4Objectives. The ability to perform a context-free 3-dimensional multiple object 5 tracking (3D-MOT) task has been highly related to athletic performance. In the 6 present study, we assessed the transferability of a perceptual-cognitive 3D-MOT 7 training from a laboratory setting to a soccer field, a sport in which the capacity to 8 correctly read the dynamic visual scene is a prerequisite to performance. Design. 9Throughout pre-and post-training sessions, we looked at three essential skills 10 (passing, dribbling, shooting) that are used to gain the upper hand over the 11 opponent. Method. We recorded decision-making accuracy during small-sided 12 games in university-level soccer players (n=23) before and after a training 13 protocol. Experimental (n=9) and active control (n=7) groups were respectively 14 trained during 10 sessions of 3D-MOT or 3D soccer videos. A passive control 15 group (n=7) did not received any particular training or instructions. Results. 16 Decision-making accuracy in passing, but not in dribbling and shooting, between 17 pre-and post-sessions was superior for the 3D-MOT trained group compared to 18 control groups. This result was correlated with the players' subjective decision-19 making accuracy, rated after pre-and post-sessions through a visual analogue 20 scale questionnaire. Conclusions. To our knowledge, this study represents the 21 first evidence in which a non-contextual, perceptual-cognitive training exercise 22 has a transfer effect onto the field in athletes.
Recent studies have shown that athletes’ domain specific perceptual-cognitive expertise can transfer to everyday tasks. Here we assessed the perceptual-cognitive expertise of athletes and non-athletes using sport specific and non-sport specific biological motion perception (BMP) tasks. Using a virtual environment, university-level soccer players and university students’ non-athletes were asked to perceive the direction of a point-light walker and to predict the trajectory of a masked-ball during a point-light soccer kick. Angles of presentation were varied for orientation (upright, inverted) and distance (2 m, 4 m, 16 m). Accuracy and reaction time were measured to assess observers’ performance. The results highlighted athletes’ superior ability compared to non-athletes to accurately predict the trajectory of a masked soccer ball presented at 2 m (reaction time), 4 m (accuracy and reaction time), and 16 m (accuracy) of distance. More interestingly, experts also displayed greater performance compared to non-athletes throughout the more fundamental and general point-light walker direction task presented at 2 m (reaction time), 4 m (accuracy and reaction time), and 16 m (reaction time) of distance. In addition, athletes showed a better performance throughout inverted conditions in the walker (reaction time) and soccer kick (accuracy and reaction time) tasks. This implies that during human BMP, athletes demonstrate an advantage for recognizing body kinematics that goes beyond sport specific actions.
BackgroundWe have recently reported that serotonin4 (5-HT4) receptor agonists have a promising potential as fast-acting antidepressants. Here, we assess the extent to which this property may be optimized by the concomitant use of conventional antidepressants.Methodology/Principal FindingsWe found that, in acute conditions, the 5-HT4 agonist prucalopride was able to counteract the inhibitory effect of the selective serotonin reuptake inhibitors (SSRI) fluvoxamine and citalopram on 5-HT neuron impulse flow, in Dorsal Raphé Nucleus (DRN) cells selected for their high (>1.8 Hz) basal discharge. The co-administration of both prucalopride and RS 67333 with citalopram for 3 days elicited an enhancement of DRN 5-HT neuron average firing rate, very similar to what was observed with either 5-HT4 agonist alone. At the postsynaptic level, this translated into the manifestation of a tonus on hippocampal postsynaptic 5-HT1A receptors, that was two to three times stronger when the 5-HT4 agonist was combined with citalopram. Similarly, co-administration of citalopram synergistically potentiated the enhancing effect of RS 67333 on CREB protein phosphorylation within the hippocampus. Finally, in the Forced Swimming Test, the combination of RS 67333 with various SSRIs (fluvoxamine, citalopram and fluoxetine) was more effective to reduce time of immobility than the separate administration of each compound.Conclusions/SignificanceThese findings strongly suggest that the adjunction of an SSRI to a 5-HT4 agonist may help to optimize the fast-acting antidepressant efficacy of the latter.
These paradoxical findings are not consistent with the notion that reward and locomotion are mediated by a common substrate; this dissociation may be useful in modeling psychiatric disorders such as mixed depressive states. In addition, our findings suggest that central reward circuitry may constitute a possible target for rationally designed therapeutics for depression.
This study introduces a virtual life-sized perceptual-cognitive training paradigm that combines three-dimensional multiple object tracking (3D-MOT) with motor (Experiment 1) or perceptual (Experiment 2) sport decision-making tasks. We sought to assess the impact of training on task performance and determine optimal training conditions for improvement and learning. Fifty-seven participants were randomly assigned to one of four training conditions (isolated 3D-MOT, 3D-MOT combined with a decision-making task, consolidated 3D-MOT later combined with a decision-making task, and isolated decision-making task). We evaluated task performance using speed thresholds, success rate (%), and reaction time (s). Findings were that the dual-task paradigm was associated with performance beyond chance level on both 3D-MOT and decision-making tasks despite an important dual-task cost. Interestingly, the results seemed to favor consolidated 3D-MOT training over simultaneous 3D-MOT training when combined with a motor decision-making task but not when combined with a perceptual decision-making task. The number of shared attentional resources in the nature of the additional task (i.e., perceptual or motor decision-making) seems to be key in interpreting the dual-task interference. These findings must be considered when designing representative multitask perceptual-cognitive training.
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