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13. How watching Pinocchio movies changes our subjective experience of extrapersonal space

Author

Fini, C., Committeri, G., Müller, B.C.N., Deschrijver, E., Brass, M., Fini, C., Committeri, G., Müller, B.C.N., Deschrijver, E., and Brass, M.

Abstract

Contains fulltext : 143363.pdf (publisher's version ) (Open Access), The way we experience the space around us is highly subjective. It has been shown that motion potentialities that are intrinsic to our body influence our space categorization. Furthermore, we have recently demonstrated that in the extrapersonal space, our categorization also depends on the movement potential of other agents. When we have to categorize the space as “Near” or “Far” between a reference and a target, the space categorized as “Near” is wider if the reference corresponds to a biological agent that has the potential to walk, instead of a biological and non-biological agent that cannot walk. But what exactly drives this “Near space extension”? In the present paper, we tested whether abstract beliefs about the biological nature of an agent determine how we categorize the space between the agent and an object. Participants were asked to first read a Pinocchio story and watch a correspondent video in which Pinocchio acts like a real human, in order to become more transported into the initial story. Then they had to categorize the location ("Near" or "Far") of a target object located at progressively increasing or decreasing distances from a non-biological agent (i.e., a wooden dummy) and from a biological agent (i.e., a human-like avatar). The results indicate that being transported into the Pinocchio story, induces an equal “Near” space threshold with both the avatar and the wooden dummy as reference frames.

Published
2015

14. A possible human homologue of the macaque V6

Author

Pitzalis S., Sereno M. I., Patria F., Committeri G., Galati G., FATTORI, PATRIZIA, GALLETTI, CLAUDIO, Pitzalis S., Sereno M.I., Patria F., Committeri G., Galati G., Fattori P., and Galletti C.

Published
2004

18. Spatial coding of visual and somatic sensory information in body-centred coordinates

Author

Galati, Gaspare, Committeri, G, Senes, Jn, and Pizzamiglio, Luigi Remo

Subjects
Adult, Cerebral Cortex, Male, Brain Mapping, Neuropsychological Tests, Magnetic Resonance Imaging, Functional Laterality, Touch, Cerebellum, Orientation, Space Perception, Body Image, Visual Perception, Humans, Female, Nerve Net, Psychomotor Performance
Abstract

Because sensory systems use different spatial coordinate frames, cross-modal sensory integration and sensory-motor coordinate transformations must occur to build integrated spatial representations. Multimodal neurons using non-retinal body-centred reference frames are found in the posterior parietal and frontal cortices of monkeys. We used functional magnetic resonance imaging to reveal regions of the human brain using body-centred coordinates to code the spatial position of both visual and somatic sensory stimuli. Participants determined whether a visible vertical bar (visual modality) or a location touched by the right index finger (somatic sensory modality) lay to the left or to the right of their body mid-sagittal plane. This task was compared to a spatial control task having the same stimuli and motor responses and comparable difficulty, but not requiring body-centred coding of stimulus position. In both sensory modalities, the body-centred coding task activated a bilateral fronto-parietal network, though more extensively in the right hemisphere, to include posterior parietal regions around the intraparietal sulcus and frontal regions around the precentral and superior frontal sulci, the inferior frontal gyrus and the superior frontal gyrus on the medial wall. The occipito-temporal junction and other extrastriate regions exhibited bilateral activation enhancement related to body-centred coding when driven by visual stimuli. We conclude that posterior parietal and frontal regions of humans, as in monkeys, appear to provide multimodal integrated spatial representations in body-centred coordinates, and these data furnish the first indication of such processing networks in the human brain.

Published
2001

23. Human V6: The Medial Motion Area

Author

Pitzalis, S., primary, Sereno, M. I., additional, Committeri, G., additional, Fattori, P., additional, Galati, G., additional, Patria, F., additional, and Galletti, C., additional

Published
2009
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26. Neural bases of personal and extrapersonal neglect in humans

Author

Committeri, G., primary, Pitzalis, S., additional, Galati, G., additional, Patria, F., additional, Pelle, G., additional, Sabatini, U., additional, Castriota-Scanderbeg, A., additional, Piccardi, L., additional, Guariglia, C., additional, and Pizzamiglio, L., additional

Published
2007
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29. Neural bases of self‐ and object‐motion in a naturalistic vision

Author

Claudio Galletti, Gaspare Galati, Giorgia Committeri, Valentina Sulpizio, Sabrina Pitzalis, Rosamaria Sepe, Chiara Serra, Francesco de Pasquale, Patrizia Fattori, Pitzalis S., Serra C., Sulpizio V., Committeri G., de Pasquale F., Fattori P., Galletti C., Sepe R., and Galati G.

Subjects
Adult, Male, Computer science, Motion Perception, Optic Flow, computer.software_genre, Brain mapping, 050105 experimental psychology, Motion (physics), Displacement (vector), 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine, flow parsing, Humans, 0501 psychology and cognitive sciences, Radiology, Nuclear Medicine and imaging, Computer vision, wide-field, Kinesthesis, Research Articles, Cerebral Cortex, Brain Mapping, Parsing, Radiological and Ultrasound Technology, medicine.diagnostic_test, Movement (music), business.industry, 05 social sciences, fMRI, Virtual Reality, Object (computer science), wide‐field, Magnetic Resonance Imaging, Neurology, Flow (mathematics), area V6, Female, Neurology (clinical), Artificial intelligence, Anatomy, Nerve Net, Functional magnetic resonance imaging, business, computer, 030217 neurology & neurosurgery, brain mapping, optic flow, Research Article
Abstract

To plan movements toward objects our brain must recognize whether retinal displacement is due to self‐motion and/or to object‐motion. Here, we aimed to test whether motion areas are able to segregate these types of motion. We combined an event‐related functional magnetic resonance imaging experiment, brain mapping techniques, and wide‐field stimulation to study the responsivity of motion‐sensitive areas to pure and combined self‐ and object‐motion conditions during virtual movies of a train running within a realistic landscape. We observed a selective response in MT to the pure object‐motion condition, and in medial (PEc, pCi, CSv, and CMA) and lateral (PIC and LOR) areas to the pure self‐motion condition. Some other regions (like V6) responded more to complex visual stimulation where both object‐ and self‐motion were present. Among all, we found that some motion regions (V3A, LOR, MT, V6, and IPSmot) could extract object‐motion information from the overall motion, recognizing the real movement of the train even when the images remain still (on the screen), or moved, because of self‐movements. We propose that these motion areas might be good candidates for the “flow parsing mechanism,” that is the capability to extract object‐motion information from retinal motion signals by subtracting out the optic flow components.

Published
2019

30. Resting-state connectivity and functional specialization in human medial parieto-occipital cortex

Author

Gaspare Galati, Patrizia Fattori, Annalisa Tosoni, Claudio Galletti, Giorgia Committeri, Sabrina Pitzalis, Tosoni, A., Pitzalis, S., Committeri, G., Fattori, P., Galletti, C., and Galati, G.

Subjects
Adult, Male, Histology, genetic structures, Visual system, Structure-Activity Relationship, Parietal Lobe, Cortex (anatomy), Image Processing, Computer-Assisted, medicine, Humans, Visual Pathways, V6Av–V6Ad, Visual Cortex, Brain Mapping, Visual area V6, Resting state fMRI, General Neuroscience, functional connectivity, Functional specialization, Functional connectivity MRI, Parietal lobe, Sulcus, Magnetic Resonance Imaging, Visuo-motor area V6A, Visual cortex, medicine.anatomical_structure, Female, Occipital Lobe, Anatomy, Psychology, Occipital lobe, Neuroscience, Photic Stimulation
Abstract

According to recent models of visuo-spatial processing, the medial parieto-occipital cortex is a crucial node of the dorsal visual stream. Evidence from neurophysiological studies in monkeys has indicated that the parieto-occipital sulcus (POS) contains three functionally and cytoarchitectonically distinct areas: the visual area V6 in the fundus of the POS, and the visuo-motor areas V6Av and V6Ad in a progressively dorsal and anterior location with respect to V6. Besides different topographical organization, cytoarchitectonics, and functional properties, these three monkey areas can also be distinguished based on their patterns of cortico-cortical connections. Thanks to wide-field retinotopic mapping, areas V6 and V6Av have been also mapped in the human brain. Here, using a combined approach of resting-state functional connectivity and task-evoked activity by fMRI, we identified a new region in the anterior POS showing a pattern of functional properties and cortical connections that suggests a homology with the monkey area V6Ad. In addition, we observed distinct patterns of cortical connections associated with the human V6 and V6Av which are remarkably consistent with those showed by the anatomical tracing studies in the corresponding monkey areas. Consistent with recent models on visuo-spatial processing, our findings demonstrate a gradient of functional specialization and cortical connections within the human POS, with more posterior regions primarily dedicated to the analysis of visual attributes useful for spatial navigation and more anterior regions primarily dedicated to analyses of spatial information relevant for goal-directed action.

Published
2014
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31. Selective role of lingual/parahippocampal gyrus and retrosplenial complex in spatial memory across viewpoint changes relative to the environmental reference frame

Author

Gaspare Galati, Giorgia Committeri, Valentina Sulpizio, Simon Lambrey, Alain Berthoz, Sulpizio V, Committeri G, Lambrey S, Berthoz A, and Galati G.

Subjects
Adult, Male, genetic structures, Spatial Behavior, Image processing, Environment, Brain mapping, Frame of reference, Functional Laterality, Behavioral Neuroscience, User-Computer Interface, Young Adult, medicine, Image Processing, Computer-Assisted, Reaction Time, perspective change, Humans, Computer vision, retrosplenial complex, Chromatin structure remodeling (RSC) complex, lingual/parahippocampal gyrus, spatial memory, frames of reference, Cerebral Cortex, Communication, Lingual/parahippocampal gyru, Analysis of Variance, Brain Mapping, biology, business.industry, Magnetic Resonance Imaging, Oxygen, medicine.anatomical_structure, Cortical network, Space Perception, Mental Recall, biology.protein, Parahippocampal Gyrus, sense organs, Artificial intelligence, business, Psychology, Parahippocampal gyrus, Photic Stimulation, Reference frame, Coding (social sciences)
Abstract

Remembering object locations across different views is a fundamental competence for keeping oriented in large-scale space. Here we investigated such ability by comparing encoding and retrieval of locations across viewpoint changes relative to different spatial frames of reference. We acquired functional magnetic resonance images while subjects detected target displacements across consecutive views of a familiar virtual room, reporting changes in the target absolute position in the room (stable environmental frame), changes in its position relative to a set of movable objects (unstable object-based frame), and changes relative to their point of view (control viewer-centered frame). Behavioral costs were higher for the stable environmental frame, and a cortical network including the lingual/parahippocampal gyrus (LPHG) and the retrosplenial complex (RSC) selectively encoded spatial locations relative to this frame. Several regions, including the dorsal fronto-parietal cortex and the LPHG, were modulated by the amount of experienced viewpoint change, but only the RSC was selectively modulated by the amount of viewpoint change relative to the environmental frame, thus showing a special role in coding one's own position and heading in familiar environments.

Published
2012

32. Intentional signals during saccadic and reaching delays in the human posterior parietal cortex

Author

Galati, Gaspare, Giorgia, Committeri, Sabrina, Pitzalis, Gina, Pelle, Fabiana, Patria, Patrizia, Fattori, Claudio, Galletti, Galati G., Committeri G., Pitzalis S., Pelle G., Patria F., Fattori P., and Galletti C.

Subjects
human lateral intraparietal area, Adult, Male, Movement, functional magnetic resonance imaging, medial intraparietal area, Magnetic Resonance Imaging, Young Adult, PARIETAL CORTEX, Parietal Lobe, Saccades, Animals, Humans, Female, Psychomotor Performance
Abstract

In the monkey posterior parietal cortex (PPC), there is clear evidence of anatomically segregated neuronal populations specialized for planning saccades and arm-reaching movements. However, functional neuroimaging studies in humans have yielded controversial results. Here we show that the human PPC contains distinct subregions responsive to salient visual cues, some of which combine spatial and action-related signals into 'intentional' signals. Participants underwent event-related functional magnetic resonance imaging while performing delayed saccades and long-range arm reaches instructed by visual cues. We focused on activity in the time period following the cue and preceding the actual movement. The use of individual cortical surface reconstructions with detailed sulcal labeling allowed the definition of six responsive regions with distinctive anatomical locations in the PPC. Each region exhibited a distinctive combination of transient and sustained signals during the delay, modulated by either the cue spatial location (contralateral vs. ipsilateral), the instructed action (saccades vs. reaching) or both. Importantly, a lateral and a medial dorsal parietal region showed sustained responses during the delay preferentially for contralateral saccadic and reaching trials, respectively. In the lateral region, preference for saccades was evident only as a more sustained response during saccadic vs. reaching delays, whereas the medial region also showed a higher transient response to cues signaling reaching vs. saccadic actions. These response profiles closely match the behavior of neurons in the macaque lateral and medial intraparietal area, respectively, and suggest that these corresponding human regions are encoding spatially directed action plans or 'intentions'.

Published
2011

33. A possible human homologue of the macaque V6A

Author

Giorgia Committeri, Sabrina Pitzalis, Patrizia Fattori, Gaspare Galati, Martin I. Sereno, Claudio Galletti, Pitzalis S., Sereno I. M., Committeri G., Galati G., Fattori P., and Galletti C.

Subjects
Ophthalmology, biology, Evolutionary biology, biology.animal, Macaque, Sensory Systems
Published
2006

34. Rapid event-related fMRI of visual lexical processing in the left and right hemisphere

Author

Jerome N. Sanes, Claudio Luzzatti, Giorgia Committeri, Luigi Pizzamiglio, Gaspare Galati, Committeri, G, Galati, G, Luzzatti, C, Sanes, J, and Pizzamiglio, L

Subjects
Left and right, Neurology, Cognitive Neuroscience, Speech recognition, Event (relativity), fMRI, functional neuroimaging, dual-route models of writing, M-PSI/02 - PSICOBIOLOGIA E PSICOLOGIA FISIOLOGICA, Psychology
Published
2001
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35. Unlocking the potential of 'passive' modulation: How sensory stimulation shapes hand and face size.

Author

Mora L, Committeri G, L'Abbate T, and Cocchini G

Abstract

Knowledge of the body size is intricately tied to multisensory integration processes that rely on the dynamic interplay of top-down and bottom-up mechanisms. Recent years have seen the development of passive sensory stimulation protocols aimed at investigating the modulation of various cognitive functions, primarily inducing perceptual learning and behaviour change without the need for extensive training. Given that reductions in sensory input have been associated with alterations in body size perception, it is reasonable to hypothesize that increasing sensory information through passive sensory stimulation could similarly influence the perception of the size of body parts. The primary aim of this study was to investigate the potential modulatory effects of passive sensory stimulation on the perception of hand and face size in a group of young adults. Passive sensory stimulation effectively modulated the size representation of the stimulated hand, supporting the notion that access to somatosensory and proprioceptive information is prioritised for the hands but may not extend to the face. Increased somatosensory input resulted in a reduction of distortion, providing evidence for bottom-up modulation of size representation. Passive sensory stimulation can induce subjective changes in body size perception without the need for extensive training. This paradigm holds promise as a potential alternative for modulating distorted size representation in individuals with body representational deficits., (© 2024 The Author(s). Journal of Neuropsychology published by John Wiley & Sons Ltd on behalf of The British Psychological Society.)

Published
2024
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36. Human intraparietal sulcal morphology relates to individual differences in language and memory performance.

Author

Santacroce F, Cachia A, Fragueiro A, Grande E, Roell M, Baldassarre A, Sestieri C, and Committeri G

Subjects
Humans, Female, Male, Adult, Young Adult, Individuality, Cognition physiology, Adolescent, Middle Aged, White Matter physiology, White Matter anatomy & histology, White Matter diagnostic imaging, Parietal Lobe physiology, Parietal Lobe anatomy & histology, Language, Memory physiology, Magnetic Resonance Imaging
Abstract

The sulco-gyral pattern is a qualitative feature of the cortical anatomy that is determined in utero, stable throughout lifespan and linked to brain function. The intraparietal sulcus (IPS) is a nodal associative brain area, but the relation between its morphology and cognition is largely unknown. By labelling the left and right IPS of 390 healthy participants into two patterns, according to the presence or absence of a sulcus interruption, here we demonstrate a strong association between the morphology of the right IPS and performance on memory and language tasks. We interpret the results as a morphological advantage of a sulcus interruption, probably due to the underlying white matter organization. The right-hemisphere specificity of this effect emphasizes the neurodevelopmental and plastic role of sulcus morphology in cognition prior to lateralisation processes. The results highlight a promising area of investigation on the relationship between cognitive performance, sulco-gyral pattern and white matter bundles., (© 2024. The Author(s).)

Published
2024
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37. Medial positioning of the hippocampus and hippocampal fissure volume in developmental topographical disorientation.

Author

Fragueiro A, Cury C, Santacroce F, Burles F, Iaria G, and Committeri G

Subjects
Humans, Brain, Hippocampus diagnostic imaging, Temporal Lobe, Magnetic Resonance Imaging, Confusion
Abstract

Developmental topographical disorientation (DTD) refers to the lifelong inability to orient by means of cognitive maps in familiar surroundings despite otherwise well-preserved general cognitive functions, and the absence of any acquired brain injury or neurological condition. While reduced functional connectivity between the hippocampus and other brain regions has been reported in DTD individuals, no structural differences in gray matter tissue for the whole brain neither for the hippocampus were detected. Considering that the human hippocampus is the main structure associated with cognitive map-based navigation, here, we investigated differences in morphological and morphometric hippocampal features between individuals affected by DTD (N = 20) and healthy controls (N = 238). Specifically, we focused on a developmental anomaly of the hippocampus that is characterized by the incomplete infolding of hippocampal subfields during fetal development, giving the hippocampus a more round or pyramidal shape, called incomplete hippocampal inversion (IHI). We rated IHI according to standard criteria and extracted hippocampal subfield volumes after FreeSurfer's automatic segmentation. We observed similar IHI prevalence in the group of individuals with DTD with respect to the control population. Neither differences in whole hippocampal nor major hippocampal subfield volumes have been observed between groups. However, when assessing the IHI independent criteria, we observed that the hippocampus in the DTD group is more medially positioned comparing to the control group. In addition, we observed bigger hippocampal fissure volume for the DTD comparing to the control group. Both of these findings were stronger for the right hippocampus comparing to the left. Our results provide new insights regarding the hippocampal morphology of individuals affected by DTD, highlighting the role of structural anomalies during early prenatal development in line with the developmental nature of the spatial disorientation deficit., (© 2024 Wiley Periodicals LLC.)

Published
2024
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38. Reduced Segregation of Brain Networks in Spatial Neglect After Stroke.

Author

Spadone S, de Pasquale F, Chiacchiaretta P, Pavone L, Capotosto P, Delli Pizzi S, Digiovanni A, Sensi SL, Committeri G, and Baldassarre A

Abstract

Background/Purpose: To investigate the association between the degree of spatial neglect and the changes of brain system segregation (SyS; i.e., the ratio of the extent to which brain networks interact internally and with each other) after stroke. Methods: A cohort of 20 patients with right hemisphere lesion was submitted to neuropsychological assessment as well as to resting-state functional magnetic resonance imaging session at acute stage after stroke. The severity of spatial neglect was quantified using the Center of Cancellation (CoC) scores of the Bells cancellation test. For each patient, resting-state functional connectivity (FC) matrices were assessed by implementing a brain parcellation of nine networks that included the visual network, dorsal attention network (DAN), ventral attention network (VAN), sensorimotor network (SMN), auditory network, cingulo-opercular network, language network, frontoparietal network, and default mode network (DMN). For each patient and each network, we then computed the SyS derived by subtracting the between -network FC from the within -network FC (normalized by the within-network FC). Finally, for each network, the CoC scores were correlated with the SyS. Results: The correlational analyses indicated a negative association between CoC and SyS in the DAN, VAN, SMN, and DMN ( q  < 0.05 false discovery rate [FDR]-corrected). Patients with more severe spatial neglect exhibited lower SyS and vice versa . Conclusion: The loss of segregation in multiple and specific networks provides a functional framework for the deficits in spatial and nonspatial attention and motor/exploratory ability observed in neglect patients.

Published
2023
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39. Brain Topological Reorganization Associated with Visual Neglect After Stroke.

Author

de Pasquale F, Chiacchiaretta P, Pavone L, Sparano A, Capotosto P, Grillea G, Committeri G, and Baldassarre A

Subjects
Humans, Brain diagnostic imaging, Magnetic Resonance Imaging, Brain Mapping, Stroke complications, Stroke diagnostic imaging, Perceptual Disorders etiology, Perceptual Disorders complications, Connectome
Abstract

Background/Purpose: To identify brain hubs that are behaviorally relevant for neglect after stroke as well as to characterize their functional architecture of communication. Methods: Twenty acute right hemisphere damaged patients underwent neuropsychological and resting-state functional magnetic resonance imaging sessions. Spatial neglect was assessed by means of the Center of Cancellation on the Bells Cancellation Test. For each patient, resting-state functional connectivity matrices were derived by adopting a brain parcellation scheme consisting of 153 nodes. For every node, we extracted its betweenness centrality (BC) defined as the portion of all shortest paths in the connectome involving such node. Then, neglect hubs were identified as those regions showing a high correlation between their BC and neglect scores. Results: A first set of neglect hubs was identified in multiple systems including dorsal attention and ventral attention, default mode, and frontoparietal executive-control networks within the damaged hemisphere as well as in the posterior and anterior cingulate cortex. Such cortical regions exhibited a loss of BC and increased (i.e., less efficient) weighted shortest path length (WSPL) related to severe neglect. Conversely, a second group of neglect hubs found in visual and motor networks, in the undamaged hemisphere, exhibited a pathological increase of BC and reduction of WSPL associated with severe neglect. Conclusion: The topological reorganization of the brain in neglect patients might reflect a maladaptive shift in processing spatial information from higher level associative-control systems to lower level visual and sensory-motor processing areas after a right hemisphere lesion.

Published
2023
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40. Empowering episodic memory through a model-based egocentric navigational training.

Author

Fragueiro A, Tosoni A, Di Matteo R, and Committeri G

Subjects
Young Adult, Humans, Phylogeny, Spatial Learning, Hippocampus, Power, Psychological, Spatial Memory, Space Perception, Memory, Episodic, Spatial Navigation
Abstract

Recent works have proposed that spatial mechanisms in the hippocampal-entorhinal system might have originally developed to represent distances and positions in the physical space and successively evolved to represent experience and memory in the mental space (Bellmund et al. 2018; Bottini and Doeller 2020). Within this phylogenetic continuity hypothesis (Buzsáki and Moser 2013), mechanisms supporting episodic and semantic memory would have evolved from egocentric and allocentric spatial navigation mechanisms, respectively. Recent studies have described a specific relationship between human performance in egocentric navigation and episodic memory (Committeri et al. 2020; Fragueiro et al. 2021), representing the first behavioral support to this hypothesis. Here, we tested the causal relationship among egocentric navigation and both episodic and semantic components of declarative memory. We conducted two experiments on healthy young adults: in the first experiment, participants were submitted to a navigational training based on path integration, while in the second experiment, participants completed a control training based on visual-perceptual learning. Performance in a set of memory tasks assessing episodic, semantic and short-term memory was compared among the pre- vs. post-training sessions. The results indicated a significant improvement of the episodic memory but not of the semantic or the short-term memory performance following the navigational training. In addition, no modulations of performance across the three memory tasks were observed following the control perceptual training. Our findings provide brand-new evidence of a potential causal association between mechanisms of egocentric navigation and episodic memory, thereby further supporting the phylogenetic continuity hypothesis between navigation and memory mechanisms as well as offering new insights about possible clinical applications of navigational trainings for memory functions/dysfunctions., (© 2022. The Author(s).)

Published
2023
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41. Dynamic brain states in spatial neglect after stroke.

Author

Spadone S, de Pasquale F, Digiovanni A, Grande E, Pavone L, Sensi SL, Committeri G, and Baldassarre A

Abstract

Previous studies indicated that spatial neglect is characterized by widespread alteration of resting-state functional connectivity and changes in the functional topology of large-scale brain systems. However, whether such network modulations exhibit temporal fluctuations related to spatial neglect is still largely unknown. This study investigated the association between brain states and spatial neglect after the onset of focal brain lesions. A cohort of right-hemisphere stroke patients ( n = 20) underwent neuropsychological assessment of neglect as well as structural and resting-state functional MRI sessions within 2 weeks from stroke onset. Brain states were identified using dynamic functional connectivity as estimated by the sliding window approach followed by clustering of seven resting state networks. The networks included visual, dorsal attention, sensorimotor, cingulo-opercular, language, fronto-parietal, and default mode networks. The analyses on the whole cohort of patients, i.e., with and without neglect, identified two distinct brain states characterized by different degrees of brain modularity and system segregation. Compared to non-neglect patients, neglect subjects spent more time in less modular and segregated state characterized by weak intra-network coupling and sparse inter-network interactions. By contrast, patients without neglect dwelt mainly in more modular and segregated states, which displayed robust intra-network connectivity and anti-correlations among task-positive and task-negative systems. Notably, correlational analyses indicated that patients exhibiting more severe neglect spent more time and dwelt more often in the state featuring low brain modularity and system segregation and vice versa. Furthermore, separate analyses on neglect vs. non-neglect patients yielded two distinct brain states for each sub-cohort. A state featuring widespread strong connections within and between networks and low modularity and system segregation was detected only in the neglect group. Such a connectivity profile blurred the distinction among functional systems. Finally, a state exhibiting a clear separation among modules with strong positive intra-network and negative inter-network connectivity was found only in the non-neglect group. Overall, our results indicate that stroke yielding spatial attention deficits affects the time-varying properties of functional interactions among large-scale networks. These findings provide further insights into the pathophysiology of spatial neglect and its treatment., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Spadone, de Pasquale, Digiovanni, Grande, Pavone, Sensi, Committeri and Baldassarre.)

Published
2023
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42. Foot-related/walking macro-affordances are implicitly activated and preferentially guided by the framing distance of the environmental layout.

Author

Tosoni A, Altomare EC, Perrucci MG, Committeri G, and Di Matteo R

Subjects
Animals, Humans, Foot, Lower Extremity, Hand, Locomotion, Walking
Abstract

As classically captured in the notion of affordance, the natural environment presents animals with multiple opportunities for action and locomotion appears as the privileged form of action to cover distance in the extrapersonal space/environment. We have recently described a facilitation effect, known as "macro-affordance", for the execution of walking-related actions in response to distant vs. near objects/locations in the extrapersonal space. However, since the manipulation of distance was coextensive to landmark-objects contained in the environment and to the environmental layout per se, the relative contribution of these two factors remains undetermined. In addition, since the effect was originally described in the context of an incidental priming paradigm, it is still unknown whether it was specifically associated with an implicit coding of environmental distance. Here, across three experiments, we examined the degree to which the "macro-affordance" effect reflects (i) the encoding of environmental vs. landmark-objects' distance, (ii) the involvement of an implicit vs. controlled system, (iii) a foot-effector specificity. The results showed that the "macro-affordance" effect is more efficiently triggered by the framing distance of the environmental layout (far/wide/panoramic vs. near/close/restricted) rather than of isolated landmark-objects in the environment and that it only emerges when the distance dimension is implicitly processed within the incidental priming paradigm. The results additionally suggested a specificity of the effect for foot- vs. hand-related actions. The present findings suggest that macro-affordances reflect an implicit coding of spatial features of the environmental layout and viewer-environment relationships that preferentially guide a walking-related exploration of the spatial environment., (© 2022. The Author(s).)

Published
2023
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43. Selective effects of a brain tumor on the metric representation of the hand: a pre- versus post-surgery comparison.

Author

Mora L, Committeri G, Ciavarro M, and Cocchini G

Subjects
Humans, Movement physiology, Body Size, Body Image psychology, Brain Neoplasms physiopathology, Brain Neoplasms psychology, Brain Neoplasms surgery, Hand physiopathology, Sensorimotor Cortex physiopathology, Glioblastoma physiopathology, Glioblastoma psychology, Glioblastoma surgery, Neurosurgical Procedures adverse effects, Neurosurgical Procedures psychology
Abstract

Body representation disorders are complex, varied, striking, and very disabling in most cases. Deficits of body representation have been described after lesions to multimodal and sensorimotor cortical areas. A few studies have reported the effects of tumors on the representation of the body, but little is known about the changes after tumor resection. Moreover, the impact of brain lesions on the hand size representation has been investigated in few clinical cases. Hands are of special importance, as no other body part has the ability for movement and interaction with the environment that the hands have, and we use them for a multitude of daily activities. Studies with clinical population can add further knowledge into the way hands are represented. Here, we report a single case study of a patient (AM) who was an expert bodybuilder and underwent a surgery to remove a glioblastoma in the left posterior prefrontal and precentral cortex at the level of the hand's motor region. Pre- (20 days) and post- (4 months) surgery assessment did not show any motor or cognitive impairments. A hand localization task was used, before and after surgery (12 months), to measure possible changes of the metric representation of his right hand. Results showed a post-surgery modulation of the typically distorted hand representation, with an overall accuracy improvement, especially on width dimension. These findings support the direct involvement of sensorimotor areas in the implicit representation of the body size and its relevance on defining specific size representation dimensions., (© 2022. The Author(s).)

Published
2022
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44. Neuropsychological and Neuroimaging Correlates of High-Altitude Hypoxia Trekking During the "Gokyo Khumbu/Ama Dablam" Expedition.

Author

Committeri G, Bondi D, Sestieri C, Di Matteo G, Piervincenzi C, Doria C, Ruffini R, Baldassarre A, Pietrangelo T, Sepe R, Navarra R, Chiacchiaretta P, Ferretti A, and Verratti V

Subjects
Adaptation, Physiological, Adult, Altitude, Diffusion Tensor Imaging, Humans, Hypoxia diagnostic imaging, Altitude Sickness diagnostic imaging, Expeditions, Mountaineering
Abstract

Committeri Giorgia, Danilo Bondi, Carlo Sestieri, Ginevra Di Matteo, Claudia Piervincenzi, Christian Doria, Roberto Ruffini, Antonello Baldassarre, Tiziana Pietrangelo, Rosamaria Sepe, Riccardo Navarra, Piero Chiacchiaretta, Antonio Ferretti, and Vittore Verratti. Neuropsychological and neuroimaging correlates of high-altitude hypoxia trekking during the "Gokyo Khumbu/Ama Dablam" expedition. High Alt Med Biol . 23:57-68, 2022. Background: Altitude hypoxia exposure may produce cognitive detrimental adaptations and damage to the brain. We aimed at investigating the effects of trekking and hypoxia on neuropsychological and neuroimaging measures. Methods: We recruited two balanced groups of healthy adults, trekkers ( n  = 12, 6 F and 6 M, trekking in altitude hypoxia) and controls (gender- and age-matched), who were tested before (baseline), during (5,000 m, after 9 days of trekking), and after the expedition for state anxiety, depression, verbal fluency, verbal short-term memory, and working memory. Personality and trait anxiety were also assessed at a baseline level. Neuroimaging measures of cerebral perfusion (arterial spin labeling), white-matter microstructural integrity (diffusion tensor imaging), and resting-state functional connectivity (functional magnetic resonance imaging) were assessed before and after the expedition in the group of trekkers. Results: At baseline, the trekkers showed lower trait anxiety ( p  = 0.003) and conscientiousness ( p  = 0.03) than the control group. State anxiety was lower in the trekkers throughout the study ( p  < 0.001), and state anxiety and depression decreased at the end of the study in both groups ( p  = 0.043 and p  = 0.007, respectively). Verbal fluency increased at the end of the study in both groups ( p  < 0.001), whereas verbal short-term memory and working memory performance did not change. No significant differences between before and after the expedition were found for neuroimaging measures. Conclusions: We argue that the observed differences in the neuropsychological measures mainly reflect aspecific familiarity and learning effects due to the repeated execution of the same questionnaires and task. The present results thus suggest that detrimental effects on neuropsychological and neuroimaging measures do not necessarily occur as a consequence of short-term exposure to altitude hypoxia up to 5,000 m, especially in the absence of altitude sickness.

Published
2022
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45. Sensory-Motor Modulations of EEG Event-Related Potentials Reflect Walking-Related Macro-Affordances.

Author

Tosoni A, Altomare EC, Brunetti M, Croce P, Zappasodi F, and Committeri G

Abstract

One fundamental principle of the brain functional organization is the elaboration of sensory information for the specification of action plans that are most appropriate for interaction with the environment. Using an incidental go/no-go priming paradigm, we have previously shown a facilitation effect for the execution of a walking-related action in response to far vs. near objects/locations in the extrapersonal space, and this effect has been called "macro-affordance" to reflect the role of locomotion in the coverage of extrapersonal distance. Here, we investigated the neurophysiological underpinnings of such an effect by recording scalp electroencephalography (EEG) from 30 human participants during the same paradigm. The results of a whole-brain analysis indicated a significant modulation of the event-related potentials (ERPs) both during prime and target stimulus presentation. Specifically, consistent with a mechanism of action anticipation and automatic activation of affordances, a stronger ERP was observed in response to prime images framing the environment from a far vs. near distance, and this modulation was localized in dorso-medial motor regions. In addition, an inversion of polarity for far vs. near conditions was observed during the subsequent target period in dorso-medial parietal regions associated with spatially directed foot-related actions. These findings were interpreted within the framework of embodied models of brain functioning as arising from a mechanism of motor-anticipation and subsequent prediction error which was guided by the preferential affordance relationship between the distant large-scale environment and locomotion. More in general, our findings reveal a sensory-motor mechanism for the processing of walking-related environmental affordances.

Published
2021
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46. Cortical Hyper-Connectivity in a Stroke Patient with Rotated Drawing.

Author

Sebastiani V, Chiacchiaretta P, Pavone L, Sparano A, Grillea G, Spadone S, Capotosto P, Committeri G, and Baldassarre A

Abstract

In the present case report, we investigated the cortical networks of a patient (DDA) affected by right parietal stroke who showed a constructional phenomenon, in which when coping and recalling from memory a complex figure, the model was reproduced rotated of 90° along the vertical axis. Previous studies suggested that rotation on copy is associated with visuospatial impairments and abnormalities in parietal cortex, whereas rotation on recall might be related to executive deficits and dysfunction of frontal regions. Here, we computed the DDA's resting-state functional connectivity (FC) derived from cortical regions of the dorsal attention (DAN) and the frontal portion of the executive-control network (fECN), which are involved in the control of visuospatial attention and multiple executive functions, respectively. We observed that, as compared to a control group of right stroke patients without drawing rotation, DDA exhibited selective increased FC of the DAN and fECN, but not of task-irrelevant language network, within the undamaged hemisphere. These patterns might reflect a pathological communication in such networks leading to impaired attentional and executive operations required to reproduce the model in the correct orientation. Notably, such enhancement of FC was not detected in a patient with a comparable neuropsychological profile as DDA, yet without rotated drawing, suggesting that network-specific modulations in DDA might be ascribed to the constructional phenomenon of rotated drawing., Competing Interests: The authors have no conflict of interest or disclosure to be reported., (Copyright © 2021 by S. Karger AG, Basel.)

Published
2021
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47. Effects of Individual Discount Rate and Uncertainty Perception on Compliance with Containment Measures during the COVID-19 Pandemic.

Author

Calluso C, Grande E, Erario A, Tosoni A, and Committeri G

Abstract

Anti-contagion measures restricting individual freedom, such as social distancing and wearing a mask, are crucial to contain the COVID-19 pandemic. Decision-making patterns and attitudes about uncertainty can highly influence the adherence to these restrictive measures. Here we investigated the relationship between risky behavior and individual preferences for immediate vs. delayed reward, as indexed by temporal discounting (TD), as well as the association between these measures and confidence in the future, perceived risk and confidence in the containment measures. These measures were collected through an online survey administered on 353 participants at the end of the more restrictive phase of the first Italian lockdown. The results showed an unexpected inverse relationship between the individual pattern of choice preferences and risky behavior, with an overall greater adherence to containment measures in more discounter participants. These findings were interpreted in terms of a reframing process in which behaviors aimed at protecting oneself from contagion turn into immediate gains rather than losses. Interestingly, an excessive confidence in a better future was correlated with a higher tendency to assume risky behavior, thereby highlighting the downside of an overly and blindly optimistic view.

Published
2021
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48. Distinct connectivity profiles predict different in-time processes of motor skill learning.

Author

Baldassarre A, Filardi MS, Spadone S, Penna SD, and Committeri G

Subjects
Connectome, Hand, Humans, Learning physiology, Photic Stimulation, Psychomotor Performance physiology, Rest physiology, Brain Mapping methods, Cerebellum physiology, Magnetic Resonance Imaging methods, Motor Skills physiology, Reaction Time physiology
Abstract

Learning through intensive practice has been largely observed in motor, sensory and higher-order cognitive processing. Neuroimaging studies have shown that learning phases are associated with different patterns of functional and structural neural plasticity in spatially distributed brain systems. Yet, it is unknown whether distinct neural signatures before practice can foster different subsequent learning stages over time. Here, we employed a bimanual implicit sequence reaction time task (SRTT) to investigate whether the rates of early (one day after practice) and late (one month after practice) post-training motor skill learning were predicted by distinct patterns of pre-training resting state functional connectivity (rs-FC), recorded with functional MRI. We observed that both motor learning descriptors were positively correlated with the strength of rs-FC among pairs of regions within a SRTT-relevant network comprising cerebellar as well as cortical and subcortical motor areas. Crucially, we detected a double dissociation such that early post-training learning was significantly associated with the functional connections within cerebellar regions, whereas late post-training learning was significantly related to the functional connections between cortical and subcortical motor areas. These findings indicate that spontaneous brain activity prospectively carries out behaviorally relevant information to perform experience-dependent cognitive operations far distant in time., Competing Interests: Declaration of Competing Interest The authors declare no competing financial interests., (Copyright © 2021. Published by Elsevier Inc.)

Published
2021
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49. Travel in the Physical and Mental Space: A Behavioral Assessment of the Phylogenetic Continuity Hypothesis Between Egocentric Navigation and Episodic Memory.

Author

Fragueiro A, Tosoni A, Frisoni M, Di Matteo R, Sestieri C, and Committeri G

Subjects
Hippocampus, Humans, Phylogeny, Recognition, Psychology, Memory, Episodic, Spatial Navigation
Abstract

Based on the neuro-functional association between navigation in the physical and the mental space at the level of the hippocampal-entorhinal system, Buzsáki and Moser (2013) have hypothesized a phylogenetic continuity between spatial navigation and declarative memory functions. According to this proposal, mechanisms of episodic and semantic memory would have evolved from mechanisms of self-based and map-based navigation in the physical space, respectively. Using classic versions of path integration and item recognition tasks in human subjects, we have recently described a correlation and a predictive relationship between abilities in egocentric navigation and episodic memory. Here we aim at confirming and extending this association to the dynamic component of sequential updating in the physical (egocentric navigation) and mental (episodic memory) space, and at investigating the relationship of these self-centered abilities with semantic memory. To this aim, we developed three new experimental tasks in which the dynamic component of updating information is particularly emphasized in the spatial, the temporal, and the semantic domain. The contribution of visual short-term memory to the three tasks was also controlled by including an additional task. The results confirmed the existence of a direct and predictive relationship between self-based spatial navigation and episodic memory. We also found a significant association between egocentric navigation and semantic memory, but this relationship was explained by short-term memory abilities and was mediated by episodic memory functions. Our results support the hypothesis of an evolutionary link between mechanisms that allow spatial navigation in the physical space and time travel in the mental space.

Published
2021
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50. Pre-surgical fMRI Localization of the Hand Motor Cortex in Brain Tumors: Comparison Between Finger Tapping Task and a New Visual-Triggered Finger Movement Task.

Author

Ciavarro M, Grande E, Pavone L, Bevacqua G, De Angelis M, di Russo P, Morace R, Committeri G, Grillea G, Bartolo M, Paolini S, and Esposito V

Abstract

Introduction: Pre-surgical mapping is clinically essential in the surgical management of brain tumors to preserve functions. A common technique to localize eloquent areas is functional magnetic resonance imaging (fMRI). In tumors involving the peri-rolandic regions, the finger tapping task (FTT) is typically administered to delineate the functional activation of hand-knob area. However, its selectivity may be limited. Thus, here, a novel cue-induced fMRI task was tested, the visual-triggered finger movement task (VFMT), aimed at eliciting a more accurate functional cortical mapping of the hand region as compared with FTT. Method: Twenty patients with glioma in the peri-rolandic regions underwent pre-operative mapping performing both FTT and VFMT. The fMRI data were analyzed for surgical procedures. When the craniotomy allowed to expose the motor cortex, the correspondence with intraoperative direct electrical stimulation (DES) was evaluated through sensitivity and specificity (mean sites = 11) calculated as percentage of true-positive and true-negative rates, respectively. Results: Both at group level and at single-subject level, differences among the tasks emerged in the functional representation of the hand-knob. Compared with FTT, VFMT showed a well-localized activation within the hand motor area and a less widespread activation in associative regions. Intraoperative DES confirmed the greater specificity (97%) and sensitivity (100%) of the VFMT in determining motor eloquent areas. Conclusion: The study provides a novel, external-triggered fMRI task for pre-surgical motor mapping. Compared with the traditional FTT, the new VFMT may have potential implications in clinical fMRI and surgical management due to its focal identification of the hand-knob region and good correspondence to intraoperative DES., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Ciavarro, Grande, Pavone, Bevacqua, De Angelis, di Russo, Morace, Committeri, Grillea, Bartolo, Paolini and Esposito.)

Published
2021
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