Using developmental cognitive neuroscience to study behavioral and attentional control

Astle, Duncan E.; Scerif, Gaia

doi:10.1002/dev.20350

Cited by 63 publications

(36 citation statements)

References 87 publications

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“…Yet, others report decreases in PFC responses with age [8,44,45] or interesting non-linear patterns – less or more activity in adolescence than either adulthood or childhood [25,52,53]. Overall, the literature on neurodevelopmental underpinnings of cognitive control shows bidirectional, complex patterns – both increases and decreases in PFC activations that vary across subregions and tasks – that should be interpreted with caution [8,54-56]. For example, a recent study examining inhibitory control in an antisaccade task found that transient activations in PFC related to inhibitory control during a given saccade decrease with age, whereas sustained set-related activations in PFC increase [6].…”

Section: Evidence Of Complexity In Adolescent Brain-behavior Relationmentioning

confidence: 99%

Arrested development? Reconsidering dual-systems models of brain function in adolescence and disorders

Pfeifer

Allen

2012

Trends in Cognitive Sciences

266

201

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The dual-systems model of a ventral affective system, whose reactivity confers risks and liabilities, and a prefrontal control system, whose regulatory capacities buffer against these vulnerabilities, is an intuitive account that pervades many fields in the cognitive neurosciences – especially in the study of populations that differ from neurotypical adults, such as adolescents or individuals with affective or impulse regulation disorders. However, recent evidence that is inconsistent with dual-systems models illustrates the complexity of developmental and clinical variations in brain function. Building new models to account for this complexity is critical to progress in these fields, and will be facilitated by research that emphasizes network-based approaches and maps relationships between structure and function, as well as brain and behavior, over time.

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Section: Evidence Of Complexity In Adolescent Brain-behavior Relationmentioning

confidence: 99%

Arrested development? Reconsidering dual-systems models of brain function in adolescence and disorders

Pfeifer

Allen

2012

Trends in Cognitive Sciences

266

201

View full text Add to dashboard Cite

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“…This dissociation has been related to a distinction between mentalizing judgments made toward the self or similar others versus on dissimilar others (Tamir & Mitchell, 2010;Van Overwalle, 2009;Jenkins, Macrae, & Mitchell, 2008;Mitchell, Macrae, & Banaji, 2006). The developmental cognitive control literature has shown less consistent findings, with studies showing both decreases and increases in lateral PFC activations as well as qualitative changes with age during adolescence (see Crone & Ridderinkhof, 2010;Luna et al, 2010;Astle & Scerif, 2009;Casey, Jones, & Hare, 2008;Bunge & Wright, 2007).…”

Section: Introductionmentioning

confidence: 99%

Developmental Differences in the Control of Action Selection by Social Information

Dumontheil

Hillebrandt

Apperly

et al. 2012

Journal of Cognitive Neuroscience

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Abstract■ Our everyday actions are often performed in the context of a social interaction. We previously showed that, in adults, selecting an action on the basis of either social or symbolic cues was associated with activations in the fronto-parietal cognitive control network, whereas the presence and use of social versus symbolic cues was in addition associated with activations in the temporal and medial prefrontal cortex (MPFC) social brain network. Here we investigated developmental changes in these two networks. Fourteen adults (21-30 years of age) and 14 adolescents (11-16 years) followed instructions to move objects in a set of shelves. Interpretation of the instructions was conditional on the point of view of a visible "director" or the meaning of a symbolic cue (Director Present vs. Director Absent) and the number of potential referent objects in the shelves (3-object vs. 1-object). 3-object trials elicited increased fronto-parietal and temporal activations, with greater left lateral prefrontal cortex and parietal activations in adults than adolescents. Social versus symbolic information led to activations in superior dorsal MPFC, precuneus, and along the superior/middle temporal sulci. Both dorsal MPFC and left temporal clusters exhibited a Director × Object interaction, with greater activation when participants needed to consider the directorsʼ viewpoints. This effect differed with age in dorsal MPFC. Adolescents showed greater activation whenever social information was present, whereas adults showed greater activation only when the directorsʼ viewpoints were relevant to task performance. This study thus shows developmental differences in domain-general and domain-specific PFC activations associated with action selection in a social interaction context. ■

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“…[16][17][18] We have implemented a computerized neurocognitive battery (CNB) 19 in large-scale studies, [20][21][22][23] measuring performance in executive, episodic memory, complex cognition, social cognition, and sensorimotor speed domains. Deficits prominent in schizophrenia are heritable and are milder in unaffected family members.…”

mentioning

confidence: 99%

Neurocognitive Growth Charting in Psychosis Spectrum Youths

et al. 2014

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IMPORTANCE Psychosis-risk studies have examined help-seeking adolescents and young adults. Population-based studies evaluating psychotic symptoms and neurocognitive performance across childhood are needed for "growth charting" cognitive development. We hypothesized that psychosis spectrum youths have delayed neurocognitive age relative to chronological age. We expected larger lags with increased symptom severity and in late adolescence and early adulthood.OBJECTIVES To examine neurocognitive age and compare typically developing participants with psychosis spectrum participants. DESIGN, SETTING, AND PARTICIPANTSThe Philadelphia Neurodevelopmental Cohort is a genotyped sample, with electronic medical records, enrolled in the study of brain behavior. In an academic and children's hospital health care network, a structured psychiatric evaluation was performed and a computerized neurocognitive battery administered to evaluate performance in several domains. From 18 344 youths in the recruitment pool who were aged 8 to 21 years, physically and cognitively capable of participating, and proficient in English, participants were randomly selected with stratification for age, sex, and ethnicity. A total of 9138 participants were enrolled in the study between November 1, 2009, and November 30, 2011, and 2321 endorsed psychotic symptoms: 1423 significant (psychosis spectrum) and 898 limited (psychosis limited). They had no comorbid medical conditions. They were compared with 981 participants endorsing significant other psychiatric symptoms and with 1963 typically developing children with no psychiatric or medical disorders. MAIN OUTCOMES AND MEASURESThe computerized neurocognitive battery provides accuracy and speed measures on 12 tests and speed measures alone on 2, yielding 26 measures used in a regression analysis to predict chronological age. Prediction was performed on the entire set and separately for each domain (executive, episodic memory, complex cognition, social cognition, and sensorimotor speed).RESULTS Throughout childhood and adolescence, the psychosis spectrum group had lower predicted age compared with the typically developing group and the group with other psychiatric symptoms. The psychosis spectrum group had a greater developmental lag than the psychosis limited group. The lags were most pronounced for complex cognition and social cognition and were smallest for sensorimotor speed.CONCLUSIONS AND RELEVANCE Individuals who endorse psychotic symptoms are neurocognitively delayed across the age range; this delay relates to symptom severity and is not prominent in other psychiatric disorders. Combined clinical and neurocognitive assessment can facilitate early detection and targeted intervention to delay or ameliorate disease progression.

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Using developmental cognitive neuroscience to study behavioral and attentional control

Cited by 63 publications

References 87 publications

Arrested development? Reconsidering dual-systems models of brain function in adolescence and disorders

Arrested development? Reconsidering dual-systems models of brain function in adolescence and disorders

Developmental Differences in the Control of Action Selection by Social Information

Neurocognitive Growth Charting in Psychosis Spectrum Youths

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