The Role of Neural and Genetic Processes in Learning to Read and Specific Reading Disabilities: Implications for Instruction.

IF 3.9 1区 教育学 Q1 EDUCATION & EDUCATIONAL RESEARCH
Reading Research Quarterly Pub Date : 2023-04-01 Epub Date: 2021-08-04 DOI:10.1002/rrq.439
Jessica A Church, Elena L Grigorenko, Jack M Fletcher
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引用次数: 0

Abstract

To learn to read, the brain must repurpose neural systems for oral language and visual processing to mediate written language. We begin with a description of computational models for how alphabetic written language is processed. Next, we explain the roles of a dorsal sublexical system in the brain that relates print and speech, a ventral lexical system that develops the visual expertise for rapid orthographic processing at the word level, and the role of cognitive control networks that regulate attentional processes as children read. We then use studies of children, adult illiterates learning to read, and studies of poor readers involved in intervention, to demonstrate the plasticity of these neural networks in development and in relation to instruction. We provide a brief overview of the rapid increase in the field's understanding and technology for assessing genetic influence on reading. Family studies of twins have shown that reading skills are heritable, and molecular genetic studies have identified numerous regions of the genome that may harbor candidate genes for the heritability of reading. In selected families, reading impairment has been associated with major genetic effects, despite individual gene contributions across the broader population that appear to be small. Neural and genetic studies do not prescribe how children should be taught to read, but these studies have underscored the critical role of early intervention and ongoing support. These studies also have highlighted how structured instruction that facilitates access to the sublexical components of words is a critical part of training the brain to read.

神经和遗传过程在学习阅读和特定阅读障碍中的作用:对教学的启示。
为了学习阅读,大脑必须重新调整口语和视觉处理的神经系统,以调节书面语言。我们首先描述如何处理字母书写语言的计算模型。接下来,我们将解释大脑中与印刷品和语音相关的背侧亚茎系统的作用,腹侧词汇系统为单词水平的快速拼写处理发展视觉专业知识,以及认知控制网络在儿童阅读时调节注意力过程的作用。然后,我们使用对儿童、学习阅读的成年文盲的研究,以及对参与干预的贫困读者的研究,来证明这些神经网络在发展中以及与教学相关的可塑性。我们简要介绍了该领域对评估遗传对阅读影响的理解和技术的快速增长。对双胞胎的家庭研究表明,阅读技能是可遗传的,分子遗传学研究已经确定了基因组中许多可能携带阅读遗传力候选基因的区域。在选定的家庭中,阅读障碍与主要的遗传影响有关,尽管在更广泛的人群中,个体基因贡献似乎很小。神经和遗传研究并没有规定应该如何教孩子阅读,但这些研究强调了早期干预和持续支持的关键作用。这些研究还强调了结构化教学是训练大脑阅读的关键部分,它有助于获得单词的亚化学成分。
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来源期刊
CiteScore
10.50
自引率
4.80%
发文量
32
期刊介绍: For more than 40 years, Reading Research Quarterly has been essential reading for those committed to scholarship on literacy among learners of all ages. The leading research journal in the field, each issue of RRQ includes •Reports of important studies •Multidisciplinary research •Various modes of investigation •Diverse viewpoints on literacy practices, teaching, and learning
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