Abstract
Novelty seeking has been tied to impulsive choice and biased value based choice. It has been postulated that novel stimuli should trigger more vigorous approach and exploration. However, it is unclear whether stimulus novelty can enhance simple motor actions in the absence of explicit reward, a necessary condition for energizing approach and exploration in an entirely unfamiliar situation. In this study human subjects were cued to omit or perform actions in form of button presses by novel or familiar images. We found that subjects’ motor actions were faster when cued by a novel compared to a familiar image. This facilitation by novelty was strongest when the delay between cue and action was short, consistent with a link between novelty and impulsive choices. The facilitation of reaction times by novelty was correlated across subjects with trait novelty seeking as measured in the Tridimensional Personality Questionnaire. However, this li between high novelty-seeking and action facilitation was driven by trials with a long delay between cue and action. This prolonged time window of energization following novelty could hint at a mechanistic underpinning of enhanced vigour for approach and exploration frequently postulated for novelty seeking humans. In conclusion, we show that stimulus novelty enhances the speed of a cued motor action. We suggest this is likely to reflect an adaptation to changing environments but may also provide a source of maladaptive choice and impulsive behaviour.
Highlights
Exploring novel options is an essential part of adaptive decision making behaviour [1,2], but is linked to increased risk of addictive behaviour [3,4] and dopaminergic function [5,6]
FMRI studies in humans show that novelty signals are associated with activation in neocortical and limbic brain structures including the hippocampus [10,11,12,13], and that stimulus novelty activates the substantia nigra/ventral tegmental area (SN/VTA) [6,14]
Our results show that stimulus novelty enhances the speed of subsequent actions in humans in the absence of reward, as well as response accuracy
Summary
Exploring novel options is an essential part of adaptive decision making behaviour [1,2], but is linked to increased risk of addictive behaviour [3,4] and dopaminergic function [5,6]. FMRI studies in humans show that novelty signals are associated with activation in neocortical and limbic brain structures including the hippocampus [10,11,12,13], and that stimulus novelty activates the substantia nigra/ventral tegmental area (SN/VTA) [6,14]. This is consistent with a functional anatomical model of a Hippocampus-SN/VTA loop in which. Use of dopamine agonists in humans has provided evidence consistent with novelty detection modulation by dopaminergic circuitry [17,18]
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