Abstract
The brain processes involved in the planning and initiation of voluntary action are of great interest for understanding the relationship between conscious awareness of decisions and the neural control of movement. Voluntary motor behavior has generally been considered to occur when conscious decisions trigger movements. However, several studies now provide compelling evidence that brain states indicative of forthcoming movements take place before a person becomes aware of a conscious decision to act. While such studies have created much debate over the nature of ‘free will,’ at the very least they suggest that unconscious brain processes are predictive of forthcoming movements. Recent studies suggest that slow changes in neuroelectric potentials may play a role in the timing of movement onset by pushing brain activity above a threshold to trigger the initiation of action. Indeed, recent studies have shown relationships between the phase of low frequency oscillatory activity of the brain and the onset of voluntary action. Such studies, however, cannot determine whether this underlying neural activity plays a causal role in the initiation of movement or is only associated with the intentional behavior. Non-invasive transcranial alternating current brain stimulation can entrain neural activity at particular frequencies in order to assess whether underlying brain processes are causally related to associated behaviors. In this review, we examine the evidence for neural coding of action as well as the brain states prior to action initiation and discuss whether low frequency alternating current brain stimulation could influence the timing of a persons’ decision to act.
Highlights
The mammalian brain evolved to support naturalistic behaviors that enable interactions with our environment by choosing and initiating movements (Tinbergen, 1951)
The findings reported by Libet et al (1983) showed that the slow buildup observed in the readiness potential (RP) preceded w-time by approximately 500–800 ms
In a recent experiment by Rigoni et al (2011), participants were primed with information that sought to undermine their beliefs in ‘free will’ prior to completing a variant of the Libet clock task (Libet et al, 1983; see Banks and Isham, 2009; Rigoni et al, 2010). While these results showed that inducing disbelief in ‘free will’ does not influence w-time, compared to participants who did not receive the ‘free will’ information, the primed group exhibited a significant attenuation in the amplitude of the RP (Rigoni et al, 2011)
Summary
Several studies provide compelling evidence that brain states indicative of forthcoming movements take place before a person becomes aware of a conscious decision to act. While such studies have created much debate over the nature of ‘free will,’ at the very least they suggest that unconscious brain processes are predictive of forthcoming movements. Recent studies have shown relationships between the phase of low frequency oscillatory activity of the brain and the onset of voluntary action Such studies, cannot determine whether this underlying neural activity plays a causal role in the initiation of movement or is only associated with the intentional behavior.
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