Subcortical control of human reaching? (2024-2027)

Abstract

This project will test a radical new hypothesis about how the human brain generates visually guided behaviour. Conventional thinking assumes that visuomotor control of limb movements occurs exclusively within the cerebral cortex. However, the project team¿TM)s recent observations of extremely rapid visually guided muscle activity strongly imply that the human brain controls reaching movements via more primitive midbrain and brainstem structures. The project¿TM)s hypotheses challenge long-standing ideas about the functional organisation of the human brain and may have wide-ranging implications for the design of human-machine interfaces as well as training protocols in rehabilitation, industry, and sport.

Experts

Professor Timothy Carroll

Centre Director of Centre for Senso: Centre for Sensorimotor Performance; Faculty of Health and Behavioural Sciences

Professor and Deputy Head of School: School of Human Movement and Nutrition Sciences; Faculty of Health and Behavioural Sciences

Timothy Carroll

Professor Guy Wallis

Affiliate of Centre for Sensorimoto: Centre for Sensorimotor Performance; Faculty of Health and Behavioural Sciences

Director of Research of School of H: School of Human Movement and Nutrition Sciences; Faculty of Health and Behavioural Sciences

Professor: School of Human Movement and Nutrition Sciences; Faculty of Health and Behavioural Sciences

Guy Wallis