Your search keyword '"Pietrini, Pietro"' showing total 14 results

1. The supramodality "spillover" from neuroscience to cognitive sciences: a commentary on Calzavarini (2024).

Author

Ricciardi, Emiliano and Pietrini, Pietro

Subjects

*BRAIN physiology, *BRAIN, *PHONOLOGICAL awareness, *NEUROSCIENCES, *SEMANTICS, *COGNITION

Abstract

This is a commentary on Calzavarini (2024), Rethinking Modality-Specificity in the Cognitive Neuroscience of Concrete Word Meaning: A Position Paper 10.1080/23273798.2023.2173789. [ABSTRACT FROM AUTHOR]

Published

2024

2. Congenital blindness affects diencephalic but not mesencephalic structures in the human brain.

Author

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

Subjects

GENETICS of blindness, DIENCEPHALON, MESENCEPHALON, BRAIN physiology, VISUAL cortex physiology, DEPRIVATION (Psychology), PHYSIOLOGY

Abstract

While there is ample evidence that the structure and function of visual cortical areas are affected by early visual deprivation, little is known of how early blindness modifies subcortical relay and association thalamic nuclei, as well as mesencephalic structures. Therefore, in the present multicenter study, we used MRI to measure volume of the superior and inferior colliculi, as well as of the thalamic nuclei relaying sensory and motor information to the neocortex, parcellated according to atlas-based thalamo-cortical connections, in 29 individuals with congenital blindness of peripheral origin (17 M, age 35.7 ± 14.3 years) and 29 sighted subjects (17 M, age 31.9 ± 9.0). Blind participants showed an overall volume reduction in the left ( p = 0.008) and right ( p = 0.007) thalami, as compared to the sighted individuals. Specifically, the lateral geniculate (i.e., primary visual thalamic relay nucleus) was 40 % reduced (left: p = 4 × 10, right: p < 1 × 10), consistent with findings from animal studies. In addition, associated thalamic nuclei that project to temporal (left: p = 0.005, right: p = 0.005), prefrontal (left: p = 0.010, right: p = 0.014), occipital (left: p = 0.005, right: p = 0.023), and right premotor ( p = 0.024) cortical regions were also significantly reduced in the congenitally blind group. Conversely, volumes of the relay nuclei directly involved in auditory, motor, and somatosensory processing were not affected by visual deprivation. In contrast, no difference in volume was observed in either the superior or the inferior colliculus between the two groups. Our findings indicate that visual loss since birth leads to selective volumetric changes within diencephalic, but not mesencephalic, structures. Both changes in reciprocal cortico-thalamic connections or modifications in the intrinsic connectivity between relay and association nuclei of the thalamus may contribute to explain these alterations in thalamic volumes. Sparing of the superior colliculi is in line with their composite, multisensory projections, and with their not exclusive visual nature. [ABSTRACT FROM AUTHOR]

Published

2016

3. Novel frontiers in brain imaging: Understanding the neural roots of human behavior.

Author

Pietrini, Pietro

Subjects

*BRAIN imaging, *BRAIN physiology, *COGNITIVE ability, *AGGRESSION (Psychology), *DELINQUENT behavior

Published

2016

4. The blind brain: How (lack of) vision shapes the development of the morphological and functional architecture of the human brain.

Author

Pietrini, Pietro

Subjects

*BRAIN physiology, *NEURAL development, *PSYCHOPHYSIOLOGY, *TASTE, *VISUAL perception

Published

2014

5. How Skill Expertise Shapes the Brain Functional Architecture: An fMRI Study of Visuo-Spatial and Motor Processing in Professional Racing-Car and Naïve Drivers.

Author

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

Subjects

BRAIN physiology, FUNCTIONAL magnetic resonance imaging, MOTOR ability, COGNITION, AUTOMOBILE drivers, RACING automobiles, OXYGEN in the blood

Abstract

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

Published

2013

6. How concepts are encoded in the human brain: A modality independent, category-based cortical organization of semantic knowledge.

Author

Handjaras, Giacomo, Ricciardi, Emiliano, Leo, Andrea, Lenci, Alessandro, Cecchetti, Luca, Cosottini, Mirco, Marotta, Giovanna, and Pietrini, Pietro

Subjects

*BRAIN physiology, *SEMANTIC memory, *MODALITY (Linguistics), *PSYCHOLINGUISTICS, *STIMULUS & response (Psychology), *MULTIDIMENSIONAL scaling

Abstract

How conceptual knowledge is represented in the human brain remains to be determined. To address the differential role of low-level sensory-based and high-level abstract features in semantic processing, we combined behavioral studies of linguistic production and brain activity measures by functional magnetic resonance imaging in sighted and congenitally blind individuals while they performed a property-generation task with concrete nouns from eight categories, presented through visual and/or auditory modalities. Patterns of neural activity within a large semantic cortical network that comprised parahippocampal, lateral occipital, temporo-parieto-occipital and inferior parietal cortices correlated with linguistic production and were independent both from the modality of stimulus presentation (either visual or auditory) and the (lack of) visual experience. In contrast, selected modality-dependent differences were observed only when the analysis was limited to the individual regions within the semantic cortical network. We conclude that conceptual knowledge in the human brain relies on a distributed, modality-independent cortical representation that integrates the partial category and modality specific information retained at a regional level. [ABSTRACT FROM AUTHOR]

Published

2016

7. Proneness to social anxiety modulates neural complexity in the absence of exposure: A resting state fMRI study using Hurst exponent.

Author

Gentili, Claudio, Vanello, Nicola, Cristea, Ioana, David, Daniel, Ricciardi, Emiliano, and Pietrini, Pietro

Subjects

*SOCIAL anxiety, *BRAIN physiology, *FUNCTIONAL magnetic resonance imaging, *SOCIAL psychology, *SOCIAL context, *SOCIAL phobia

Abstract

To test the hypothesis that brain activity is modulated by trait social anxiety, we measured the Hurst Exponent (HE), an index of complexity in time series, in healthy individuals at rest in the absence of any social trigger. Functional magnetic resonance imaging ( fMRI) time series were recorded in 36 subjects at rest . All volunteers were healthy without any psychiatric, medical or neurological disorder. Subjects completed the Liebowitz Social Anxiety Scale (LSAS) and the Brief Fear of Negative Evaluation (BFNE) to assess social anxiety and thoughts in social contexts. We also obtained the fractional Amplitude of Low Frequency Fluctuations (fALFF) of the BOLD signal as an independent control measure for HE data. BFNE scores correlated positively with HE in the posterior cingulate/precuneus, while LSAS scores correlated positively with HE in the precuneus, in the inferior parietal sulci and in the parahippocamus. Results from fALFF were highly consistent with those obtained using LSAS and BFNE to predict HE. Overall our data indicate that spontaneous brain activity is influenced by the degree of social anxiety, on a continuum and in the absence of social stimuli. These findings suggest that social anxiety is a trait characteristic that shapes brain activity and predisposes to different reactions in social contexts. [ABSTRACT FROM AUTHOR]

Published

2015

8. Spatial imagery relies on a sensory independent, though sensory sensitive, functional organization within the parietal cortex: A fMRI study of angle discrimination in sighted and congenitally blind individuals.

Author

Bonino, Daniela, Ricciardi, Emiliano, Bernardi, Giulio, Sani, Lorenzo, Gentili, Claudio, Vecchi, Tomaso, and Pietrini, Pietro

Subjects

*BRAIN physiology, *CEREBRAL cortex, *BLIND people, *DISCRIMINATION (Sociology), *FUNCTIONAL magnetic resonance imaging, *SENSORY perception, *COGNITIVE ability

Abstract

Although vision offers distinctive information to space representation, individuals who lack vision since birth often show perceptual and representational skills comparable to those found in sighted individuals. However, congenitally blind individuals may result in impaired spatial analysis, when engaging in ‘visual’ spatial features (e.g., perspective or angle representation) or complex spatial mental abilities. In the present study, we measured behavioral and brain responses using functional magnetic resonance imaging in sighted and congenitally blind individuals during spatial imagery based on a modified version of the mental clock task (e.g., angle discrimination) and a simple recognition control condition, as conveyed across distinct sensory modalities: visual (sighted individuals only), tactile and auditory. Blind individuals were significantly less accurate during the auditory task, but comparable-to-sighted during the tactile task. As expected, both groups showed common neural activations in intraparietal and superior parietal regions across visual and non-visual spatial perception and imagery conditions, indicating the more abstract, sensory independent functional organization of these cortical areas, a property that we named supramodality . At the same time, however, comparisons in brain responses and functional connectivity patterns across experimental conditions demonstrated also a functional lateralization, in a way that correlated with the distinct behavioral performance in blind and sighted individuals. Specifically, blind individuals relied more on right parietal regions, mainly in the tactile and less in the auditory spatial processing. In sighted, spatial representation across modalities relied more on left parietal regions. In conclusions, intraparietal and superior parietal regions subserve supramodal spatial representations in sighted and congenitally blind individuals. Differences in their recruitment across non-visual spatial processing in sighted and blind individuals may be related to distinctive behavioral performance and/or mental strategies adopted when they deal with the same spatial representation as conveyed through different sensory modalities. [ABSTRACT FROM AUTHOR]

Published

2015

9. Mind the blind brain to understand the sighted one! Is there a supramodal cortical functional architecture?

Author

Ricciardi, Emiliano, Bonino, Daniela, Pellegrini, Silvia, and Pietrini, Pietro

Subjects

*CORTICAL blindness, *GENETICS of blindness, *SENSES, *BRAIN physiology, *VISUAL perception, *HUMAN abnormalities

Abstract

Highlights: [•] Imaging studies on the role of visual experience shed new light on brain function. [•] The brain can develop its architecture independently from any visual experience. [•] Studies in congenitally blind individuals revealed supramodal brain areas. [•] These areas process information content regardless of the sensory modality. [•] Cross-modal adaptative modifications occur in the ‘visual’ regions of blind as well. [Copyright &y& Elsevier]

Published

2014

10. Where the brain appreciates the final state of an event: The neural correlates of telicity

Author

Romagno, Domenica, Rota, Giuseppina, Ricciardi, Emiliano, and Pietrini, Pietro

Subjects

*NEUROLINGUISTICS, *BRAIN physiology, *MAGNETIC resonance imaging of the brain, *BRAIN function localization, *SEMANTICS, *HUMAN information processing, *VERBS

Abstract

Abstract: In this study we investigated whether the human brain distinguishes between telic events that necessarily entail a specified endpoint (e.g., reaching), and atelic events with no delimitation or final state (e.g., chasing). We used functional magnetic resonance imaging to explore the patterns of neural response associated with verbs denoting telic and atelic events, and found that the left posterior middle temporal gyrus (pMTG), an area consistently engaged by verb processing tasks, showed a significantly higher activation for telic compared with atelic verbs. These results provide the first evidence that the human brain appreciates whether events lead to an end or a change of state. Moreover, they provide an explanation for the long-debated question of which verb properties modulate neural activity in the left pMTG, as they indicate that, independently of any other semantic property, verb processing and event knowledge in this area are specifically related to the representation of telicity. [Copyright &y& Elsevier]

Published

2012

11. Evidence of a direct influence between the thalamus and hMT+ independent of V1 in the human brain as measured by fMRI

Author

Gaglianese, Anna, Costagli, Mauro, Bernardi, Giulio, Ricciardi, Emiliano, and Pietrini, Pietro

Subjects

*THALAMUS, *BRAIN physiology, *MAGNETIC resonance imaging of the brain, *VISUAL cortex, *PHYSIOLOGICAL effects of oxygen, *BRAIN imaging

Abstract

Abstract: In the present study we employed Conditional Granger Causality (CGC) and Coherence analysis to investigate whether visual motion-related information reaches the human middle temporal complex (hMT+) directly from the Lateral Geniculate Nucleus (LGN) of the thalamus, by-passing the primary visual cortex (V1). Ten healthy human volunteers underwent brain scan examinations by functional magnetic resonance imaging (fMRI) during two optic flow experiments. In addition to the classical LGN-V1-hMT+ pathway, our results showed a significant direct influence of the blood oxygenation level dependent (BOLD) signal recorded in LGN over that in hMT+, not mediated by V1 activity, which strongly supports the existence of a bilateral pathway that connects LGN directly to hMT+ and serves visual motion processing. Furthermore, we evaluated the relative latencies among areas functionally connected in the processing of visual motion. Using LGN as a reference region, hMT+ exhibited a statistically significant earlier peak of activation as compared to V1. In conclusion, our findings suggest the co-existence of an alternative route that directly links LGN to hMT+, bypassing V1. This direct pathway may play a significant functional role for the faster detection of motion and may contribute to explain persistence of unconscious motion detection in individuals with severe destruction of primary visual cortex (blindsight). [Copyright &y& Elsevier]

Published

2012

12. The neural mechanisms of reliability weighted integration of shape information from vision and touch

Author

Helbig, Hannah B., Ernst, Marc O., Ricciardi, Emiliano, Pietrini, Pietro, Thielscher, Axel, Mayer, Katja M., Schultz, Johannes, and Noppeney, Uta

Subjects

*NEURONS, *STATISTICS, *PERCEPTUAL motor learning, *FACTORIAL experiment designs, *PARIETAL lobe, *BRAIN physiology, *RELIABILITY (Personality trait)

Abstract

Abstract: Behaviourally, humans have been shown to integrate multisensory information in a statistically-optimal fashion by averaging the individual unisensory estimates according to their relative reliabilities. This form of integration is optimal in that it yields the most reliable (i.e. least variable) multisensory percept. The present study investigates the neural mechanisms underlying integration of visual and tactile shape information at the macroscopic scale of the regional BOLD response. Observers discriminated the shapes of ellipses that were presented bimodally (visual–tactile) or visually alone. A 2×5 factorial design manipulated (i) the presence vs. absence of tactile shape information and (ii) the reliability of the visual shape information (five levels). We then investigated whether regional activations underlying tactile shape discrimination depended on the reliability of visual shape. Indeed, in primary somatosensory cortices (bilateral BA2) and the superior parietal lobe the responses to tactile shape input were increased when the reliability of visual shape information was reduced. Conversely, tactile inputs suppressed visual activations in the right posterior fusiform gyrus, when the visual signal was blurred and unreliable. Somatosensory and visual cortices may sustain integration of visual and tactile shape information either via direct connections from visual areas or top-down effects from higher order parietal areas. [Copyright &y& Elsevier]

Published

2012

13. Decomposing metaphor processing at the cognitive and neural level through functional magnetic resonance imaging

Author

Bambini, Valentina, Gentili, Claudio, Ricciardi, Emiliano, Bertinetto, Pier Marco, and Pietrini, Pietro

Subjects

*COGNITION, *NEURAL transmission, *MAGNETIC resonance imaging of the brain, *BRAIN physiology, *NEUROSCIENCES, *DENTATE gyrus, *PRAGMATICS, *METAPHOR

Abstract

Abstract: Prior neuroimaging studies on metaphor comprehension have tended to focus on the role of the right hemisphere, without reaching consensus and leaving aside the functional architecture of this process. The present work aimed to break down metaphor comprehension into its functional components. The study rationale is two-fold: on the one hand, the large-scale network model as emerging in cognitive neuroscience led us to a consideration of metaphor as supported by a distributed and bilateral network; on the other hand, we based on the accounts of figurative language put forward in pragmatics and cognitive science to postulate a decomposition of such a network into multiple sub-systems. During scanning, participants implicitly processed metaphorical (familiar and unfamiliar) and non-metaphorical passages, while being explicitly involved in an adjective matching task to be performed after reading the target passages. Several regions showed greater activity to metaphors as compared to non-metaphors, including left and right inferior frontal gyrus, right superior temporal gyrus, left angular gyrus, and anterior cingulate. This pattern of activations, markedly bilateral, can be decomposed into circumscribed functional sub-systems mediating different aspects of metaphor resolution, as foreseen in the pragmatic and cognitive literature: (a) the conceptual/pragmatic machinery in the bilateral inferior frontal gyrus and in the left angular gyrus, which supports the integration of linguistic material and world knowledge in context; (b) the attentional component in the anterior cingulate and prefrontal areas, which is set to monitor and filter for the relevant aspects of context and for the appropriate meanings; (c) the Theory of Mind system along the right superior temporal sulcus, which deals with the recognition of speakers’ communicative intentions and is more extensively activated by unfamiliar metaphors. The results have several implications for the field of neuropragmatics, especially on the neuropsychological side and on the right hemisphere hypothesis. [Copyright &y& Elsevier]

Published

2011

14. Beyond amygdala: Default Mode Network activity differs between patients with Social Phobia and healthy controls

Author

Gentili, Claudio, Ricciardi, Emiliano, Gobbini, Maria Ida, Santarelli, Maria Filomena, Haxby, James V., Pietrini, Pietro, and Guazzelli, Mario

Subjects

*SOCIAL phobia, *BRAIN physiology, *AMYGDALOID body, *EMOTIONAL state, *ANXIETY, *COGNITIVE psychology, *MAGNETIC resonance imaging of the brain, *PATHOLOGICAL psychology, *PATIENTS

Abstract

Abstract: The Default Mode Network (DMN) is a constellation of brain areas that decrease their activity during a wide number of different goal-oriented tasks as compared to passive “rest” tasks. DMN can be modulated by different factors such as emotional states, cognitive load of the task and psychopathology, including anxiety. Moreover, DMN seems to play a pivotal role in social cognition. For example, the ability to predict another person''s behaviour taking his or her perspective modulates the activity of the DMN. Recent data from autistic patients support a role of DMN in social cognition as well. Social Phobia (SP) is an anxiety disorder characterized by an abnormal distress in situations that require social interaction. To date, no study has assessed DMN in Social Phobia. To determine potential differences in DMN activity between Social Phobia patients (SPP) and healthy control (HC) subjects we examined functional magnetic resonance imaging (fMRI) data obtained during a face perception study with emotional and neutral stimuli. As compared to HC, SPP showed a lower deactivation in the precuneus and posterior cingulate regions (PCun/PCC) during task conditions. These regions are part of the so-called “Theory of Mind” circuit and in particular they are involved in the evaluation of one''s own emotional state. Because of the role of the PCun/PCC in self-state perception and attribution and, more in general, the role of the DMN in social cognition, we suggest that its impairment in the DMN network in SPP might be relevant in the development of the feeling of wariness of others’ judgment and may be related to the so-called self-focused attention. Self-focused attention is the awareness of self-referent information, and is present in many emotional disorders and may additionally prevent individuals from observing external information that could disconfirm their own fears. Moreover, the abnormal modulation of activity in the DMN may reflect persistent rumination or anxiety-related thoughts that are not modulated by the switch from rest to task. [Copyright &y& Elsevier]

Published

2009