Your search keyword '"Francesco Pavone"' showing total 70 results

1. Simulations approaching data: cortical slow waves in inferred models of the whole hemisphere of mouse

Author

Cristiano Capone, Chiara De Luca, Giulia De Bonis, Robin Gutzen, Irene Bernava, Elena Pastorelli, Francesco Simula, Cosimo Lupo, Leonardo Tonielli, Francesco Resta, Anna Letizia Allegra Mascaro, Francesco Pavone, Michael Denker, and Pier Stanislao Paolucci

Subjects

Biology (General), QH301-705.5

Abstract

A modelling approach based on high-resolution in-vivo recordings in mouse brain, reproduces features of the non-stationary and non-linear dynamics, including cortical waves.

Published

2023

2. Assessing brain state and anesthesia level with two-photon calcium signals

Author

Núria Tort-Colet, Francesco Resta, Elena Montagni, Francesco Pavone, Anna Letizia Allegra Mascaro, and Alain Destexhe

Subjects

Medicine, Science

Abstract

Abstract Brain states, such as wake, sleep, or different depths of anesthesia are usually assessed using electrophysiological techniques, such as the local field potential (LFP) or the electroencephalogram (EEG), which are ideal signals for detecting activity patterns such as asynchronous or oscillatory activities. However, it is technically challenging to have these types of measures during calcium imaging recordings such as two-photon or wide-field techniques. Here, using simultaneous two-photon and LFP measurements, we demonstrate that despite the slower dynamics of the calcium signal, there is a high correlation between the LFP and two-photon signals taken from the neuropil outside neuronal somata. Moreover, we find the calcium signal to be systematically delayed from the LFP signal, and we use a model to show that the delay between the two signals is due to the physical distance between the recording sites. These results suggest that calcium signals alone can be used to detect activity patterns such as slow oscillations and ultimately assess the brain state and level of anesthesia.

Published

2023

3. Functional segregation of rostral and caudal hippocampus in associative memory

Author

Alicia Nunez Vorobiova, Matteo Feurra, Enea Francesco Pavone, Lennart Stieglitz, Lukas Imbach, Victoria Moiseeva, Johannes Sarnthein, and Tommaso Fedele

Subjects

hippocampus, memory, epilepsy, stereo-EEG, associative memory, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionThe hippocampus plays a crucial role in episodic memory. Given its complexity, the hippocampus participates in multiple aspects of higher cognitive functions, among which are semantics-based encoding and retrieval. However, the “where,” “when” and “how” of distinct aspects of memory processing in the hippocampus are still under debate.MethodsHere, we employed a visual associative memory task that involved encoding three levels of subjective congruence to delineate the differential involvement of the rostral and caudal portions (also referred as anterior/posterior portions) of the human hippocampus during memory encoding, recognition and associative recall.ResultsThrough stereo-EEG recordings in epilepsy patients we show that associative memory is reflected by rostral hippocampal activity during encoding, and caudal hippocampal activity during retrieval. In contrast, recognition memory encoding selectively activates the rostral hippocampus. The temporal dynamics of memory processing are manifested by gamma power increase, which partially overlaps with low-frequency power decrease during encoding and retrieval. Congruence levels modulate low-frequency activity prominently in the caudal hippocampus.DiscussionThese findings highlight an anatomical segregation in the hippocampus in accordance with the contributions of its partitions to associative and recognition memory.

Published

2025

4. Inkjet-printed fully customizable and low-cost electrodes matrix for gesture recognition

Author

Giulio Rosati, Giulia Cisotto, Daniele Sili, Luca Compagnucci, Chiara De Giorgi, Enea Francesco Pavone, Alessandro Paccagnella, and Viviana Betti

Subjects

Medicine, Science

Abstract

Abstract The use of surface electromyography (sEMG) is rapidly spreading, from robotic prostheses and muscle computer interfaces to rehabilitation devices controlled by residual muscular activities. In this context, sEMG-based gesture recognition plays an enabling role in controlling prosthetics and devices in real-life settings. Our work aimed at developing a low-cost, print-and-play platform to acquire and analyse sEMG signals that can be arranged in a fully customized way, depending on the application and the users’ needs. We produced 8-channel sEMG matrices to measure the muscular activity of the forearm using innovative nanoparticle-based inks to print the sensors embedded into each matrix using a commercial inkjet printer. Then, we acquired the multi-channel sEMG data from 12 participants while repeatedly performing twelve standard finger movements (six extensions and six flexions). Our results showed that inkjet printing-based sEMG signals ensured significant similarity values across repetitions in every participant, a large enough difference between movements (dissimilarity index above 0.2), and an overall classification accuracy of 93–95% for flexion and extension, respectively.

Published

2021

5. Semantic Segmentation of Neuronal Bodies in Fluorescence Microscopy Using a 2D+3D CNN Training Strategy with Sparsely Annotated Data.

Author

Filippo Maria Castelli, Matteo Roffilli, Giacomo Mazzamuto, Irene Costantini, Ludovico Silvestri, and Francesco Pavone

Published

2020

6. The impact of multisensory integration and perceptual load in virtual reality settings on performance, workload and presence

Author

Matteo Marucci, Gianluca Di Flumeri, Gianluca Borghini, Nicolina Sciaraffa, Michele Scandola, Enea Francesco Pavone, Fabio Babiloni, Viviana Betti, and Pietro Aricò

Subjects

Medicine, Science

Abstract

Abstract Real-world experience is typically multimodal. Evidence indicates that the facilitation in the detection of multisensory stimuli is modulated by the perceptual load, the amount of information involved in the processing of the stimuli. Here, we used a realistic virtual reality environment while concomitantly acquiring Electroencephalography (EEG) and Galvanic Skin Response (GSR) to investigate how multisensory signals impact target detection in two conditions, high and low perceptual load. Different multimodal stimuli (auditory and vibrotactile) were presented, alone or in combination with the visual target. Results showed that only in the high load condition, multisensory stimuli significantly improve performance, compared to visual stimulation alone. Multisensory stimulation also decreases the EEG-based workload. Instead, the perceived workload, according to the “NASA Task Load Index” questionnaire, was reduced only by the trimodal condition (i.e., visual, auditory, tactile). This trimodal stimulation was more effective in enhancing the sense of presence, that is the feeling of being in the virtual environment, compared to the bimodal or unimodal stimulation. Also, we show that in the high load task, the GSR components are higher compared to the low load condition. Finally, the multimodal stimulation (Visual-Audio-Tactile—VAT and Visual-Audio—VA) induced a significant decrease in latency, and a significant increase in the amplitude of the P300 potentials with respect to the unimodal (visual) and visual and tactile bimodal stimulation, suggesting a faster and more effective processing and detection of stimuli if auditory stimulation is included. Overall, these findings provide insights into the relationship between multisensory integration and human behavior and cognition.

Published

2021

7. Wronger than wrong: Graded mapping of the errors of an avatar in the performance monitoring system of the onlooker.

Author

Giuseppe Spinelli, Gaetano Tieri, Enea Francesco Pavone, and Salvatore Maria Aglioti

Published

2018

8. Blue light activated photodegradation of biomacromolecules by N-doped titanium dioxide in a chitosan hydrogel matrix

Author

Vittorio Ferrara, Marco Marchetti, Domenico Alfieri, Lorenzo Targetti, Michelangelo Scopelliti, Bruno Pignataro, Francesco Pavone, Valeria Vetri, Giuseppe Sancataldo, Ferrara V., Marchetti M., Alfieri D., Targetti L., Scopelliti M., Pignataro B., Pavone F., Vetri V., and Sancataldo G.

Subjects

General Chemical Engineering, General Physics and Astronomy, Photocatalysis, Proteins, Hydrogel, Spectroscopy, Nitrogen-doped TiO2, General Chemistry, Settore CHIM/02 - Chimica Fisica

Abstract

The use of photocatalysis activated by titanium dioxide nanostructured materials is a promising solution for many biomedical applications ranging from drug-free antibacterial to anticancer therapies, as well as for innovative hydrogel-supported phototherapies. This makes the effects of photocatalysis on the structure of biomolecules of a great relevance in order to define the applicability of photocatalytic materials in the biomedical fields. In this work, the effects of nitrogen-doped titanium dioxide (N-TiO2) dispersed in a biocompatible chitosan/PEG hydrogel on myoglobin and bovine serum albumin as target model proteins were investigated. The efficiency of this composite biocompatible material in inducing damages on biomolecules was assessed under blue light illumination by using spectroscopic techniques. N-TiO2 nanoparticles were chosen as photocatalyst to trigger the photocatalytic process by irradiation with a blue light source, instead of higher energy sources, e.g. UV radiation, avoiding UV-related damages on biomolecules. In addition, the present work highlighted several advantages of using the hydrogel as medium for photocatalytic reactions. Firstly, N-TiO2 nanoparticles were well dispersed and stabilized in the hydrogel respect to the correspondent aqueous suspension, and the photocatalytic reactions can occur in a biomimetic and biocompatible environment suitable for biomolecules, such as proteins. Importantly, the chitosan/PEG hydrogel enabled a direct investigation of the effects of photocatalysis on proteins by direct in situ spectroscopic measurements without any need of recovery of the target molecules, nor stirring during the photocatalysis, which could be detrimental for delicate biomolecules structures. Finally, the possibility to run in situ spectroscopic measurements directly in the N-TiO2-loaded hydrogel during the photocatalytic process allowed kinetic studies of photocatalytic process to obtain information of the chemical and structural modifications of proteins over time and not only at the end of the photocatalysis. Therefore, the reported results highlight the possibility of using this system as biomimetic environment to investigate the photocatalysis of proteins in detail overcoming relevant technical aspects that typically limit the study of photocatalysis of biomolecules, opening up the possibility to extend the approach to more complex biomolecular systems.

Published

2023

9. A HPC infrastructure for processing and visualizing neuro-anatomical images obtained by Confocal Light Sheet Microscopy.

Author

Alessandro Bria, Giulio Iannello, Paolo Soda, Hanchuan Peng, Giovanni Erbacci, Giuseppe Fiameni, Giacomo Mariani, Roberto Mucci, Marco Rorro, Francesco Pavone, Ludovico Silvestri, Paolo Frasconi, and Roberto Cortini

Published

2014

10. Stitching terabyte-sized 3D images acquired in Confocal Ultramicroscopy.

Author

Alessandro Bria, Ludovico Silvestri, Leonardo Sacconi, Francesco Pavone, and Giulio Iannello

Published

2012

11. Heart Failure Artificial Intelligence-Based Computer Aided Diagnosis Telecare System.

Author

Gabriele Guidi 0002, Ernesto Iadanza, Maria Chiara Pettenati, Massimo Milli, Francesco Pavone, and Guido Biffi Gentili

Published

2012

12. Assessing brain states with two-photon calcium signals

Author

Núria Tort-Colet, Francesco Resta, Elena Montagni, Francesco Pavone, Anna-Letizia Allegra-Mascaro, and Alain Destexhe

Abstract

Brain states, such as wake, sleep, or different depths of anesthesia are usually assessed using electrophysiological techniques, such as the local field potential (LFP) or the electro-encephalogram (EEG), which are ideal signals for detecting activity patterns such as asynchronous or oscillatory activities. However, it is technically challenging to have these type of measures during calcium imaging recordings such as two-photon or wide field techniques. Here, using simultaneous two-photon and LFP measurements, we demonstrate that despite the slower dynamics of the calcium signal, there is a high correlation between the LFP and two-photon signals taken from the neuropil outside neuronal somata. These results suggest that calcium signals alone can be used to detect activity patterns such as slow oscillations and ultimately assess the brain state.

Published

2022

13. Large-scale automated identification of mouse brain cells in confocal light sheet microscopy images.

Author

Paolo Frasconi, Ludovico Silvestri, Paolo Soda, Roberto Cortini, Francesco Pavone, and Giulio Iannello

Published

2014

14. The impact of multisensory integration and perceptual load in virtual reality settings on performance, workload and presence

Author

Gianluca Borghini, Enea Francesco Pavone, Pietro Aricò, Viviana Betti, Nicolina Sciaraffa, Gianluca Di Flumeri, Michele Scandola, Matteo Marucci, and Fabio Babiloni

Subjects

medicine.medical_specialty, car driving, Computer science, Bimodal stimulation, media_common.quotation_subject, Science, Stimulation, Audiology, Electroencephalography, Stimulus (physiology), Article, 050105 experimental psychology, cognitive neuroscience, 03 medical and health sciences, 0302 clinical medicine, Auditory stimulation, Perception, Human behaviour, medicine, GSR, 0501 psychology and cognitive sciences, Latency (engineering), presence, media_common, Multidisciplinary, medicine.diagnostic_test, cognitive load, 05 social sciences, Multisensory integration, Workload, Cognition, simulation, Feeling, human factor, virtual reality, Medicine, eeg, Skin conductance, mental workload, EEG, 030217 neurology & neurosurgery, Cognitive load, Neuroscience

Abstract

Real-world experience is typically multimodal. Evidence indicates that the facilitation in the detection of multisensory stimuli is modulated by the perceptual load, the amount of information involved in the processing of the stimuli. Here, we used a realistic virtual reality environment while concomitantly acquiring Electroencephalography (EEG) and Galvanic Skin Response (GSR) to investigate how multisensory signals impact target detection in two conditions, high and low perceptual load. Different multimodal stimuli (auditory and vibrotactile) were presented, alone or in combination with the visual target. Results showed that only in the high load condition, multisensory stimuli significantly improve performance, compared to visual stimulation alone. Multisensory stimulation also decreases the EEG-based workload. Instead, the perceived workload, according to the “NASA Task Load Index” questionnaire, was reduced only by the trimodal condition (i.e., visual, auditory, tactile). This trimodal stimulation was more effective in enhancing the sense of presence, that is the feeling of being in the virtual environment, compared to the bimodal or unimodal stimulation. Also, we show that in the high load task, the GSR components are higher compared to the low load condition. Finally, the multimodal stimulation (Visual-Audio-Tactile—VAT and Visual-Audio—VA) induced a significant decrease in latency, and a significant increase in the amplitude of the P300 potentials with respect to the unimodal (visual) and visual and tactile bimodal stimulation, suggesting a faster and more effective processing and detection of stimuli if auditory stimulation is included. Overall, these findings provide insights into the relationship between multisensory integration and human behavior and cognition.

Published

2021

15. Feeling of ownership over an embodied avatar's hand brings about fast changes of fronto-parietal cortical dynamics

Author

Enea Francesco Pavone, Michele Maiella, Giacomo Koch, Gaetano Tieri, Elias Paolo Casula, Rachele Pezzetta, Lorenzo Rocchi, and Salvatore Maria Aglioti

Subjects

Adult, Male, media_common.quotation_subject, Emotions, Illusion, Posterior parietal cortex, Electroencephalography, NO, Parietal Lobe, brain dynamics, medicine, Humans, EEG, Research Articles, media_common, embodiment, medicine.diagnostic_test, General Neuroscience, Perspective (graphical), brain dynamics EEG embodiment TMS, Virtual Reality, Hand, Transcranial Magnetic Stimulation, Frontal Lobe, Feeling, Embodied cognition, Brain stimulation, TMS, brain dynamics, EEG, embodiment, TMS, Visual Perception, Female, Primary motor cortex, Psychology, Neuroscience, Photic Stimulation

Abstract

When we look at our body parts, we are immediately aware that they belong to us and we rarely doubt about the integrity, continuity, and sense of ownership of our body. Despite this certainty, immersive virtual reality (IVR) may lead to a strong feeling of embodiment over an artificial body part seen from a first-person perspective (1PP). Although such feeling of ownership (FO) has been described in different situations, it is not yet understood how this phenomenon is generated at neural level. To track the real-time brain dynamics associated with FO, we delivered transcranial magnetic stimuli over the hand region in the primary motor cortex (M1) and simultaneously recorded electroencephalography (EEG) in 19 healthy volunteers (11 male/8 female) watching IVR renderings of anatomically plausible (full-limb) versus implausible (hand disconnected from the forearm) virtual limbs. Our data show that embodying a virtual hand is temporally associated with a rapid drop of cortical activity of the onlookers' hand region in the M1 contralateral to the observed hand. Spatiotemporal analysis shows that embodying the avatar's hand is also associated with fast changes of activity within an interconnected fronto-parietal circuit ipsilateral to the brain stimulation. Specifically, an immediate reduction of connectivity with the premotor area is paralleled by an enhancement in the connectivity with the posterior parietal cortex (PPC) which is related to the strength of ownership illusion ratings and thus likely reflects conscious feelings of embodiment. Our results suggest that changes of bodily representations are underpinned by a dynamic cross talk within a highly-plastic, fronto-parietal network.SIGNIFICANCE STATEMENTObserving an avatar's body part from a first-person perspective (1PP) induces an illusory embodiment over it. What remains unknown are the cortical dynamics underpinning the embodiment of artificial agents. To shed light on the physiological mechanisms of embodiment we used a novel approach that combines noninvasive stimulation of the cortical motor-hand area and whole-scalp electroencephalographic (EEG) recordings in people observing an embodied artificial limb. We found that just before the illusion started, there is a decrease of activity of the motor-hand area accompanied by an increase of connectivity with the parietal region ipsilateral to the stimulation that reflects the ratings of the embodiment illusion. Our results suggest that changes of bodily representations are underpinned by a dynamic cross talk within a fronto-parietal circuit.

Published

2022

16. Autogenous Tooth Fragment Adhesive Reattachment for a Complicated Crown Root Fracture: Two Interdisciplinary Case Reports

Author

Antonello Francesco Pavone, Marjan Ghassemian, Manuele Mancini, Roberta Condò, Loredana Cerroni, Claudio Arcuri, and Guido Pasquantonio

Subjects

Dentistry, RK1-715

Abstract

Trauma of anterior teeth is quite a common occurrence in both children and adults. Various degrees of trauma leading to fracture may affect teeth in different ways depending on the age of the patient and extent of fracture and other factors that will be discussed. Guidelines have been given as to how each of these situations should be treated. In the past, often more aggressive restorations were performed to restore fractured teeth. However improved and more efficient adhesion may affect the type of treatment we decide to carry out, leading to more conservative therapies through an increased preservation of tooth structures.

Published

2016

17. Interaction of goal-directed and Pavlovian systems in aversive domains.

Author

Francesco Rigoli, Enea Francesco Pavone, and Giovanni Pezzulo

Published

2011

18. Inkjet-printed fully customizable and low-cost electrodes matrix for gesture recognition

Author

Giulia Cisotto, Enea Francesco Pavone, Daniele Sili, Alessandro Paccagnella, Viviana Betti, Giulio Rosati, Chiara De Giorgi, Luca Compagnucci, Rosati, G, Cisotto, G, Sili, D, Compagnucci, L, De Giorgi, C, Pavone, E, Paccagnella, A, and Betti, V

Subjects

Electronic properties and materials, Computer science, gesture recognition, electromyography (sEMG), hand action, low-cost electrodes matrix, Science, Context (language use), 02 engineering and technology, Electromyography, Article, 03 medical and health sciences, Finger movement, Matrix (mathematics), Motor control, medicine, Computer vision, Inkjet printing, 030304 developmental biology, Signal, 0303 health sciences, Multidisciplinary, medicine.diagnostic_test, business.industry, 021001 nanoscience & nanotechnology, Electrical and electronic engineering, Surface, Gesture recognition, Nanoparticles, Medicine, Artificial intelligence, 0210 nano-technology, business, Biomedical engineering, Biosensor

Abstract

The use of surface electromyography (sEMG) is rapidly spreading, from robotic prostheses and muscle computer interfaces to rehabilitation devices controlled by residual muscular activities. In this context, sEMG-based gesture recognition plays an enabling role in controlling prosthetics and devices in real-life settings. Our work aimed at developing a low-cost, print-and-play platform to acquire and analyse sEMG signals that can be arranged in a fully customized way, depending on the application and the users’ needs. We produced 8-channel sEMG matrices to measure the muscular activity of the forearm using innovative nanoparticle-based inks to print the sensors embedded into each matrix using a commercial inkjet printer. Then, we acquired the multi-channel sEMG data from 12 participants while repeatedly performing twelve standard finger movements (six extensions and six flexions). Our results showed that inkjet printing-based sEMG signals ensured significant similarity values across repetitions in every participant, a large enough difference between movements (dissimilarity index above 0.2), and an overall classification accuracy of 93–95% for flexion and extension, respectively.

Published

2021

19. Aversive Pavlovian responses affect human instrumental motor performance

Author

Francesco eRigoli, Enea Francesco Pavone, and Giovanni ePezzulo

Subjects

reinforcement learning, pavlovian, controllability, goal-directed, habitual, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

In neuroscience and psychology, an influential perspective distinguishes between two kinds of behavioural control: instrumental (habitual and goal-directed) and Pavlovian. Understanding the instrumental-Pavlovian interaction is fundamental for the comprehension of decision-making. Animal studies (as those using the negative auto-maintenance paradigm), have demonstrated that Pavlovian mechanisms can have maladaptive effects on instrumental performance. However, evidence for a similar effect in humans is scarce. In addition, the mechanisms modulating the impact of Pavlovian responses on instrumental performance are largely unknown, both in human and non-human animals. The present paper describes a behavioural experiment investigating the effects of Pavlovian conditioned responses on performance in humans, focusing on the aversive domain. Results showed that Pavlovian responses influenced human performance, and, similar to animal studies, could have maladaptive effects. In particular, Pavlovian responses either impaired or increased performance depending on modulator variables such as threat distance, task controllability, punishment history, amount of training, and explicit punishment expectancy. Overall, these findings help elucidating the computational mechanisms underlying the instrumental-Pavlovian interaction, which might be at the base of apparently irrational phenomena in economics, social behaviour, and psychopathology.

Published

2012

20. And yet they act together: interpersonal perception modulates visuo-motor interference and mutual adjustments during a joint-grasping task.

Author

Lucia Maria Sacheli, Matteo Candidi, Enea Francesco Pavone, Emmanuele Tidoni, and Salvatore Maria Aglioti

Subjects

Medicine, Science

Abstract

Prediction of "when" a partner will act and "what" he is going to do is crucial in joint-action contexts. However, studies on face-to-face interactions in which two people have to mutually adjust their movements in time and space are lacking. Moreover, while studies on passive observation have shown that somato-motor simulative processes are disrupted when the observed actor is perceived as an out-group or unfair individual, the impact of interpersonal perception on joint-actions has never been directly addressed. Here we explored this issue by comparing the ability of pairs of participants who did or did not undergo an interpersonal perception manipulation procedure to synchronise their reach-to-grasp movements during: i) a guided interaction, requiring pure temporal reciprocal coordination, and ii) a free interaction, requiring both time and space adjustments. Behavioural results demonstrate that while in neutral situations free and guided interactions are equally challenging for participants, a negative interpersonal relationship improves performance in guided interactions at the expense of the free interactive ones. This was paralleled at the kinematic level by the absence of movement corrections and by low movement variability in these participants, indicating that partners cooperating within a negative interpersonal bond executed the cooperative task on their own, without reciprocally adapting to the partner's motor behaviour. Crucially, participants' performance in the free interaction improved in the manipulated group during the second experimental session while partners became interdependent as suggested by higher movement variability and by the appearance of interference between the self-executed actions and those observed in the partner. Our study expands current knowledge about on-line motor interactions by showing that visuo-motor interference effects, mutual motor adjustments and motor-learning mechanisms are influenced by social perception.

Published

2012

21. Correction: Suffering Makes You Egoist: Acute Pain Increases Acceptance Rates and Reduces Fairness during a Bilateral Ultimatum Game.

Author

Alessandra Mancini, Viviana Betti, Maria Serena Panasiti, Enea Francesco Pavone, and Salvatore Maria Aglioti

Subjects

Medicine, Science

Published

2011

22. Situational and dispositional determinants of intentional deceiving.

Author

Maria Serena Panasiti, Enea Francesco Pavone, Arcangelo Merla, and Salvatore Maria Aglioti

Subjects

Medicine, Science

Abstract

Does opportunity make the thief or are people dispositionally prone to deceive? The interaction between personality and the circumstances surrounding deception is crucial to understand what promotes dishonesty in our society. Due to its inherent spontaneity and sociality, deceptive behaviour may be hardly reproducible in experimental settings. We developed a novel paradigm in the form of an interactive game where participants can choose whether to lie to another person in situations of loss vs. gain, and of no-reputation-risk vs. reputation-risk linked to the disclosure of their deceptive behaviour to others. Thus, our ecological paradigm allowed subjects to spontaneously decide when to lie and face the challenge of deceiving others. In the case of loss, participants lied to reverse the outcome in their favour. Deception was lower in the reputation-risk condition where personality traits concerning social interactions also played an important role. The results suggest that deception is definitely promoted by unfavourable events, and that maintaining one's own reputation encourages honesty, particularly in socially inclined individuals.

Published

2011

23. Visual appearance of a virtual upper limb modulates the temperature of the real hand: a thermal imaging study in Immersive Virtual Reality

Author

Michele Scandola, Enea Francesco Pavone, Annamaria Gioia, Gaetano Tieri, and Salvatore Maria Aglioti

Subjects

Adult, Male, Visual perception, Immersive Virtual Reality, Computer science, Optical head-mounted display, Wrist, Virtual reality, 050105 experimental psychology, Body Temperature, User-Computer Interface, 03 medical and health sciences, 0302 clinical medicine, Forearm, thermal imaging, medicine, Humans, 0501 psychology and cognitive sciences, Computer vision, Communication, visual continuity, business.industry, General Neuroscience, 05 social sciences, first person perspective, Virtual Reality, Skin temperature, body ownership, Female, Hand, Photic Stimulation, Skin Temperature, Visual Perception, Visual appearance, body regions, medicine.anatomical_structure, Upper limb, Artificial intelligence, business, 030217 neurology & neurosurgery

Abstract

To explore the link between Sense of Embodiment (SoE) over a virtual hand and physiological regulation of skin temperature, 24 healthy participants were immersed in virtual reality through a Head Mounted Display and had their real limb temperature recorded by means of a high-sensitivity infrared camera. Participants observed a virtual right upper limb (appearing either normally, or with the hand detached from the forearm) or limb-shaped non-corporeal control objects (continuous or discontinuous wooden blocks) from a first-person perspective. Subjective ratings of SoE were collected in each observation condition, as well as temperatures of the right and left hand, wrist and forearm. The observation of these complex, body and body-related virtual scenes resulted in increased real hand temperature when compared to a baseline condition in which a 3d virtual ball was presented. Crucially, observation of non-natural appearances of the virtual limb (discontinuous limb) and limb-shaped non-corporeal objects elicited high increase in real hand temperature and low SoE. In contrast, observation of the full virtual limb caused high SoE and low temperature changes in the real hand with respect to the other conditions. Interestingly, the temperature difference across the different conditions occurred according to a topographic rule that included both hands. Our study sheds new light on the role of an external hand's visual appearance and suggests a tight link between higher-order bodily self-representations and topographic regulation of skin temperature.

Published

2017

24. Frequency-specific insight into short-term memory capacity

Author

Simone Rossi, Giulia Galli, Matteo Feurra, Alessandro Rossi, and Enea Francesco Pavone

Subjects

Adult, Male, 0301 basic medicine, Aging, medicine.medical_specialty, Adolescent, Physiology, Brain activity and meditation, medicine.medical_treatment, Digit span, Beta frequency, Posterior parietal lobe, Short-term memory, Transcranial alternating current stimulation, Neuroscience (all), Posterior parietal cortex, Neuropsychological Tests, Neural Circuits, Audiology, Transcranial Direct Current Stimulation, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Parietal Lobe, medicine, Memory span, Humans, Beta Rhythm, Analysis of Variance, Transcranial direct-current stimulation, General Neuroscience, Parietal lobe, Middle Aged, Memory, Short-Term, 030104 developmental biology, Acoustic Stimulation, Speech Perception, Female, Psychology, 030217 neurology & neurosurgery, Cognitive psychology

Abstract

The digit span is one of the most widely used memory tests in clinical and experimental neuropsychology for reliably measuring short-term memory capacity. In the forward version, sequences of digits of increasing length have to be reproduced in the order in which they are presented, whereas in the backward version items must be reproduced in the reversed order. Here, we assessed whether transcranial alternating current stimulation (tACS) increases the memory span for digits of young and midlife adults. Imperceptibly weak electrical currents in the alpha (10 Hz), beta (20 Hz), theta (5 Hz), and gamma (40 Hz) range, as well as a sham stimulation, were delivered over the left posterior parietal cortex, a cortical region thought to sustain maintenance processes in short-term memory through oscillatory brain activity in the beta range. We showed a frequency-specific effect of beta-tACS that robustly increased the forward memory span of young, but not middle-aged, healthy individuals. The effect correlated with age: the younger the subjects, the greater the benefit arising from parietal beta stimulation. Our results provide evidence of a short-term memory capacity improvement in young adults by online frequency-specific tACS application.

Published

2016

25. BLUE LED light effects in an in vivo murine model of ulcer

Author

Francesca Rossi, Giada Magni, Francesca Tatini, Gaetano de Siena, Stefano Bacci, Francesco Pavone, and Roberto Pini

Subjects

integumentary system, blue LED, photobiomodulation, wound healing

Abstract

Aim: To investigate the molecular effects of 30s treatment with a Blue LED device on a murine model ulcer. Method: 63 CD1 mice were anesthetized and randomized in three groups: GI, GII, GIII. In GI and GII groups one full-thickness wound on the shaved back was performed with a 4mm large punch, while in GIII group two wounds were induced. The animals of the GI group and only one lesion of GIII group underwent a 30s treatment with a Blue LED light, while the GII group were left to naturally recover. The animals were sacrificed after 1, 3, 6, 9, 24 hours and 7 and 14 days after the treatment and skin biopsies from the back were obtained. During all the treatments, the superficial skin temperature was monitored with a thermal camera. A customized ELISA kit enabled to study EGF, bFGF, VEGF, TNF-?, MMP-2 and PRO-MMP-9 at different postoperative time points; moreover, a histological analysis with hematoxylin-eosin method was performed. Results / Discussion: The expression of TNF-alpha, bFGF and Pro-MMP-9 evidenced a modulation due to the light treatment. The GIII group shows differences in the healing process between the treated and untreated wound. Conclusion: These experimental results are supporting our previous studies: the Blue LED light treatment is a modulator of the wound healing process. Its application can be extremely useful in the treatment of ulcers and chronic wounds.

Published

2019

26. Human-Machine Interaction Assessment by Neurophysiological Measures: A Study on Professional Air Traffic Controllers

Author

Viviana Betti, Jean-Paul Imbert, Michela Terenzi, Maxime Reynal, Gianluca Di Flumeri, Fabio Babiloni, Ana Ferreira, Gianluca Borghini, Nicolina Sciaraffa, Antonio Di Florio, Enea Francesco Pavone, Pietro Aricò, Christophe Hurter, Simone Pozzi, Alexandru Telea, Matteo Marucci, Università degli Studi di Roma 'La Sapienza' = Sapienza University [Rome], Ecole Nationale de l'Aviation Civile (ENAC), Deep Blue Research and Consulting, BrainTrends, University of Groningen [Groningen], BrainSigns, and Hangzhou Dianzi University (HDU)

Subjects

Aircraft, Computer science, 0206 medical engineering, Biomedical Engineering, Signal Processing, 1707, Health Informatics, 02 engineering and technology, Workload, 03 medical and health sciences, 0302 clinical medicine, Hearing, Task Performance and Analysis, Humans, [INFO.INFO-HC]Computer Science [cs]/Human-Computer Interaction [cs.HC], Sound Localization, Occupations, Man-Machine Systems, Simulation, Modality (human–computer interaction), Work (physics), Air traffic management, Electroencephalography, Air traffic control, 020601 biomedical engineering, Sound intensity, Neurophysiological Monitoring, Task analysis, Auditory Perception, 030217 neurology & neurosurgery

Abstract

International audience; This study aims at investigating the possibility to employ neurophysiological measures to assess the human - machine interaction effectiveness . Such a measure can be used to compare new technologies or solutions, with the final purpose to enhance operator’s experience and increase safety. I n the present work, two different interaction modalities (Normal and Augmented) related to Air Traffic Management field have been compared , by involving 10 professional air traffic controllers in a control tower simulated environment . Experimental task consisted in locating aircrafts in different airspace positions by using the sense of hearing. In one modality (i.e. “Normal”), all the sound sources (aircraft s ) had the same amplification factor . I n the “Augmented” modality , the amplification factor of the sound sources located al ong the participant head sagittal axis was increased, while the intensity of sound sources located outside this axis decreased . In other words, when the user oriented his head toward the aircraft position, the related sound was amplified. Performance data , subjective questionnaires (i.e. NASA - TLX) and neurophysiological measures (i.e. EEG - based) related to the experienced workload have been collected. Results showed higher significant performance achieved by the users during the “Augmented” modality with respect to the “Normal” one, supported by a significant decreasing in experienced workload, evaluated by using EEG - based index. In addition, Performance and EEG - based workload index showed a significant negative correlation. On the contrary , subjective workload analysis did not show any significant trend. This result is a demonstration of the higher effectiveness of neurophysiological measures with respect to subjective ones for Human - Computer Interaction assessment.

Published

2018

27. Midfrontal theta transcranial alternating current stimulation modulates behavioural adjustment after error execution

Author

Salvatore Maria Aglioti, Simone Rossi, Enea Francesco Pavone, Matteo Feurra, Michele Scandola, and Gabriele Fusco

Subjects

Adult, Male, media_common.quotation_subject, Alpha (ethology), Prefrontal Cortex, Stimulation, post-error slowing, Electroencephalography, Somatosensory system, Transcranial Direct Current Stimulation, 050105 experimental psychology, 03 medical and health sciences, Executive Function, Young Adult, 0302 clinical medicine, performance monitoring, Perception, medicine, Humans, 0501 psychology and cognitive sciences, cognitive control, Theta Rhythm, Association (psychology), media_common, Transcranial alternating current stimulation, transcranial alternating current stimulation, Neuroscience (all), medicine.diagnostic_test, General Neuroscience, 05 social sciences, Cognition, midfrontal theta, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Psychomotor Performance

Abstract

Cognitive control during conflict monitoring, error processing, and post-error adjustment appear to be associated with the occurrence of midfrontal theta (MFϴ). While this association is supported by correlational EEG studies, much less is known about the possible causal link between MFϴ and error and conflict processing. In the present study, we aimed to explore the role of band-specific effects in modulating the error system during a conflict resolution. In turn, we delivered transcranial alternating current stimulation (tACS) at different frequency bands (delta δ, theta θ, alpha α, beta β, gamma γ) and sham stimulation over the medial frontal cortex (MFC) in 36 healthy participants performing a modified version of the Flanker task. Task performance and reports about the sensations (e.g. visual flickering, cutaneous burning) induced by the different frequency bands, were also recorded. We found that online θ-tACS increased the response speed to congruent stimuli after error execution with respect to sham stimulation. Importantly, the accuracy following the errors did not decrease because of speed-accuracy trade off. Moreover, tACS evoked visual and somatosensory sensations were significantly stronger at α-tACS and β-tACS compared to other frequencies. Our findings suggest that theta activity plays a causative role in modulating behavioural adjustments during perceptual choices in a stimulus-response conflict task.

Published

2018

28. Mere observation of body discontinuity affects perceived ownership and vicarious agency over a virtual hand

Author

Salvatore Maria Aglioti, Emmanuele Tidoni, Enea Francesco Pavone, and Gaetano Tieri

Subjects

Adult, Male, Time Factors, Adolescent, first-person perspective, media_common.quotation_subject, Sensation, Wrist, Statistics, Nonparametric, User-Computer Interface, Young Adult, Discontinuity (geotechnical engineering), Forearm, feeling of body ownership, Agency (sociology), Body Image, medicine, Humans, vicarious agency, Avatar, media_common, visual continuity, General Neuroscience, Ownership, Perspective (graphical), immersive virtual reality, Hand, body regions, medicine.anatomical_structure, Feeling, Visual Perception, Mental representation, Female, Psychology, Social psychology, Photic Stimulation, Psychomotor Performance, Cognitive psychology

Abstract

The mental representation of one's body typically implies the continuity of its parts. Here, we used immersive virtual reality to explore whether mere observation of visual discontinuity between the hand and limb of an avatar could influence a person's sense of ownership of the virtual body (feeling of ownership, FO) and being the agent of its actions (vicarious agency, VA). In experiment 1, we tested whether placing different amounts of visual discontinuity between a virtual hand and limb differently modulate the perceived FO and VA. Participants passively observed from a first-person perspective four different versions of a virtual limb: (1) a full limb; a hand detached from the proximal part of the limb because of deletion of (2) the wrist; (3) the wrist and forearm; (4) and the wrist, forearm and elbow. After observing the static or moving virtual limb, participants reported their feeling of ownership (FO) and vicarious agency (VA) over the hand. We found that even a small visual discontinuity between the virtual hand and arm significantly decreased participants' FO over the hand during observation of the static limb. Moreover, in the same condition, we found that passive observation of the avatar's actions induced a decrease in both FO and VA. We replicated the same results in a second study (experiment 2) where we investigated the modulation of FO and VA by comparing the visual body discontinuity with a condition in which the virtual limb was partially occluded. Our data show that mere observation of limb discontinuity can change a person's ownership and agency over a virtual body observed from a first-person perspective, even in the absence of any multisensory stimulation of the real body. These results shed new light on the role of body visual continuity in modulating self-awareness and agency in immersive virtual reality.

Published

2015

29. Theta synchronization over occipito-temporal cortices during visual perception of body parts

Author

Salvatore Maria Aglioti, Quentin Moreau, Enea Francesco Pavone, and Matteo Candidi

Subjects

Adult, Male, Visual perception, media_common.quotation_subject, Electroencephalography, time-frequency, 050105 experimental psychology, Synchronization, Extrastriate body area, body parts visual perception, 03 medical and health sciences, Neural activity, Young Adult, 0302 clinical medicine, theta band, Perception, medicine, Humans, 0501 psychology and cognitive sciences, Theta Rhythm, media_common, Human Body, medicine.diagnostic_test, General Neuroscience, 05 social sciences, Cognition, Temporal Lobe, Visual Perception, Female, Occipital Lobe, Psychology, Neuroscience, 030217 neurology & neurosurgery, Temporal Cortices, Photic Stimulation

Abstract

Categorical clustering in the visual system is thought to have evolved as a function of intrinsic (intra-areal) and extrinsic (interareal) connectivity and experience. In the visual system, the extrastriate body area (EBA), an occipito-temporal region, responds to full body and body part images under the organizational principle of their functional/semantic meaning. Although frequency-specific modulations of neural activity associated with perceptive and cognitive functions are increasingly attracting the interest of neurophysiologists and cognitive neuroscientists, perceiving single body parts with different functional meaning and full body images induces time-frequency modulations over occipito-temporal electrodes are yet to be described. Here, we studied this issue by measuring EEG in participants who passively observed fingers, hands, arms and faceless full body images with four control plant stimuli, each bearing hierarchical analogy with the body stimuli. We confirmed that occipito-temporal electrodes (compatible with the location of EBA) show a larger event-related potential (ERP, N190) for body-related images. Furthermore, we identified a body part-specific (i.e. selective for hands and arms) theta event-related synchronization increase under the same electrodes. This frequency modulation associated with the perception of body effectors over occipito-temporal cortices is in line with recent findings of categorical organization of neural responses to human effectors in the visual system.

Published

2017

30. Embodied Medicine: Mens Sana in Corpore Virtuale Sano

Author

Silvia Serino, Giuseppe Riva, Antonios Dakanalis, Enea Francesco Pavone, Daniele Di Lernia, Riva, G, Serino, S, Di Lernia, D, Pavone, E, and Dakanalis, A

Subjects

Predictive coding, Embodied medicine, Virtual reality, Cognitive neuroscience, 050105 experimental psychology, Interoception, body matrix, 03 medical and health sciences, Behavioral Neuroscience, locked-in syndrome, 0302 clinical medicine, Extension (metaphysics), motor imagery, Settore M-PSI/01 - PSICOLOGIA GENERALE, 0501 psychology and cognitive sciences, Sonoception, Biological Psychiatry, Cognitive science, General Commentary, 05 social sciences, Perspective (graphical), Multisensory integration, Human body, Proprioception, body representations, Bodily self-consciousne, Neuropsychology and Physiological Psychology, Physical body, Neurology, Embodied cognition, Psychiatry and Mental Health, virtual reality, Psychology, Bodily self-consciousness, Body matrix, Social psychology, 030217 neurology & neurosurgery, Neuroscience

Abstract

Progress in medical science and technology drastically improved physicians’ ability to interact with patient’s physical body. Nevertheless, medicine still addresses the human body from a Hippocratic point of view, considering the organism and its processes just as a matter of mechanics and fluids. However, the interaction between the cognitive neuroscience of bodily self-consciousness (BSC), fundamentally rooted in the integration of multisensory bodily inputs, with virtual reality (VR), haptic technologies and robotics is giving a new meaning to the classic Juvenal’s latin dictum “Mens sana in corpore sano” (a healthy mind in a healthy body). This vision provides the basis for a new research field, “Embodied Medicine”: the use of advanced technologies for altering the experience of being in a body with the goal of improving health and well-being. Up to now, most of the research efforts in the field have been focused upon how external bodily information is processed and integrated. Despite the important results, we believe that existing bodily illusions still need to be improved to enhance their capability to effectively correct pathological dysfunctions. First, they do not follow the suggestions provided by the free-energy and predictive coding approaches. More, they lacked to consider a peculiar feature of the human body, the multisensory integration of internal inputs (interoceptive, proprioceptive and vestibular) that constitute our inner body dimension. So, a future challenge is the integration of simulation/stimulation technologies also able to measure and modulate this internal/inner experience of the body. Finally, we also proposed the concept of “Sonoception” as an extension of this approach. The core idea is to exploit recent technological advances in the acoustic field to use sound and vibrations to modify the internal/inner body experience.

Published

2016

31. Dynamic changes in prefrontal cortex involvement during verbal episodic memory formation

Author

Enea Francesco Pavone, Miroslav Sirota, Simone Rossi, Matteo Feurra, and Giulia Galli

Subjects

Adult, Male, Brain activity and meditation, medicine.medical_treatment, Memory, Episodic, Prefrontal Cortex, Stimulus (physiology), psychology, behavioral disciplines and activities, 050105 experimental psychology, 03 medical and health sciences, Young Adult, 0302 clinical medicine, rTMS, mental disorders, Memory formation, medicine, Humans, 0501 psychology and cognitive sciences, Time point, Prefrontal cortex, Episodic memory, Brain Mapping, Neuroscience (all), Verbal Behavior, General Neuroscience, 05 social sciences, Transcranial Magnetic Stimulation, Neuropsychology and Physiological Psychology, Transcranial magnetic stimulation, Dorsolateral prefrontal cortex, medicine.anatomical_structure, nervous system, Mental Recall, Female, Psychology, Neuroscience, psychological phenomena and processes, 030217 neurology & neurosurgery, biological

Abstract

During encoding, the neural activity immediately before or during an event can predict whether that event will be later remembered. The contribution of brain activity immediately after an event to memory formation is however less known. Here, we used repetitive Transcranial Magnetic Stimulation (rTMS) to investigate the temporal dynamics of episodic memory encoding with a focus on post-stimulus time intervals. At encoding, rTMS was applied during the online processing of the word, at its offset, or 100, 200, 300 or 400 ms thereafter. rTMS was delivered to the left ventrolateral (VLPFC) or dorsolateral prefrontal cortex (DLPFC). VLPFC rTMS during the first few hundreds of milliseconds after word offset disrupted subsequent recognition accuracy. We did not observe effects of DLPFC rTMS at any time point. These results suggest that encoding-related VLPFC engagement starts at a relatively late processing stage, and may reflect brain processes related to the offset of the stimulus.

Published

2016

32. Lateral Head Turning Affects Temporal Memory

Author

Davide Martino, Carmelo M. Vicario, Giorgio Fuggetta, and Enea Francesco Pavone

Subjects

Adult, Male, Adolescent, Experimental and Cognitive Psychology, Affect (psychology), Task (project management), Young Adult, Discrimination, Psychological, Orientation, Humans, Attention, Communication, Verbal Behavior, business.industry, Work (physics), Head turning, Computer keyboard, Sensory Systems, Color Perception, Discrimination (Psychology), Female, Pattern Recognition, Visual, Head Movements, Mental Recall, Time Perception, Medicine (all), Duration (music), Head movements, Psychology, business, Rotation (mathematics), Cognitive psychology

Abstract

Spatial attention is a key factor in the exploration and processing of the surrounding environment, and plays a role in linking magnitudes such as space, time, and numbers. The present work evaluates whether shifting the coordinates of spatial attention through rotational head movements may affect the ability to estimate the duration of different time intervals. A computer-based implicit timing task was employed, in which participants were asked to concentrate and report verbally on colour changes of sequential stimuli displayed on a computer screen; subsequently, they were required to reproduce the temporal duration (ranging between 5 and 80 sec.) of the perceived stimuli using the computer keyboard. There was statistically significant overestimation of the 80-sec. intervals exclusively on the rightward rotation head posture, whereas head posture did not affect timing performances on shorter intervals. These findings support the hypothesis that the coordinates of spatial attention influence the ability to process time, consistent with the existence of common cortical metrics of space and time in healthy humans.

Published

2011

33. Does subliminal visual perception have an error-monitoring system?

Author

Massimo Girelli, Carlo Alberto Marzi, and Enea Francesco Pavone

Subjects

Electrophysiology, Unconscious mind, Visual perception, General Neuroscience, media_common.quotation_subject, Subliminal stimuli, Monitoring system, Consciousness, Stimulus (physiology), Psychology, media_common, Cognitive psychology, Error-related negativity

Abstract

There is substantial evidence that subliminal stimuli, i.e. stimuli that cannot be perceived consciously, may influence visually guided human behaviour. Two important points require further investigation, namely, the neural bases and the functional capability of unconscious stimulus processing. In this study we aimed at studying one specific aspect of the latter question, i.e. whether unconscious vision can feed into an error-monitoring system in much the same way as conscious vision. We therefore tested whether the event-related potential component known as error-related negativity, which represents the electrophysiological correlate of an error-monitoring system, is produced by unconscious errors. We found an error-related negativity not only for errors committed in a discrimination task with visible stimuli but also for those committed with subthreshold stimuli. Moreover, behavioural analysis showed post-error slowing of reaction time for correct responses following unconscious as well as conscious errors. Thus, the present results provide both electrophysiological and behavioural evidence of an error-monitoring system operating even when stimuli cannot access consciousness.

Published

2009

34. Thermal signatures of voluntary deception in ecological conditions

Author

Salvatore Maria Aglioti, Enea Francesco Pavone, Arcangelo Merla, Maria Serena Panasiti, Alessandra Mancini, and Daniela Cardone

Subjects

Adult, Male, concealed information test, Deception, Sympathetic Nervous System, Adolescent, media_common.quotation_subject, Nose region, Context (language use), Morals, Choice Behavior, 050105 experimental psychology, Article, Body Temperature, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Parasympathetic Nervous System, Phenomenon, medicine, Humans, 0501 psychology and cognitive sciences, media_common, prefrontal cortex, dishonesty, Multidisciplinary, facial skin temperature, image registration, dissonance-arousal, behavior, face, personality, contagion, Aggression, Ecology, 05 social sciences, Replicate, Turnover, Female, medicine.symptom, Psychology, 030217 neurology & neurosurgery, Reputation

Abstract

Deception is a pervasive phenomenon that greatly influences dyadic, groupal and societal interactions. Behavioural, physiological and neural signatures of this phenomenon have imporant implications for theoretical and applied research, but, because it is difficult for a laboratory to replicate the natural context in which deception occurs, contemporary research is still struggling to find such signatures. In this study, we tracked the facial temperature of participants who decided whether or not to deceive another person, in situations where their reputation was at risk or not. We used a high-sensitivity infrared device to track temperature changes to check for unique patterns of autonomic reactivity. Using a region-of-interest based approach we found that prior to any response there was a minimal increase in periorbital temperature (which indexes sympathetic activation, together with reduced cheek temperature) for the self-gain lies in the reputation-risk condition. Crucially, we found a rise in nose temperature (which indexes parasympathetic activation) for self-gain lies in the reputation-risk condition, not only during response preparation but also after the choice was made. This finding suggests that the entire deception process may be tracked by the nose region. Furthermore, this nasal temperature modulation was negatively correlated with machiavellian traits, indicating that sympathetic/parasympathetic regulation is less important for manipulative individuals who may care less about the consequences of lie-related moral violations. Our results highlight a unique pattern of autonomic reactivity for spontaneous deception in ecological contexts.

Published

2016

35. Embodying others in immersive virtual reality: electro-cortical signatures of monitoring the errors in the actions of an avatar seen from a first-person perspective

Author

Giulia Rizza, Luigi Grisoni, Salvatore Maria Aglioti, Gaetano Tieri, Enea Francesco Pavone, and Emmanuele Tidoni

Subjects

Visual perception, electrocortical signatures of embodied errors, Electroencephalography, EEG-ERPs, Brain mapping, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, Human–computer interaction, medicine, 0501 psychology and cognitive sciences, Motor skill, cortical oscillations, Avatar, Communication, medicine.diagnostic_test, business.industry, General Neuroscience, 05 social sciences, Articles, immersive virtual reality, CAVE system, Embodied cognition, action error detection, Error detection and correction, Psychology, business, 030217 neurology & neurosurgery, Coding (social sciences)

Abstract

Brain monitoring of errors in one's own and other's actions is crucial for a variety of processes, ranging from the fine-tuning of motor skill learning to important social functions, such as reading out and anticipating the intentions of others. Here, we combined immersive virtual reality and EEG recording to explore whether embodying the errors of an avatar by seeing it from a first-person perspective may activate the error monitoring system in the brain of an onlooker. We asked healthy participants to observe, from a first- or third-person perspective, an avatar performing a correct or an incorrect reach-to-grasp movement toward one of two virtual mugs placed on a table. At the end of each trial, participants reported verbally how much they embodied the avatar's arm. Ratings were maximal in first-person perspective, indicating that immersive virtual reality can be a powerful tool to induce embodiment of an artificial agent, even through mere visual perception and in the absence of any cross-modal boosting. Observation of erroneous grasping from a first-person perspective enhanced error-related negativity and medial–frontal theta power in the trials where human onlookers embodied the virtual character, hinting at the tight link between early, automatic coding of error detection and sense of embodiment. Error positivity was similar in 1PP and 3PP, suggesting that conscious coding of errors is similar for self and other. Thus, embodiment plays an important role in activating specific components of the action monitoring system when others' errors are coded as if they are one's own errors.SIGNIFICANCE STATEMENTDetecting errors in other's actions is crucial for social functions, such as reading out and anticipating the intentions of others. Using immersive virtual reality and EEG recording, we explored how the brain of an onlooker reacted to the errors of an avatar seen from a first-person perspective. We found that mere observation of erroneous actions enhances electrocortical markers of error detection in the trials where human onlookers embodied the virtual character. Thus, the cerebral system for action monitoring is maximally activated when others' errors are coded as if they are one's own errors. The results have important implications for understanding how the brain can control the external world and thus creating new brain–computer interfaces.

Published

2016

36. Body visual discontinuity affects feeling of ownership and skin conductance responses

Author

Gaetano Tieri, Emmanuele Tidoni, Enea Francesco Pavone, and Salvatore Maria Aglioti

Subjects

Adult, Male, Visual perception, media_common.quotation_subject, Emotions, Stimulus (physiology), Wrist, Article, Forearm, Surveys and Questionnaires, medicine, Humans, Simulation, Skin, media_common, Multidisciplinary, Electric Conductivity, Hand, Visual appearance, body regions, Logistic Models, medicine.anatomical_structure, Feeling, Physical body, Visual Perception, Psychology, Skin conductance, Photic Stimulation, Cognitive psychology

Abstract

When we look at our hands we are immediately aware that they belong to us and we rarely doubt about the integrity, continuity and sense of ownership of our bodies. Here we explored whether the mere manipulation of the visual appearance of a virtual limb could influence the subjective feeling of ownership and the physiological responses (Skin Conductance Responses, SCRs) associated to a threatening stimulus approaching the virtual hand. Participants observed in first person perspective a virtual body having the right hand-forearm (i) connected by a normal wrist (Full-Limb) or a thin rigid wire connection (Wire) or (ii) disconnected because of a missing wrist (m-Wrist) or a missing wrist plus a plexiglass panel positioned between the hand and the forearm (Plexiglass). While the analysis of subjective ratings revealed that only the observation of natural full connected virtual limb elicited high levels of ownership, high amplitudes of SCRs were found also during observation of the non-natural, rigid wire connection condition. This result suggests that the conscious embodiment of an artificial limb requires a natural looking visual body appearance while implicit reactivity to threat may require physical body continuity, even non-naturally looking, that allows the implementation of protective reactions to threat.

Published

2015

37. Electrocortical signatures of detecting errors in the actions of others: An EEG study in pianists, non-pianist musicians and musically naïve people

Author

Salvatore Maria Aglioti, Enea Francesco Pavone, and Maria Serena Panasiti

Subjects

Adult, Male, medicine.medical_specialty, Adolescent, Movement, Internal model, Audiology, Electroencephalography, 050105 experimental psychology, Social life, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Task Performance and Analysis, medicine, Humans, 0501 psychology and cognitive sciences, Highly skilled, medicine.diagnostic_test, General Neuroscience, action observation, error detection, motor expertise, mu suppression, Pe, neuroscience (all), 05 social sciences, Action (philosophy), Action observation, Performance monitoring, Female, Psychology, Neuroscience, 030217 neurology & neurosurgery, Music, Psychomotor Performance

Abstract

Detecting others' action errors plays a critical role in social life. Studies indicate that executing action errors and observing other's errors activate a specific cerebral system specialized for performance monitoring and detecting mismatches between an internal model of the action and the executed/observed one. Such a system may be particularly important for highly skilled performance. By recording electro-encephalographic (EEG) activity in expert pianists, non-pianist musicians and musically naive individuals while they observed correct or incorrect mute piano sequences, we explored the link between sensorimotor expertise, the ability to detect another's erroneous action (indexed by positivity error, Pe) and action simulation (indexed by mu frequency suppression). Superior error detection in pianists was paralleled by a larger Pe, hinting at the selective activation of the parietal error-monitoring system in visuo-motor experts. Moreover, only in pianists did action observation induce left lateralized mu suppression in the 10-12 Hz band, reflecting somatotopic sensorimotor simulation. A mediation analysis showed that mu suppression and performance (indexed by d') were mediated by Pe amplitude, indicating that the higher the simulation, the higher the sensitivity to errors for large Pe amplitude. This study shows that specific electrocortical indices link motor simulation and detection of errors in the actions of others.

Published

2015

38. Cerebellar damage impairs the self-rating of regret feeling in a gambling task

Author

Silvia eClausi, Giorgio eCoricelli, Iolanda ePisotta, Enea Francesco Pavone, Marco eLauriola, Marco eMolinari, and Maria eLeggio

Subjects

Cerebellum, autism spectrum disorders, Cognitive Neuroscience, media_common.quotation_subject, emotion, social cognition, lcsh:RC321-571, Developmental psychology, choice behavior, Behavioral Neuroscience, Neuroimaging, Alexithymia, Social cognition, medicine, lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry, Original Research, media_common, Autistic spectrum disorders, cortico-cerebellar circuits, self-monitoring, Regret, medicine.disease, gambling, Neuropsychology and Physiological Psychology, medicine.anatomical_structure, Feeling, Schizophrenia, Autism, alexithymia, Psychology, Neuroscience, Clinical psychology

Abstract

Anatomical, clinical, and neuroimaging evidence implicates the cerebellum in processing emotions and feelings. Moreover recent studies showed a cerebellar involvement in pathologies such as autism, schizophrenia and alexithymia, in which emotional processing have been found altered. However, cerebellar function in the modulation of emotional responses remains debated. In this study, emotions that are involved directly in decision-making were examined in 15 patients (six males; age range 17-60 years) affected by cerebellar damage and 15 well matched healthy controls. We used a gambling task, in which subjects’ choices and evaluation of outcomes with regard to their anticipated and actual emotional impact were analyzed. Emotions, such as regret and relief, were elicited, based on the outcome of the unselected gamble. Interestingly, despite their ability to avoid regret in subsequent choices, patients affected by cerebellar lesions were significantly impaired in evaluating the feeling of regret subjectively. These results demonstrate that the cerebellum is involved in conscious recognizing of negative feelings caused by the sense of self-responsibility for an incorrect decision.

Published

2015

39. Prejudiced interactions: Implicit racial bias reduces predictive simulation during joint action with an out-group avatar

Author

Lucia Maria Sacheli, Enea Francesco Pavone, Matteo Candidi, Nick Taubert, Andrea Christensen, Martin A. Giese, Salvatore Maria Aglioti, Sacheli, L, Christensen, A, Giese, M, Taubert, N, Pavone, E, Aglioti, S, and Candidi, M

Subjects

Adult, Male, Grasping, Kinematics analysi, adult, analysis of variance, female, humans, male, psychomotor performance, racism, young adult, interpersonal relations, prejudice, Article, Interpersonal relationship, Young Adult, Racism, Humans, Psychology, Interpersonal Relations, Reactivity (psychology), Avatar, M-PSI/05 - PSICOLOGIA SOCIALE, Analysis of Variance, Multidisciplinary, Cognition, Ingroups and outgroups, Joint action, Action (philosophy), Categorization, Social Perception, Embodied cognition, Female, Psychomotor Performance, Prejudice, Cognitive psychology, Human

Abstract

During social interactions people automatically apply stereotypes in order to rapidly categorize others. Racial differences are among the most powerful cues that drive these categorizations and modulate our emotional and cognitive reactivity to others. We investigated whether implicit racial bias may also shape hand kinematics during the execution of realistic joint actions with virtual in- and out-group partners. Caucasian participants were required to perform synchronous imitative or complementary reach-to-grasp movements with avatars that had different skin color (white and black) but showed identical action kinematics. Results demonstrate that stronger visuo-motor interference (indexed here as hand kinematics differences between complementary and imitative actions) emerged: i) when participants were required to predict the partner's action goal in order to on-line adapt their own movements accordingly; ii) during interactions with the in-group partner, indicating the partner's racial membership modulates interactive behaviors. Importantly, the in-group/out-group effect positively correlated with the implicit racial bias of each participant. Thus visuo-motor interference during joint action, likely reflecting predictive embodied simulation of the partner's movements, is affected by cultural inter-individual differences.

Published

2015

40. The motor cost of telling lies: electrocortical signatures and personality foundations of spontaneous deception

Author

Salvatore Maria Aglioti, Alessandra Mancini, Enea Francesco Pavone, Luigi Grisoni, Arcangelo Merla, and Maria Serena Panasiti

Subjects

Adult, Male, Risk, Deception, Social Psychology, media_common.quotation_subject, Poison control, Development, Morals, Behavioral Neuroscience, Young Adult, Cognition, Reaction Time, Personality, Humans, Interpersonal Relations, Big Five personality traits, Evoked Potentials, health care economics and organizations, media_common, Brain, Lying, Moral decision-making, Individual differences, Motor readiness, Electroencephalography, Signal Processing, Computer-Assisted, Morality, humanities, Social Perception, Impression management, Female, Psychology, Social psychology, Psychomotor Performance

Abstract

Although universal, lying is generally considered immoral behavior. Most neuroscience studies on lying sanction or instruct deceptive behaviors and thus might fail to acknowledge the significance of lie-related moral conflicts. By combining electroencephalogram (EEG) recordings with a novel paradigm in which participants decided freely whether to deceive another person, we have generated indices of the cognitive (reaction times and stimulus-locked event-related components) and moral (readiness potential and its correlations with deception-related personality traits) cost of spontaneous deception. Our data fail to support the consensus that deception is cognitively more demanding than truth telling, suggesting that spontaneous deception, as opposed to lying out of requirement, might not mandate additional cognitive workload. Interestingly, lying was associated with decreased motor readiness, an event-related potential (ERP) component that is linked to motor preparation of self-determined actions and modulated when we face moral dilemmas. Notably, this reduction was less extensive in manipulative participants and greater in those who cared highly about their impression management. Our study expands on previous findings on deception by associating a cortical marker of reduced preparation to act with individual differences in moral cognition.

Published

2014

41. Perceiving monetary loss as due to inequity reduces behavioral and cortical responses to pain

Author

Maria Serena Panasiti, Alessandra Mancini, Viviana Betti, Salvatore Maria Aglioti, and Enea Francesco Pavone

Subjects

Adult, Cerebral Cortex, Male, Token Economy, Neural correlates of consciousness, Third party, General Neuroscience, Self, Stochastic game, Pain Perception, Task (project management), Neural activity, Laser-Evoked Potentials, Loss aversion, Humans, Female, Psychology, Social psychology, Inequity aversion

Abstract

Studies indicate that physical and social pain may share some mechanisms and neural correlates. Nothing is known, however, on whether the neural activity in the nociceptive system, as indexed by laser-evoked potentials (LEPs), is modified when suffering the consequences of a conspecific violating social norms. To explore this issue, we created an interaction scenario where participants could gain money by performing a time-estimation task. On each win-trial, another player connected online could arbitrarily decide to keep the participant's pay-off for him- or herself. Thus, participants knew that monetary loss could occur because of their own failure in performing the task or because of the inequitable behavior of another individual. Moreover, participants were asked to play for themselves or on behalf of a third party. In reality, the win/loss events were entirely decided by an ad hoc programmed computer. At the end of the interaction, participants reported if they believed the game-playing interaction was real. Results showed that the loss due to the opponent's inequitable behavior brought about a reduction both in pain intensity self-reports and in the amplitude of LEPs' components (i.e., N2, N2/P2, P2a, P2b). Importantly, both the behavioral and neurophysiological effects were found in the participants who believed their deserved payoff was stolen by their opponent. Furthermore, reduction of vertex components was present only when the inequitable behavior was directed toward the self. These results suggest that, far from being a private experience, pain perception might be modulated by the social saliency of interpersonal interactions.

Published

2014

42. And Yet They Act Together: Interpersonal Perception Modulates Visuo-Motor Interference and Mutual Adjustments during a Joint-Grasping Task

Author

Emmanuele Tidoni, Lucia Maria Sacheli, Salvatore Maria Aglioti, Matteo Candidi, Enea Francesco Pavone, Sacheli, L, Candidi, M, Pavone, E, Tidoni, E, and Aglioti, S

Subjects

Male, Time Factors, Grasping, social perceptio, Emotions, lcsh:Medicine, Social and Behavioral Sciences, Task (project management), 0302 clinical medicine, Human Performance, Psychology, lcsh:Science, media_common, Multidisciplinary, Hand Strength, joint-action, Social perception, Communication, 05 social sciences, Experimental Psychology, Biomechanical Phenomena, Social Perception, kinematics, Sensory Perception, Interpersonal perception, Imitation, M-PSI/01 - PSICOLOGIA GENERALE, Reciprocal, Research Article, Cognitive psychology, Human, Adult, Movement kinematic, Social Psychology, Movement, media_common.quotation_subject, Interpersonal communication, interpersonal reactivity, 050105 experimental psychology, 03 medical and health sciences, Interpersonal relationship, Joint Action, Perception, Psychophysics, Humans, Learning, 0501 psychology and cognitive sciences, Social Behavior, Vision, Ocular, Behavior, Motivation, lcsh:R, Cognitive Psychology, Joints, lcsh:Q, Psychomotor Performance, Software, 030217 neurology & neurosurgery

Abstract

Prediction of "when" a partner will act and "what" he is going to do is crucial in joint-action contexts. However, studies on face-to-face interactions in which two people have to mutually adjust their movements in time and space are lacking. Moreover, while studies on passive observation have shown that somato-motor simulative processes are disrupted when the observed actor is perceived as an out-group or unfair individual, the impact of interpersonal perception on joint-actions has never been directly addressed. Here we explored this issue by comparing the ability of pairs of participants who did or did not undergo an interpersonal perception manipulation procedure to synchronise their reach-to-grasp movements during: i) a guided interaction, requiring pure temporal reciprocal coordination, and ii) a free interaction, requiring both time and space adjustments. Behavioural results demonstrate that while in neutral situations free and guided interactions are equally challenging for participants, a negative interpersonal relationship improves performance in guided interactions at the expense of the free interactive ones. This was paralleled at the kinematic level by the absence of movement corrections and by low movement variability in these participants, indicating that partners cooperating within a negative interpersonal bond executed the cooperative task on their own, without reciprocally adapting to the partner's motor behaviour. Crucially, participants' performance in the free interaction improved in the manipulated group during the second experimental session while partners became interdependent as suggested by higher movement variability and by the appearance of interference between the self-executed actions and those observed in the partner. Our study expands current knowledge about on-line motor interactions by showing that visuo-motor interference effects, mutual motor adjustments and motor-learning mechanisms are influenced by social perception. © 2012 Sacheli et al

Published

2012

43. Situational and Dispositional Determinants of Intentional Deceiving

Author

Arcangelo Merla, Maria Serena Panasiti, Enea Francesco Pavone, and Salvatore Maria Aglioti

Subjects

Adult, Male, Deception, Social Psychology, Cognitive Neuroscience, media_common.quotation_subject, Decision Making, lcsh:Medicine, Social and Behavioral Sciences, Social Environment, Choice Behavior, Behavioral Neuroscience, Game Theory, Honesty, Psychology, Humans, Personality, Interpersonal Relations, Situational ethics, Social Behavior, lcsh:Science, Biology, media_common, Social influence, Motivation, Behavior, Multidisciplinary, Dishonesty, Cognitive Neurology, Computers, Social perception, lcsh:R, Cognitive Psychology, Experimental Psychology, Mental Health, Neurology, Social Perception, Medicine, Female, lcsh:Q, Social psychology, Algorithms, Research Article, Neuroscience, Reputation

Abstract

Does opportunity make the thief or are people dispositionally prone to deceive? The interaction between personality and the circumstances surrounding deception is crucial to understand what promotes dishonesty in our society. Due to its inherent spontaneity and sociality, deceptive behaviour may be hardly reproducible in experimental settings. We developed a novel paradigm in the form of an interactive game where participants can choose whether to lie to another person in situations of loss vs. gain, and of no-reputation-risk vs. reputation-risk linked to the disclosure of their deceptive behaviour to others. Thus, our ecological paradigm allowed subjects to spontaneously decide when to lie and face the challenge of deceiving others. In the case of loss, participants lied to reverse the outcome in their favour. Deception was lower in the reputation-risk condition where personality traits concerning social interactions also played an important role. The results suggest that deception is definitely promoted by unfavourable events, and that maintaining one's own reputation encourages honesty, particularly in socially inclined individuals.

Published

2011

44. Sensorimotor states affect choice in the magnitude judgment of ambiguous durations

Author

Enea Francesco Pavone, Giorgio Fuggetta, and Carmelo M. Vicario

Subjects

Predictive coding, General Materials Science, Sensory system, Psychology, Cognitive psychology, Neuroscience

Abstract

The statistics of the environment seem to exert optimal influence on the organization of functions subserving decision making. In order to make decisions about ambiguous sensory information, predictive coding models suggest that brain generate a template against which to match observed sensory evidence. Here we challenge this notion providing evidence that stochastic choices about the magnitude judgment of visual duration are triggered by bottom-up sensorimotor information.

Published

2009

45. Does subliminal visual perception have an error-monitoring system?

Author

Enea Francesco, Pavone, Carlo Alberto, Marzi, and Massimo, Girelli

Subjects

Male, Analysis of Variance, error-related negativity, Brain, Electroencephalography, post-error slowing, implicit vision, Neuropsychological Tests, Subliminal Stimulation, consciousness, error positivity, human, Electrooculography, Discrimination, Psychological, Task Performance and Analysis, Reaction Time, Visual Perception, Humans, Female, Evoked Potentials, Photic Stimulation

Abstract

There is substantial evidence that subliminal stimuli, i.e. stimuli that cannot be perceived consciously, may influence visually guided human behaviour. Two important points require further investigation, namely, the neural bases and the functional capability of unconscious stimulus processing. In this study we aimed at studying one specific aspect of the latter question, i.e. whether unconscious vision can feed into an error-monitoring system in much the same way as conscious vision. We therefore tested whether the event-related potential component known as error-related negativity, which represents the electrophysiological correlate of an error-monitoring system, is produced by unconscious errors. We found an error-related negativity not only for errors committed in a discrimination task with visible stimuli but also for those committed with subthreshold stimuli. Moreover, behavioural analysis showed post-error slowing of reaction time for correct responses following unconscious as well as conscious errors. Thus, the present results provide both electrophysiological and behavioural evidence of an error-monitoring system operating even when stimuli cannot access consciousness.

Published

2009

46. ERP correlates of tactile spatial attention differ under intra- and intermodal conditions

Author

Bettina Forster, Enea Francesco Pavone, and Chiara F. Sambo

Subjects

Attentional shift, Adult, Male, genetic structures, InformationSystems_INFORMATIONINTERFACESANDPRESENTATION(e.g.,HCI), BF, Stimulus (physiology), Somatosensory system, InformationSystems_MODELSANDPRINCIPLES, Evoked Potentials, Somatosensory, Physical Stimulation, Reaction Time, Humans, Attention, Sensory cue, Analysis of Variance, Directing attention, General Neuroscience, Brain, Space perception, Negativity effect, Electroencephalography, Signal Processing, Computer-Assisted, Electrophysiology, Neuropsychology and Physiological Psychology, Touch Perception, Touch, Space Perception, Female, Cues, Psychology, Neuroscience, Photic Stimulation, Psychomotor Performance, Cognitive psychology

Abstract

To investigate whether the mechanisms underlying endogenous tactile spatial attention differ under pure tactile compared to mixed modality conditions event-related brain potentials (ERPs) were recorded to bilateral tactile and visual cues and tactile imperative stimuli. In the cue-stimulus interval the anterior directing attention negativity (ADAN) was present contralateral to the side of the attentional shift. Importantly, under pure tactile conditions this component persisted until imperative stimulus onset, while it diminished under intermodal conditions. Furthermore, post-tactile stimulus onset attentional modulations were present for the P100 component and later latencies under intermodal conditions. In contrast, under pure tactile conditions attentional modulations only emerged for the N140 component and later latencies. It is suggested that mechanisms underlying attentional orienting and selection are not entirely supramodal but depend in part on the modalities involved.

Published

2008

47. Electrophysiological correlates of crossmodal visual distractor congruency effects: evidence for response conflict

Author

Enea Francesco Pavone and Bettina Forster

Subjects

Adult, Male, medicine.medical_specialty, genetic structures, Photic Stimulation, Cognitive Neuroscience, media_common.quotation_subject, BF, Field Dependence-Independence, Audiology, Somatosensory system, behavioral disciplines and activities, Developmental psychology, Conflict, Psychological, Fingers, Behavioral Neuroscience, Discrimination, Psychological, Reference Values, Perception, medicine, Reaction Time, Humans, Attention, Evoked Potentials, media_common, Cerebral Cortex, Crossmodal, musculoskeletal, neural, and ocular physiology, Cognition, Electrophysiology, Inhibition, Psychological, Somatosensory evoked potential, Touch, Space Perception, Female, Psychology, psychological phenomena and processes

Abstract

To investigate the basis of crossmodal visual distractor congruency effects, we recorded event-related brain potentials (ERP) while participants performed a tactile location-discrimination task. Participants made speeded tactile location-discrimination responses to tactile targets presented to the index fingers or thumbs while ignoring simultaneously presented task-irrelevant visual distractor stimuli at either the same (congruent) or a different (incongruent) location. Behavioural results were in line with previous studies, showing slowed response times and increased error rates on incongruent compared with congruent visual distractor trials. To clarify the effect of visual distractors on tactile processing, concurrently recorded ERPs were analyzed for poststimulus, preresponse, and postresponse modulations. An enhanced negativity was found in the time range of the N2 component on incongruent compared with congruent visual distractor trials prior to correct responses. In addition, postresponse ERPs showed the presence of error-related negativity components on incorrect-response trials and enhanced negativity for congruent-incorrect compared with incongruent-incorrect trials. This pattern of ERP results has previously been related to response conflict (Yeung, Botvinick, & Cohen, 2004). Importantly, no modulation of early somatosensory ERPs was present prior to the N2 time range, which may have suggested the contribution of other perceptual or postperceptual processes to crossmodal congruency effects. Taken together, our results suggest that crossmodal visual distractor effects are largely due to response conflict.

Published

2008

48. Acute modulation of cortical oscillatory activities during short trains of high-frequency repetitive transcranial magnetic stimulation of the human motor cortex: a combined EEG and TMS study

Author

Paolo Manganotti, Giorgio Fuggetta, Enea Francesco Pavone, Antonio Fiaschi, Fuggetta, G., Pavone, E. F., Fiaschi, A., and Manganotti, Paolo

Subjects

Adult, Male, medicine.medical_treatment, Stimulation, EEG-TMS combination, Electroencephalography, Brain mapping, behavioral disciplines and activities, Synaptic Transmission, Electromagnetic Fields, Neural ensemble, Biological Clocks, motor cortex, Neural Pathways, medicine, Humans, Radiology, Nuclear Medicine and imaging, Evoked Potentials, Research Articles, Physics, Neurons, Brain Mapping, Radiological and Ultrasound Technology, medicine.diagnostic_test, musculoskeletal, neural, and ocular physiology, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, Electrophysiology, medicine.anatomical_structure, Neurology, nervous system, Cerebral cortex, connectivity, oscillations, GABAergic modulation, cerebral cortex, Female, Neurology (clinical), Anatomy, Nerve Net, Neuroscience, Motor cortex

Abstract

In this study, a combined repetitive transcranial magnetic stimulation/electroencephalography (rTMS/EEG) method was used to explore the acute changes of cortical oscillatory activity induced by intermittent short trains of high-frequency (5-Hz) rTMS delivered over the left primary motor cortex (M1). We evaluated the electrophysiological reaction to magnetic stimulation during and 2-4 s after 20 trains of 20-pulses rTMS, using event-related power (ERPow) that reflects the regional oscillatory activity of neural assemblies, and event-related coherence (ERCoh) that reflects the interregional functional connectivity of oscillatory neural activity. These event-related transformations were for the upper alpha (10-12 Hz) and beta (18-22 Hz) frequency ranges, respectively. For the alpha band, threshold rTMS and subthreshold rTMS induced an ERPow increase during the trains of stimulation mainly in frontal and central regions ipsilateral to stimulation. For the beta band, a similar synchronization of cortical oscillations for both rTMS intensities was seen. Moreover, subthreshold rTMS affected alpha-band activity more than threshold rTMS, inducing a specific ERCoh decrease over the posterior regions during the trains of stimulation. For beta band, the decrease in functional coupling was observed mainly during threshold rTMS. These findings provide a better understanding of the cortical effects of high-frequency rTMS, whereby the induction of oscillations reflects the capacity of electromagnetic pulses to alter regional and interregional synaptic transmissions of neural populations. Hum Brain Mapp, 2008. (c) 2007 Wiley-Liss, Inc.

Published

2008

49. ERP and fMRI correlates of endogenous and exogenous focusing of visual-spatial attention

Author

Massimo Girelli, Carlo Alberto Marzi, E. Natale, Enea Francesco Pavone, and Stefan Pollmann

Subjects

Adult, Male, genetic structures, Visual N1, Adolescent, transient attention, Precuneus, Stimulus (physiology), ERPs, fMRI, sustained attention, visual attention, behavioral disciplines and activities, Brain mapping, Functional Laterality, Event-related potential, medicine, Image Processing, Computer-Assisted, Reaction Time, Humans, Attention, Evoked Potentials, Analysis of Variance, Brain Mapping, medicine.diagnostic_test, General Neuroscience, Brain, Electroencephalography, Visual spatial attention, Magnetic Resonance Imaging, Oxygen, medicine.anatomical_structure, Space Perception, Female, Functional magnetic resonance imaging, Psychology, Neuroscience, N2pc, Photic Stimulation, Cognitive psychology

Abstract

The aim of this study was to investigate the neural correlates of the functional distinction underlying attentional mechanisms of endogenous-sustained and exogenous-transient spatial selection. We recorded event related potentials (ERPs) and used functional magnetic resonance imaging (fMRI) in separate experiments while subjects performed a simple reaction time (RT) to the same visual stimulus displayed to one of several field locations. Endogenous-sustained or exogenous-transient focusing of attention onto target location were obtained by presenting the stimulus in blocks of same-point vs. randomised-point trials, respectively. Same-point stimuli yielded overall faster RT than randomised stimuli, indicating a facilitating effect of endogenous-sustained spatial attention on the perceptual processing of the impending stimulus. Moreover, same-point vs. randomised presentations revealed significant increases in the fMRI signal in the bilateral lingual and fusiform gyri as well as in the right calcarine sulcus, in conjunction with a larger amplitude of the posterior P1 component of ERPs, but no modulation of the amplitude of the N1 component. Rather, a larger amplitude of N1 was found in the reverse contrast, randomised minus same-point trials, which revealed increases in the fMRI signal along the posterior left superior frontal sulcus and bilaterally in the superior precuneus. These findings indicate that N1 indexes exogenous orienting of attention and is likely to represent the activity of frontal and parietal components of the attention network involved in eliciting attention changes. In contrast, the effects of those changes, resulting in a modulation of activation in visual occipital areas, are indexed by P1.

Published

2006

50. Cortico-cortical interactions in spatial attention: A combined ERP/TMS study

Author

Giorgio Fuggetta, Martin Eimer, Monika Kiss, Enea Francesco Pavone, and Vincent Walsh

Subjects

Adult, Male, genetic structures, Physiology, Photic Stimulation, medicine.medical_treatment, Posterior parietal cortex, Electroencephalography, behavioral disciplines and activities, Article, Functional Laterality, Event-related potential, Cortex (anatomy), medicine, Reaction Time, Humans, Attention, Visual search, Cerebral Cortex, Analysis of Variance, medicine.diagnostic_test, musculoskeletal, neural, and ocular physiology, General Neuroscience, Transcranial Magnetic Stimulation, body regions, Transcranial magnetic stimulation, medicine.anatomical_structure, Space Perception, Evoked Potentials, Visual, Female, Psychology, N2pc, Neuroscience, psychological phenomena and processes

Abstract

To gain insight into the neural basis of visual attention, we combined transcranial magnetic stimulation (TMS) and event-related potentials (ERPs) during a visual search task. Single-pulse TMS over right posterior parietal cortex (rPPC) delayed response times to targets during conjunction search, and this behavioral effect had a direct ERP correlate. The early phase of the N2pc component that reflects the focusing of attention onto target locations in a search display was eliminated over the right hemisphere when TMS was applied there but was present when TMS was delivered to a control site (vertex). This finding demonstrates that rPPC TMS interferes with attentional selectivity in remote visual areas.

Published

2006