数学障碍:关于认知、神经心理学和遗传成分的思考
Mathematical Disabilities: Reflections on Cognitive, Neuropsychological, and Genetic Components.
作者信息
Geary David C
机构信息
University of Missouri.
出版信息
Learn Individ Differ. 2010 Apr 1;20(2):130. doi: 10.1016/j.lindif.2009.10.008.
Abstract
The collection of articles in this special issue and related studies over the past decade provides a fine example of the substantial progress that has been made in our understanding and remediation of mathematical learning disabilities and difficulties since 1993 (Geary, 1993). The originally proposed procedural and retrieval deficits have been supported and a number sense deficit has been identified. There is evidence for visuospatial contributions to some aspects of mathematical learning, but identification of a core visuospatial deficit underlying some forms of mathematics learning disabilities and difficulties has been elusive. The contributions of working memory to the development and expression of these deficits is more nuanced than I originally proposed as are the brain systems supporting mathematical learning. Although much has been learned about children's difficulties in learning mathematics, but there is just as much and likely more than remains to be discovered.
摘要
本期特刊中的文章选集以及过去十年的相关研究,为自1993年以来(Geary,1993)我们在理解和矫治数学学习障碍与困难方面取得的重大进展提供了一个很好的例证。最初提出的程序性和检索缺陷得到了支持,并且识别出了数感缺陷。有证据表明视觉空间能力对数学学习的某些方面有贡献,但尚未找到一种核心视觉空间缺陷来解释某些形式的数学学习障碍与困难。工作记忆对这些缺陷的发展和表现的贡献比我最初提出的更为微妙,支持数学学习的脑系统也是如此。尽管我们已经了解了很多关于儿童数学学习困难的情况,但仍有同样多甚至更多的内容有待发现。
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