Analyzing and shaping human attentional networks

Michael I. Posner; Brad E. Sheese; Yalçin Odludaş; Yi Yuan Tang

doi:10.1016/j.neunet.2006.08.004

Analyzing and shaping human attentional networks

Michael I. Posner, Brad E. Sheese, Yalçin Odludaş, Yi Yuan Tang

Research output: Contribution to journal › Article › peer-review

163 Scopus citations

Abstract

In this paper we outline a conception of attentional networks arising from imaging studies as connections between activated brain areas carrying out localized mental operations. We consider both the areas of functional activation (nodes) and the structural (DTI) and functional connections (DCM) between them in real time (EEG, frequency analysis) as important tools in analyzing the network. The efficiency of network function involves the time course of activation of nodes and their connectivity to other areas of the network. We outline landmarks in the development of brain networks underlying executive attention from infancy and childhood. We use individual differences in network efficiency to examine genetic alleles that are related to performance. We consider how animal studies might be used to determine the genes that influence network development. Finally we indicate how training may aid in enhancing attentional networks. Our goal is to show the wide range of methods that can be used to suggest and analyze models of network function in the study of attention.

Original language	English (US)
Pages (from-to)	1422-1429
Number of pages	8
Journal	Neural Networks
Volume	19
Issue number	9
DOIs	https://doi.org/10.1016/j.neunet.2006.08.004
State	Published - Nov 2006
Externally published	Yes

Keywords

Alerting
DCM (Dynamic causal model for connectivity analysis)
DTI (Diffusion tensor imaging)
EEG frequency (electroencephalographic)
Executive attention
Orienting
Self-regulation
fMRI (functional magnetic resonance imaging)

ASJC Scopus subject areas

Cognitive Neuroscience
Artificial Intelligence

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10.1016/j.neunet.2006.08.004

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@article{f89158ccb6244f6fbd46504d0f5214d1,

title = "Analyzing and shaping human attentional networks",

abstract = "In this paper we outline a conception of attentional networks arising from imaging studies as connections between activated brain areas carrying out localized mental operations. We consider both the areas of functional activation (nodes) and the structural (DTI) and functional connections (DCM) between them in real time (EEG, frequency analysis) as important tools in analyzing the network. The efficiency of network function involves the time course of activation of nodes and their connectivity to other areas of the network. We outline landmarks in the development of brain networks underlying executive attention from infancy and childhood. We use individual differences in network efficiency to examine genetic alleles that are related to performance. We consider how animal studies might be used to determine the genes that influence network development. Finally we indicate how training may aid in enhancing attentional networks. Our goal is to show the wide range of methods that can be used to suggest and analyze models of network function in the study of attention.",

keywords = "Alerting, DCM (Dynamic causal model for connectivity analysis), DTI (Diffusion tensor imaging), EEG frequency (electroencephalographic), Executive attention, Orienting, Self-regulation, fMRI (functional magnetic resonance imaging)",

author = "Posner, {Michael I.} and Sheese, {Brad E.} and Yal{\c c}in Odluda{\c s} and Tang, {Yi Yuan}",

note = "Funding Information: This paper is prepared for a special issue of Neural Networks on attention. We are grateful for the help of Scott Frey, Director and members of the Lewis Center for Neuroimaging for their help with the data and the analyses used to illustrate DTI and fMRI connectivity in this paper. We also thank Jin Fan for allowing us to quote in process data from his EEG research. Support was provided by NIH Grant HD 38051 and a grant from the Dana Foundation. We are grateful to Mary K. Rothbart for her help in developing this paper. ",

year = "2006",

month = nov,

doi = "10.1016/j.neunet.2006.08.004",

language = "English (US)",

volume = "19",

pages = "1422--1429",

journal = "Neural Networks",

issn = "0893-6080",

publisher = "Elsevier Limited",

number = "9",

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T1 - Analyzing and shaping human attentional networks

AU - Posner, Michael I.

AU - Sheese, Brad E.

AU - Odludaş, Yalçin

AU - Tang, Yi Yuan

N1 - Funding Information: This paper is prepared for a special issue of Neural Networks on attention. We are grateful for the help of Scott Frey, Director and members of the Lewis Center for Neuroimaging for their help with the data and the analyses used to illustrate DTI and fMRI connectivity in this paper. We also thank Jin Fan for allowing us to quote in process data from his EEG research. Support was provided by NIH Grant HD 38051 and a grant from the Dana Foundation. We are grateful to Mary K. Rothbart for her help in developing this paper.

PY - 2006/11

Y1 - 2006/11

N2 - In this paper we outline a conception of attentional networks arising from imaging studies as connections between activated brain areas carrying out localized mental operations. We consider both the areas of functional activation (nodes) and the structural (DTI) and functional connections (DCM) between them in real time (EEG, frequency analysis) as important tools in analyzing the network. The efficiency of network function involves the time course of activation of nodes and their connectivity to other areas of the network. We outline landmarks in the development of brain networks underlying executive attention from infancy and childhood. We use individual differences in network efficiency to examine genetic alleles that are related to performance. We consider how animal studies might be used to determine the genes that influence network development. Finally we indicate how training may aid in enhancing attentional networks. Our goal is to show the wide range of methods that can be used to suggest and analyze models of network function in the study of attention.

AB - In this paper we outline a conception of attentional networks arising from imaging studies as connections between activated brain areas carrying out localized mental operations. We consider both the areas of functional activation (nodes) and the structural (DTI) and functional connections (DCM) between them in real time (EEG, frequency analysis) as important tools in analyzing the network. The efficiency of network function involves the time course of activation of nodes and their connectivity to other areas of the network. We outline landmarks in the development of brain networks underlying executive attention from infancy and childhood. We use individual differences in network efficiency to examine genetic alleles that are related to performance. We consider how animal studies might be used to determine the genes that influence network development. Finally we indicate how training may aid in enhancing attentional networks. Our goal is to show the wide range of methods that can be used to suggest and analyze models of network function in the study of attention.

KW - Alerting

KW - DCM (Dynamic causal model for connectivity analysis)

KW - DTI (Diffusion tensor imaging)

KW - EEG frequency (electroencephalographic)

KW - Executive attention

KW - Orienting

KW - Self-regulation

KW - fMRI (functional magnetic resonance imaging)

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SP - 1422

EP - 1429

JO - Neural Networks

JF - Neural Networks

IS - 9

ER -

Analyzing and shaping human attentional networks

Abstract

Keywords

ASJC Scopus subject areas

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