Your search keyword '"Craighero, L."' showing total 27 results

1. Human manipulation strategy when changing object deformability and task properties

Author

Mazzeo, A., Uliano, M., Mucci, P., Penzotti, M., Angelini, L., Cini, F., Craighero, L., and Controzzi, M.

Published

2024

2. The Influence of Hand Posture on Corticospinal Excitability during Motor Imagery: A Transcranial Magnetic Stimulation Study

Author

Vargas, C.D., Olivier, E., Craighero, L., Fadiga, L., Duhamel, J.R., and Sirigu, A.

Published

2004

3. Observation of the point-light animation of a grasping hand activates sensorimotor cortex in nine-month-old infants

Author

Quadrelli, E, Roberti, E, Turati, C, Craighero, L, Quadrelli, E, Roberti, E, Turati, C, and Craighero, L

Abstract

Measuring changes in sensorimotor alpha band activity in nine-month-old infants we sought to understand the involvement of the sensorimotor cortex during observation of the Point-Light (PL) animation of a grasping hand. Attenuation of alpha activity was found both when the PL display moved towards the to-be-grasped object and when the object was deleted from the video. Before the beginning of the movement of the PL stimuli, only in the presence of the object evoked attenuation of sensorimotor alpha activity was documented, possibly interpreted either as movement prediction or as graspable object perception. Our main findings demonstrate that, during observation of stimuli moving with biological kinematics, the infants' sensorimotor system is activated when the pictorial information is absent or highly reduced, and independently of the presence of the goal-directed object. The possible compensatory function of the sensorimotor system during observation of highly degraded moving stimuli is discussed.

Published

2019

4. Speech listening specifically modulates the excitability of tongue muscles: a TMS study

Author

FADIGA L, CRAIGHERO L, BUCCINO G, RIZZOLATTI G., Fadiga, L, Craighero, L, Buccino, G, and Rizzolatti, G.

Subjects

Mirror neurons, Motor theory of speech perception, Motor system, Motor-evoked potentials

Published

2002

5. The influence of hand posture on corticospinal excitability during motor imagery: A transcranial magnetic stimulation study

Author

UCL - MD/FSIO - Département de physiologie et pharmacologie, Vargas, CD, Olivier, Etienne, Craighero, L, Fadiga, L, Duhamel, JR, Sirigu, A, UCL - MD/FSIO - Département de physiologie et pharmacologie, Vargas, CD, Olivier, Etienne, Craighero, L, Fadiga, L, Duhamel, JR, and Sirigu, A

Abstract

In order to study the interaction between proprioceptive information and motor imagery, we herein investigate how compatible and incompatible postural signals influence corticospinal excitability during the mental simulation of hand movements. Subjects were asked to imagine themselves joining the tips of the thumb and the little finger while they maintained one of the two following hand postures: posture A (PA, compatible), little finger, index and thumb extended, the remaining fingers flexed; or posture B (PB, incompatible), index and thumb extended, other fingers flexed. All subjects rated the imagined finger opposition movements as easier to perform when the hand was kept in PA than in PB (P < 0.01) and the correlation between the duration of motor imagery and movement execution was also higher for PA than PB (P < 0.01). For each posture, motor evoked potentials (MEPs) elicited by focal transcranial magnetic stimulation (TMS) of the left motor cortex were recorded from the right opponens pollicis muscle during both motor imagery (MI) and rest (R) conditions. MEP area varied according to the hand posture: PA induced a higher increase in corticospinal excitability, when compared with PB. These results indicate that the actual limb posture affects the process of motor imagery. The source of this postural modulation effect is discussed.

Published

2004

6. Encoding of human action in Broca's area

Author

Fazio, P., primary, Cantagallo, A., additional, Craighero, L., additional, D'Ausilio, A., additional, Roy, A. C., additional, Pozzo, T., additional, Calzolari, F., additional, Granieri, E., additional, and Fadiga, L., additional

Published

2009

7. From hand actions to speech: evidence and speculations

Author

Fadiga, L., primary, Roy, A.C., additional, Fazio, P., additional, and Craighero, L., additional

Published

2009

8. Cortical mechanism for the visual guidance of hand grasping movements in the monkey: A reversible inactivation study.

Author

Fogassi, L, Gallese, V, Buccino, G, Craighero, L, Fadiga, L, and Rizzolatti, G

Published

2001

9. Grasping the semantic of actions: a combined behavioral and MEG study

Author

Elisa Visani, Gioacchino Garofalo, Davide Rossi Sebastiano, Dunja Duran, Laila Craighero, Lucia Riggio, Giovanni Buccino, Visani E., Garofalo G., Rossi Sebastiano D., Duran D., Craighero L., Riggio L., and Buccino G.

Subjects

MEG (magnetoencephalography), Behavioral Neuroscience, Psychiatry and Mental health, Neuropsychology and Physiological Psychology, Neurology, language processing, motor response, semantic, sensorimotor system, Biological Psychiatry, beta rhythm, embodiment

Abstract

There is experimental evidence that the brain systems involved in action execution also play a role in action observation and understanding. Recently, it has been suggested that the sensorimotor system is also involved in language processing. Supporting results are slower response times and weaker motor-related MEG Beta band power suppression in semantic decision tasks on single action verbs labels when the stimulus and the motor response involve the same effector. Attenuated power suppression indicates decreased cortical excitability and consequent decreased readiness to act. The embodied approach forwards that the simultaneous involvement of the sensorimotor system in the processing of the linguistic content and in the planning of the response determines this language-motor interference effect. Here, in a combined behavioral and MEG study we investigated to what extent the processing of actions visually presented (i.e., pictures of actions) and verbally described (i.e., verbs in written words) share common neural mechanisms. The findings demonstrated that, whether an action is experienced visually or verbally, its processing engages the sensorimotor system in a comparable way. These results provide further support to the embodied view of semantic processing, suggesting that this process is independent from the modality of presentation of the stimulus, including language.

Published

2022

10. Observation of the Point-Light animation of a grasping hand activates sensorimotor cortex in nine-month-old infants

Author

Laila Craighero, Elisa Roberti, Chiara Turati, Ermanno Quadrelli, Quadrelli, E, Roberti, E, Turati, C, and Craighero, L

Subjects

Male, Visual perception, genetic structures, Cognitive Neuroscience, Movement, Object (grammar), Socio-culturale, Alpha (ethology), Experimental and Cognitive Psychology, Electroencephalography, biological motion, 050105 experimental psychology, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, 0501 psychology and cognitive sciences, EEG, Sensorimotor cortex, Point light, Brain Mapping, medicine.diagnostic_test, Hand Strength, musculoskeletal, neural, and ocular physiology, 05 social sciences, mu rhythm, Infant, SH4_4, Animation, Hand, sensorimotor activation, Neuropsychology and Physiological Psychology, Visual perception, biological motion, sensorimotor activation, mu rhythm, EEG, Female, Sensorimotor Cortex, sense organs, Psychology, Neuroscience, 030217 neurology & neurosurgery, Photic Stimulation, Biological motion

Abstract

Measuring changes in sensorimotor alpha band activity in nine-month-old infants we sought to understand the involvement of the sensorimotor cortex during observation of the Point-Light (PL) animation of a grasping hand. Attenuation of alpha activity was found both when the PL display moved towards the to-be-grasped object and when the object was deleted from the video. Before the beginning of the movement of the PL stimuli, only in the presence of the object evoked attenuation of sensorimotor alpha activity was documented, possibly interpreted either as movement prediction or as graspable object perception. Our main findings demonstrate that, during observation of stimuli moving with biological kinematics, the infants' sensorimotor system is activated when the pictorial information is absent or highly reduced, and independently of the presence of the goal-directed object. The possible compensatory function of the sensorimotor system during observation of highly degraded moving stimuli is discussed.

Published

2022

11. Implicit Associations between Adverbs of Place and Actions in the Physical and Digital Space

Author

Maddalena Marini, Laila Craighero, Craighero, L., and Marini, M.

Subjects

adverb of space, General Neuroscience, digital content consumption, digital content generation, Neuropsychology, Socio-culturale, Implicit-association test, Implicit Association Test, actions functions, Neurosciences. Biological psychiatry. Neuropsychiatry, SH4_4, Spatial cognition, Adverb, Space (commercial competition), Article, spatial cognition, embodied cognition, Embodied cognition, Actions functions, Adverb of space, Digital content consumption, Digital content generation, Actions function, Association (psychology), Psychology, RC321-571, Coding (social sciences), Cognitive psychology

Abstract

Neuropsychological, behavioral, and neurophysiological evidence indicates that the coding of space as near and far depends on the involvement of different neuronal circuits. These circuits are recruited on the basis of functional parameters, not of metrical ones, reflecting a general distinction of human behavior, which alternatively attributes to the individual the role of agent or observer. Although much research in cognitive psychology was devoted to demonstrating that language and concepts are rooted in the sensorimotor system, no study has investigated the presence of implicit associations between different adverbs of place (far vs. near) and actions with different functional characteristics. Using a series of Implicit Association Test (IAT) experiments, we tested this possibility for both actions performed in physical space (grasp vs. look at) and those performed when using digital technology (content&nbsp, generation vs. content&nbsp, consumption). For both the physical and digital environments, the results showed an association between the adverb near and actions related to the role of agent, and between the adverb far and actions related to the role of observer. Present findings are the first experimental evidence of an implicit association between different adverbs of place and different actions and of the fact that adverbs of place also apply to the digital environment.

Published

2021

12. Cortical mechanism for the visual guidance of hand grasping movements in the monkey: A reversible inactivation study

Author

Giovanni Buccino, Giacomo Rizzolatti, Leonardo Fogassi, Laila Craighero, Vittorio Gallese, Luciano Fadiga, Fogassi, L, Gallese, V, Buccino, G, Craighero, L, Fadiga, L, and Rizzolatti, G.

Subjects

Premotor cortex, Movement, Functional Laterality, Hand grasping, Perceptual Disorders, Area F5, Orientation (mental), Parietal Lobe, Visual guidance, medicine, Animals, Visual Pathways, GABA Agonists, Cortical circuits, Movement Disorders, Hand Strength, Muscimol, Motor Cortex, Monkey, Neurophysiology, Hand, Hypotonia, body regions, Mechanism (engineering), medicine.anatomical_structure, Space Perception, Neurology (clinical), Macaca nemestrina, Primary motor cortex, medicine.symptom, Psychology, Neuroscience, Psychomotor Performance

Abstract

Picking up an object requires two basic motor operations: reaching and grasping. Neurophysiological studies in monkeys have suggested that the visuomotor transformations necessary for these two operations are carried out by separate parietofrontal circuits and that, for grasping, a key role is played by a specific sector of the ventral premotor cortex: area F5. The aim of the present study was to test the validity of this hypothesis by reversibly inactivating area F5 in monkeys trained to grasp objects of different shape, size and orientation. In separate sessions, the hand field of the primary motor cortex (area F1 or area 4) was also reversibly inactivated. The results showed that after inactivation of area F5 buried in the bank of the arcuate sulcus (the F5 sector where visuomotor neurones responding to object presentation are located), the hand shaping preceding grasping was markedly impaired and the hand posture was not appropriate for the object size and shape. The monkeys were eventually able to grasp the objects, but only after a series of corrections made under tactile control. With small inactivations the deficits concerned the contralesional hand, with larger inactivations the ipsilateral hand as well. In addition, there were signs of peripersonal neglect in the hemispace contralateral to the inactivation site. Following inactivation of area F5 lying on the cortical convexity (the F5 sector where visuomotor neurones responding to action observation, 'mirror neurones', are found) only a motor slowing was observed, the hand shaping being preserved. The inactivation of the hand field of area F1 produced a severe paralysis of contralateral finger movements with hypotonia. The results of this study indicate the crucial role of the ventral premotor cortex in visuomotor transformations for grasping movements. More generally, they provide strong support for the notion that distal and proximal movement organization relies upon distinct cortical circuits. Clinical data on distal movement deficits in humans are re-examined in the light of the present findings.

Published

2001

13. Corticospinal excitability is specifically modulated by motor imagery: a magnetic stimulation study

Author

Vittorio Gallese, Giovanni Buccino, Leonardo Fogassi, Giovanni Pavesi, Laila Craighero, Luciano Fadiga, Fadiga, L, Buccino, G, Craighero, L, Fogassi, L, Gallese, V, and Pavesi, G.

Subjects

Adult, Male, Movement, Cognitive Neuroscience, medicine.medical_treatment, Experimental and Cognitive Psychology, Electromyography, Functional Laterality, Behavioral Neuroscience, Motor imagery, Cortex (anatomy), Motor system, medicine, Humans, Cerebral Cortex, medicine.diagnostic_test, Body movement, Evoked Potentials, Motor, Hand, Transcranial magnetic stimulation, medicine.anatomical_structure, Spinal Cord, Laterality, Imagination, Female, Psychology, Electromagnetic Phenomena, Neuroscience, Psychomotor Performance, Motor cortex

Abstract

Transcranial magnetic stimulation (TMS) was used to investigate whether the excitability of the corticospinal system is selectively affected by motor imagery. To this purpose, we performed two experiments. In the first one we recorded motor evoked potentials from right hand and arm muscles during mental simulation of flexion/extension movements of both distal and proximal joints. In the second experiment we applied magnetic stimulation to the right and the left motor cortex of subjects while they were imagining opening or closing their right or their left hand. Motor evoked potentials (MEPs) were recorded from a hand muscle contralateral to the stimulated cortex. The results demonstrated that the excitability pattern during motor imagery dynamically mimics that occurring during movement execution. In addition, while magnetic stimulation of the left motor cortex revealed increased corticospinal excitability when subjects imagined ipsilateral as well as contralateral hand movements, the stimulation of the right motor cortex revealed a facilitatory effect induced by imagery of contralateral hand movements only. In conclusion, motor imagery is a high level process, which, however, manifests itself in the activation of those same cortical circuits that are normally involved in movement execution.

Published

1998

14. Digital Intentions in the Fingers: I Know What You Are Doing with Your Smartphone.

Author

Craighero L, Granziol U, and Sartori L

Abstract

Every day, we make thousands of finger movements on the touchscreen of our smartphones. The same movements might be directed at various distal goals. We can type "What is the weather in Rome?" in Google to acquire information from a weather site, or we may type it on WhatsApp to decide whether to visit Rome with a friend. In this study, we show that by watching an agent's typing hands, an observer can infer whether the agent is typing on the smartphone to obtain information or to share it with others. The probability of answering correctly varies with age and typing style. According to embodied cognition, we propose that the recognition process relies on detecting subtle differences in the agent's movement, a skill that grows with sensorimotor competence. We expect that this preliminary work will serve as a starting point for further research on sensorimotor representations of digital actions.

Published

2023

15. Effects of movement congruence on motor resonance in early Parkinson's disease.

Author

Gentile E, Brunetti A, Ricci K, Vecchio E, Santoro C, Sibilano E, Bevilacqua V, Iliceto G, Craighero L, and de Tommaso M

Subjects

Humans, Movement, Alpha Rhythm, Brain diagnostic imaging, Early Intervention, Educational, Parkinson Disease diagnostic imaging

Abstract

The observation of action seems to involve the generation of the internal representation of that same action in the observer, a process named motor resonance (MR). The objective of this study was to verify whether an experimental paradigm of action observation in a laboratory context could elicit cortical motor activation in 21 early Parkinson's disease (PD) patients compared to 22 controls. Participants were instructed to simply observe (observation-only session) or to respond (Time-to-contact detection session) at the instant the agent performed a grasping action toward a graspable or ungraspable object. We used functional near-infrared spectroscopy with 20 channels on the motor and premotor brain areas and event-related desynchronization of alpha-mu rhythm. In both groups, response times were more accurate in graspable than ungraspable object trials, suggesting that motor resonance is present in PD patients. In the Time-to-contact detection session, the oxyhemoglobin levels and alpha-mu desynchronization prevailed in the graspable object trials rather than in the ungraspable ones. This study demonstrates the preservation of MR mechanisms in early PD patients. The action observation finalized to a consequent movement can activate cortical networks in patients with early PD, suggesting early rehabilitation interventions taking into account specific observation paradigms preceding motor production., (© 2023. Springer Nature Limited.)

Published

2023

16. Grasping the semantic of actions: a combined behavioral and MEG study.

Author

Visani E, Garofalo G, Rossi Sebastiano D, Duran D, Craighero L, Riggio L, and Buccino G

Abstract

There is experimental evidence that the brain systems involved in action execution also play a role in action observation and understanding. Recently, it has been suggested that the sensorimotor system is also involved in language processing. Supporting results are slower response times and weaker motor-related MEG Beta band power suppression in semantic decision tasks on single action verbs labels when the stimulus and the motor response involve the same effector. Attenuated power suppression indicates decreased cortical excitability and consequent decreased readiness to act. The embodied approach forwards that the simultaneous involvement of the sensorimotor system in the processing of the linguistic content and in the planning of the response determines this language-motor interference effect. Here, in a combined behavioral and MEG study we investigated to what extent the processing of actions visually presented (i.e., pictures of actions) and verbally described (i.e., verbs in written words) share common neural mechanisms. The findings demonstrated that, whether an action is experienced visually or verbally, its processing engages the sensorimotor system in a comparable way. These results provide further support to the embodied view of semantic processing, suggesting that this process is independent from the modality of presentation of the stimulus, including language., 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 © 2022 Visani, Garofalo, Rossi Sebastiano, Duran, Craighero, Riggio and Buccino.)

Published

2022

17. The Role of the Sensorimotor System in Cognitive Functions.

Author

Craighero L

Abstract

The discovery of neurons with sensory properties in frontal motor circuits, and the discovery that these circuits send modulatory signals to the sensory parietal areas, strongly challenged the classical idea of a motor system as a mere executor of commands, and suggested that the sensorimotor system may contribute to the cognitive processes necessary for interaction with the world [...].

Published

2022

18. Movement observation activates motor cortex in fibromyalgia patients: a fNIRS study.

Author

Gentile E, Brunetti A, Ricci K, Bevilacqua V, Craighero L, and de Tommaso M

Subjects

Humans, Movement physiology, Chronic Pain, Fibromyalgia, Motor Cortex physiology

Abstract

Scientific evidence points to a shared neural representation between performing and observing an action. The action observation notoriously determines a modulation of the observer's sensorimotor system, a phenomenon called Motor Resonance (MR). Fibromyalgia (FM) patients suffer from a condition characterized by generalized musculoskeletal pain in which even simple movement can exacerbate their symptoms. Maladaptive functioning of the primary motor cortex is a common finding in patients with chronic pain. Activation of the motor cortex is known to induce an analgesic effect in patients with chronic pain. In this exploratory study, we intend to verify if the mere observation of a movement could elicit activation of the motor cortical areas in patients with FM. Therefore, the purpose of this study was to examine the presence of MR in patients affected by fibromyalgia. We adopted a behavioral paradigm known for detecting the presence of MR and a neurophysiological experiment. Participants watched videos showing gripping movements towards a graspable or an ungraspable object, respectively, and were asked to press a button the instant the agent touched the object (Time-to-contact detection session). In a different experimental session, participants were only requested to observe and pay attention to the videos (Observation-only session). During each experimental session, the participants' cerebral hemodynamic activity was recorded using the functional Near-Infrared Spectroscopy method. The behavioral task analysis revealed the presence of MR in both FM patients and healthy controls. Moreover, neurophysiological findings suggested that the observation of movement during the Observation-only session provoked activation and modulation of the cortical motor networks of FM patients. These results could represent evidence of the possible beneficial effects of movement observation in restarting motor activation, notoriously reduced, in FM patients., (© 2022. The Author(s).)

Published

2022

19. Implicit Associations between Adverbs of Place and Actions in the Physical and Digital Space.

Author

Craighero L and Marini M

Abstract

Neuropsychological, behavioral, and neurophysiological evidence indicates that the coding of space as near and far depends on the involvement of different neuronal circuits. These circuits are recruited on the basis of functional parameters, not of metrical ones, reflecting a general distinction of human behavior, which alternatively attributes to the individual the role of agent or observer. Although much research in cognitive psychology was devoted to demonstrating that language and concepts are rooted in the sensorimotor system, no study has investigated the presence of implicit associations between different adverbs of place ( far vs. near ) and actions with different functional characteristics. Using a series of Implicit Association Test (IAT) experiments, we tested this possibility for both actions performed in physical space ( grasp vs. look at ) and those performed when using digital technology ( content &nbsp; generation vs. content &nbsp; consumption ). For both the physical and digital environments, the results showed an association between the adverb near and actions related to the role of agent, and between the adverb far and actions related to the role of observer. Present findings are the first experimental evidence of an implicit association between different adverbs of place and different actions and of the fact that adverbs of place also apply to the digital environment.

Published

2021

20. Efficacy of Facial Exercises in Facial Expression Categorization in Schizophrenia.

Author

Pancotti F, Mele S, Callegari V, Bivi R, Saracino F, and Craighero L

Abstract

Embodied cognition theories suggest that observation of facial expression induces the same pattern of muscle activation, and that this contributes to emotion recognition. Consequently, the inability to form facial expressions would affect emotional understanding. Patients with schizophrenia show a reduced ability to express and perceive facial emotions. We assumed that a physical training specifically developed to mobilize facial muscles could improve the ability to perform facial movements, and, consequently, spontaneous mimicry and facial expression recognition. Twenty-four inpatient participants with schizophrenia were randomly assigned to the experimental and control group. At the beginning and at the end of the study, both groups were submitted to a facial expression categorization test and their data compared. The experimental group underwent a training period during which the lip muscles, and the muscles around the eyes were mobilized through the execution of transitive actions. Participants were trained three times a week for five weeks. Results showed a positive impact of the physical training in the recognition of others' facial emotions, specifically for the responses of "fear", the emotion for which the recognition deficit in the test is most severe. This evidence suggests that a specific deficit of the sensorimotor system may result in a specific cognitive deficit.

Published

2021

21. Editorial: How Do Motivational States Influence Motor Resonance?

Author

Urgesi C, Alaerts K, and Craighero L

Published

2020

22. An object-identity probability cueing paradigm during grasping observation: the facilitating effect is present only when the observed kinematics is suitable for the cued object.

Author

Craighero L, Mele S, and Zorzi V

Abstract

Electrophysiological and psychophysical data indicate that grasping observation automatically orients attention toward the incoming interactions between the actor's hand and the object. The aim of the present study was to clarify if this effect facilitates the detection of a graspable object with the observed action as compared to an ungraspable one. We submitted participants to an object-identity probability cueing experiment in which the two possible targets were of the same dimensions but one of them presented sharp tips at one extreme while the other presented flat faces. At the beginning of each trial the most probable target was briefly shown. After a variable interval, at the same position, the same (75%) or a different target (25%) was presented. Participants had to press a key in response to target appearance. Superimposed to the video showing cue and target, an agent performing the reaching and grasping of the target was presented. The kinematics of the action was or was not suitable for grasping the cued target, according to the absence or presence of the sharp tips. Results showed that response was modulated by the probability of target identity but only when the observed kinematics was suitable to grasp the attended target. A further experiment clarified that response modulation was never present when the superimposed video always showed the agent at a rest position. These findings are discussed at the light of neurophysiological and psychophysical literature, considering the relationship between the motor system and the perception of objects and of others' actions. We conclude that the prediction of the mechanical events that arise from the interactions between the hand and the attended object is at the basis of the capability to select a graspable object in space.

Published

2015

23. Activity in ventral premotor cortex is modulated by vision of own hand in action.

Author

Fadiga L, Caselli L, Craighero L, Gesierich B, Oliynyk A, Tia B, and Viaro R

Abstract

Parietal and premotor cortices of the macaque monkey contain distinct populations of neurons which, in addition to their motor discharge, are also activated by visual stimulation. Among these visuomotor neurons, a population of grasping neurons located in the anterior intraparietal area (AIP) shows discharge modulation when the own hand is visible during object grasping. Given the dense connections between AIP and inferior frontal regions, we aimed at investigating whether two hand-related frontal areas, ventral premotor area F5 and primary motor cortex (area F1), contain neurons with similar properties. Two macaques were involved in a grasping task executed in various light/dark conditions in which the to-be-grasped object was kept visible by a dim retro-illumination. Approximately 62% of F5 and 55% of F1 motor neurons showed light/dark modulations. To better isolate the effect of hand-related visual input, we introduced two further conditions characterized by kinematic features similar to the dark condition. The scene was briefly illuminated (i) during hand preshaping (pre-touch flash, PT-flash) and (ii) at hand-object contact (touch flash, T-flash). Approximately 48% of F5 and 44% of F1 motor neurons showed a flash-related modulation. Considering flash-modulated neurons in the two flash conditions, ∼40% from F5 and ∼52% from F1 showed stronger activity in PT- than T-flash (PT-flash-dominant), whereas ∼60% from F5 and ∼48% from F1 showed stronger activity in T- than PT-flash (T-flash-dominant). Furthermore, F5, but not F1, flash-dominant neurons were characterized by a higher peak and mean discharge in the preferred flash condition as compared to light and dark conditions. Still considering F5, the distribution of the time of peak discharge was similar in light and preferred flash conditions. This study shows that the frontal cortex contains neurons, previously classified as motor neurons, which are sensitive to the observation of meaningful phases of the own grasping action. We conclude by discussing the possible functional role of these populations.

Published

2013

24. Leadership in orchestra emerges from the causal relationships of movement kinematics.

Author

D'Ausilio A, Badino L, Li Y, Tokay S, Craighero L, Canto R, Aloimonos Y, and Fadiga L

Subjects

Biomechanical Phenomena, Humans, Music, Gestures, Leadership

Abstract

Non-verbal communication enables efficient transfer of information among people. In this context, classic orchestras are a remarkable instance of interaction and communication aimed at a common aesthetic goal: musicians train for years in order to acquire and share a non-linguistic framework for sensorimotor communication. To this end, we recorded violinists' and conductors' movement kinematics during execution of Mozart pieces, searching for causal relationships among musicians by using the Granger Causality method (GC). We show that the increase of conductor-to-musicians influence, together with the reduction of musician-to-musician coordination (an index of successful leadership) goes in parallel with quality of execution, as assessed by musical experts' judgments. Rigorous quantification of sensorimotor communication efficacy has always been complicated and affected by rather vague qualitative methodologies. Here we propose that the analysis of motor behavior provides a potentially interesting tool to approach the rather intangible concept of aesthetic quality of music and visual communication efficacy.

Published

2012

25. Electromyographic activity of hand muscles in a motor coordination game: effect of incentive scheme and its relation with social capital.

Author

Censolo R, Craighero L, Ponti G, Rizzo L, Canto R, and Fadiga L

Subjects

Adult, Female, Humans, Least-Squares Analysis, Surveys and Questionnaires, Electromyography methods, Games, Experimental, Hand physiology, Motivation, Motor Activity physiology, Muscle, Skeletal physiology, Social Behavior

Abstract

Background: A vast body of social and cognitive psychology studies in humans reports evidence that external rewards, typically monetary ones, undermine intrinsic motivation. These findings challenge the standard selfish-rationality assumption at the core of economic reasoning. In the present work we aimed at investigating whether the different modulation of a given monetary reward automatically and unconsciously affects effort and performance of participants involved in a game devoid of visual and verbal interaction and without any perspective-taking activity., Methodology/principal Findings: Twelve pairs of participants were submitted to a simple motor coordination game while recording the electromyographic activity of First Dorsal Interosseus (FDI), the muscle mainly involved in the task. EMG data show a clear effect of alternative rewards strategies on subjects' motor behavior. Moreover, participants' stock of relevant past social experiences, measured by a specifically designed questionnaire, was significantly correlated with EMG activity, showing that only low social capital subjects responded to monetary incentives consistently with a standard rationality prediction., Conclusions/significance: Our findings show that the effect of extrinsic motivations on performance may arise outside social contexts involving complex cognitive processes due to conscious perspective-taking activity. More importantly, the peculiar performance of low social capital individuals, in agreement with standard economic reasoning, adds to the knowledge of the circumstances that makes the crowding out/in of intrinsic motivation likely to occur. This may help in improving the prediction and accuracy of economic models and reconcile this puzzling effect of external incentives with economic theory.

Published

2011

26. Eye position affects orienting of visuospatial attention.

Author

Craighero L, Nascimben M, and Fadiga L

Subjects

Humans, Photic Stimulation, Attention physiology, Ocular Physiological Phenomena, Orientation physiology, Visual Perception physiology

Abstract

The ability to detect an incoming visual stimulus is enhanced by knowledge of stimulus location (orienting of visuospatial attention). Although the brain mechanisms at the basis of this enhancement are not yet fully clarified, there is evidence that orienting of attention is accompanied by the activation of oculomotor circuits. It remains unclear, however, whether this oculomotor activity is an epiphenomenon or is functionally related to the attentional process. Attentional benefits are usually measured by the classical Posner paradigm. When subjects fixate centrally and are requested to detect a visual stimulus that could appear in an attended or unattended location, they react faster to stimuli appearing in the attended one. Here, we demonstrate that in monocular vision visuospatial attention was significantly modulated by the position of the eye in the orbit. When the screen was placed 40 degrees to the right or to the left of subjects' sagittal plane, attentional benefits for stimuli appearing in subjects' temporal spatial hemifield dramatically decayed, even if the retinal stimulation was exactly the same as in the classical paradigm. The finding that eyes and attention show a common limit stop point supports their close functional coupling.

Published

2004

27. Cortical mechanism for the visual guidance of hand grasping movements in the monkey: A reversible inactivation study.

Author

Fogassi L, Gallese V, Buccino G, Craighero L, Fadiga L, and Rizzolatti G

Subjects

Animals, Functional Laterality drug effects, Functional Laterality physiology, GABA Agonists pharmacology, Hand innervation, Macaca nemestrina, Motor Cortex drug effects, Movement drug effects, Movement Disorders etiology, Movement Disorders physiopathology, Muscimol pharmacology, Parietal Lobe physiology, Perceptual Disorders chemically induced, Perceptual Disorders physiopathology, Psychomotor Performance drug effects, Space Perception drug effects, Visual Pathways drug effects, Visual Pathways physiology, Hand physiology, Hand Strength physiology, Motor Cortex physiology, Movement physiology, Psychomotor Performance physiology, Space Perception physiology

Abstract

Picking up an object requires two basic motor operations: reaching and grasping. Neurophysiological studies in monkeys have suggested that the visuomotor transformations necessary for these two operations are carried out by separate parietofrontal circuits and that, for grasping, a key role is played by a specific sector of the ventral premotor cortex: area F5. The aim of the present study was to test the validity of this hypothesis by reversibly inactivating area F5 in monkeys trained to grasp objects of different shape, size and orientation. In separate sessions, the hand field of the primary motor cortex (area F1 or area 4) was also reversibly inactivated. The results showed that after inactivation of area F5 buried in the bank of the arcuate sulcus (the F5 sector where visuomotor neurones responding to object presentation are located), the hand shaping preceding grasping was markedly impaired and the hand posture was not appropriate for the object size and shape. The monkeys were eventually able to grasp the objects, but only after a series of corrections made under tactile control. With small inactivations the deficits concerned the contralesional hand, with larger inactivations the ipsilateral hand as well. In addition, there were signs of peripersonal neglect in the hemispace contralateral to the inactivation site. Following inactivation of area F5 lying on the cortical convexity (the F5 sector where visuomotor neurones responding to action observation, 'mirror neurones', are found) only a motor slowing was observed, the hand shaping being preserved. The inactivation of the hand field of area F1 produced a severe paralysis of contralateral finger movements with hypotonia. The results of this study indicate the crucial role of the ventral premotor cortex in visuomotor transformations for grasping movements. More generally, they provide strong support for the notion that distal and proximal movement organization relies upon distinct cortical circuits. Clinical data on distal movement deficits in humans are re-examined in the light of the present findings.

Published

2001