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1. A visual representation of the hand in the resting somatomotor regions of the human brain

Author

Yara El Rassi, Giacomo Handjaras, Cristina Perciballi, Andrea Leo, Paolo Papale, Maurizio Corbetta, Emiliano Ricciardi, and Viviana Betti

Subjects
fMRI, Spontaneous activity, Task-evoked activity, Somatomotor area, Medicine, Science
Abstract

Abstract Hand visibility affects motor control, perception, and attention, as visual information is integrated into an internal model of somatomotor control. Spontaneous brain activity, i.e., at rest, in the absence of an active task, is correlated among somatomotor regions that are jointly activated during motor tasks. Recent studies suggest that spontaneous activity patterns not only replay task activation patterns but also maintain a model of the body's and environment's statistical regularities (priors), which may be used to predict upcoming behavior. Here, we test whether spontaneous activity in the human somatomotor cortex as measured using fMRI is modulated by visual stimuli that display hands vs. non-hand stimuli and by the use/action they represent. A multivariate pattern analysis was performed to examine the similarity between spontaneous activity patterns and task-evoked patterns to the presentation of natural hands, robot hands, gloves, or control stimuli (food). In the left somatomotor cortex, we observed a stronger (multivoxel) spatial correlation between resting state activity and natural hand picture patterns compared to other stimuli. No task-rest similarity was found in the visual cortex. Spontaneous activity patterns in somatomotor brain regions code for the visual representation of human hands and their use.

Published
2024
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2. Visual attention and memory in professional traders

Author

Francesco Bossi, Andrea P. Malizia, Sonia D’Arcangelo, Francesca Maggi, Nicola Lattanzi, and Emiliano Ricciardi

Subjects
Medicine, Science
Abstract

Abstract Professional traders need to process a large amount of visual information in their daily activity to judge how risky it is to trade specific investment products. Despite some studies investigating the effects of display clutter on traders, visual attention and memory were never investigated in controlled experimental tasks in this population. Following a preliminary study with 30 participants, visual selective attention and visual working memory were measured and compared between two groups of 15 traders and 15 non-traders (salespeople, acting as a control group) from a large-scale banking group in three experimental tasks measuring selective attention in complex visual contexts, simulating display clutter situations (Visual search), cognitive interference (Stroop task), and a delayed recall visual working memory task. In the Visual search task, traders displayed faster response times (RTs) than non-traders for small display sets, while their performance overlapped for large sets. In the Stroop task, traders showed faster RTs than non-traders but were nevertheless affected by cognitive interference. The memory task highlighted no significant differences between the groups. Therefore, this study found an advantage in traders’ attention when processing visual information in small sets with no retention. This result could influence trading activity—determining an immediate use of relevant visual information in decision making—and traders’ display layout organization.

Published
2023
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3. Information load dynamically modulates functional brain connectivity during narrative listening

Author

Rossana Mastrandrea, Luca Cecchetti, Giada Lettieri, Giacomo Handjaras, Andrea Leo, Paolo Papale, Tommaso Gili, Nicola Martini, Daniele Della Latta, Dante Chiappino, Pietro Pietrini, and Emiliano Ricciardi

Subjects
Medicine, Science
Abstract

Abstract Narratives are paradigmatic examples of natural language, where nouns represent a proxy of information. Functional magnetic resonance imaging (fMRI) studies revealed the recruitment of temporal cortices during noun processing and the existence of a noun-specific network at rest. Yet, it is unclear whether, in narratives, changes in noun density influence the brain functional connectivity, so that the coupling between regions correlates with information load. We acquired fMRI activity in healthy individuals listening to a narrative with noun density changing over time and measured whole-network and node-specific degree and betweenness centrality. Network measures were correlated with information magnitude with a time-varying approach. Noun density correlated positively with the across-regions average number of connections and negatively with the average betweenness centrality, suggesting the pruning of peripheral connections as information decreased. Locally, the degree of the bilateral anterior superior temporal sulcus (aSTS) was positively associated with nouns. Importantly, aSTS connectivity cannot be explained by changes in other parts of speech (e.g., verbs) or syllable density. Our results indicate that the brain recalibrates its global connectivity as a function of the information conveyed by nouns in natural language. Also, using naturalistic stimulation and network metrics, we corroborate the role of aSTS in noun processing.

Published
2023
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4. A new scale to assess technostress levels in an Italian banking context: the Work-Related Technostress Questionnaire

Author

Desirée Estela Porcari, Emiliano Ricciardi, and Maria Donata Orfei

Subjects
technostress, workplace, information and communication technology, questionnaire, validation, Psychology, BF1-990
Abstract

IntroductionTechnostress (TS) represents a multidimensional phenomenon closely related to the pervasive use of information and communication technologies. This study aimed to validate a new psychometric tool for assessing TS in an Italian banking context, the Work-Related Technostress – Questionnaire (WRT-Q). Secondly, we analyzed the role of gender and age in modulating TS manifestations.MethodsA sample of 2,586 bank employees (51% females; age: 47.26 ± 8.6) underwent an online survey. Reliability, exploratory factor analysis (EFA), confirmatory factor analysis (CFA), ANCOVA, independent sample t-test, and correlation analyses were performed.ResultsThe WRT-Q consisted of 17 items and a four-factor structure, supported by the following CFA indices: Comparative Fit Index (CFI) = 0.985; Incremental Fit Index (IFI) = 0.985; Goodness of Fit (GFI) = 0.988; Root Mean Squared Error of Approximation (RMSEA) = 0.071; and SRMR = 0.062. A significant difference in TS levels between age classes emerged (p

Published
2023
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5. Crossmodal plasticity following short-term monocular deprivation

Author

Alessandra Federici, Giulio Bernardi, Irene Senna, Marta Fantoni, Marc O. Ernst, Emiliano Ricciardi, and Davide Bottari

Subjects
Neural plasticity, Multisensory, Crossomdal, Monocular deprivation, EEG, Neural oscillations, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

A brief period of monocular deprivation (MD) induces short-term plasticity of the adult visual system. Whether MD elicits neural changes beyond visual processing is yet unclear. Here, we assessed the specific impact of MD on neural correlates of multisensory processes. Neural oscillations associated with visual and audio-visual processing were measured for both the deprived and the non-deprived eye. Results revealed that MD changed neural activities associated with visual and multisensory processes in an eye-specific manner. Selectively for the deprived eye, alpha synchronization was reduced within the first 150 ms of visual processing. Conversely, gamma activity was enhanced in response to audio-visual events only for the non-deprived eye within 100–300 ms after stimulus onset. The analysis of gamma responses to unisensory auditory events revealed that MD elicited a crossmodal upweight for the non-deprived eye. Distributed source modeling suggested that the right parietal cortex played a major role in neural effects induced by MD. Finally, visual and audio-visual processing alterations emerged for the induced component of the neural oscillations, indicating a prominent role of feedback connectivity. Results reveal the causal impact of MD on both unisensory (visual and auditory) and multisensory (audio-visual) processes and, their frequency-specific profiles. These findings support a model in which MD increases excitability to visual events for the deprived eye and audio-visual and auditory input for the non-deprived eye.

Published
2023
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6. Mindfulness-based online intervention increases well-being and decreases stress after Covid-19 lockdown

Author

Francesco Bossi, Francesca Zaninotto, Sonia D’Arcangelo, Nicola Lattanzi, Andrea P. Malizia, and Emiliano Ricciardi

Subjects
Medicine, Science
Abstract

Abstract Mindfulness interventions were shown to be effective in improving well-being and reducing perceived stress in several conditions. These effects were also found in online mindfulness-based training, especially in employees in organizational environments. The aim of this study was to test the effectiveness of an online mindfulness intervention on healthy employees, especially after the first Italian Covid-19 lockdown. Participants in the intervention group underwent an 8-week mindfulness online training program based on the Mindfulness-Based Stress Reduction (MBSR) protocol compared to a control (no-intervention) group. All participants filled in weekly surveys for the whole intervention duration via online questionnaires to measure their habits, mindfulness (FFMQ-15), emotion regulation (ERQ), positive and negative affect (PANAS), depression, anxiety and stress (DASS-21), resilience (RSA) and insomnia (ISI). 69 participants in the intervention group and 63 in the no-treatment control group were considered in the longitudinal analyses. We found significant differences between the intervention and control groups over time in the measures of mindfulness (in particular the nonreactivity subscale), positive affect, depression, and insomnia. Moreover, we found that the frequency of practice and ease perceived in practicing were positively correlated to several indices of well-being (mindfulness, positive affect, cognitive reappraisal) and negatively correlated to several indices of stress (negative affect, depression, anxiety, stress, insomnia, expressive suppression). These results show the importance and effectiveness of online mindfulness training programs to cope with stress among employees, especially after the Covid-19 lockdown.

Published
2022
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8. Mental health in the post-lockdown pandemic phase: Relief or exacerbation of psychological distress? A cross-sectional study in the general population in Italy

Author

Maria Donata Orfei, Francesco Bossi, Sonia D'Arcangelo, Francesca Maggi, Nicola Lattanzi, Andrea Patricelli Malizia, and Emiliano Ricciardi

Subjects
Psychological Disorders 3210, Health Psychology & Medicine 3360, Psychology, BF1-990
Abstract

This study is one of the first aiming at investigating the mental health in the post-lockdown period in an Italian adult population and detecting demographic and psychological predictors for a worse outcome. 1401 participants answered a web-based survey including the Emotional Reaction Questionnaire (ERQ), the Positive Affect and Negative Affect Scale (PANAS), the Impact of Event Scale-Revised (IES-R), the General Health Questionnaire (GHQ), the Depression, Anxiety and Stress Scale (DASS-21), and the Dutch Work Addiction Scale (DUWAS). Simple slope analyses highlighted that women, lower age, and suppression were related to higher scores for the PANAS negative affect scale, the DASS-21, the IES-R, the GHQ, and the DUWAS. In our sample, 1.2% of participants showed depressive symptoms, 0.5% anxiety symptoms, and 2% stress symptoms. Moreover, 5.4% of participants reported post-traumatic symptoms and 15% signs of psychological distress.Compared with data on the lockdown period, our results show lower levels of depressive, anxiety, and stress symptoms, possibly due to the slackening of preventive measures adopted since June. Despite this, post-traumatic symptoms and signs of psychological distress were still present. Our data suggest the necessity to monitor psychological adaption over time in general and at-risk subjects.

Published
2022
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9. COVID-19 and Stressful Adjustment to Work: A Long-Term Prospective Study About Homeworking for Bank Employees in Italy

Author

Maria Donata Orfei, Desirée Estela Porcari, Sonia D’Arcangelo, Francesca Maggi, Dario Russignaga, Nicola Lattanzi, Andrea Patricelli Malizia, and Emiliano Ricciardi

Subjects
employees, work-family conflict, COVID-19, pandemic, stress, homeworking, Psychology, BF1-990
Abstract

The COVID-19 evolution has forced the massive introduction of homeworking (HW) for most employees in the initial stages of the pandemic and then return to work, mainly due to the vaccination campaign. These multiple abrupt adjustment demands in work may be a source of intense stress for office workers with consequences on wellbeing and the quality of life. This long-term prospective study aimed at investigating the effect of adaptation demands on a broad population of employees of a large Italian banking group in the job-related stress framework. We administered a web-based survey to 1,264 participants in Reopening after the first lockdown, from June to October 2020, at 841 subjects in Second Wave, corresponding to the rise of contagions from November 2020 to January 2021, and to 491 individuals in Vaccination Round, which ranged from February to June 2021. We assessed workaholism by using the Dutch Work Addiction Scale (DUWAS-10), work-family conflicting overlap by using the Work and Family Conflict Scale (WAFCS), and concern for back to work (BW) and for HW by specific questions. Higher WAFCS scores characterized Reopening and Vaccination Round while Second Wave had the highest level of concern for HW. Women and younger individuals showed the highest concern for BW, WAFCS, and DUWAS-10 scores regardless of the pandemic stage. HW days per week were related to more heightened concern for BW and lower concern for HW, DUWAS, and WAFCS scores. The number of children was related to lower Concern for BW and higher WAFCS scores in Reopening and Second Wave. Our data showed that massive adjustment demands in work and family routine represented a significant source of stress for employees, regardless of the different pandemic stages. The highest level of fatigue emerged in women and younger subjects. These results shed light on the need for a road map to promote a gradual and structured adjustment for workers and encourage organizations to consider homeworking as a valid stable alternative.

Published
2022
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10. Estimating Successful Internal Mobility: A Comparison Between Structural Equation Models and Machine Learning Algorithms

Author

Francesco Bossi, Francesco Di Gruttola, Antonio Mastrogiorgio, Sonia D'Arcangelo, Nicola Lattanzi, Andrea P. Malizia, and Emiliano Ricciardi

Subjects
internal mobility, job relocation, job satisfaction, structural equation models, machine learning, resistance to change, Electronic computers. Computer science, QA75.5-76.95
Abstract

Internal mobility often depends on predicting future job satisfaction, for such employees subject to internal mobility programs. In this study, we compared the predictive power of different classes of models, i.e., (i) traditional Structural Equation Modeling (SEM), with two families of Machine Learning algorithms: (ii) regressors, specifically least absolute shrinkage and selection operator (Lasso) for feature selection and (iii) classifiers, specifically Bagging meta-model with the k-nearest neighbors algorithm (k-NN) as a base estimator. Our aim is to investigate which method better predicts job satisfaction for 348 employees (with operational duties) and 35 supervisors in the training set, and 79 employees in the test set, all subject to internal mobility programs in a large Italian banking group. Results showed average predictive power for SEM and Bagging k-NN (accuracy between 61 and 66%; F1 scores between 0.51 and 0.73). Both SEM and Lasso algorithms highlighted the predictive power of resistance to change and orientation to relation in all models, together with other personality and motivation variables in different models. Theoretical implications are discussed for using these variables in predicting successful job relocation in internal mobility programs. Moreover, these results showed how crucial it is to compare methods coming from different research traditions in predictive Human Resources analytics.

Published
2022
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11. The Contribution of Shape Features and Demographic Variables to Disembedding Abilities

Author

Elisa Morgana Cappello, Giada Lettieri, Andrea Patricelli Malizia, Sonia d’Arcangelo, Giacomo Handjaras, Nicola Lattanzi, Emiliano Ricciardi, and Luca Cecchetti

Subjects
disembedding abilities, embedded figures, visual perceptual abilities, gender, education, shape features, Psychology, BF1-990
Abstract

Humans naturally perceive visual patterns in a global manner and are remarkably capable of extracting object shapes based on properties such as proximity, closure, symmetry, and good continuation. Notwithstanding the role of these properties in perceptual grouping, studies highlighted differences in disembedding performance across individuals, which are summarized by the field dependence dimension. Evidence suggests that age and educational attainment explain part of this variability, whereas the role of sex is still highly debated. Also, which stimulus features primarily influence inter-individual variations in perceptual grouping has still to be fully determined. Building upon these premises, we assessed the role of age, education level, and sex on performance at the Leuven Embedded Figure Test—a proxy of disembedding abilities—in 391 cisgender individuals. We also investigated to what extent shape symmetry, closure, complexity, and continuation relate to task accuracy. Overall, target asymmetry, closure, and good continuation with the embedding context increase task difficulty. Simpler shapes are more difficult to detect than those with more lines, yet context complexity impairs the recognition of complex targets (i.e., those with 6 lines or more) to a greater extent. Concerning demographic data, we confirm that age and educational attainment are significantly associated with disembedding abilities and reveal a perceptual advantage in males. In summary, our study further highlights the role of shape properties in disembedding performance and unveils sex differences not reported so far.

Published
2022
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12. Emotionotopy in the human right temporo-parietal cortex

Author

Giada Lettieri, Giacomo Handjaras, Emiliano Ricciardi, Andrea Leo, Paolo Papale, Monica Betta, Pietro Pietrini, and Luca Cecchetti

Subjects
Science
Abstract

People can experience a wide variety of emotions, and how the brain represents these varying affective states is a matter of debate. Here the authors show that coding mechanisms of emotions in right temporo-parietal cortex resemble those of low-level stimulus features in primary sensory regions.

Published
2019
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13. Complementing canonical fMRI with functional Quantitative Susceptibility Mapping (fQSM) in modern neuroimaging research

Author

Marta Lancione, Mauro Costagli, Giacomo Handjaras, Michela Tosetti, Emiliano Ricciardi, Pietro Pietrini, and Luca Cecchetti

Subjects
Quantitative Susceptibility Mapping, Functional QSM, fMRI, Spatial specificity, Quantitative BOLD, Tonotopic mapping, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Functional Quantitative Susceptibility Mapping (fQSM) allows for the quantitative measurement of time-varying magnetic susceptibility across cortical and subcortical brain structures with a potentially higher spatial specificity than conventional fMRI. While the usefulness of fQSM with General Linear Model and “On/Off” paradigms has been assessed, little is known about the potential applications and limitations of this technique in more sophisticated experimental paradigms and analyses, such as those currently used in modern neuroimaging.To thoroughly characterize fQSM activations, here we used 7T MRI, tonotopic mapping, as well as univariate (i.e., GLM and population Receptive Field) and multivariate (Representational Similarity Analysis; RSA) analyses.Although fQSM detected less tone-responsive voxels than fMRI, they were more consistently localized in gray matter. Also, the majority of active gray matter voxels exhibited negative fQSM response, signaling the expected oxyhemoglobin increase, whereas positive fQSM activations were mainly in white matter. Though fMRI- and fQSM-based tonotopic maps were overall comparable, the representation of frequency tunings in tone-sensitive regions was significantly more balanced for fQSM. Lastly, RSA revealed that frequency information from the auditory cortex could be successfully retrieved by using either methods.Overall, fQSM produces complementary results to conventional fMRI, as it captures small-scale variations in the activation pattern which inform multivariate measures. Although positive fQSM responses deserve further investigation, they do not impair the interpretation of contrasts of interest. The quantitative nature of fQSM, its spatial specificity and the possibility to simultaneously acquire canonical fMRI support the use of this technique for longitudinal and multicentric studies and pre-surgical mapping.

Published
2021
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14. Interactions between auditory statistics processing and visual experience emerge only in late development

Author

Martina Berto, Emiliano Ricciardi, Pietro Pietrini, and Davide Bottari

Subjects
Biological sciences, Neuroscience, Sensory neuroscience, Science
Abstract

Summary: The auditory system relies on local and global representations to discriminate sounds. This study investigated whether vision influences the development and functioning of these fundamental sound computations. We employed a computational approach to control statistical properties embedded in sounds and tested samples of sighted controls (SC) and congenitally (CB) and late-onset (LB) blind individuals in two experiments. In experiment 1, performance relied on local features analysis; in experiment 2, performance benefited from computing global representations. In both experiments, SC and CB performance remarkably overlapped. Conversely, LB performed systematically worse than the other groups when relying on local features, with no alterations on global representations. Results suggest that auditory computations tested here develop independently from vision. The efficiency of local auditory processing can be hampered in case sight becomes unavailable later in life, supporting the existence of an audiovisual interplay for the processing of auditory details, which emerges only in late development.

Published
2021
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15. Cortical and subcortical hemodynamic changes during sleep slow waves in human light sleep

Author

Monica Betta, Giacomo Handjaras, Andrea Leo, Alessandra Federici, Valentina Farinelli, Emiliano Ricciardi, Francesca Siclari, Stefano Meletti, Daniela Ballotta, Francesca Benuzzi, and Giulio Bernardi

Subjects
Slow wave, NREM, fMRI, EEG, Thalamus, Cerebellum, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

EEG slow waves, the hallmarks of NREM sleep are thought to be crucial for the regulation of several important processes, including learning, sensory disconnection and the removal of brain metabolic wastes. Animal research indicates that slow waves may involve complex interactions within and between cortical and subcortical structures. Conventional EEG in humans, however, has a low spatial resolution and is unable to accurately describe changes in the activity of subcortical and deep cortical structures. To overcome these limitations, here we took advantage of simultaneous EEG-fMRI recordings to map cortical and subcortical hemodynamic (BOLD) fluctuations time-locked to slow waves of light sleep. Recordings were performed in twenty healthy adults during an afternoon nap. Slow waves were associated with BOLD-signal increases in the posterior brainstem and in portions of thalamus and cerebellum characterized by preferential functional connectivity with limbic and somatomotor areas, respectively. At the cortical level, significant BOLD-signal decreases were instead found in several areas, including insula and somatomotor cortex. Specifically, a slow signal increase preceded slow-wave onset and was followed by a delayed, stronger signal decrease. Similar hemodynamic changes were found to occur at different delays across most cortical brain areas, mirroring the propagation of electrophysiological slow waves, from centro-frontal to inferior temporo-occipital cortices. Finally, we found that the amplitude of electrophysiological slow waves was positively related to the magnitude and inversely related to the delay of cortical and subcortical BOLD-signal changes. These regional patterns of brain activity are consistent with theoretical accounts of the functions of sleep slow waves.

Published
2021
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16. Enhancing Organizational Memory Through Virtual Memoryscapes: Does It Work?

Author

Antonio Mastrogiorgio, Francesca Zaninotto, Francesca Maggi, Emiliano Ricciardi, Nicola Lattanzi, and Andrea P. Malizia

Subjects
virtual reality, memory offloading, digital amnesia, organizational memory, virtual memoryscapes, Psychology, BF1-990
Abstract

Enhancing cognitive memory through virtual reality represents an issue, that has never been investigated in organizational settings. Here, we compared a virtual memoryscape (treatment) – an immersive virtual environment used by subjects as a shared memory tool based on spatial navigation – with respect to the traditional individual-specific mnemonic tool based on the “method of loci” (control). A memory task characterized by high ecological validity was administered to 82 subjects employed by large banking group. Memory recall was measured, for both groups, immediately after the task (Phase 1) and one week later (Phase 2). Results show that (i) in Phase 1, the method of loci was more efficient in terms of recalling information than the to the virtual memoryscape; (ii) in Phase 2, there was no difference. Compared to the method of loci, the virtual memoryscape presents the advantages – relevant for organizations – of being collective, controllable, dynamic, and non-manipulable.

Published
2021
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17. Corrigendum: Major Stress-Related Symptoms During the Lockdown: A Study by the Italian Society of Psychophysiology and Cognitive Neuroscience

Author

Sara Invitto, Daniele Romano, Francesca Garbarini, Valentina Bruno, Cosimo Urgesi, Giuseppe Curcio, Alberto Grasso, Maria Concetta Pellicciari, Giacomo Koch, Viviana Betti, Mirta Fiorio, Emiliano Ricciardi, Marina de Tommaso, and Massimiliano Valeriani

Subjects
Covid-19, pain, sleep habits, olfactory perception, lockdown, stress, Public aspects of medicine, RA1-1270
Published
2021
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18. Major Stress-Related Symptoms During the Lockdown: A Study by the Italian Society of Psychophysiology and Cognitive Neuroscience

Author

Sara Invitto, Daniele Romano, Francesca Garbarini, Valentina Bruno, Cosimo Urgesi, Giuseppe Curcio, Alberto Grasso, Maria Concetta Pellicciari, Giacomo Koch, Viviana Betti, Mirta Fiorio, Emiliano Ricciardi, Marina de Tommaso, and Massimiliano Valeriani

Subjects
Covid-19, pain, sleep habits, olfactory perception, lockdown, stress, Public aspects of medicine, RA1-1270
Abstract

The clinical effects of the Covid-19 pandemic are now the subject of numerous studies worldwide. But what are the effects of the quarantine imposed by the states that implemented the measures of lockdown? The present research aims to explore, in a preliminary way, the major stress-related symptoms during the lockdown, due to Covid-19, in the Italian population. Subjects were asked to fill out a survey, that traced a line identifying the most relevant psychophysiological symptoms that took into account factors such as perceived stress, body perception, perceived pain, quality of sleep, perceptive variations (i.e., olfactory, gustatory, visual, acoustic, and haptic perception). A network approach formulating a hypothesis-generating exploratory analysis was adopted. Main results of the network analysis showed that the beliefs of having had the Covid-19 was related to individual variables (i.e., gender, working in presence, sleep quality, anxiety symptoms), while the familiarity of Covid-19 disease was related to contextual factors (e.g., number of recorded cases in the Region, working in presence). The self-perception of olfactory and perceptive alterations highlighted a great sensorial cross-modality, additionally, the olfactory impairment was related to the belief of having had the Covid-19. Compared to general network data, BAI, perceived stress, anxiety and chronic pain were in relation to daily sleep disturbance. Main study's results show how the management of the Covid-19 stressful representation, in its cognitive aspects, can modulate the psychophysiological responses.

Published
2021
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19. The Relation Between Consumers' Frontal Alpha Asymmetry, Attitude, and Investment Decision

Author

Francesco Di Gruttola, Andrea P. Malizia, Sonia D'Arcangelo, Nicola Lattanzi, Emiliano Ricciardi, and Maria Donata Orfei

Subjects
frontal alpha asymmetry (FAA), EEG-electroencephalogram, decision-making -investments, consumer attitude, pupil diameter, consumer choice, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

The frontal alpha asymmetry (FAA) is a neurophysiological measure of motivation and preference. Despite the FAA is associated to commercial pleasantness, conflicting evidence emerged in the literature regarding its relationship with behavior. To study the association between FAA and consumers' decision, we manipulated a commercial script to elicit diverse consumers' attitudes and decisions and to evaluate whether the FAA score is associated to their final investment. A little informative script (S1) was used to polarize consumers' attitudes and investments toward unfavorable scores, while a more personalized message (S2) to elicit in customers a favorable attitude and higher investments. Twenty-one participants listened to the scripts, and their FAA, attitude, and monetary investment were measured. In S1, the FAA did not correlate with neither attitude nor the investment decision, while a robust negative correlation between these variables was found in S2. No other peripheral body and neural measures associated with attitude or final decision. Our data suggest that the FAA correlates with attitude and decision, when a commercial script is customized and provides an adequate information, likely leading the consumer to a more reasoned and planned decision-making process. When facilitating a favorable attitude toward an offer, the negative correlation of FAA and behavior may reflect the involvement of a control system, whose role is to monitor and govern possible conflicts between approach and avoidance motivations. This observation provides additional indication on the value of FAA as a marker of consumer behaviors, and how it could be affected by experimental and contextual bias.

Published
2021
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20. EEG frequency-tagging demonstrates increased left hemispheric involvement and crossmodal plasticity for face processing in congenitally deaf signers

Author

Davide Bottari, Evgenia Bednaya, Giulia Dormal, Agnes Villwock, Milena Dzhelyova, Konstantin Grin, Pietro Pietrini, Emiliano Ricciardi, Bruno Rossion, and Brigitte Röder

Subjects
Face-processing, Neural plasticity, Auditory deprivation, Sign Language, Frequency-tagging, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

In humans, face-processing relies on a network of brain regions predominantly in the right occipito-temporal cortex. We tested congenitally deaf (CD) signers and matched hearing controls (HC) to investigate the experience dependence of the cortical organization of face processing. Specifically, we used EEG frequency-tagging to evaluate: (1) Face-Object Categorization, (2) Emotional Facial-Expression Discrimination and (3) Individual Face Discrimination. The EEG was recorded to visual stimuli presented at a rate of 6 Hz, with oddball stimuli at a rate of 1.2 Hz. In all three experiments and in both groups, significant face discriminative responses were found. Face-Object categorization was associated to a relative increased involvement of the left hemisphere in CD individuals compared to HC individuals. A similar trend was observed for Emotional Facial-Expression discrimination but not for Individual Face Discrimination. Source reconstruction suggested a greater activation of the auditory cortices in the CD group for Individual Face Discrimination. These findings suggest that the experience dependence of the relative contribution of the two hemispheres as well as crossmodal plasticity vary with different aspects of face processing.

Published
2020
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21. Formant Space Reconstruction From Brain Activity in Frontal and Temporal Regions Coding for Heard Vowels

Author

Alessandra Cecilia Rampinini, Giacomo Handjaras, Andrea Leo, Luca Cecchetti, Monica Betta, Giovanna Marotta, Emiliano Ricciardi, and Pietro Pietrini

Subjects
fMRI, language, speech, vowels, production, perception, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Classical studies have isolated a distributed network of temporal and frontal areas engaged in the neural representation of speech perception and production. With modern literature arguing against unique roles for these cortical regions, different theories have favored either neural code-sharing or cortical space-sharing, thus trying to explain the intertwined spatial and functional organization of motor and acoustic components across the fronto-temporal cortical network. In this context, the focus of attention has recently shifted toward specific model fitting, aimed at motor and/or acoustic space reconstruction in brain activity within the language network. Here, we tested a model based on acoustic properties (formants), and one based on motor properties (articulation parameters), where model-free decoding of evoked fMRI activity during perception, imagery, and production of vowels had been successful. Results revealed that phonological information organizes around formant structure during the perception of vowels; interestingly, such a model was reconstructed in a broad temporal region, outside of the primary auditory cortex, but also in the pars triangularis of the left inferior frontal gyrus. Conversely, articulatory features were not associated with brain activity in these regions. Overall, our results call for a degree of interdependence based on acoustic information, between the frontal and temporal ends of the language network.

Published
2019
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22. Brain Hemodynamic Intermediate Phenotype Links Vitamin B12 to Cognitive Profile of Healthy and Mild Cognitive Impaired Subjects

Author

Luca Cecchetti, Giada Lettieri, Giacomo Handjaras, Andrea Leo, Emiliano Ricciardi, Pietro Pietrini, Silvia Pellegrini, and The Train the Brain Consortium

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Vitamin B12, folate, and homocysteine are implicated in pivotal neurodegenerative mechanisms and partake in elders’ mental decline. Findings on the association between vitamin-related biochemistry and cognitive abilities suggest that the structural and functional properties of the brain may represent an intermediate biomarker linking vitamin concentrations to cognition. Despite this, no previous study directly investigated whether vitamin B12, folate, and homocysteine levels are sufficient to explain individual neuropsychological profiles or, alternatively, whether the activity of brain regions modulated by these compounds better predicts cognition in elders. Here, we measured the relationship between vitamin blood concentrations, scores at seventeen neuropsychological tests, and brain activity of sixty-five elders spanning from normal to Mild Cognitive Impairment. We then evaluated whether task-related brain responses represent an intermediate phenotype, providing a better prediction of subjects’ neuropsychological scores, as compared to the one obtained considering blood biochemistry only. We found that the hemodynamic activity of the right dorsal anterior cingulate cortex was positively associated (p value

Published
2019
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23. Eight Weddings and Six Funerals: An fMRI Study on Autobiographical Memories

Author

Francesca Benuzzi, Daniela Ballotta, Giacomo Handjaras, Andrea Leo, Paolo Papale, Michaela Zucchelli, Maria Angela Molinari, Fausta Lui, Luca Cecchetti, Emiliano Ricciardi, Giuseppe Sartori, Pietro Pietrini, and Paolo Frigio Nichelli

Subjects
autobiographical memory, individual differences, emotional valence, retrievial, multivariate analysis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

“Autobiographical memory” (AM) refers to remote memories from one's own life. Previous neuroimaging studies have highlighted that voluntary retrieval processes from AM involve different forms of memory and cognitive functions. Thus, a complex and widespread brain functional network has been found to support AM. The present functional magnetic resonance imaging (fMRI) study used a multivariate approach to determine whether neural activity within the AM circuit would recognize memories of real autobiographical events, and to evaluate individual differences in the recruitment of this network. Fourteen right-handed females took part in the study. During scanning, subjects were presented with sentences representing a detail of a highly emotional real event (positive or negative) and were asked to indicate whether the sentence described something that had or had not really happened to them. Group analysis showed a set of cortical areas able to discriminate the truthfulness of the recalled events: medial prefrontal cortex, posterior cingulate/retrosplenial cortex, precuneus, bilateral angular, superior frontal gyri, and early visual cortical areas. Single-subject results showed that the decoding occurred at different time points. No differences were found between recalling a positive or a negative event. Our results show that the entire AM network is engaged in monitoring the veracity of AMs. This process is not affected by the emotional valence of the experience but rather by individual differences in cognitive strategies used to retrieve AMs.

Published
2018
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24. Neurobiological Correlates of the Attitude Toward Human Empathy

Author

Claudio Gentili, Ioana Alina Cristea, Emiliano Ricciardi, Cristina Costescu, Daniel David, and Pietro Pietrini

Subjects
Empathy, Mirror Neurons, Theory of Mind, Mental Disorders, Psychopathy, Philosophy. Psychology. Religion
Abstract

Over the last decade, integrated philosophical and neuroscientific studies of empathy have been steadily growing, because of the pivotal role that empathy plays in social cognition and ethics, as well as in the understanding of human behavior both under physiological conditions and in the presence of mental disorders. The umbrella concept of empathy embraces multi-faceted characteristics, including affective and cognitive processes, such as so-called emotional contagion and concern and perspective-taking. In this paper, we review the state-of-the-art of knowledge about the neurobiology of empathy. Specifically, we examine studies regarding empathy for pain, emotional imitation and expression and their alterations in psychopathological conditions. We also consider studies on the theory of mind (ToM) and the mirror neuron system (MNS). Finally, we propose measures of brain resting state activity as a potential neurobiological marker of proneness to be empathic.

Published
2015
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25. Are supramodality and cross-modal plasticity the yin and yang of brain development? From blindness to rehabilitation.

Author

Luca Cecchetti, Ron Kupers, Maurice Ptito, Pietro Pietrini, and Emiliano Ricciardi

Subjects
Blindness, Rehabilitation, fMRI, MRI, crossmodal, supramodal, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Research in blind individuals has primarily focused for a long time on the brain plastic reorganization that occurs in early visual areas. Only more recently, scientists have developed innovative strategies to understand to what extent vision is truly a mandatory prerequisite for the brain’s fine morphological architecture to develop and function. As a whole, the studies conducted to date in sighted and congenitally blind individuals have provided ample evidence that several ‘visual’ cortical areas develop independently from visual experience and do process information content regardless of the sensory modality through which a particular stimulus is conveyed: a property named supramodality. At the same time, lack of vision leads to a structural and functional reorganization within 'visual' brain areas, a phenomenon known as cross-modal plasticity. Cross-modal recruitment of the occipital cortex in visually deprived individuals represents an adaptative compensatory mechanism that mediates processing of non-visual inputs. Supramodality and cross-modal plasticity appear to be the 'yin and yang' of brain development: supramodal is what takes place despite the lack of vision, whereas cross-modal is what happens because of lack of vision. Here we provide a critical overview of the research in this field and discuss the implications that these novel findings have for the development of educative/rehabilitation approaches and sensory substitution devices in sensory-impaired individuals.

Published
2016
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26. A synergy-based hand control is encoded in human motor cortical areas

Author

Andrea Leo, Giacomo Handjaras, Matteo Bianchi, Hamal Marino, Marco Gabiccini, Andrea Guidi, Enzo Pasquale Scilingo, Pietro Pietrini, Antonio Bicchi, Marco Santello, and Emiliano Ricciardi

Subjects
hand control, synergies, fMRI, encoding, decoding, motor cortex, Medicine, Science, Biology (General), QH301-705.5
Abstract

How the human brain controls hand movements to carry out different tasks is still debated. The concept of synergy has been proposed to indicate functional modules that may simplify the control of hand postures by simultaneously recruiting sets of muscles and joints. However, whether and to what extent synergic hand postures are encoded as such at a cortical level remains unknown. Here, we combined kinematic, electromyography, and brain activity measures obtained by functional magnetic resonance imaging while subjects performed a variety of movements towards virtual objects. Hand postural information, encoded through kinematic synergies, were represented in cortical areas devoted to hand motor control and successfully discriminated individual grasping movements, significantly outperforming alternative somatotopic or muscle-based models. Importantly, hand postural synergies were predicted by neural activation patterns within primary motor cortex. These findings support a novel cortical organization for hand movement control and open potential applications for brain-computer interfaces and neuroprostheses.

Published
2016
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27. Morphometric changes of the corpus callosum in congenital blindness.

Author

Francesco Tomaiuolo, Serena Campana, D Louis Collins, Vladimir S Fonov, Emiliano Ricciardi, Giuseppe Sartori, Pietro Pietrini, Ron Kupers, and Maurice Ptito

Subjects
Medicine, Science
Abstract

We examined the effects of visual deprivation at birth on the development of the corpus callosum in a large group of congenitally blind individuals. We acquired high-resolution T1-weighted MRI scans in 28 congenitally blind and 28 normal sighted subjects matched for age and gender. There was no overall group effect of visual deprivation on the total surface area of the corpus callosum. However, subdividing the corpus callosum into five subdivisions revealed significant regional changes in its three most posterior parts. Compared to the sighted controls, congenitally blind individuals showed a 12% reduction in the splenium, and a 20% increase in the isthmus and the posterior part of the body. A shape analysis further revealed that the bending angle of the corpus callosum was more convex in congenitally blind compared to the sighted control subjects. The observed morphometric changes in the corpus callosum are in line with the well-described cross-modal functional and structural neuroplastic changes in congenital blindness.

Published
2014
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28. The effects of visual control and distance in modulating peripersonal spatial representation.

Author

Chiara Renzi, Emiliano Ricciardi, Daniela Bonino, Giacomo Handjaras, Tomaso Vecchi, and Pietro Pietrini

Subjects
Medicine, Science
Abstract

In the presence of vision, finalized motor acts can trigger spatial remapping, i.e., reference frames transformations to allow for a better interaction with targets. However, it is yet unclear how the peripersonal space is encoded and remapped depending on the availability of visual feedback and on the target position within the individual's reachable space, and which cerebral areas subserve such processes. Here, functional magnetic resonance imaging (fMRI) was used to examine neural activity while healthy young participants performed reach-to-grasp movements with and without visual feedback and at different distances of the target from the effector (near to the hand-about 15 cm from the starting position-vs. far from the hand-about 30 cm from the starting position). Brain response in the superior parietal lobule bilaterally, in the right dorsal premotor cortex, and in the anterior part of the right inferior parietal lobule was significantly greater during visually-guided grasping of targets located at the far distance compared to grasping of targets located near to the hand. In the absence of visual feedback, the inferior parietal lobule exhibited a greater activity during grasping of targets at the near compared to the far distance. Results suggest that in the presence of visual feedback, a visuo-motor circuit integrates visuo-motor information when targets are located farther away. Conversely in the absence of visual feedback, encoding of space may demand multisensory remapping processes, even in the case of more proximal targets.

Published
2013
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29. Beyond motor scheme: a supramodal distributed representation in the action-observation network.

Author

Emiliano Ricciardi, Giacomo Handjaras, Daniela Bonino, Tomaso Vecchi, Luciano Fadiga, and Pietro Pietrini

Subjects
Medicine, Science
Abstract

The representation of actions within the action-observation network is thought to rely on a distributed functional organization. Furthermore, recent findings indicate that the action-observation network encodes not merely the observed motor act, but rather a representation that is independent from a specific sensory modality or sensory experience. In the present study, we wished to determine to what extent this distributed and 'more abstract' representation of action is truly supramodal, i.e. shares a common coding across sensory modalities. To this aim, a pattern recognition approach was employed to analyze neural responses in sighted and congenitally blind subjects during visual and/or auditory presentation of hand-made actions. Multivoxel pattern analyses-based classifiers discriminated action from non-action stimuli across sensory conditions (visual and auditory) and experimental groups (blind and sighted). Moreover, these classifiers labeled as 'action' the pattern of neural responses evoked during actual motor execution. Interestingly, discriminative information for the action/non action classification was located in a bilateral, but left-prevalent, network that strongly overlaps with brain regions known to form the action-observation network and the human mirror system. The ability to identify action features with a multivoxel pattern analyses-based classifier in both sighted and blind individuals and independently from the sensory modality conveying the stimuli clearly supports the hypothesis of a supramodal, distributed functional representation of actions, mainly within the action-observation network.

Published
2013
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30. How skill expertise shapes the brain functional architecture: an fMRI study of visuo-spatial and motor processing in professional racing-car and naïve drivers.

Author

Giulio Bernardi, Emiliano Ricciardi, Lorenzo Sani, Anna Gaglianese, Alessandra Papasogli, Riccardo Ceccarelli, Ferdinando Franzoni, Fabio Galetta, Gino Santoro, Rainer Goebel, and Pietro Pietrini

Subjects
Medicine, Science
Abstract

The present study was designed to investigate the brain functional architecture that subserves visuo-spatial and motor processing in highly skilled individuals. By using functional magnetic resonance imaging (fMRI), we measured brain activity while eleven Formula racing-car drivers and eleven 'naïve' volunteers performed a motor reaction and a visuo-spatial task. Tasks were set at a relatively low level of difficulty such to ensure a similar performance in the two groups and thus avoid any potential confounding effects on brain activity due to discrepancies in task execution. The brain functional organization was analyzed in terms of regional brain response, inter-regional interactions and blood oxygen level dependent (BOLD) signal variability. While performance levels were equal in the two groups, as compared to naïve drivers, professional drivers showed a smaller volume recruitment of task-related regions, stronger connections among task-related areas, and an increased information integration as reflected by a higher signal temporal variability. In conclusion, our results demonstrate that, as compared to naïve subjects, the brain functional architecture sustaining visuo-motor processing in professional racing-car drivers, trained to perform at the highest levels under extremely demanding conditions, undergoes both 'quantitative' and 'qualitative' modifications that are evident even when the brain is engaged in relatively simple, non-demanding tasks. These results provide novel evidence in favor of an increased 'neural efficiency' in the brain of highly skilled individuals.

Published
2013
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31. Increased BOLD Variability in the Parietal Cortex and Enhanced Parieto-Occipital Connectivity during Tactile Perception in Congenitally Blind Individuals

Author

Andrea Leo, Giulio Bernardi, Giacomo Handjaras, Daniela Bonino, Emiliano Ricciardi, and Pietro Pietrini

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Previous studies in early blind individuals posited a possible role of parieto-occipital connections in conveying nonvisual information to the visual occipital cortex. As a consequence of blindness, parietal areas would thus become able to integrate a greater amount of multimodal information than in sighted individuals. To verify this hypothesis, we compared fMRI-measured BOLD signal temporal variability, an index of efficiency in functional information integration, in congenitally blind and sighted individuals during tactile spatial discrimination and motion perception tasks. In both tasks, the BOLD variability analysis revealed many cortical regions with a significantly greater variability in the blind as compared to sighted individuals, with an overlapping cluster located in the left inferior parietal/anterior intraparietal cortex. A functional connectivity analysis using this region as seed showed stronger correlations in both tasks with occipital areas in the blind as compared to sighted individuals. As BOLD variability reflects neural integration and processing efficiency, these cross-modal plastic changes in the parietal cortex, even if described in a limited sample, reinforce the hypothesis that this region may play an important role in processing nonvisual information in blind subjects and act as a hub in the cortico-cortical pathway from somatosensory cortex to the reorganized occipital areas.

Published
2012
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32. Is Social Phobia a mis-communication disorder? Brain functional connectivity during face perception differs between patients with Social Phobia and healthy control subjects

Author

Sabrina Danti, Emiliano Ricciardi, Claudio Gentili, Maria Ida Gobbini, Pietro Pietrini, and Mario Guazzelli

Subjects
fMRI, face perception, functional connectivity, social phobia, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Recently, a differential recruitment of brain areas throughout the distributed neural system for face perception has been found in social phobic patients as compared to healthy control subjects. These functional abnormalities in social phobic patients extend beyond emotion-related brain areas, such as the amygdala, to include cortical networks that modulate attention and process other facial features, and they are also associated with an alteration of the task-related activation/deactivation trade-off. Functional connectivity is becoming a powerful tool to examine how components of large-scale distributed neural systems are coupled together while performing a specific function. This study was designed to determine whether functional connectivity networks among brain regions within the distributed system for face perception also would differ between social phobic patients and healthy controls. Data were obtained from eight social phobic patients and seven healthy controls by using functional magnetic resonance imaging (fMRI). Our findings indicated that social phobic patients and healthy controls have different patterns of functional connectivity across brain regions within both the core and the extended systems for face perception and the default mode network (DMN). To our knowledge, this is the first study that shows that functional connectivity during brain response to socially relevant stimuli differs between social phobic patients and healthy controls. These results expand our previous findings and indicate that brain functional changes in social phobic patients are not restricted to a single specific brain structure, but rather involve a mis-communication among different sensory and emotional processing brain areas.

Published
2010
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36. Digital Escape Games in Educational Programs for Financial Literacy

Author

Matteo Bisanti, Roberto Di Paolo, Veronica Pizziol, Sebastiano Accardi, Francesca Maggi, Giovanna Paladino, Emiliano Ricciardi, and Ennio Bilancini

Abstract

Escape from the Castle is a digital escape game created with the collaboration of the Museum of Saving in Turin (Italy), Neuroscience Lab Intesa Sanpaolo Innovation Center, and the GAME Science Research Center of IMT School for Advanced Studies Lucca. In the escape game, players must help Mica, the mascot of the Museum, to run away from the Ghost of the Baroness, from its Castle. To do that, every player has to solve four puzzles in four different rooms. Each room is correlated to a financial issue, such as saving strategies and planning. The game aims to increase the awareness that money represents a means for achieving a purpose (i.e., use value of money) and not an end, from a behavioural and neuroscientific point of view. So we built a study about the behaviour of teenagers. According to the literature, the cooperative approach proposes emotional and cognitive involvement as a tool to strengthen learning, increases awareness of self-efficacy and, when applied to money management, increases the self-perception of being able to make consumption choices. To better understand the mechanisms of cooperation, we built an experiment with 118 students from eleven to fourteen years old, that played the game during a visit to the Museum. We divided students into two groups: one in which students could collaborate with each other in solving the puzzles (treatment) and one in which they had to play individually (control), and we collected score and time of play (behavioural data). In each group, two students wore eye-trackers to record pupil dilation to collect neurophysiological data. Here we present mainly the behavioural results that show that the students who were allowed to collaborate obtained, on average, double the score compared to those who played individually. Furthermore, those who collaborated finished the game in less time than those who have not played as a group. Moreover, combining behavioural data with neurophysiological data, there are indications that high pupil dilation is correlated with high engagement in play, and this is often true in collaborating groups.

Published
2022

37. Visual Attention and Memory in Professional Traders: A Behavioural Study

Author

Francesco Bossi, Andrea P. Malizia, Sonia D’Arcangelo, Francesca Maggi, Nicola Lattanzi, and Emiliano Ricciardi

Abstract

Professional traders need to process a large amount of visual information in their daily activity to judge how risky it is to trade specific investment products. Despite some studies investigating the effects of display clutter on traders, visual attention and memory were never investigated in controlled experimental tasks in this population. Following a preliminary study with 30 participants, visual selective attention and visual working memory were measured and compared between two groups of 15 traders and 15 non-traders (salespeople, acting as a control group) from a large-scale banking group in three experimental tasks measuring selective attention in complex visual contexts, simulating display clutter situations (Visual search), cognitive interference (Stroop task), and a delayed recall visual working memory task. In the Visual search task, traders displayed a better Inverse Efficiency Score (IES) than non-traders for small display sets, while their performance overlapped for large sets. In the Stroop task, traders showed better IES than non-traders but were nevertheless affected by cognitive interference. The memory task highlighted no significant differences between the groups. Therefore, this study found an advantage in traders’ attention when processing visual information in small sets with no retention. This result could influence trading activity - determining an immediate use of relevant visual information in decision making - and traders’ display layout organization.

Published
2023

38. An intact oculomotor neural circuit in congenital blindness

Author

Cemal Koba, Alessandro Crimi, Olivier Collignon, Emiliano Ricciardi, and Uri Hasson

Abstract

In the past three decades, multiple studies revealed that congenital blindness is associated with functional and structural reorganization in early visual areas and its interaction with other neural systems. Among the most reproducible findings is the weaker connectivity between the visual and sensorimotor cortices, which in sighted individuals plays a role in eye-motor coordination. Here we demonstrate an important exception to this reorganization phenomena: we find that in congenitally blind individuals (as for normally sighted ones), spontaneous, non-controlled eye movements correlate with connectivity between visual and sensorimotor cortices. Furthermore, using time-lagged regression, we show that eye movements drive activity in the visual cortex, which subsequently drives sensorimotor activity. Remarkably, this phenomenon persists even though blind participants often exhibit unsynchronized eye movements and cannot sense or regulate their eye positions. These findings provide evidence of a preserved, “non-functional” connectivity in congenitally blind individuals and reveal a firm, hard-wired constraint on connectivity that remains immune to any reorganization phenomena produced by lack of visual experience and oculomotor control.

Published
2023

40. A modality-independent proto-organization of human multisensory areas

Author

Francesca Setti, Giacomo Handjaras, Davide Bottari, Andrea Leo, Matteo Diano, Valentina Bruno, Carla Tinti, Luca Cecchetti, Francesca Garbarini, Pietro Pietrini, and Emiliano Ricciardi

Subjects
Behavioral Neuroscience, Social Psychology, Experimental and Cognitive Psychology
Abstract

The processing of multisensory information is based upon the capacity of brain regions, such as the superior temporal cortex, to combine information across modalities. However, it is still unclear whether the representation of coherent auditory and visual events requires any prior audiovisual experience to develop and function. Here we measured brain synchronization during the presentation of an audiovisual, audio-only or video-only version of the same narrative in distinct groups of sensory-deprived (congenitally blind and deaf) and typically developed individuals. Intersubject correlation analysis revealed that the superior temporal cortex was synchronized across auditory and visual conditions, even in sensory-deprived individuals who lack any audiovisual experience. This synchronization was primarily mediated by low-level perceptual features, and relied on a similar modality-independent topographical organization of slow temporal dynamics. The human superior temporal cortex is naturally endowed with a functional scaffolding to yield a common representation across multisensory events.

Published
2023

42. Default and control network connectivity dynamics track the stream of affect at multiple timescales

Author

Andrea Leo, Giada Lettieri, Valentina Bruno, Francesca Setti, Pietro Pietrini, Emiliano Ricciardi, Luca Cecchetti, Giacomo Handjaras, Matteo Diano, and Elisa Morgana Cappello

Subjects
Computer science, Cognitive Neuroscience, Motion Pictures, Experimental and Cognitive Psychology, ENCODE, Affect (psychology), 050105 experimental psychology, Synchronization, default mode network, 03 medical and health sciences, 0302 clinical medicine, Independent samples, control network, Humans, 0501 psychology and cognitive sciences, affect, fMRI, naturalistic stimulation, Everyday life, Control (linguistics), Prefrontal cortex, Default mode network, 030304 developmental biology, Cerebral Cortex, Brain Mapping, 0303 health sciences, 05 social sciences, Brain, General Medicine, Magnetic Resonance Imaging, Dynamics (music), Nerve Net, Psychology, 030217 neurology & neurosurgery, Cognitive psychology
Abstract

In everyday life, the stream of affect results from the interaction between past experiences, expectations and the unfolding of events. How the brain represents the relationship between time and affect has been hardly explored, as it requires modeling the complexity of everyday life in the laboratory setting. Movies condense into hours a multitude of emotional responses, synchronized across subjects and characterized by temporal dynamics alike real-world experiences. Here, we use time-varying intersubject brain synchronization and real-time behavioral reports to test whether connectivity dynamics track changes in affect during movie watching. The results show that polarity and intensity of experiences relate to the connectivity of the default mode and control networks and converge in the right temporoparietal cortex. We validate these results in two experiments including four independent samples, two movies and alternative analysis workflows. Finally, we reveal chronotopic connectivity maps within the temporoparietal and prefrontal cortex, where adjacent areas preferentially encode affect at specific timescales.

Published
2021

43. Oscillatory signatures of Repetition Suppression and Novelty Detection reveal altered induced visual responses in early deafness

Author

Pietro Pietrini, Evgenia Bednaya, Francesco Pavani, Emiliano Ricciardi, and Davide Bottari

Subjects
Auditory Cortex, Visual perception, Repetition (rhetorical device), Cognitive Neuroscience, Brain, Alpha (ethology), Electroencephalography, Experimental and Cognitive Psychology, Deafness, Stimulus (physiology), Auditory cortex, Novelty detection, Visual processing, Electrophysiology, Neuropsychology and Physiological Psychology, Visual Perception, Animals, Humans, Psychology, Neuroscience, Photic Stimulation
Abstract

The ability to differentiate between repeated and novel events represents a fundamental property of the visual system. Neural responses are typically reduced upon stimulus repetition, a phenomenon called Repetition Suppression (RS). On the contrary, following a novel visual stimulus, the neural response is generally enhanced, a phenomenon referred to as Novelty Detection (ND). Here, we aimed to investigate the impact of early deafness on the oscillatory signatures of RS and ND brain responses. To this aim, electrophysiological data were acquired in early deaf and hearing control individuals during processing of repeated and novel visual events unattended by participants. By studying evoked and induced oscillatory brain activities, as well as inter-trial phase coherence, we linked response modulations to feedback and/or feedforward processes. Results revealed selective experience-dependent changes on both RS and ND mechanisms. Compared to hearing controls, early deaf individuals displayed: (i) greater attenuation of the response following stimulus repetition, selectively in the induced theta-band (4–7 Hz); (ii) reduced desynchronization following the onset of novel visual stimuli, in the induced alpha and beta bands (8–12 and 13–25 Hz); (iii) comparable modulation of evoked responses and inter-trial phase coherence. The selectivity of the effects in the induced responses parallels findings observed in the auditory cortex of deaf animal models following intracochlear electric stimulation. The present results support the idea that early deafness alters induced oscillatory activity and the functional tuning of basic visual processing.

Published
2021

44. Altered Neural Oscillations Underlying Visuospatial Processing in Cerebral Visual Impairment (CVI)

Author

Alessandra Federici, Christopher R. Bennett, Corinna M. Bauer, Claire E. Manley, Emiliano Ricciardi, Davide Bottari, and Lotfi B. Merabet

Abstract

Visuospatial processing deficits are commonly observed in individuals with cerebral visual impairment (CVI) and even in cases where visual acuity and visual field functions are intact. CVI is a brain-based visual disorder associated with the maldevelopment of central visual pathways and structures. However, the neurophysiological basis underlying higher-order perceptual impairments in this condition has not been clearly identified, which in turn posits limits on rehabilitative interventions. Using combined eye tracking and electroencephalography (EEG) recordings, we assessed the profile and performance of visual search on a naturalistic virtual reality (VR)-based task. Participants with CVI and controls with neurotypical development were instructed to search, locate, and fixate a specific target placed among surrounding distractors at two levels of task difficulty. Analyzing evoked (time or phase-locked) and induced (not time or phase-locked) components of EEG activity allowed for feedforward and feedback processing mechanisms to be uncovered. We found that visual search performance in CVI was impaired compared to age-matched controls with neurotypical development (as indexed by outcomes of success rate, reaction time, and gaze error). Analysis of neural oscillations across a broad frequency band [4-55 Hz] revealed markedly reduced early-onset evoked theta [4-6 Hz] activity (within 0.5 sec) regardless of task difficulty. Moreover, while induced alpha activity increased with task difficulty in controls, this modulation was absent in the CVI group providing a potential neural correlate for their deficits with visual search and distractor suppression. Finally, CVI participants also showed an overall delayed and sustained induced gamma response [30-45 Hz]. We conclude that impaired visual search performance in CVI is associated with substantial alterations across a wide range of neural oscillation frequencies. This includes both evoked and induced components related to feedforward and feedback processing and implicating local and distributed levels of neural processing.

Published
2022

45. A New Look on Long-COVID Effects: The Functional Brain Fog Syndrome

Author

Maria Donata Orfei, Desirée Estela Porcari, Sonia D’Arcangelo, Francesca Maggi, Dario Russignaga, and Emiliano Ricciardi

Subjects
COVID-19, pandemic, brain fog, subjective cognitive complaints, long haulers, General Medicine
Abstract

Epidemiological data and etiopathogenesis of brain fog are very heterogeneous in the literature, preventing adequate diagnosis and treatment. Our study aimed to explore the relationship between brain fog, neuropsychiatric and cognitive symptoms in the general population. A sample of 441 subjects underwent a web-based survey, including the PANAS, the DASS-21, the IES-R, the Beck Cognitive Insight Scale, and a questionnaire investigating demographic information, brain fog, subjective cognitive impairments (Scc) and sleep disorders. ANOVA, ANCOVA, correlation and multiple stepwise regression analyses were performed. In our sample, 33% of participants were defined as Healthy Subjects (HS; no brain fog, no Scc), 27% as Probable Brain Fog (PBF; brain fog or Scc), and 40% as Functional Brain Fog (FBF; brain fog plus Scc). PBF and FBF showed higher levels of neuropsychiatric symptoms than HS, and FBF showed the worst psychological outcome. Moreover, worse cognitive symptoms were related to the female gender, greater neuropsychiatric symptoms, sleep disorders, and rumination/indecision. Being a woman and more severe neuropsychiatric symptoms were predictors of FBF severity. Our data pointed out a high prevalence and various levels of severity and impairments of brain fog, suggesting a classificatory proposal and a multifaceted etiopathogenic model, thus facilitating adequate diagnostic and therapeutic approaches.

Published
2022
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46. Neural correlates of human-robot handshaking.

Author

Nicola Vanello, Daniela Bonino, Emiliano Ricciardi, Mario Tesconi, Enzo Pasquale Scilingo, Valentina Hartwig, Alessandro Tognetti, Giuseppe Zupone, Fabrizio Cutolo, Giulio Giovannetti, Pietro Pietrini, Danilo De Rossi, and Luigi Landini

Published
2010
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50. Early visual cortex tracks speech envelope in the absence of visual input

Author

Evgenia Bednaya, Bojana Mirkovic, Martina Berto, Emiliano Ricciardi, Alice Martinelli, Alessandra Federici, Stefan Debener, and Davide Bottari

Abstract

Neural entrainment to continuous speech is typically observed within the language network and can be modulated by both low-level acoustic features and high-level meaningful linguistic units (e.g., phonemes, phrases, and sentences). Recent evidence showed that visual cortex may entrain to speech envelope, however its putative role in the hierarchy of speech processing remains unknown. We tested blindfolded participants who listened to semantically meaningful or meaningless stories, either in quiet or embedded in multi-talker babble noise. Entrainment to speech was assessed with forward linear modeling of participants’ EEG activity. We investigated (1) low-level acoustic effects by contrasting neural tracking of speech presented in quiet or noise and (2) high-level linguistic effects by contrasting neural tracking to meaningful or meaningless stories. Results showed that envelope tracking was enhanced and delayed for speech embedded in noise compared to quiet. When semantic information was missing, entrainment to speech envelope was fastened and reduced. Source modeling revealed that envelope tracking engaged wide neural networks beyond the auditory cortex, including early visual cortex. Surprisingly, while no clear influence of semantic content was found, the magnitude of visual cortex entrainment was affected by low-level features. The decrease of sound SNR-level dampened visual cortex tracking, suggesting an active suppressing mechanism in challenging listening conditions. Altogether, these findings provide further evidence of a functional role of early visual cortex in the entrainment to continuous speech.

Published
2022

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