Subjects routinely control the vigor with which they emit motoric responses. However, the bulk of formal treatments of decision-making ignores this dimension of choice. A recent theoretical study suggested that action vigor should be influenced by experienced average reward rate and that this rate is encoded by tonic dopamine in the brain. We previously examined how average reward rate modulates vigor as exemplified by response times and found a measure of agreement with the first suggestion. In the current study, we examined the second suggestion, namely the potential influence of dopamine signaling on vigor. Ninety healthy subjects participated in a double-blind experiment in which they received one of the following: placebo, L-DOPA (whic...
Much human behavior is driven by rewards. Preclinical neurophysiological and clinical positron emiss...
Reinforcement learning occurs when organisms adapt behavior on the basis of associations with reward...
Dopamine (DA) is critical for reward-seeking. However, its specific role in reward has remained elus...
Subjects routinely control the vigor with which they emit motoric responses. However, the bulk of fo...
Item does not contain fulltextRationale: We constantly need to decide not only which actions to perf...
Vigor reflects how motivated people are to respond to stimuli. We previously showed that, on average...
RATIONALE: Dopamine neurotransmission has long been known to exert a powerful influence over the vig...
Two fundamental questions underlie the expression of behavior, namely what to do and how vigorously ...
Dopamine plays a key role in motivation. Phasic dopamine response reflects a reinforcement predictio...
Dopamine plays an important role in goal-directed behavior, through its modulatory influence on stri...
The vigor with which humans and animals engage in a task is often a determinant of the likelihood of...
Decision making requires an actor to not only steer behavior towards specific goals, but also determ...
Brain mechanisms for reinforcement learning and adaptive decision-making are widely accepted to crit...
Mesolimbic dopamine has been implicated in reward learning. Fischbach-Weiss and Janak (this issue) u...
Dopamine plays a key role in motivation. Phasic dopamine response reflects a reinforcement predictio...
Much human behavior is driven by rewards. Preclinical neurophysiological and clinical positron emiss...
Reinforcement learning occurs when organisms adapt behavior on the basis of associations with reward...
Dopamine (DA) is critical for reward-seeking. However, its specific role in reward has remained elus...
Subjects routinely control the vigor with which they emit motoric responses. However, the bulk of fo...
Item does not contain fulltextRationale: We constantly need to decide not only which actions to perf...
Vigor reflects how motivated people are to respond to stimuli. We previously showed that, on average...
RATIONALE: Dopamine neurotransmission has long been known to exert a powerful influence over the vig...
Two fundamental questions underlie the expression of behavior, namely what to do and how vigorously ...
Dopamine plays a key role in motivation. Phasic dopamine response reflects a reinforcement predictio...
Dopamine plays an important role in goal-directed behavior, through its modulatory influence on stri...
The vigor with which humans and animals engage in a task is often a determinant of the likelihood of...
Decision making requires an actor to not only steer behavior towards specific goals, but also determ...
Brain mechanisms for reinforcement learning and adaptive decision-making are widely accepted to crit...
Mesolimbic dopamine has been implicated in reward learning. Fischbach-Weiss and Janak (this issue) u...
Dopamine plays a key role in motivation. Phasic dopamine response reflects a reinforcement predictio...
Much human behavior is driven by rewards. Preclinical neurophysiological and clinical positron emiss...
Reinforcement learning occurs when organisms adapt behavior on the basis of associations with reward...
Dopamine (DA) is critical for reward-seeking. However, its specific role in reward has remained elus...