Maria Cristina Saccuman scite author profile

Abstract& Observing actions made by others activates the cortical circuits responsible for the planning and execution of those same actions. This observation-execution matching system (mirror-neuron system) is thought to play an important role in the understanding of actions made by others. In an fMRI experiment, we tested whether this system also becomes active during the processing of action-related sentences. Participants listened to sentences describing actions performed with the mouth, the hand, or the leg. Abstract sentences of comparable syntactic structure were used as control stimuli.The results showed that listening to action-related sentences activates a left fronto-parieto-temporal network that includes the pars opercularis of the inferior frontal gyrus (Broca's area), those sectors of the premotor cortex where the actions described are motorically coded, as well as the inferior parietal lobule, the intraparietal sulcus, and the posterior middle temporal gyrus. These data provide the first direct evidence that listening to sentences that describe actions engages the visuomotor circuits which subserve action execution and observation. &

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Neural language networks at birth

Perani

Saccuman

Scifo

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

389

322

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The ability to learn language is a human trait. In adults and children, brain imaging studies have shown that auditory language activates a bilateral frontotemporal network with a left hemispheric dominance. It is an open question whether these activations represent the complete neural basis for language present at birth. Here we demonstrate that in 2-d-old infants, the language-related neural substrate is fully active in both hemispheres with a preponderance in the right auditory cortex. Functional and structural connectivities within this neural network, however, are immature, with strong connectivities only between the two hemispheres, contrasting with the adult pattern of prevalent intrahemispheric connectivities. Thus, although the brain responds to spoken language already at birth, thereby providing a strong biological basis to acquire language, progressive maturation of intrahemispheric functional connectivity is yet to be established with language exposure as the brain develops

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Functional specializations for music processing in the human newborn brain

Perani

Saccuman

Scifo

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

284

174

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In adults, specific neural systems with right-hemispheric weighting are necessary to process pitch, melody, and harmony as well as structure and meaning emerging from musical sequences. It is not known to what extent the specialization of these systems results from longterm exposure to music or from neurobiological constraints. One way to address this question is to examine how these systems function at birth, when auditory experience is minimal. We used functional MRI to measure brain activity in 1-to 3-day-old newborns while they heard excerpts of Western tonal music and altered versions of the same excerpts. Altered versions either included changes of the tonal key or were permanently dissonant. Music evoked predominantly right-hemispheric activations in primary and higher order auditory cortex. During presentation of the altered excerpts, hemodynamic responses were significantly reduced in the right auditory cortex, and activations emerged in the left inferior frontal cortex and limbic structures. These results demonstrate that the infant brain shows a hemispheric specialization in processing music as early as the first postnatal hours. Results also indicate that the neural architecture underlying music processing in newborns is sensitive to changes in tonal key as well as to differences in consonance and dissonance.auditory cortex | functional MRI | neonates | emotion

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The impact of semantic reference on word class: An fMRI study of action and object naming

et al. 2006

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Toward an Epigenetic View of Our Musical Mind

Brigati¹,

Saccuman²,

Banelli³

et al. 2012

Front. Gene.

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We are transient beings, in a world of constantly changing culture. At home in the fields of Art and Science, seemingly capable of magnificent abstractions, humans have an intense need to externalize their insights. Music is an art and a highly transmissible cultural product, but we still have an incomplete understanding of how our musical experience shapes and is vividly retained within our brain, and how it affects our behavior. However, the developing field of social epigenetics is now helping us to describe how communication and emotion, prime hallmarks of music, can be linked to a transmissible, biochemical change.

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The interplay of learning and development in shaping neural organization

Dick¹,

Leech²,

Moses³

et al. 2005

Developmental Science

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Using MRI to Characterize the Anatomy and Function of the Auditory Cortex in Infancy

Saccuman

Scifo

2009

Annals of the New York Academy of Sciences

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An extended body of behavioral work has described the auditory skills of infants, but the neural basis of these skills has remained largely unexplored. Recently, noninvasive brain imaging techniques, such as magnetic resonance imaging (MRI), have been successfully used from the first hours after birth, providing informative data on auditory processing and its anatomic underpinnings. The goal of this paper is to examine this increasing body of data, focusing on a basic aspect of auditory processing that has attracted considerable attention and is starting to be elucidated: the hemispheric specialization for the processing of complex auditory stimuli. We will briefly discuss the peculiarities of MRI techniques applied to the infant brain, and review the anatomic and functional evidence for the existence and weighting of hemispheric asymmetry for auditory processing in infancy.

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Music in the first days of life

et al. 2008

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In adults, specific neural systems with right-hemispheric weighting are necessary to process pitch, melody and harmony, as well as structure and meaning emerging from musical sequences. To which extent does this neural specialization result from exposure to music or from neurobiological predispositions? We used fMRI to measure brain activity in 1 to 3 days old newborns while listening to Western tonal music, and to the same excerpts altered, so as to include tonal violations or dissonance. Music caused predominant right hemisphere activations in primary and higher-order auditory cortex. For altered music, activations were seen in the left inferior frontal cortex and limbic structures. Thus, the newborn's brain is able to plenty receive music and to figure out even small perceptual and structural differences in the music sequences. This neural architecture present at birth provides us the potential to process basic and complex aspects of music, a uniquely human capacity.

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