Neuroeducation, Classroom Interventions and Reading Comprehension:  A Systematic Review of the 2010-2022 Literature

Valdés-Villalobos, Belén; Lazzaro-Salazar, Mariana

doi:10.5430/jct.v12n1p261

JCT

2023

DOI: 10.5430/jct.v12n1p261

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Neuroeducation, Classroom Interventions and Reading Comprehension: A Systematic Review of the 2010-2022 Literature

Belén Valdés-Villalobos

Mariana Lazzaro-Salazar²

Abstract: Reading comprehension is the cornerstone of human development, and consequently a fundamental and indispensable tool for communication and social interaction. In recent years, the field of reading comprehension research has been tightly connected with educational neuroscience, which has produced a growing number of interventions aimed at turning theoretical ideas of neuroeducation into practical efforts applicable to the classroom. The aim of the present systematic review was to analyze the state of neuroeduca… Show more

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2024

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Cited by 2 publications

References 33 publications

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Mind, brain and education—Neuromechanisms during child development

Hoferichter,

Raufelder

2024

Brit J of Edu Psychol

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Background and AimsEducational neuroscience has emerged as an interdisciplinary field aimed at elucidating the neurobiological underpinnings of learning and educational outcomes. By synthesizing findings from diverse research endeavours, this Editorial aims to delineate the intricate interplay between neural processes and educational experiences, shedding light on the factors that shape cognitive development and learning trajectories in children.ResultsThis Editorial highlights significant advancements, spanning investigations into neural mechanisms, cognitive development and educational interventions on the basis of four exemplary topics and their effects on academic learning and achievement: student's academic self‐concept, (cyber‐)bullying, reading skills/dyslexia and a growth mindset intervention. Summaries of the four empirical contributions in this special issue are presented and discussed in relation to how they provide insight into the dynamic interplay between neural mechanisms and environmental influences, underscoring the role of early experiences in sculpting brain development and shaping educational outcomes. Furthermore, the integration of neuroscientific techniques (e.g., fMRI, eye‐tracking) with educational research methodologies has provided novel insights into the neural correlates of learning processes, executive functions and socio‐emotional development during childhood.ConclusionsIn conclusion, the pivotal role of Educational Neuroscience in bridging the gap between neuroscience and education is highlighted. By elucidating the neurobiological foundations of learning, this interdisciplinary field offers valuable insights for informing evidence‐based educational practices and interventions tailored to individual learning profiles. Moving forward, continued collaboration between researchers, educators and policymakers is essential to harnessing the full potential of Educational Neuroscience in promoting cognitive growth and academic success across diverse learner populations.

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Mind, brain and education—Neuromechanisms during child development

Hoferichter,

Raufelder

2024

Brit J of Edu Psychol

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The Importance of Neuroeducation in the Teaching-Learning of Mathematics in Preschoolers

López Cabrera,

López Maldonado,

Morocho Calle

et al. 2024

Salud, Ciencia y Tecnología - Serie de Conferencias

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Introduction: neuroeducation, currently, stands out as an essential field to understand brain development and improve the teaching-learning process of mathematics in preschoolers. Objective: determine the importance of neuroeducation in the teaching-learning of mathematics in preschoolers. Method: a descriptive study based on a narrative bibliographic review focused on scientific articles in English and Spanish published between 2020-2024 in sources such as PubMed, Springer, Web of Science and Cochrane. Results: It is demonstrated that neuroeducation allows a significant development in mathematical competencies in post-intervention experimental schools, in addition to this, the positive contributions in social, emotional and moral skills are demonstrated. Conclusions: The development of mathematical competencies in preschoolers is driven by the determined implementation of pedagogical strategies based on neurosciences, led by professionally trained educators, which challenges and overcomes the limitations of the current educational system.

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Neuroeducation, Classroom Interventions and Reading Comprehension: A Systematic Review of the 2010-2022 Literature

Cited by 2 publications

References 33 publications

Mind, brain and education—Neuromechanisms during child development

Mind, brain and education—Neuromechanisms during child development

The Importance of Neuroeducation in the Teaching-Learning of Mathematics in Preschoolers

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