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Learning During Development is Regulated by an Unexpected Brain Region

Summary: Researchers report the thalamus plays a critical role in regulating how the brain learns to integrate binocular input during development.

Source: Netherlands Institute for Neuroscience/KNAW.

During childhood, the brain goes through critical periods in which its learning ability for specific skills and functions is strongly increased. It is assumed that the beginning and ending of these critical periods are regulated in the cortex, the outermost layer of the brain. However, scientists from the Netherlands Institute for Neuroscience discovered that a structure deep in the brain also plays a crucial role in the regulation of these critical periods. These findings, published today in the leading journal Nature Neuroscience, have important implications for understanding developmental problems ranging from a lazy eye to intellectual disability.

Critical periods

We can only flawlessly learn skills and functions such as speaking a language or seeing in 3D through binocular vision during critical periods of development. When these developmental forms of learning fail, lifelong problems arise.

Scientists have been investigating the mechanisms by which critical periods are switched on and off in the hope to extend or reopen them for the treatment of developmental problems. Half a century of research on how the brain learns to integrate visual inputs from the two eyes has provided important insights in critical period regulation, leading to the conclusion that it occurs within the cortex. Neuroscientist Christiaan Levelt and his team now made the surprising discovery that a brain region that passes on input from the eyes to the cortex also plays a crucial role in opening the critical period of binocular vision.

Using electrophysiological recordings in genetically modified mice, they showed that this brain region, known as the thalamus, contains inhibitory neurons that regulate how efficiently the brain learns to integrate binocular inputs. Levelt: “To improve developmental problems resulting in learning problems during critical periods, reinstating flexibility in the visual cortex may not be sufficient. Scientists and clinicians should not limit themselves to studying cortical deficits alone. They should also focus on the thalamus and the way it preprocesses information before it enters the cortex.”

Image shows the thalamus.

Using electrophysiological recordings in genetically modified mice, they showed that this brain region, known as the thalamus, contains inhibitory neurons that regulate how efficiently the brain learns to integrate binocular inputs. NeuroscienceNews.com image is credited to Ben Brahim Mohammed.

Albinism

The study may also provide some hope for people with albinism, who often have limited binocular vision due to misrouting of inputs from the eyes to the thalamus. Levelt’s team found that in contrast to what is generally assumed, plasticity of binocular vision also occurs in the thalamus itself, suggesting that this might be improved in children with albinism through training.

About this neuroscience research article

Source: Christiaan Levelt – Netherlands Institute for Neuroscience/KNAW
Image Source: NeuroscienceNews.com images is credited to Ben Brahim Mohammed. Licensed CC BY 3.0.
Original Research: The study will appear in Nature Neuroscience.

Cite This NeuroscienceNews.com Article
Netherlands Institute for Neuroscience/KNAW “Learning During Development is Regulated by an Unexpected Brain Region.” NeuroscienceNews. NeuroscienceNews, 16 October 2017.
<http://neurosciencenews.com/development-learning-neuroscience-7742/>.
Netherlands Institute for Neuroscience/KNAW (2017, October 16). Learning During Development is Regulated by an Unexpected Brain Region. NeuroscienceNews. Retrieved October 16, 2017 from http://neurosciencenews.com/development-learning-neuroscience-7742/
Netherlands Institute for Neuroscience/KNAW “Learning During Development is Regulated by an Unexpected Brain Region.” http://neurosciencenews.com/development-learning-neuroscience-7742/ (accessed October 16, 2017).
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