Neural responses associated with attentional engagement and disengagement from threat in high socially anxious children: Evidence from temporal-spatial PCA

Background Cognitive models indicated that social anxiety disorder (SAD) would be caused and maintained by a biased attentional processing of threatening information. This study investigates whether socially anxious children may present impaired attentional engagement and disengagement from negative emotional faces, as well as their underlying event-related potential responses. Methods and findings Fifteen children with high levels of social anxiety (HSA; 9 boys; mean age = 9.99y; SD = 1.14) and twenty low socially anxious children (LSA; 16 boys; mean age = 10.47y; SD = 1.17) participated in a spatial cueing task in which they had to detect targets following neutral/disgusted faces in a valid or invalid location. No group effect was reported on reaction times [p>.05]. However, electrophysiological data showed lower P3a amplitude in HSA children compared with the LSA group when processing facial stimuli. They also reported larger N2 amplitudes for valid-disgusted targets and a larger P3a amplitude for the invalid-disgusted ones. Conclusion In terms of electrophysiological data, our results validated, the hypothesis of attentional disengagement difficulties in SAD children. We also confirm the idea that high levels of social anxiety are associated with cognitive control impairments and have a greater impact on the processing efficiency than on the performance effectiveness.

Accurate sex classification from neural responses to sexual stimuli

Sex differences in brain activity evoked by sexual stimuli remain elusive despite robust evidence for stronger enjoyment of and interest towards sexual stimuli in men than in women. To test whether visual sexual stimuli evoke different brain activity patterns in men and women, we measured haemodynamic brain activity induced by visual sexual stimuli in two experiments in 91 subjects (46 males). In one experiment, the subjects viewed sexual and non-sexual film clips and dynamic annotations for nudity in the clips was used to predict their hemodynamic activity. In the second experiment, the subjects viewed sexual and non-sexual pictures in an event-related design. Males showed stronger activation than females in the visual and prefrontal cortices and dorsal attention network in both experiments. Furthermore, using multivariate pattern classification we could accurately predict the sex of the subject on the basis of the brain activity elicited by the sexual stimuli. The classification generalized across the experiments indicating that the sex differences were consistent across the experiments. Eye tracking data obtained from an independent sample of subjects (N = 110) showed that men looked longer than women at the chest area of the nude female actors in the film clips. These results indicate that visual sexual stimuli evoke discernible brain activity patterns in men and women which may reflect stronger attentional engagement with sexual stimuli in men than women.

The Differential Impact of Mystery in Nature on Attention: An Oculometric Study

Nature exposure can provide benefits on stress, health and cognitive performance. According to Attention Restoration Theory (ART), the positive impact of nature on cognition is mainly driven by fascination. Fascinating properties of nature such as water or a winding hiking trail may capture involuntary attention, allowing the directed form of attention to rest and to recover. This claim has been supported by studies relying on eye-tracking measures of attention deployment, comparing exposure to urban and nature settings. Yet, recent studies have shown that promoting higher engagement with a nature setting can improve restorative benefits, hence challenging ART’s view that voluntary attention is resting. Besides, recent evidence published by Szolosi et al. (2014) suggests that voluntary attention may be involved during exposure to high-mystery nature images which they showed as having greater potential for attention restoration. The current study explored how exposure to nature images of different scenic qualities in mystery (and restoration potential) could impact the engagement of attention. To do so, participants were shown nature images characterized by either low or high mystery properties (with allegedly low or high restoration potential, respectively) and were asked to evaluate their fascination and aesthetic levels. Concurrently, an eye tracker collected measures of pupil size, fixations and spontaneous blinks as indices of attentional engagement. Results showed that high-mystery nature images had higher engagement than low-mystery images as supported by the larger pupil dilations, the higher number of fixations and the reduced number of blinks and durations of fixations. Taken together, these results challenge ART’s view that directed attention is merely resting during exposure to restorative nature and offer new hypotheses on potential mechanisms underlying attention restoration.

Disrupted Spatial Organization of Cued Exogenous Attention Persists Into Adulthood in Developmental Dyslexia

Purpose: Abnormal exogenous attention orienting and diffused spatial distribution of attention have been associated with reading impairment in children with developmental dyslexia. However, studies in adults have failed to replicate such relationships. The goal of the present study was to address this issue by assessing exogenous visual attention and its peripheral spatial distribution in adults with developmental dyslexia.Methods: We measured response times, accuracy and eye movements of 18 dyslexics and 19 typical readers in a cued discrimination paradigm, in which stimuli were presented at different peripheral eccentricities.Results: Results showed that adults with developmental dyslexia were slower that controls in using their mechanisms of exogenous attention orienting. Moreover, we found that while controls became slower with the increase of eccentricity, dyslexics showed an abnormal inflection at 10° as well as similar response times at the most distant eccentricities. Finally, dyslexics show attentional facilitation deficits above 12° of eccentricity, suggesting an attentional engagement deficit at far periphery.Conclusion: Taken together, our findings indicate that, in dyslexia, the temporal deficits in orientation of attention and its abnormal peripheral spatial distribution are not restricted to childhood and persist into adulthood. Our results are, therefore, consistent with the hypothesis that the neural network underlying selective spatial attention is disrupted in dyslexia.

Engagement with angry faces during attentional bias modification: Insights from the N2pc

<p>Healthy individuals show an attentional bias toward threat, and this bias is exaggerated in anxious individuals. Recent studies have shown that training anxious individuals to attend to neutral information can reduce their threat bias and anxiety levels. This training is called attentional bias modification (ABM). However, despite the large literature on ABM, it is still unclear how ABM achieves its effects. Two mechanisms – facilitated engagement with threat, and delayed disengagement from threat – are thought to be involved in the threat bias. In this thesis, I investigated the effects of ABM on engagement with angry faces. First, in Experiment 1 I developed an ABM task to train healthy individuals to attend to either angry or neutral faces. Participants completed a dot-probe task in which they saw two faces – one angry and one neutral – followed by a target that appeared more often in the location of either the angry or neutral face (depending on their respective training condition). Experiment 1 was successful at inducing a bias. Next, Experiment 2 used this task to investigate the effects of ABM on event-related potentials before, during, and after training. The N2pc component, which provides a measure of attentional engagement, was used to investigate changes in engagement with angry and neutral faces as a function of training. Consistent with previous studies, there was an overall N2pc for the angry face, indicating that participants were engaging their attention with the angry face. However, the N2pc was not affected by training, even though participants were moving their eyes in the training-congruent direction during training, indicating sensitivity to the training contingency. These results suggest that ABM does not affect attentional engagement with threat stimuli. Rather, it is likely that an improved ability to disengage attention from threat stimuli underlies ABM’s training effects.</p>

Engagement with angry faces during attentional bias modification: Insights from the N2pc

<p>Healthy individuals show an attentional bias toward threat, and this bias is exaggerated in anxious individuals. Recent studies have shown that training anxious individuals to attend to neutral information can reduce their threat bias and anxiety levels. This training is called attentional bias modification (ABM). However, despite the large literature on ABM, it is still unclear how ABM achieves its effects. Two mechanisms – facilitated engagement with threat, and delayed disengagement from threat – are thought to be involved in the threat bias. In this thesis, I investigated the effects of ABM on engagement with angry faces. First, in Experiment 1 I developed an ABM task to train healthy individuals to attend to either angry or neutral faces. Participants completed a dot-probe task in which they saw two faces – one angry and one neutral – followed by a target that appeared more often in the location of either the angry or neutral face (depending on their respective training condition). Experiment 1 was successful at inducing a bias. Next, Experiment 2 used this task to investigate the effects of ABM on event-related potentials before, during, and after training. The N2pc component, which provides a measure of attentional engagement, was used to investigate changes in engagement with angry and neutral faces as a function of training. Consistent with previous studies, there was an overall N2pc for the angry face, indicating that participants were engaging their attention with the angry face. However, the N2pc was not affected by training, even though participants were moving their eyes in the training-congruent direction during training, indicating sensitivity to the training contingency. These results suggest that ABM does not affect attentional engagement with threat stimuli. Rather, it is likely that an improved ability to disengage attention from threat stimuli underlies ABM’s training effects.</p>

How infant-directed actions enhance infants’ attention, learning, and exploration: Evidence from EEG and computational modeling

When teaching infants new actions, parents tend to modify their movements. Infants prefer these infant-directed actions (IDAs) over adult-directed actions and learn well from them. Yet, it remains unclear how parents’ action modulations capture infants’ attention. Typically, making movements larger than usual is thought to draw attention. Recent findings, however, suggest that parents might exploit movement variability to highlight actions. We hypothesized that variability in movement amplitude rather than higher amplitude is capturing infants’ attention during IDAs. Using EEG, we measured 15-month-olds’ brain activity while they were observing action demonstrations with normal, high, or variable amplitude movements. Infants’ theta power (4-5Hz) in fronto-central channels was compared between conditions. Frontal theta was significantly higher, indicating stronger attentional engagement, in the variable compared to the other conditions. Computational modelling showed that infants’ frontal theta power was predicted best by how surprising each movement was. Thus, surprise induced by variability in movements rather than large movements alone engages infants’ attention during IDAs. Infants with higher theta power for variable movements were more likely to perform actions successfully and to explore objects novel in the context of the given goal. This highlights the brain mechanisms by which IDAs enhance infants’ attention, learning, and exploration.