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职业迁徙
个人简介
He has a long experience in electrophysiology and neurophysiology in monkeys (single neurons recordings) and humans (transcranial magnetic
stimulation, study of spinal excitability, brain imaging, recording of single neurons in awake neurosurgery patients).
Among his contributions:
(1) The description of the functional properties of the monkey ventral premotor cortex where, together with his Parma colleagues, he discovered a class of neurons that respond both when the monkey performs actions and when it observes similar actions made by other individuals (mirror neurons). It has been suggested that these neurons unify perception and action and may contribute to others’ action understanding
(2) The first demonstration that a mirror system exists also in humans. He achieved this result by applying transcranial magnetic stimulation (TMS) on the hand motor cortex of human subjects while they were observing others’ actions. He demonstrated that the amplitude of observer’s hand muscle potentials, as evoked by TMS, was specifically and significantly modulated by the observed actions
(3) The demonstration that a similar motor resonance is activated during speech listening and involves tongue-related motor centres (European Journal of Neuroscience, 2002). He recently further demonstrates that this motor activation evoked by speech listening is functional to speech perception. This result shows for the first time a causal relationship between action representation and perception
(4) The first demonstration that, in humans, the frontal area for speech production (Broca’s area) is almost constantly activated by action observation (by several brain imaging experiments carried out in collaboration with San Raffaele Hospital of Milan, USC and UCLA of Los
Angeles, HUT of Helsinki, Juelich Brain Imaging Center, Royal Holloway University of London)
(5) The recent demonstration that Broca’s area-activation reflects a primary role played by this area in pragmatically understanding actions of others (Brain, 2009). This finding opens newlandscapes on the evolution of the human language.
(6) The study of peripersonal space representation in monkey premotor cortex. According to these findings, premotor area F4 contains polimodal neurons (motor, somatosensory and visual) coding the peripersonal space in motor coordinates. This stream of research exerted influence on the
understanding of human pathological signs such as the visuotactile extinction following parietal lesions.
stimulation, study of spinal excitability, brain imaging, recording of single neurons in awake neurosurgery patients).
Among his contributions:
(1) The description of the functional properties of the monkey ventral premotor cortex where, together with his Parma colleagues, he discovered a class of neurons that respond both when the monkey performs actions and when it observes similar actions made by other individuals (mirror neurons). It has been suggested that these neurons unify perception and action and may contribute to others’ action understanding
(2) The first demonstration that a mirror system exists also in humans. He achieved this result by applying transcranial magnetic stimulation (TMS) on the hand motor cortex of human subjects while they were observing others’ actions. He demonstrated that the amplitude of observer’s hand muscle potentials, as evoked by TMS, was specifically and significantly modulated by the observed actions
(3) The demonstration that a similar motor resonance is activated during speech listening and involves tongue-related motor centres (European Journal of Neuroscience, 2002). He recently further demonstrates that this motor activation evoked by speech listening is functional to speech perception. This result shows for the first time a causal relationship between action representation and perception
(4) The first demonstration that, in humans, the frontal area for speech production (Broca’s area) is almost constantly activated by action observation (by several brain imaging experiments carried out in collaboration with San Raffaele Hospital of Milan, USC and UCLA of Los
Angeles, HUT of Helsinki, Juelich Brain Imaging Center, Royal Holloway University of London)
(5) The recent demonstration that Broca’s area-activation reflects a primary role played by this area in pragmatically understanding actions of others (Brain, 2009). This finding opens newlandscapes on the evolution of the human language.
(6) The study of peripersonal space representation in monkey premotor cortex. According to these findings, premotor area F4 contains polimodal neurons (motor, somatosensory and visual) coding the peripersonal space in motor coordinates. This stream of research exerted influence on the
understanding of human pathological signs such as the visuotactile extinction following parietal lesions.
研究兴趣
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bioRxiv (Cold Spring Harbor Laboratory) (2024)
International Conference on Computational Linguistics (2024): 1548-1562
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Neuroscience & Biobehavioral Reviews (2024): 105830-105830
Scientific reportsno. 1 (2024)
Journal of neurophysiologyno. 3 (2024): 480-491
Veronica Mandelli, Isotta Landi,Silvia Busti Ceccarelli,Massimo Molteni,Maria Nobile, Alessandro D’Ausilio,Luciano Fadiga, Alessandro Crippa,Michael V. Lombardo
Molecular autismno. 1 (2024): 36-36
Schizophreniano. 1 (2024)
Neuropsychologia (2024): 108876-108876
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作者统计
#Papers: 279
#Citation: 11818
H-Index: 52
G-Index: 102
Sociability: 6
Diversity: 0
Activity: 3
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