive Pressure ◽

Internal Information

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Automaticity and information integration in the human brain: EEG insights from SOA variants of the Stroop and reverse Stroop tasks

Journal of Vision ◽

10.1167/8.17.42 ◽

2010 ◽

Vol 8 (17) ◽

pp. 42-42

Author(s):

L. G. Appelbaum ◽

K. Meyerhoff ◽

W. D. Chen ◽

M. G. Woldorff

Keyword(s):

Human Brain ◽

Information Integration ◽

Stroop Tasks

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The Unique Cytoarchitecture and Wiring of the Human Default Mode Network

10.1101/2021.11.22.469533 ◽

2021 ◽

Author(s):

Casey Paquola ◽

Margaret Garber ◽

Stefan Frässle ◽

Jessica Royer ◽

Shahin Tavakol ◽

...

Keyword(s):

Default Mode Network ◽

Information Integration ◽

Effective Connectivity ◽

Structural Heterogeneity ◽

Unique Role ◽

Default Mode ◽

Internal Information ◽

Internal Sources ◽

Magnetic Resonance Imaging Mri

It is challenging to specify the role of the default mode network (DMN) in human behaviour. Contemporary theories, based on functional magnetic resonance imaging (MRI), suggest that the DMN is insulated from the external world, which allows it to support perceptually-decoupled states and to integrate external and internal information in the construction of abstract meanings. To date, the neuronal architecture of the DMN has received relatively little attention. Understanding the cytoarchitectural composition and connectional layout of the DMN will provide novel insights into its role in brain function. We mapped cytoarchitectural variation within the DMN using a cortical type atlas and a histological model of the entire human brain. Next, we used MRI acquired in healthy young adults to explicate structural wiring and effective connectivity. We discovered profound diversity of DMN cytoarchitecture. Connectivity is organised along the most dominant cytoarchitectural axis. One side of the axis is the prominent receiver, whereas the other side remains more insulated, especially from sensory areas. The structural heterogeneity of the DMN engenders a network-level balance in communication with external and internal sources, which is distinctive, relative to other functional communities. The neuronal architecture of the DMN suggests it is a protuberance from the core cortical processing hierarchy and holds a unique role in information integration.

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Criticality Creates a Functional Platform for Network Transitions Between Internal and External Processing Modes in the Human Brain

Frontiers in Systems Neuroscience ◽

10.3389/fnsys.2021.657809 ◽

2021 ◽

Vol 15 ◽

Author(s):

Minkyung Kim ◽

Hyoungkyu Kim ◽

Zirui Huang ◽

George A. Mashour ◽

Denis Jordan ◽

...

Keyword(s):

Information Integration ◽

Brain Network ◽

External Information ◽

Order And Disorder ◽

Processing Modes ◽

Internal Information ◽

Fmri Analysis ◽

Minimally Conscious ◽

External Stimuli ◽

The Brain

Continuous switching between internal and external modes in the brain appears important for generating models of the self and the world. However, how the brain transitions between these two modes remains unknown. We propose that a large synchronization fluctuation of brain networks, emerging only near criticality (i.e., a balanced state between order and disorder), spontaneously creates temporal windows with distinct preferences for integrating the network’s internal information or for processing external stimuli. Using a computational model, electroencephalography (EEG) analysis, and functional magnetic resonance imaging (fMRI) analysis during alterations of consciousness in humans, we report that synchronized and incoherent networks, respectively, bias toward internal and external information with specific network configurations. In the brain network model and EEG-based network, the network preferences are the most prominent at criticality and in conscious states associated with the bandwidth 4−12 Hz, with alternating functional network configurations. However, these network configurations are selectively disrupted in different states of consciousness such as general anesthesia, psychedelic states, minimally conscious states, and unresponsive wakefulness syndrome. The network preference for internal information integration is only significant in conscious states and psychedelic states, but not in other unconscious states, suggesting the importance of internal information integration in maintaining consciousness. The fMRI co-activation pattern analysis shows that functional networks that are sensitive to external stimuli–such as default mode, dorsal attentional, and frontoparietal networks–are activated in incoherent states, while insensitive networks, such as global activation and deactivation networks, are dominated in highly synchronized states. We suggest that criticality produces a functional platform for the brain’s capability for continuous switching between two modes, which is crucial for the emergence of consciousness.

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Supply chain information integration, flexibility, and operational performance

The International Journal of Logistics Management ◽

10.1108/ijlm-08-2016-0185 ◽

2018 ◽

Vol 29 (1) ◽

pp. 340-364 ◽

Cited By ~ 12

Author(s):

Kangkang Yu ◽

Ben Nanfeng Luo ◽

Xue Feng ◽

Jianing Liu

Keyword(s):

Supply Chain ◽

Information Integration ◽

Operational Performance ◽

Annual Reports ◽

External Information ◽

Chain Flexibility ◽

Content Type ◽

Mediating Role ◽

Supply Chain Flexibility ◽

Internal Information

Purpose Supply chain flexibility is crucial for firms to respond to uncertain circumstances caused by environmental factors, such as the diversity of customer demands, problems of product safety, and adjustments of industrial policies. To investigate the approach to enhance supply chain flexibility, the purpose of this paper is to propose that both internal and external information integration contribute to reactive and proactive supply chain flexibilities, which elicit high operational performance. Design/methodology/approach Using a sample of 84 food companies that have been listed three years in China and content analysis based on their annual reports, evidence was collected to test the hypotheses through hierarchical regressions. Findings The results reveal that external information integration results in both reactive and proactive flexibilities, which further improve operational performance. Internal information integration positively affects both reactive and proactive flexibilities, but its mediating role was not determined in the study. Originality/value The research provides insights into how supply chain flexibility mediates the effect of supply chain information integration on operational performance in the context of the Chinese food industry.

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Language processing is not a race against time

Behavioral and Brain Sciences ◽

10.1017/s0140525x15000692 ◽

2016 ◽

Vol 39 ◽

Cited By ~ 1

Author(s):

Giosuè Baggio ◽

Carmelo M. Vicario

Keyword(s):

Information Processing ◽

Human Brain ◽

Language Processing ◽

Cognitive Functions ◽

Memory Systems ◽

Language System ◽

Moderating Factors

AbstractWe agree with Christiansen & Chater (C&C) that language processing and acquisition are tightly constrained by the limits of sensory and memory systems. However, the human brain supports a range of cognitive functions that mitigate the effects of information processing bottlenecks. The language system is partly organised around these moderating factors, not just around restrictions on storage and computation.

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Structural and Chemical Studies of Pathological Fibers in Human Neurofibrillary Degeneration

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s042482010012031x ◽

1985 ◽

Vol 43 ◽

pp. 726-729

Author(s):

K.S. Kosik ◽

L.K. Duffy ◽

S. Bakalis ◽

C. Abraham ◽

D.J. Selkoe

Keyword(s):

Monoclonal Antibodies ◽

Alzheimer Disease ◽

Human Brain ◽

Neurofibrillary Tangles ◽

Morphological Analysis ◽

High Specificity ◽

Cytoskeletal Proteins ◽

Neuritic Plaque ◽

Protein Chemistry ◽

Chemical Studies

The major structural lesions of the human brain during aging and in Alzheimer disease (AD) are the neurofibrillary tangles (NFT) and the senile (neuritic) plaque. Although these fibrous alterations have been recognized by light microscopists for almost a century, detailed biochemical and morphological analysis of the lesions has been undertaken only recently. Because the intraneuronal deposits in the NFT and the plaque neurites and the extraneuronal amyloid cores of the plaques have a filamentous ultrastructure, the neuronal cytoskeleton has played a prominent role in most pathogenetic hypotheses.The approach of our laboratory toward elucidating the origin of plaques and tangles in AD has been two-fold: the use of analytical protein chemistry to purify and then characterize the pathological fibers comprising the tangles and plaques, and the use of certain monoclonal antibodies to neuronal cytoskeletal proteins that, despite high specificity, cross-react with NFT and thus implicate epitopes of these proteins as constituents of the tangles.

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