Abstract: Human motor learning is a neural process essential for acquiring new motor skills and adapting existing ones, which is fundamental to everyday activities. Neurological disorders such as ...

Fine motor skills are crucial for children’s development, as they impact various aspects of their daily lives, including academic success, social interaction, and independence. Multisensory learning ...

Researchers have discovered that the dorsal premotor cortex serves a 'meta-learning' function, overseeing and regulating physical movements. Once believed to be limited to movement planning, this ...

Humans exert cognitive control over cognitive functions. Meta-learning is one such metacognitive ability, in which people learn how to efficiently learn the same or similar tasks through experience.

Motor learning is often viewed as a unitary process that operates outside of conscious awareness. This perspective has led to the development of sophisticated models designed to elucidate the ...

This valuable study uses convincing state-of-the-art neuroimaging analyses to characterize whole-brain networks during reward-based motor learning. This work motivates future research to dissociate ...

Learning new skills involves intricate brain processes that scientists are still working to fully understand. A recent study published in the journal Brain Sciences examines how older adults learn ...

Motor dysfunction is increasingly being viewed as a core characteristic of autism spectrum disorder (ASD) in children. In particular, children with ASD have difficulty in learning new motor skills and ...

In a recent study published in the journal NPJ Science of Learning, researchers investigated the impacts of high-intensity interval training (HIIT) on the subsequent motor skill acquisition efficiency ...

Introduction There is growing evidence that sleep is disrupted after stroke, with worse sleep relating to poorer motor outcomes. It is also widely acknowledged that consolidation of motor learning, a ...