Disrupting the Motor Cortex Has an Unexpected Impact on Translation

The motor cortex is a brain region known to control the body’s voluntary movements. However, the team of neuroscientists have now shown that it can also help translating foreign language words into one’s native language.  Their study has been published recently in the renowned Journal of Neuroscience.

Participants in the study learned foreign language words by performing semantically-related gestures over four days of training. After the training, the participants heard the words that they had learned and were asked to translate them into their native language. A neuroscience technique known as transcranial magnetic stimulation (TMS), in which magnetic pulses stimulate specific brain areas, was used to interfere with processing in the motor cortex during the translation task. The scientists found that this interference slowed down the translation of words learned with gestures. This slowing was not observed in response to the control TMS, which does not interfere with motor cortex processing. In an additional control condition, participants learned foreign language words by viewing pictures, whose translation was unaffected by TMS applied to the motor cortex.

The motor cortex contributed to the translation of foreign language vocabulary after a relatively brief period of gesture-based training, suggesting that performing gestures may be a valuable tool for picking up new words in a foreign language more quickly. “Interestingly, the effect occurred for both concrete words such as violin and abstract words such as democracy. Taken together, the findings suggest that our memory for recently-learned foreign language words depends on the sensorimotor context in which the words were experienced during learning,” explains first author Brian Mathias. “Many often-used teaching methods for learning new foreign language vocabulary rely on only audio or visual information, such as studying written word lists. Our findings shed light on why learning techniques that integrate the body’s motor system typically outperform these other learning strategies.”

Reference:

Mathias B, Waibel A, Hartwigsen G, et al. Motor cortex causally contributes to vocabulary translation following sensorimotor-enriched training. J Neurosci. Published online August 24, 2021. doi:10.1523/JNEUROSCI.2249-20.2021

This article has been republished from the following materials. Note: material may have been edited for length and content. For further information, please contact the cited source.