Motor learning and adaptation are fundamental processes that enable organisms to acquire and refine movements in response to internal and external changes. Research in this area explores how the ...

Distinct cerebellar projections to the forebrain differentially support acquisition and offline consolidation of a motor skill engaging cerebello-striato-cortical circuits, revealing the temporal and ...

When we learn a new motor skill—whether mastering a piano passage or refining balance while walking—the brain must reorganize the circuits that control movement. For decades, this process of synaptic ...

Motor learning and skill acquisition constitute fundamental processes by which individuals enhance their movement capabilities through practice, experience and neural adaptation. This field ...

From writing an article and typing to playing a violin or being a tennis star, the learning of tasks involving movement is one of the brain’s most complex challenges. How does one acquire new motor ...

Mingai Li, received her B.Sc. degree and M.Sc. degree from Daqing Petroleum Institute, Heilongjiang, China, in 1987 and 1990 respectively, and Ph.D. degree from Beijing University of Technology, ...

Do you remember the name of your second-grade teacher or what you ate for lunch today? Those memories may be separated by decades, but both are considered long-term memories. More than half a century ...

Scientists reveal how sleep, especially naps, boosts motor learning after TBI, offering new insights into brain activity and rehabilitation strategies to enhance recovery outcomes. New research ...

When faced with difficult tasks, sometimes people hit a mental wall and make the decision to "sleep on it." Returning to the task after sleeping, they often perform better. Why? Rhythmic brain ...

How does artificial intelligence continue to improve its capabilities? For a long time, expanding model size has been regarded as an important way to ...

When faced with difficult tasks, sometimes people hit a mental wall and make the decision to "sleep on it." Returning to the task after sleeping, they often perform better. Why? Rhythmic brain ...

Astrocyte-mediated synapse elimination was significantly increased after motor learning. This learning-associated increase was not observed in astrocyte-specific Megf10 knockout mice. In addition, ...