It is the second largest part in the human brain and contains more neurons than any other. Tucked under the back of the cerebral cortex, the cerebellum is often overlooked when considering how the brain manages complex cognition such as language or problem solving. For the first time, its involvement in cognition can now be examined in comprehensive detail thanks to a newly released map by researchers at Western University.
In a study recently published by Nature Neuroscience, Western researchers released a functional atlas of the brain’s cerebellum. Lead author Maedbh King created the map as a Western student in collaboration with Western Research Chair for Motor Control & Computational Neuroscience Jörn Diedrichsen and University of California, Berkeley Professor of Psychology and Neuroscience Richard Ivry with support from Western’s BrainsCAN. The detailed map shows the functional correlates of each cerebellar region in never-before-seen detail.
Traditionally, the cerebellum has been known to play a key role in the coordination of movement. Research in the last 30 years has also shown that the cerebellum contributes to many aspects of higher mental thought such as working memory, language, decision making and social cognition. Its role in human intelligence is still largely a mystery.
Maedbh King
“This is the first time the human cerebellum has been mapped using task-based data on the same set of subjects at this detail,” says King, now a PhD student at the University of California, Berkeley. “We adopted this kitchen sink approach, throwing a variety of tasks at the cerebellum at one time, to map out different functional subdivisions.”
There is growing recognition that cerebellar dysfunction may be linked to mental disorders including schizophrenia, autism and dyslexia. The new map will provide a unique research tool for neuroscientists to better understand the function of the cerebellum and to accelerate research into its involvement in these disorders.
“If you think about disease development, it’s likely that only a few subregions within the cerebellum, in concert with a network of other brain areas, might be disrupted in a specific disease, so researchers need a better idea of where exactly to look,” says Diedrichsen, a core member in Western’s Brain and Mind Institute and senior author of the study. “With this new map, researchers can test specific hypotheses focused on these disorders, as well as evaluate hypotheses about cerebellar function in general.”
To create the map, King developed tasks designed to cover mental activity including language, memory, math, abstract thinking, mental imagery and motor control. While completing these tasks, study participants were scanned using magnetic resonance imaging (MRI). Participants’ cerebellar data were then aligned and displayed as a map using MRI analysis tools developed by Diedrichsen’s lab at the Brain and Mind Institute.
Joern Diedrichsen
King, Diedrichsen and Ivry’s work can be used to predict the functional boundaries in the cerebellum, allowing researchers to perform tasks and compare results against the map. Interestingly, the map also shows that previous anatomical markers used in studies do not align with these new functional boundaries.
“The map shows the functional diversity of the cerebellum,” says Diedrichsen. “Now that researchers have a map, we can start to ask clearer questions.”
MEDIA CONTACT: Jeff Renaud, Senior Media Relations Officer, 519-661-2111, ext. 85165, 519-520-7281 (mobile), jrenaud9@uwo.ca, @jeffrenaud99
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BrainsCAN is Western University’s research initiative in cognitive and behavioural neuroscience that aims to transform the way brain diseases and disorders are understood, diagnosed and treated. https://brainscan.uwo.ca/
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