Macedonia Manuela, Mueller Karsten
Information Engineering, Johannes Kepler University LinzLinz, Austria; Neural Mechanisms of Human Communication, Max Planck Institute for Human Cognitive and Brain SciencesLeipzig, Germany.
Nuclear Magnetic Resonance Unit, Max Planck Institute for Human Cognitive and Brain Sciences Leipzig, Germany.
Front Psychol. 2016 Jun 28;7:953. doi: 10.3389/fpsyg.2016.00953. eCollection 2016.
Vocabulary learning in a second language is enhanced if learners enrich the learning experience with self-performed iconic gestures. This learning strategy is called enactment. Here we explore how enacted words are functionally represented in the brain and which brain regions contribute to enhance retention. After an enactment training lasting 4 days, participants performed a word recognition task in the functional Magnetic Resonance Imaging (fMRI) scanner. Data analysis suggests the participation of different and partially intertwined networks that are engaged in higher cognitive processes, i.e., enhanced attention and word recognition. Also, an experience-related network seems to map word representation. Besides core language regions, this latter network includes sensory and motor cortices, the basal ganglia, and the cerebellum. On the basis of its complexity and the involvement of the motor system, this sensorimotor network might explain superior retention for enactment.
如果学习者通过自行做出的标志性手势丰富学习体验,那么第二语言的词汇学习会得到加强。这种学习策略称为“ enactment”(动作表现法)。在此,我们探究通过动作表现法学习的单词在大脑中是如何进行功能表征的,以及哪些脑区有助于提高记忆保持能力。在进行了为期4天的动作表现法训练后,参与者在功能磁共振成像(fMRI)扫描仪中完成一项单词识别任务。数据分析表明,参与该任务的不同网络部分相互交织,这些网络参与了更高层次的认知过程,即增强注意力和单词识别。此外,一个与体验相关的网络似乎映射了单词表征。除了核心语言区域外,后一个网络还包括感觉和运动皮层、基底神经节和小脑。基于其复杂性以及运动系统的参与,这个感觉运动网络可能解释了动作表现法在记忆保持方面的优势。