Decisions about actions typically involve a period of deliberation that ends with the commitment to a choice and the motor processes overtly expressing that choice. Previous studies have shown that neural activity in sensorimotor areas, including the primary motor cortex (M1), correlates with deliberation features during action selection. Yet, the causal contribution of these areas to the decision process remains unclear. Here, we investigated whether M1 determines choice commitment, or whether it simply reflects decision signals coming from upstream structures and instead mainly contributes to the motor processes that follow commitment. To do so, we tested the impact of a disruption of M1 activity, induced by continuous theta burst stimula...
International audienceTo make a decision may rely on accumulating evidence in favor of one alternati...
International audienceMost decisions that we make build upon multiple streams of sensory evidence an...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Background: During motor decision making, the neural activity in primary motor cortex (M1) encodes d...
When one makes the decision to act in the physical world, the neural activity in primary motor corte...
When one makes the decision to act in the physical world, the neural activity in primary motor corte...
In the present study, we investigated the functional contribution of the human primary motor cortex ...
SummaryNeurophysiological studies of decision making have primarily focused on decisions about infor...
Many everyday activities, such as driving and sports, require us to engage in time-pressured sensori...
Decision-making is traditionally described as a cognitive process of deliberation followed by commit...
In the present study, we investigated the functional contribution of the human primary motor cortex ...
Action selection involves a tight balance between the competing demands of decision speed and accura...
Recent theoretical models suggest that deciding about actions and executing them are not implemented...
Current models of decision making postulate that action selection entails a competition within motor...
When choosing actions, we can act decisively, vacillate, or suffer momentary indecision. Studying ho...
International audienceTo make a decision may rely on accumulating evidence in favor of one alternati...
International audienceMost decisions that we make build upon multiple streams of sensory evidence an...
Both decision making and sensorimotor control require real-time processing of noisy information stre...
Background: During motor decision making, the neural activity in primary motor cortex (M1) encodes d...
When one makes the decision to act in the physical world, the neural activity in primary motor corte...
When one makes the decision to act in the physical world, the neural activity in primary motor corte...
In the present study, we investigated the functional contribution of the human primary motor cortex ...
SummaryNeurophysiological studies of decision making have primarily focused on decisions about infor...
Many everyday activities, such as driving and sports, require us to engage in time-pressured sensori...
Decision-making is traditionally described as a cognitive process of deliberation followed by commit...
In the present study, we investigated the functional contribution of the human primary motor cortex ...
Action selection involves a tight balance between the competing demands of decision speed and accura...
Recent theoretical models suggest that deciding about actions and executing them are not implemented...
Current models of decision making postulate that action selection entails a competition within motor...
When choosing actions, we can act decisively, vacillate, or suffer momentary indecision. Studying ho...
International audienceTo make a decision may rely on accumulating evidence in favor of one alternati...
International audienceMost decisions that we make build upon multiple streams of sensory evidence an...
Both decision making and sensorimotor control require real-time processing of noisy information stre...