Research Byte: A longitudinal study of adolescent-to-young adult #executivefunction development in seven countries - #cognition #selfregulation #schoolpsychology #neuropsychology #developmental

A Longitudinal Study of Adolescent-to-Young Adult Executive Function Development in Seven Countries.  Developmental Science.  Sorry, this is not an open access article you can download

Abstract

Executive functioning (EF) is an important developing self-regulatory process that has implications for academic, social, and emotional outcomes. Most work in EF has focused on childhood, and less has examined the development of EF throughout adolescence and into emerging adulthood. The present study assessed longitudinal trajectories of EF from ages 10 to 21 in a diverse, international sample. 1093 adolescents (50.3% female) from eight locations in seven countries completed computerized EF tasks (Stroop, Tower of London [ToL], Working Memory [WM]) at ages 10, 14, 17, and 21. Latent growth curve models were estimated to understand the average performance at age 10 and the change in performance over time for each task. Meta-analytic techniques were used to assess the heterogeneity in estimates between study sites. On average, EF task performance improved across adolescence into young adulthood with substantial between-site heterogeneity. Additionally, significant individual differences in EF task performance at age 10 and change in EF task performance over time characterized the full sample. EF improves throughout adolescence into young adulthood, making it a potentially important time for intervention to improve self-regulation.

Research Byte: Conjectures and refutations in #cognitive ability #structuralvalidity research [with #WISC-V]: Insights from Bayesian structural equation modeling - #schoolpsychology #IQ #intelligence #Wechslers #WISC-V

Conjectures and refutations in cognitive ability structural validity research [with #WISC-V]: Insights from Bayesian structural equation modeling

Click here to view Journal of Psychology of School Psychology source of publication - not open access.

Abstract

The use of Bayesian structural equation modeling (BSEM) provided additional insight into the WISC–V theoretical structure beyond that offered by traditional factor analytic approaches (e.g., exploratory factor analysis and maximum likelihood confirmatory factor analysis) through the specification of all cross loadings and correlated residual terms. The results indicated that a five-factor higher-order model with a correlated residual between the Visual-Spatial and Fluid Reasoning group factors provided a superior fit to the four bifactor model that has been preferred in prior research. There were no other statistically significant correlated residual terms or cross loadings in the measurement model. The results further suggest that the WISC–V ten subtest primary battery readily attains simple structure and its index level scores may be interpreted as suggested in the WISC–V's scoring and interpretive manual. Moreover, BSEM may help to advance IQ theory by providing contemporary intelligence researchers with a novel tool to explore complex interrelationships among cognitive abilities—relationships that traditional structural equation modeling methods may overlook. It can also help attenuate the replication crises in school psychology within the area of cognitive assessment structural validity research through systematic evaluation of complex structural relationships obviating the need for CFA based post hoc specification searches which can be prone to confirmation bias and capitalization on chance.

Research Byte: Reevaluating the #Flynneffect, and the reversal: Temporal trends and measurement invariance in Norwegian armed forces #intelligence scores

 

Reevaluating the Flynn effect, and the reversal: Temporal trends and measurement invariance in Norwegian armed forces intelligence scores

Open access PDF available from journal Intelligence…click here.

Abstract

Since 1954, the Norwegian Armed Forces have annually administered an unchanged general mental ability test to male cohorts, comprising figure matrices, word similarities, and mathematical reasoning tests. These stable and representative data have supported various claims about shifts in general mental ability (GMA) levels, notably the Flynn effect and its reversal, influencing extensive research linking these scores with health and other outcomes. This study examines whether observed temporal trends in scores reflect changes in latent intelligence or are confounded by evolving test characteristics and specific test-taking abilities in numerical reasoning, word comprehension, and figure matrices reasoning. Our findings, using multiple-group factor analysis and multiple indicator multiple cause (MIMIC) models, indicate that while there was a general upward trend in observed scores until 1993, this was predominantly driven by enhancements in the fluid intelligence task, specifically figure matrices reasoning. Notably, these gains do not uniformly translate to a rise in underlying GMA, suggesting the presence of domain-specific improvements and test characteristic changes over time. Conversely, the observed decline is primarily due to decreases in word comprehension and numerical reasoning tests, also reflecting specific abilities not attributable to changes in the latent GMA factor. Our findings further challenge the validity of claims that changes in the general factor drive the Flynn effect and its reversal. Furthermore, they caution against using these scores for longitudinal studies without accounting for changes in test characteristics.

Research Byte: Co-Occurrence and Causality Among #ADHD, #Dyslexia, and #Dyscalculia - #SLD #schoolpsychology #sped #genetics #EDPSY

Co-Occurrence and Causality Among ADHD, Dyslexia, and Dyscalculia

Published in Psychological Science.  Click here to access PDF copy of article

Abstract

ADHD, dyslexia, and dyscalculia often co-occur, and the underlying continuous traits are correlated (ADHD symptoms, reading, spelling, and math skills). This may be explained by trait-to-trait causal effects, shared genetic and environmental factors, or both. We studied a sample of ≤ 19,125 twin children and 2,150 siblings from the Netherlands Twin Register, assessed at ages 7 and 10. Children with a condition, compared to those without that condition, were 2.1 to 3.1 times more likely to have a second condition. Still, most children (77.3%) with ADHD, dyslexia, or dyscalculia had just one condition. Cross-lagged modeling suggested that reading causally influences spelling (β = 0.44). For all other trait combinations, cross-lagged modeling suggested that the trait correlations are attributable to genetic influences common to all traits, rather than causal influences. Thus, ADHD, dyslexia, and dyscalculia seem to co-occur because of correlated genetic risks, rather than causality.

 

Research Byte: Performance- and report-based measures of #executivefunction as predictors of children’s #academic skills - #neuropsychology #schoolpsychology

DeCamp, C., Alfonso, S. V., & Lonigan, C. J. (2025). Performance- and report-based measures of executive function as predictors of children’s academic skills. Neuropsychology, 39(3), 214–222. https://doi.org/10.1037/neu0000992

Abstract

Objective: Executive function (EF) is thought to be a core component of various cognitive processes. Two common ways to measure EF are through report-based measures that assess EF by collecting informant(s) reports on children’s behaviors and performance-based measures that assess EF through the completion of a task related to EF dimension(s). However, most research reports low associations between these measures. The goal of this study was to determine the unique and overlapping contributions of a report- and a performance-based measure of EF on children’s academic outcomes over time. Method: The sample consisted of 1,152 children (636 boys, 516 girls) who were part of a large-scale preschool intervention study. Children completed measures of academic achievement in kindergarten, first grade, and second grade, and they completed a performance-based measure of EF in kindergarten; teachers reported on children’s EF during the fall of kindergarten. Structural growth modeling was utilized to determine the unique and shared contributions of EF measures on concurrent ability and growth of academic outcomes. Results: Structural growth models indicated that the separate EF measures were both significant predictors of concurrent ability and growth of all academic outcomes, with one exception; the Head–Toes–Knees–Shoulders task was not a significant predictor of growth in math skills. Conclusions: Results of this study suggested that report- and performance-based measures of EF should not be used interchangeably, and these findings have implications for the utility of EF as a risk factor for poor academic achievement.

Research Byte: Age-related change in #inhibitory processes when controlling for #workingmemory (#Gwm) capacity and #processingspeed (#Gs) - #cognition #intelligence #CHC #executivefunctions #Gwm #Gs #schoolpsychology

 

Click on images to enlarge for easy reading.

This is a nice study/paper.  And it is open access and can be downloaded for reading by clicking here.

I recommend reading, if not the entire article, at least the introductory lit review.  The introductory lit review is worth a read if one wants to understand the basic literature re the definition, theories, and research regarding the relations between cognitive inhibition, working memory capacity (Gwm), and processing speed (Gs) in a developmental context.  

Abstract

The main purpose of this study was to examine the age-related changes in inhibitory control of 450 children at the ages of 7–8, 11–12, and 14–16 when controlling for working memory capacity (WMC) and processing speed to determine whether inhibition is an independent factor far beyond its possible reliance on the other two factors. This examination is important for several reasons. First, empirical evidence about age-related changes of inhibitory control is controversial. Second, there are no studies that explore the organization of inhibitory functions by controlling for the influence of processing speed and WMC in these age groups. Third, the construct of inhibition has been questioned in recent research. Multigroup confirmatory analyses suggested that inhibition can be organized as a one-dimension factor in which processing speed and WMC modulate the variability of some inhibition tasks. The partial reliance of inhibitory processes on processing speed and WMC demonstrates that the inhibition factor partially explains the variance of inhibitory tasks even when WMC and processing speed are controlled and some methodological concerns are addressed.

Research Byte: Intrinsic #Brain Mapping of #Cognitive Abilities (as per #CHC): A Multiple-Dataset Study on #Intelligence and its Components (journal pre-proof)

 Click on image to enlarge for easy reading

A journal pre-proof copy of this article is available for download here.

Abstract

This study investigates how functional brain network features contribute to general intelligence and its cognitive components by analyzing three independent cohorts of healthy participants. Cognitive scores were derived from 1) the Wechsler Adult Intelligence Scale (WAIS-IV), 2) the Raven Standard Progressive Matrices (RPM), and 3) the NIH and Penn cognitive batteries from the Human Connectome Project. Factor analysis on the NIH and Penn cognitive batteries yielded latent variables that closely resembled the content of the WAIS-IV indices and RPM. We employed graph theory and a multi-resolution network analysis by varying the modularity parameter (γ) to investigate hierarchical brain-behavior relationships across different scales of brain organization. Brain-behavior associations were quantified using multi-level robust regression analyses to accommodate variability and confounds at the subject-level, node-level, and resolution-level. Our findings reveal consistent brain-behavior relationships across the datasets. Nodal efficiency in fronto-parietal sensorimotor regions consistently played a pivotal role in fluid reasoning, whereas efficiency in visual networks was linked to executive functions and memory. A broad, low-resolution 'task-positive' network emerged as predictive of full-scale IQ scores, indicating a hierarchical brain-behavior coding. Conversely, increased cross-network connections involving default mode and subcortical-limbic networks were associated with reductions in both general and specific cognitive performance. These outcomes highlight the relevance of network efficiency and integration, as well as of the hierarchical organization in supporting specific aspects of intelligence, while recognizing the inherent complexity of these relationships. Our multi-resolution network approach offers new insights into the interplay between multilayer network properties and the structure of cognitive abilities, advancing the understanding of the neural substrates of the intelligence construct.

Research Byte: A Systematic #Review of #Working#Memory (#Gwm) Applications for #Children with #LearningDifficulties (#LD): Transfer Outcomes and Design Principles

 A Systematic Review of Working Memory Applications for Children with Learning Difficulties: Transfer Outcomes and Design Principles 

by 

Adel Shaban

 1,*, 

Victor Chang

 2, 

Onikepo D. Amodu

 1, 

Mohamed Ramadan Attia

 3 and 

Gomaa Said Mohamed Abdelhamid

 4,5

1

Middlesbrough College, University Centre Middlesbrough, Middlesbrough TS2 1AD, UK

2

Aston Business School, Aston University, Birmingham B4 7UP, UK

3

Department of Educational Technology, Faculty of Specific Education, Fayoum University, Fayoum 63514, Egypt

4

Department of Educational Psychology, Faculty of Education, Fayoum University, Fayoum 63514, Egypt

5

Department of Psychology, College of Education, Sultan Qaboos University, Muscat 123, Oman

*

Author to whom correspondence should be addressed. 

Educ. Sci. 2024, 14(11), 1260; https://doi.org/10.3390/educsci14111260

Visit article page where PDF of article can be downloaded

Abstract

Working memory (WM) is a crucial cognitive function, and a deficit in this function is a critical factor in learning difficulties (LDs). As a result, there is growing interest in exploring different approaches to training WM to support students with LDs. Following the PRISMA 2020 guidelines, this systematic review aims to identify current computer-based WM training applications and their theoretical foundations, explore their effects on improving WM capacity and other cognitive/academic abilities, and extract design principles for creating an effective WM application for children with LDs. The 22 studies selected for this review provide strong evidence that children with LDs have low WM capacity and that their WM functions can be trained. The findings revealed four commercial WM training applications—COGMED, Jungle, BrainWare Safari, and N-back—that were utilized in 16 studies. However, these studies focused on suggesting different types of WM tasks and examining their effects rather than making those tasks user-friendly or providing practical guidelines for the end-user. To address this gap, the principles of the Human–Computer Interaction, with a focus on usability and user experience as well as relevant cognitive theories, and the design recommendations from the selected studies have been reviewed to extract a set of proposed guidelines. A total of 15 guidelines have been extracted that can be utilized to design WM training programs specifically for children with LDs. 

Keywords: 

cognitive load theory; design principles; learning difficulties (LDs); systematic review; user-centered design; WM training applications; working memory (WM)

https://www.mdpi.com/2227-7102/14/11/1260#

Research Byte: Predicting #Achievement From #WISC-V #Composites: Do #Cognitive-Achievement Relations Vary Based on #GeneralIntelligence?

Predicting Achievement From WISC-V Composites: Do Cognitive-Achievement Relations Vary Based on General Intelligence?

Jacqueline M. Caemmerer https://orcid.org/0000-0001-9555-3625 jacqueline.caemmerer@uconn.edu, Stephanie Ruth Young https://orcid.org/0000-0002-8205-9297, […], and Eunice Blemahdoo+2View all authors and affiliations.  Volume 42, Issue 4

Click here for open access PDF of article.

Abstract 

In order to make appropriate educational recommendations, psychologists must understand how cognitive test scores influence specific academic outcomes for students of different ability levels. We used data from the WISC-V and WIAT-III ( N = 181) to examine which WISC-V Index scores predicted children’s specific and broad academic skills and if cognitive-achievement relations varied by general intelligence. Verbal abilities predicted most academic skills for children of all ability levels, whereas processing speed, working memory, visual processing, and fluid reasoning abilities differentially predicted specific academic skills. Processing speed and working memory demonstrated significant interaction effects with full-scale IQ when predicting youth’s essay writing. Findings suggest generalized intelligence may influence the predictive validity of certain cognitive tests, and replication studies in larger samples are encouraged.

Research Byte: Gymnasts and orienteers show better Gv than nonathletes

 

File under Gv and Gp as per the CHC taxonomy of human abilities.

 

Gymnasts and orienteers display better mental rotation performance than nonathletes.

Schmidt, Mirko; Egger, Fabienne; Kieliger, Mario; Rubeli, Benjamin; Schüler, Julia

Journal of Individual Differences, Vol 37(1), 2016, 1-7. http://dx.doi.org.ezp1.lib.umn.edu/10.1027/1614-0001/a000180

Abstract

1. The aim of this study was to examine whether athletes differ from nonathletes regarding their mental rotation performance. Furthermore, it investigated whether athletes doing sports requiring distinguishable levels of mental rotation (orienteering, gymnastics, running), as well as varying with respect to having an egocentric (gymnastics) or an allocentric perspective (orienteering), differ from each other. Therefore, the Mental Rotations Test (MRT) was carried out with 20 orienteers, 20 gymnasts, 20 runners, and 20 nonathletes. The results indicate large differences in mental rotation performance, with those actively doing sports outperforming the nonathletes. Analyses for the specific groups showed that orienteers and gymnasts differed from the nonathletes, whereas endurance runners did not. Contrary to expectations, the mental rotation performance of gymnasts did not differ from that of orienteers. This study also revealed gender differences in favor of men. Implications regarding a differentiated view of the connection between specific sports and mental rotation performance are discussed. (PsycINFO Database Record (c) 2016 APA, all rights reserved)

Research Byte: Executive functions are related to more than just the prefrontal strucutres--white matter matters

Neuroanatomical Substrates of Executive Functions: Beyond Prefrontal Structures

• Brianne M. Bettcher^{a, b, ,} ,
• Dan Mungas^c,
• Nihar Patel^a,
• Jonathan Elofson^a,
• Shubir Dutt^a,
• Matthew Wynn^a,
• Christa L. Watson^a,
• Melanie Stephens^a,
• Christine M. Walsh^a,
• Joel H. Kramer^a

• ^a University of California, San Francisco; Department of Neurology, Memory and Aging Center; San Francisco, CA
• ^b University of Colorado, Denver Anschutz School of Medicine; Departments of Neurosurgery and Neurology; Rocky Mountain Alzheimer’s Disease Center; Aurora, CO
• ^c University of California, Davis; Department of Neurology; Davis, CA

Received 6 August 2015, Revised 29 February 2016, Accepted 3 March 2016, Available online 3 March 2016

---

Highlights

•

Executive functions (EF) are not synonymous with ‘frontal’ tasks.

•

Global atrophy was the only independent predictor of EF.

•

Frontal volumes do not predict EF when statistically isolated from global atrophy.

•

White matter metrics remain predictors of EF, independent of global atrophy.

---

Abstract

Executive functions are often considered lynchpin “frontal lobe tasks”, despite accumulating evidence that a broad network of anterior and posterior brain structures supports them. Using a latent variable modeling approach, we assessed whether prefrontal grey matter volumes independently predict executive function performance when statistically differentiated from global atrophy and individual non-frontal lobar volume contributions. We further examined whether fronto-parietal white matter microstructure underlies and independently contributes to executive functions. We developed a latent variable model to decompose lobar grey matter volumes into a global grey matter factor and specific lobar volumes (i.e. prefrontal, parietal, temporal, occipital) that were independent of global grey matter. We then added mean fractional anisotropy (FA) for the superior longitudinal fasciculus (dorsal portion), corpus callosum, and cingulum bundle (dorsal portion) to models that included grey matter volumes related to cognitive variables in previous analyses. Results suggested that the 2-factor model (shifting/inhibition, updating/working memory) plus an information processing speed factor best explained our executive function data in a sample of 202 community dwelling older adults, and was selected as the base measurement model for further analyses. Global grey matter was related to the executive function and speed variables in all four lobar models, but independent contributions of the frontal lobes were not significant. In contrast, when assessing the effect of white matter microstructure, cingulum FA made significant independent contributions to all three executive function and speed variables and corpus callosum FA was independently related to shifting/inhibition and speed. Findings from the current study indicate that while prefrontal grey matter volumes are significantly associated with cognitive neuroscience measures of shifting/inhibition and working memory in healthy older adults, they do not independently predict executive function when statistically isolated from global atrophy and individual non-frontal lobar volume contributions. In contrast, better microstructure of fronto-parietal white matter, namely the corpus callosum and cingulum, continued to predict executive functions after accounting for global grey matter atrophy. These findings contribute to a growing literature suggesting that prefrontal contributions to executive functions cannot be viewed in isolation from more distributed grey and white matter effects in a healthy older adult cohort.

Research Byte: Processing speed differences between 70- and 83-year-olds matched on childhood IQ via BrowZine

Processing speed differences between 70- and 83-year-olds matched on childhood IQ
Deary, Ian J.; Ritchie, Stuart J.
Intelligence, Vol. 55 – 2016: 28 - 33

10.1016/j.intell.2016.01.002

University of Minnesota Users:
http://login.ezproxy.lib.umn.edu/login?url=http://www.sciencedirect.com/science/article/pii/S0160289616000039

Non-University of Minnesota Users: (Full text may not be available)
http://www.sciencedirect.com/science/article/pii/S0160289616000039

Accessed with BrowZine, supported by University of Minnesota.

Research Byte: Study suggests writing places greater demands on working memory than reading and listening

 

Adv Cogn Psychol. 2015; 11(4): 147–155.

Published online 2015 Dec 31. doi:  10.5709/acp-0179-6

PMCID: PMC4710969

Writing, Reading, and Listening Differentially Overload Working Memory Performance Across the Serial Position Curve

Richard Tindle and Mitchell G. Longstaff

Author information ► Article notes ► Copyright and License information ►

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Abstract

Previous research has assumed that writing is a cognitively complex task, but has not determined if writing overloads Working Memory more than reading and listening. To investigate this, participants completed three recall tasks. These were reading lists of words before recalling them, hearing lists of words before recalling them, and hearing lists of words and writing them as they heard them, then recalling them. The experiment involved serial recall of lists of 6 words. The hypothesis that fewer words would be recalled overall when writing was supported. Post-hoc analysis revealed the same pattern of results at individual serial positions (1 to 3). However, there was no difference between the three conditions at serial position 4, or between listening and writing at positions 5 and 6 which were both greater than recall in the reading condition. This suggests writing overloads working memory more than reading and listening, particularly in the early serial positions. The results show that writing interferes with working memory processes and so is not recommended when the goal is to immediately recall information.

Keywords: working memory, reading, listening, writing, serial recall

The CLIM linguistic/cultural assessment matrix: Another study not supporting the framework

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Research Byte: How to make preschoolers smarter: Multiple meta-analyses provide direction

A complete copy of this article can be view at Dr. Scott Barry Kaufman's web page. Click on image to enlarge

 

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Research Byte: Mind sets matter: Meta-analysis

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Research byte: Importance of executive control (updating, inhibiting) in lexical access (rapid naming speed)

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Research byte: Performance validity on neuropsych tests by litigants and disability claimants

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Research bytes: WAIS-IV practice effect study

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Research bytes: Recent dyslexia research--Annals of Dyslexia

Daigle, D., Berthiaume, R., Plisson, A., & Demont, E. (2012). Graphophonological processes in dyslexic readers of French: A longitudinal study of the explicitness effect of tasks. Annals of Dyslexia, 62(2), 82-99.

Deacon, S. H., Cook, K., & Parrila, R. (2012). Identifying high-functioning dyslexics: is self-report of early reading problems enough? Annals of Dyslexia, 62(2), 120-134.

Kast, M., Baschera, G. M., Gross, M., Jancke, L., & Meyer, M. (2012). Computer-based learning of spelling skills in children with and without dyslexia (Vol 61, pg 177, 2011). Annals of Dyslexia, 62(2), 135-136.

SuarezCoalla, P., & Cuetos, F. (2012). Reading strategies in Spanish developmental dyslexics. Annals of Dyslexia, 62(2), 71-81.

Wijnants, M. L., Hasselman, F., Cox, R. F. A., Bosman, A. M. T., & VanOrden, G. (2012). An interaction-dominant perspective on reading fluency and dyslexia. Annals of Dyslexia, 62(2), 100-119.



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