When humans reach to visual targets, extremely rapid (∼ 90 ms) target-directed responses
can be observed in task-relevant proximal muscles. Such express visuomotor responses are …

Humans can produce “express”(∼ 100 ms) arm muscle responses that are inflexibly locked
in time and space to visual target presentations, consistent with subcortical visuomotor …

Humans have a remarkable capacity to rapidly interact with the surrounding environment,
often by transforming visual input into motor output on a moment-to-moment basis. But what …

When required, humans can generate very short latency reaches toward visual targets, such
as catching a falling cellphone. During such rapid reaches, express arm responses are the …

Humans are able to generate target-directed visuomotor responses in less than 100 ms after
stimulus onset. These “express” responses have been termed stimulus-locked responses …

To reach towards a seen object, visual information has to be transformed into motor
commands. Visual information such as the object's colour, shape, and size is processed and …

Recent work has described express visuomotor responses (EVRs) on the upper limb. EVRs
are directionally-tuned bursts of muscle activity that occur within 100 ms of visual stimulus …

Human cerebral cortex can produce visuomotor responses that are modulated by contextual
and task-specific constraints. However, the distributed cortical network for visuomotor …

An important aspect of motor function is our ability to rapidly generate goal-directed
corrections for disturbances to the limb or behavioural goal. Primary motor cortex (M1) is a …

Surviving in natural environments requires animals to sense sudden events and swiftly
adapt behaviour accordingly. The study of such Reactive Adaptive Behaviour (RAB) has …