Your search keyword '"Di Pellegrino, G."' showing total 12 results

1. An experimental investigation on the nature of extinction

Author

Di Pellegrino, G., primary and De Renzi, E., additional

Published

1995

2. Frequency and recognition judgement by young and elderly adults

Author

Di Pellegrino, G., Nichelli, P., and Faglioni, P.

Published

1988

3. The plasticity of the interpersonal space in autism spectrum disorder

Author

Michela Candini, Francesca Frassinetti, Giuseppe di Pellegrino, Candini M., di Pellegrino G., and Frassinetti F.

Subjects

Adult, Motivation, Plasticity, Cognitive Neuroscience, Perspective (graphical), Social anxiety, Social environment, Experimental and Cognitive Psychology, Peripersonal space, Interpersonal communication, medicine.disease, Affect (psychology), Developmental psychology, Behavioral Neuroscience, Autism spectrum disorder, Schizophrenia, medicine, Humans, Autism, Interpersonal Relations, Autistic Disorder, Psychology, Interpersonal space

Abstract

In recent years, there has been a dramatic increase in research examining interpersonal space, i.e., the sector of space immediately around the body in which we interact with other people. These studies have consistently revealed impairments of interpersonal space regulation in psychopathological disorders characterized by social disability, such as autism, schizophrenia and social anxiety. The primary goal of this review is to discuss several key points that have emerged in research on interpersonal space regulation in autism spectrum disorders. Particularly, we review recent behavioral evidence revealing that individuals with autism prefer abnormally larger or shorter interpersonal distance than healthy controls, indicating a deficit in regulating the size of interpersonal space (permeability). Then, we focus on how individuals with autism fail to modify their interpersonal space following a brief cooperative interaction with an unfamiliar adult, suggesting a deficit in adapting interpersonal space to the social context (plasticity). Moreover, we discuss evidence indicating that space regulation deficits primarily affect interpersonal (i.e., social), but not peripersonal (i.e., action), space in autism. Finally, we take into consideration the variables influencing interpersonal space plasticity such as person's perspective and severity of social impairment as well as its neural underpinnings. These findings may provide a critical contribution to understanding of the functional mechanisms underlying interpersonal space regulation and its rehabilitation in autism spectrum disorders.

Published

2020

4. Peripersonal space in the brain

Author

Giuseppe di Pellegrino, Elisabetta Làdavas, di Pellegrino, G, and Làdavas, E.

Subjects

Macaque Monkey, Tool-Use, Spatial Interactions, Cognitive Neuroscience, Ventral Intraparietal Area, Parietooccipital Cortex, Experimental and Cognitive Psychology, Sensory system, Space (commercial competition), Neuronal Representation, Multisensory Representation, Premotor cortex, Personal Space, Behavioral Neuroscience, Neuroimaging, Body Image, medicine, Animals, Humans, Set (psychology), Neurons, Neuropsychology, Representation (systemics), Brain, Haplorhini, Spatial cognition, Functional Propertie, medicine.anatomical_structure, Space Perception, Posterior Parietal Cortex, Human Premotor Cortex, Psychology, Neuroscience

Abstract

Research in neuroscience reveals that the brain constructs multiple representation of space. Here, we primarily focus on peripersonal space (PPS) representation, the region of space immediately surrounding our bodies and in which objects can be grasped and manipulated. We review convergent results from several generations of studies, including neurophysiological studies in animals, neuropsychological investigations in monkeys and brain-damaged patients with spatial cognition disorders, as well as recent neuroimaging experiments in neurologically normal individuals. Collectively, these studies show that the primate brain constructs multiple, rapidly modifiable representations of space, centered on different body parts (i.e., hand-centered, head-centered, and trunk-centered), which arise through extensive multisensory interactions within a set of interconnected parietal and frontal regions. PPS representations are pivotal in the sensory guidance of motor behavior, allowing us to interact with objects and, as demonstrated by recent studies, with other people in the space around us.

Published

2015

5. Neural bases of peri-hand space plasticity through tool-use: Insights from a combined computational–experimental approach

Author

Andrea Serino, Elisabetta Làdavas, Elisa Magosso, Giuseppe di Pellegrino, Mauro Ursino, Magosso E, Ursino M, di Pellegrino G, Làdavas E, and Serino A.

Subjects

Visual perception, Cognitive Neuroscience, TOOL-USE, Experimental and Cognitive Psychology, NEURAL NETWORKS, Stimulus (physiology), Functional Laterality, Personal Space, Behavioral Neuroscience, PERIPERSONAL SPACE, Humans, PLASTICITY, Aged, Cognitive science, Neuronal Plasticity, Tool Use Behavior, Artificial neural network, Distance Perception, Brain, Multisensory integration, Cognition, Stroke, Hebbian theory, Touch Perception, Receptive field, Space Perception, CROSS-MODAL EXTINCTION, Visual Perception, Task analysis, Female, Neural Networks, Computer, Psychology, Psychomotor Performance

Abstract

Visual peripersonal space (i.e., the space immediately surrounding the body) is represented by multimodal neurons integrating tactile stimuli applied on a body part with visual stimuli delivered near the same body part, e.g., the hand. Tool use may modify the boundaries of the peri-hand area, where vision and touch are integrated. The neural mechanisms underlying such plasticity have not been yet identified. To this aim, neural network modelling may be integrated with experimental research. In the present work, we pursued two main objectives: (i) using an artificial neural network to postulate some physiological mechanisms for peri-hand space plasticity in order to account for in-vivo data; (ii) validating model predictions with an ad-hoc behavioural experiment on an extinction patient. The model assumes that the modification of peri-hand space arises from a Hebbian growing of visual synapses converging into the multimodal area, which extends the visual receptive field (RF) of the peripersonal bimodal neurons. Under this hypothesis, the model is able to interpret and explain controversial results in the current literature, showing how different tool-use tasks during the learning phase result in different re-sizing effects of the peri-hand space. Importantly, the model also implies that, after tool-use, a far visual stimulus acts as a near one, independently of whether the tool is present or absent in the subject's hand. This prediction has been validated by an in-vivo experiment on a right brain-damaged patient suffering from visual–tactile extinction. This study demonstrates how neural network modelling may integrate with experimental studies, by generating new predictions and suggesting novel experiments to investigate cognitive processes.

Published

2010

6. Spatial extinction on double asynchronous stimulation

Author

Francesca Frassinetti, Gianpaolo Basso, Giuseppe di Pellegrino, Di Pellegrino, G, Basso, G, and Frassinetti, F

Subjects

Male, genetic structures, Cognitive Neuroscience, media_common.quotation_subject, Experimental and Cognitive Psychology, Stimulation, Fixation, Ocular, Behavioral neuroscience, Stimulus (physiology), Competitive network, Functional Laterality, Perceptual Disorders, Behavioral Neuroscience, Right-hemisphere, Perception, Parietal Lobe, Visual extinction, medicine, Humans, Attention, Disengagement theory, Neglect, media_common, Aged, Spatial extinction, Stimulus onset asynchrony, Cerebral Infarction, medicine.disease, Neuropsychology and Physiological Psychology, Space Perception, Cerebral hemisphere, Selective attention, Psychology, Neuroscience, Photic Stimulation

Abstract

Despite the fact that visual extinction is widely considered a space-based disturbance of selective attention, there has been little theoretical consensus about the nature of its pathogenic mechanism. A specific disruption in the ability to disengage attention from ipsilesional stimuli, or a loss of weight with which contralesional objects compete for visual selection, have been hypothesized to account for the disorder. We tested the merits of these two explanations in a right-hemisphere-lesioned patient. FB, who failed to recognize a contralesional target only when it was shown concurrently to an ipsilesional target (i.e. visual extinction). His task was to report two target letters presented in rapid succession to the left and right of the fixation point. The order of stimulus presentation (Left-First vs Right-First), and the intertarget interval (stimulus onset asynchrony) were varied systematically. We showed that contralesional extinction may occur for successively presented targets, not just for stimuli displayed at the same time. Of most importance, FB was seriously and equally impaired in dealing with a contralesional stimulus when this either preceded the ipsilesional stimulus or followed it by an interval less than about 600 msec. The data appear to contradict the disengagement hypothesis, which predicted a substantial reduction of extinction when a stimulus was displayed first into the lesioned side of space. We suggest that a competitive model of visual selective attention fits the data quite well.

Published

1997

7. The plasticity of the interpersonal space in autism spectrum disorder.

Author

Candini M, di Pellegrino G, and Frassinetti F

Subjects

Adult, Humans, Interpersonal Relations, Motivation, Autism Spectrum Disorder, Autistic Disorder

Abstract

In recent years, there has been a dramatic increase in research examining interpersonal space, i.e., the sector of space immediately around the body in which we interact with other people. These studies have consistently revealed impairments of interpersonal space regulation in psychopathological disorders characterized by social disability, such as autism, schizophrenia and social anxiety. The primary goal of this review is to discuss several key points that have emerged in research on interpersonal space regulation in autism spectrum disorders. Particularly, we review recent behavioral evidence revealing that individuals with autism prefer abnormally larger or shorter interpersonal distance than healthy controls, indicating a deficit in regulating the size of interpersonal space (permeability). Then, we focus on how individuals with autism fail to modify their interpersonal space following a brief cooperative interaction with an unfamiliar adult, suggesting a deficit in adapting interpersonal space to the social context (plasticity). Moreover, we discuss evidence indicating that space regulation deficits primarily affect interpersonal (i.e., social), but not peripersonal (i.e., action), space in autism. Finally, we take into consideration the variables influencing interpersonal space plasticity such as person's perspective and severity of social impairment as well as its neural underpinnings. These findings may provide a critical contribution to understanding of the functional mechanisms underlying interpersonal space regulation and its rehabilitation in autism spectrum disorders., (Copyright © 2020. Published by Elsevier Ltd.)

Published

2020

8. Episodic future thinking and future-based decision-making in a case of retrograde amnesia.

Author

De Luca F, Benuzzi F, Bertossi E, Braghittoni D, di Pellegrino G, and Ciaramelli E

Subjects

Amnesia, Retrograde diagnostic imaging, Brain diagnostic imaging, Gray Matter diagnostic imaging, Humans, Imagination, Male, Middle Aged, Semantics, Amnesia, Retrograde psychology, Decision Making, Memory, Episodic, Thinking

Abstract

We investigated episodic future thinking (EFT) and future-based cognition and decision-making in patient SG, who developed a dense retrograde amnesia following hypoxia due to a cardiac arrest. Despite intact general cognitive and executive functioning, SG was unable to remember events from his entire lifetime. He had, however, relatively spared anterograde memory and general semantic knowledge. Voxel-based morphometry detected a reduction of gray matter in the thalamus, cerebellum and fusiform gyrus bilaterally, and, at a reduced threshold, in several regions of the autobiographical memory network, including the hippocampi. We show that SG is unable to imagine personal future events, but can imagine fictitious events not self-relevant and not located in subjective time. Despite severely impaired EFT, SG shows normal attitudes towards the future time, and normal delay discounting rates. These findings suggest that retrieval of autobiographical information from long-term memory is necessary for EFT. However, relatively spared anterograde memory and general semantic knowledge may be sufficient to allow construction of fictitious experiences. As well, EFT is not necessary to drive future-oriented cognition and choice. These findings highlight the relation between autobiographical memory and EFT, and the fractionation of human temporal consciousness. Moreover, they contribute to our understanding of retrograde amnesia as an impairment of memory as well as future thinking., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

9. Peripersonal space in the brain.

Author

di Pellegrino G and Làdavas E

Subjects

Animals, Haplorhini, Humans, Neurons physiology, Body Image, Brain physiology, Personal Space, Space Perception physiology

Abstract

Research in neuroscience reveals that the brain constructs multiple representation of space. Here, we primarily focus on peripersonal space (PPS) representation, the region of space immediately surrounding our bodies and in which objects can be grasped and manipulated. We review convergent results from several generations of studies, including neurophysiological studies in animals, neuropsychological investigations in monkeys and brain-damaged patients with spatial cognition disorders, as well as recent neuroimaging experiments in neurologically normal individuals. Collectively, these studies show that the primate brain constructs multiple, rapidly modifiable representations of space, centered on different body parts (i.e., hand-centered, head-centered, and trunk-centered), which arise through extensive multisensory interactions within a set of interconnected parietal and frontal regions. PPS representations are pivotal in the sensory guidance of motor behavior, allowing us to interact with objects and, as demonstrated by recent studies, with other people in the space around us., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2015

10. Neural bases of peri-hand space plasticity through tool-use: insights from a combined computational-experimental approach.

Author

Magosso E, Ursino M, di Pellegrino G, Làdavas E, and Serino A

Subjects

Aged, Brain pathology, Distance Perception, Female, Functional Laterality, Humans, Personal Space, Psychomotor Performance physiology, Touch Perception, Visual Perception physiology, Neural Networks, Computer, Neuronal Plasticity, Space Perception physiology, Stroke psychology, Tool Use Behavior physiology

Abstract

Visual peripersonal space (i.e., the space immediately surrounding the body) is represented by multimodal neurons integrating tactile stimuli applied on a body part with visual stimuli delivered near the same body part, e.g., the hand. Tool use may modify the boundaries of the peri-hand area, where vision and touch are integrated. The neural mechanisms underlying such plasticity have not been yet identified. To this aim, neural network modelling may be integrated with experimental research. In the present work, we pursued two main objectives: (i) using an artificial neural network to postulate some physiological mechanisms for peri-hand space plasticity in order to account for in-vivo data; (ii) validating model predictions with an ad-hoc behavioural experiment on an extinction patient. The model assumes that the modification of peri-hand space arises from a Hebbian growing of visual synapses converging into the multimodal area, which extends the visual receptive field (RF) of the peripersonal bimodal neurons. Under this hypothesis, the model is able to interpret and explain controversial results in the current literature, showing how different tool-use tasks during the learning phase result in different re-sizing effects of the peri-hand space. Importantly, the model also implies that, after tool-use, a far visual stimulus acts as a near one, independently of whether the tool is present or absent in the subject's hand. This prediction has been validated by an in-vivo experiment on a right brain-damaged patient suffering from visual-tactile extinction. This study demonstrates how neural network modelling may integrate with experimental studies, by generating new predictions and suggesting novel experiments to investigate cognitive processes., (2009 Elsevier Ltd. All rights reserved.)

Published

2010

11. Spatial extinction on double asynchronous stimulation.

Author

Di Pellegrino G, Basso G, and Frassinetti F

Subjects

Aged, Attention, Cerebral Infarction complications, Cerebral Infarction pathology, Fixation, Ocular, Humans, Male, Parietal Lobe pathology, Perceptual Disorders diagnosis, Perceptual Disorders etiology, Functional Laterality, Photic Stimulation, Space Perception

Abstract

Despite the fact that visual extinction is widely considered a space-based disturbance of selective attention, there has been little theoretical consensus about the nature of its pathogenic mechanism. A specific disruption in the ability to disengage attention from ipsilesional stimuli, or a loss of weight with which contralesional objects compete for visual selection, have been hypothesized to account for the disorder. We tested the merits of these two explanations in a right-hemisphere-lesioned patient, FB, who failed to recognize a contralesional target only when it was shown concurrently to an ipsilesional target (i.e. visual extinction). His task was to report two target letters presented in rapid succession to the left and right of the fixation point. The order of stimulus presentation (Left-First vs Right-First), and the intertarget interval (stimulus onset asynchrony) were varied systematically. We showed that contralesional extinction may occur for successively presented targets, not just for stimuli displayed at the same time. Of most importance, FB was seriously and equally impaired in dealing with a contralesional stimulus when this either preceded the ipsilesional stimulus or followed it by an interval less than about 600 msec. The data appear to contradict the disengagement hypothesis, which predicted a substantial reduction of extinction when a stimulus was displayed first into the lesioned side of space. We suggest that a competitive model of visual selective attention fits the data quite well.

Published

1997

12. Clock-drawing in a case of left visuo-spatial neglect: a deficit of disengagement?

Author

Di Pellegrino G

Subjects

Aged, Cerebrovascular Disorders physiopathology, Eye Movements, Female, Hemianopsia physiopathology, Humans, Occipital Lobe physiopathology, Parietal Lobe physiopathology, Temporal Lobe physiopathology, Attention, Cerebrovascular Disorders complications, Hemianopsia etiology, Task Performance and Analysis, Visual Fields

Abstract

A patient (C.B.) with severe left visuo-spatial neglect and hemianopia after right hemisphere stroke was tested on three conditions of a clock-drawing task. Either on spontaneous drawing or when the number sequence was provided by the experimenter, C.B. drew a clockface with left-sided numbers transposed to the right side of the dial. By contrast, when each number was drawn on a separate dial, its location was correct and there was no transposition. Directional hypokinesia or a representational deficit cannot explain these effects. It is proposed that a deficit in disengaging attention from right-sided visual stimuli plays a critical role in some forms of number transpositions.

Published

1995