David A. Gamson scite author profile

ABSTRACT— This article examines the role of working memory, attention shifting, and inhibitory control executive cognitive functions in the development of mathematics knowledge and ability in children. It suggests that an examination of the executive cognitive demand of mathematical thinking can complement procedural and conceptual knowledge‐based approaches to understanding the ways in which children become proficient in mathematics. Task analysis indicates that executive cognitive functions likely operate in concert with procedural and conceptual knowledge and in some instances might act as a unique influence on mathematics problem‐solving ability. It is concluded that consideration of the executive cognitive demand of mathematics can contribute to research on best practices in mathematics education.

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Developmental shifts in fMRI activations during visuospatial relational reasoning

Eslinger

Blair

Wang

et al. 2009

Brain and Cognition

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To investigate maturational plasticity of fluid cognition systems, functional brain imaging was undertaken in healthy 8-19 year old participants while completing visuospatial relational reasoning problems similar to Raven's matrices and current elementary grade math textbooks. Analyses revealed that visuospatial relational reasoning across this developmental age range recruited activations in the superior parietal cortices most prominently, the dorsolateral prefrontal, occipital-temporal, and premotor/supplementary cortices, the basal ganglia, and insula. There were comparable activity volumes in left and right hemispheres for nearly all of these regions. Regression analyses indicated increasing activity predominantly in the superior parietal lobes with developmental age. In contrast, multiple anterior neural systems showed significantly less activity with age, including dorsolateral and ventrolateral prefrontal, paracentral, and insula cortices bilaterally, basal ganglia, and particularly large clusters in the midline anterior cingulate/medial frontal cortex, left middle cingulate/supplementary motor cortex, left insula-putamen, and left caudate. Findings suggest that neuromaturational changes associated with visuospatial relational reasoning shift from a more widespread fronto-cingulate-striatal pattern in childhood to predominant parieto-frontal activation pattern in late adolescence.

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Challenging the Research Base of the Common Core State Standards

Gamson

Eckert

2013

Educational Researcher

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The widely adopted Common Core State Standards (CCSS) call for raising the level of text complexity in textbooks and reading materials used by students across all grade levels in the United States; the authors of the English Language Arts component of the CCSS build their case for higher complexity in part upon a research base they say shows a steady decline in the difficulty of student reading textbooks over the past half century. In this interdisciplinary study, we offer our own independent analysis of third- and sixth-grade reading textbooks used throughout the past century. Our data set consists of books from 117 textbook series issued by 30 publishers between 1905 and 2004, resulting in a linguistic corpus of roughly 10 million words. Contrary to previous reports, we find that text complexity has either risen or stabilized over the past half century; these findings have significant implications for the justification of the CCSS as well as for our understanding of a “decline” within American schooling more generally.

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David A. Gamson

Rising mean IQ: Cognitive demand of mathematics education for young children, population exposure to formal schooling, and the neurobiology of the prefrontal cortex

Is There a Role for Executive Functions in the Development of Mathematics Ability?

Developmental shifts in fMRI activations during visuospatial relational reasoning

Challenging the Research Base of the Common Core State Standards

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