Large-Scale Brain Network Dynamics Supporting Adolescent Cognitive Control

Dwyer, Dominic; Harrison, Ben J; Yücel, Murat; Whittle, Sarah; Zalesky, Andrew; Pantelis, Christos; Allen, Nicholas B.; Fornito, Alex

doi:10.1523/jneurosci.1634-14.2014

Cited by 128 publications

(110 citation statements)

References 86 publications

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“…Our findings go beyond these observations by suggesting that the striatum and the thalamus are key relays for facilitating enhancement of task-related processes, as well as suppression of task-unrelated processes. This hypothesis is consistent with recent evidence that the caudate and thalamus are transitional nodes that change their coupling with control and default-mode networks as a function of task demands (Dwyer et al, 2014). Although the PPI method does not allow an unequivocal assessment of causal interactions between distinct neural populations, our results suggest that deactivation of specific default-mode regions may drive the initiation of fronto-parietal and cingulo-opercular activity via the basal ganglia (Table 3-2).…”

Section: Discussionsupporting

confidence: 91%

“…Recent evidence from functional neuroimaging studies suggests that cognitive processes such as reasoning, attention and memory recall are supported by complex reconfigurations in the patterns of cooperation and competition between widespread resting-state networks (Cocchi et al, 2013;Dwyer et al, 2014;Leech et al, 2012;Leech et al, 2011). Such changes in neural network dynamics preserve the general functional network architecture of the brain (Cole et al, 2014), appear taskspecific (Cocchi et al, 2014;Cole et al, 2013;Sridharan et al, 2008), and may include cooperation between regions and networks that are otherwise functionally segregated in the resting-state (Bluhm et al, 2011;Dwyer et al, 2014;Fornito et al, 2012;Leech et al, 2011;Liang et al, 2015;Popa et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

“…Such changes in neural network dynamics preserve the general functional network architecture of the brain (Cole et al, 2014), appear taskspecific (Cocchi et al, 2014;Cole et al, 2013;Sridharan et al, 2008), and may include cooperation between regions and networks that are otherwise functionally segregated in the resting-state (Bluhm et al, 2011;Dwyer et al, 2014;Fornito et al, 2012;Leech et al, 2011;Liang et al, 2015;Popa et al, 2009). This research suggests that cognitive task performance does not necessarily require antagonism between default-mode and control networks Sonuga-Barke and Castellanos, 2007).…”

Section: Introductionmentioning

confidence: 99%

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Characterisation of Functional Brain Networks underlying Cognitive Reasoning and Intelligence

Hearne¹

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Intelligence is a general mental capacity that encompasses the ability to plan, problem-solve, reason, think abstractly and comprehend complex relations between concepts. Measured via complex, multistep reasoning tasks, individual differences in intelligence scores are highly predictive of a number of crucial life outcomes. Despite many decades of research, however, the neural bases of intelligence and reasoning abilities are not well understood. Early neuroimaging and lesion studies suggested that regions of the prefrontal cortex are exclusively responsible for intelligent behaviour and higher cognitive reasoning abilities. More recently, however, investigators have conceptualized intelligence as relying upon a widely distributed network of interconnected nodes. The aim of my thesis was to investigate human reasoning and intelligence within this newer, network-centric framework. I conducted a series of functional magnetic resonance imaging (fMRI) experiments to characterize relevant networks in the brain, and related these networks to reasoning task performance, individual differences in intelligence, and the breakdown of reasoning ability amongst individuals with developmental anomalies in brain wiring.The thesis is organized into seven chapters. In the first chapter, I introduce the research question in the context of previous literature that has investigated the brain-basis of reasoning and intelligence by measuring brain activity using fMRI. In doing so, I discuss the origins of intelligence, why task complexity matters, as well as modern in-vivo brain imaging techniques and their biological basis. I then present the concepts of brain network organization, connectivity and graph theory as a relatively untapped avenue to explain higher cognitive reasoning. Armed with this new framework for understanding the brain, I discuss a number of studies that have used this approach to inform the key questions investigated in this thesis.In Chapter 2 I employed an individual-differences approach to investigate the relationship between 'resting-state' baseline functional networks and commonly used measures of intelligence.Previous work has implicated a fronto-parietal network of brain regions that support higher cognitive reasoning, formalized in the parieto-frontal theory of intelligence. However, existing evidence for the fronto-parietal theory is mixed, at least with respect to findings from connectivity studies. To address this issue, I undertook a quantitative summary of previous literature and performed an empirical analysis of data from a large cohort of individuals (N = 317) sourced from the Human Connectome Project. I found that connectivity between the default-mode and fronto-parietal networks best explained individual differences in intelligence.In Chapter 3 I investigated the relationship between default-mode and cognitive control networks during a complex reasoning task. Participants completed a modified version of the classic Wason Selection Task, a measure of relational reasoning, in which the num...

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Section: Discussionsupporting

confidence: 91%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characterisation of Functional Brain Networks underlying Cognitive Reasoning and Intelligence

Hearne¹

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“…22 It is interesting to note that if we compare the results of this study with a previous investigation of our group carried out in adults, 4 maltreated adolescent substance users seem to be more impaired in comparison to adult addicts. For example, the FAB Sensitivity to Interference subtest was not able to detect neurocognitive alterations in the sample of adults of our previous study, 4 but here this subtest detected impairments in maltreated adolescent substance users.…”

Section: ■ Discussionmentioning

confidence: 51%

Executive dysfunction and low academic attainment in adolescent substance abusers with a history of maltreatment

Cunha¹,

Oliveira²,

Cortezzi³

et al. 2015

Medical Express

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OBJECTIVE: Substance abuse and maltreatment are highly associated with Executive Cognitive Function impairments, but very little is known about how symptoms of a condition known as Dysexecutive Syndrome may impact on real-life activities, especially in adolescents. This study investigated the presence of Executive Cognitive Function deficits in maltreated substance-abusing adolescents relative to healthy control subjects and analyzed the association between executive performance and educational attainment. METHOD:The sample consisted of 15 maltreated adolescent substance abusers and 15 non-maltreated healthy adolescents (controls). They were assessed by the Frontal Assessment Battery, composed of six subtests: Conceptualization, Mental flexibility, Motor programming, Sensitivity to interference, Inhibitory control, and Environmental autonomy. RESULTS: Maltreated adolescents did not differ from controls in sociodemographic variables such as age, ethnicity, and handedness. However, they performed significantly and importantly below controls in almost all domains of Executive Cognitive Function, including abstract abilities, cognitive flexibility, motor planning, and sensitivity to interference. Maltreated adolescents also completed fewer years of formal education vs. controls. The Frontal Assessment Battery total score correlated with educational attainment throughout the sample (r = 0.511; p < 0.01). CONCLUSION: Substance-abusing adolescents with a history of maltreatment performed more poorly vs. controls on a variety of measurements of executive functioning, and the results of the Frontal Assessment Battery were associated with educational attainment. Our results evidence a negative impact of dysexecutive symptoms on educational attainment in adolescents. Strategies focusing on neuropsychological rehabilitation may be relevant to help substance-abusing and maltreated adolescents to perform better at school and perhaps in life.

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“…For example, some researchers have mapped activation patterns in a specific task and defined activation regions as the nodes of brain networks of interest according to these mappings [60]. Meanwhile, some researchers have applied metaanalysis methods to identify important brain regions as the nodes of brain networks of interest [61].…”

Section: Nodesmentioning

confidence: 99%

Complex Brain Network Analysis and Its Applications to Brain Disorders: A Survey

et al. 2017

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It is well known that most brain disorders are complex diseases, such as Alzheimer's disease (AD) and schizophrenia (SCZ). In general, brain regions and their interactions can be modeled as complex brain network, which describe highly efficient information transmission in a brain. Therefore, complex brain network analysis plays an important role in the study of complex brain diseases. With the development of noninvasive neuroimaging and electrophysiological techniques, experimental data can be produced for constructing complex brain networks. In recent years, researchers have found that brain networks constructed by using neuroimaging data and electrophysiological data have many important topological properties, such as small-world property, modularity, and rich club. More importantly, many brain disorders have been found to be associated with the abnormal topological structures of brain networks. These findings provide not only a new perspective to explore the pathological mechanisms of brain disorders, but also guidance for early diagnosis and treatment of brain disorders. The purpose of this survey is to provide a comprehensive overview for complex brain network analysis and its applications to brain disorders.

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Large-Scale Brain Network Dynamics Supporting Adolescent Cognitive Control

Cited by 128 publications

References 86 publications

Characterisation of Functional Brain Networks underlying Cognitive Reasoning and Intelligence

Characterisation of Functional Brain Networks underlying Cognitive Reasoning and Intelligence

Executive dysfunction and low academic attainment in adolescent substance abusers with a history of maltreatment

Complex Brain Network Analysis and Its Applications to Brain Disorders: A Survey

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