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18. Neurotypical individuals fail to understand action vitality form in children with autism spectrum disorder

Author

Luca Casartelli, Alessandra Federici, Lucia Fumagalli, Giacomo Rizzolatti, Monica Nicoli, Andrea Vitale, Luca Ronconi, Massimo Molteni, Corrado Sinigaglia, Ambra Cesareo, Casartelli, L., Federici, A., Fumagalli, L., Cesareo, A., Nicoli, M., Ronconi, L., Vitale, A., Molteni, M., Rizzolatti, G., and Sinigaglia, C.

Subjects
Adult, Male, Autism Spectrum Disorder, Autism, Social Interaction, autism, Vitality, Developmental psychology, Young Adult, Motor cognition, mental disorders, motor cognition, medicine, Humans, Child, Multidisciplinary, Recognition, Psychology, Cognition, Biological Sciences, medicine.disease, Healthy Volunteers, Social relation, Comprehension, Autism spectrum disorder, Psychological and Cognitive Sciences, vitality form, Vitality form, Female, Psychology, Neurotypical
Abstract

Significance Action vitality forms are highly pervasive aspects of daily life and have been widely assumed to be critical for basic social interactions. Previous evidence indicates that ASD children express their own vitality forms in a way that is motorically dissimilar to TD children. Here we demonstrate that this motor dissimilarity prevents neurotypical adults from recognizing vitality forms, when observing ASD children acting gently or rudely. Although ASD children differentiate these vitality forms, neurotypical adults were remarkably inaccurate in identifying them. This indicates that difficulty in social interaction for ASD individuals should not be entirely ascribed to their lack of understanding others, as standardly assumed. The failure of neurotypical individuals to understand them plays a critical role too., Any defects of sociality in individuals diagnosed with autism spectrum disorder (ASD) are standardly explained in terms of those individuals’ putative impairments in a variety of cognitive functions. Recently, however, the need for a bidirectional approach to social interaction has been emphasized. Such an approach highlights differences in basic ways of acting between ASD and neurotypical individuals which would prevent them from understanding each other. Here we pursue this approach by focusing on basic action features reflecting the agent’s mood and affective states. These are action features Stern named “vitality forms,” and which are widely assumed to substantiate core social interactions [D. N. Stern, The Interpersonal World of the Infant (1985); D. N. Stern, Forms of Vitality Exploring Dynamic Experience in Psychology, Arts, Psychotherapy, and Development (2010)]. Previously we demonstrated that, although ASD and typically developing (TD) children alike differentiate vitality forms when performing actions, ASD children express them in a way that is motorically dissimilar to TD children. To assess whether this motor dissimilarity may have consequences for vitality form recognition, we asked neurotypical participants to identify the vitality form of different types of action performed by ASD or TD children. We found that participants exhibited remarkable inaccuracy in identifying ASD children’s vitality forms. Interestingly, their performance did not benefit from information feedback. This indicates that how people act matters for understanding others and for being understood by them. Because vitality forms pervade every aspect of daily life, our findings promise to open the way to a deeper comprehension of the bidirectional difficulties for both ASD and neurotypical individuals in interacting with one another.

Published
2020

19. When a laser pen becomes a stick: remapping of space by tool‑use observation in hemispatial neglect

Author

Francesca Frassinetti, Corrado Sinigaglia, Manuela Maini, Marcello Costantini, Ettore Ambrosini, Vittorio Gallese, Costantini M., Frassinetti F., Maini M., Ambrosini ·E., Gallese ·V., and Sinigaglia C.

Subjects
Male, media_common.quotation_subject, TOOL-USE, Space (commercial competition), Functional Laterality, Neglect, Task (project management), Perceptual Disorders, Orientation, PERIPERSONAL SPACE, medicine, Peripersonal space, Tool-use, Aged, Brain Injuries, Female, Hand, Humans, Middle Aged, Space Perception, Lasers, Neuroscience (all), Medicine (all), media_common, General Neuroscience, Hemispatial neglect, Near space, NEGLECT, Action observation, Line (geometry), medicine.symptom, Psychology, Social psychology, Cognitive psychology
Abstract

The role of active tool use in the remapping of space in hemispatial neglect patients has been extensively investigated. To date, however, there is no evidence that observing tool use can play a role in the remapping of space in hemispatial neglect patients. In this study, a patient with a severe hemispatial neglect in near but not far space and twelve healthy controls were asked to bisect near and far lines using a laser pen. The task was performed both before and immediately after sessions in which they merely observed the experimenter bisecting near and far lines with a stick. During the observation session, participants were either holding an identical stick or empty-handed. Results, in both the neglect patient and healthy controls, showed that observing the experimenter bisecting line while holding the same tool, produces a remapping of the far space into the near space. This result was particularly evident in the neglect patient where observing line-bisection task extended the spatial deficit from the near to the far space. Our results provide new empirical support to the idea that the space around us is not mapped in merely metrical terms, rather it seems to be deeply impacted by both action observation and execution.

Published
2014

20. Filosofia e filologia

Author

DI GIOVANNI, Pietro, Scarabelli, A, Catania Marrone, R, Balzano, D, Cardini, F, Abbri, F, Accame, F, Bajini, I, Barzaghi, W, Bellini, G, Bianchi, A, Boccali, G, Cacciatore, G, Cavallini, C, Centeno, Y, Chiodi, G, Ciardi, M, Martin Clavijo, M, Colombo, A, Comunale, I, Cotroneo, G, De Cusatis, B, de Natale, F, de Turris, G, Di Giovanni, P, Di Liso, S, Foraboschi, D, Galli, G, Gambin, F, Giorello, G, Sinigaglia, C, Gorris Camos, R, Guerri, M, La Vergata, A, Lomonaco, F, Marini, A, Mauro, L, Miotti, S, Moggio, L, Molino, M, Montaleone, C, Montano, A, Monti, A, Moretti, G, Morosi, V, Nuzzo, E, Olzi, M, Pagetti, C, Patrizi, D, Pedretti, C, Piaia, G, Poggi, S, Ranzani, A, Risari, G, Russo, V, Sapelli, G, Sessa, G, Simonetta, S, Sini, C, Tiozzo, E, Tuppini, T, Vannoni, M, and Vestrucci, A

Subjects
Storia delle idee, Filosofia, Settore M-FIL/06 - Storia Della Filosofia
Abstract

I nuovi saperi: un omaggio a Davide Bigalli

Published
2013

21. Bionic simulation of biological systems: a methodological analysis

Author

DATTERI, EDOARDO, D'Agostino, M, Giorello, G, Laudisa, F, Pievani, D, Sinigaglia, C, and Datteri, E

Subjects
Biorobotica, Bionica, M-FIL/02 - LOGICA E FILOSOFIA DELLA SCIENZA, Filosofia della scienza, Interfacce cervello-macchina, Filosofia delle scienze cognitive
Published
2010

22. Optimal Control of Short-Time Attractors in Active Nematics.

Author

Sinigaglia C, Braghin F, and Serra M

Abstract

Objective Eulerian coherent structures (OECSs) and instantaneous Lyapunov exponents (iLEs) govern short-term material transport in fluid flows as Lagrangian coherent structures and the finite-time Lyapunov exponent do over longer times. Attracting OECSs and iLEs reveal short-time attractors and are computable from the Eulerian rate-of-strain tensor. Here, we devise for the first time an optimal control strategy to create short-time attractors in compressible, viscosity-dominated active nematic flows. By modulating the active stress intensity, our framework achieves a target profile of the minimum eigenvalue of the rate-of-strain tensor, controlling the location and shape of short-time attractors. We show that our optimal control strategy effectively achieves desired short-time attractors while rejecting disturbances. Combining optimal control and coherent structures, our work offers a new perspective to steer material transport in compressible active nematics, with applications to morphogenesis and synthetic active matter.

Published
2024
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23. Distinct gene expression dynamics in developing and regenerating crustacean limbs.

Author

Sinigaglia C, Almazán A, Lebel M, Sémon M, Gillet B, Hughes S, Edsinger E, Averof M, and Paris M

Subjects
Animals, Embryo, Nonmammalian, Gene Expression, Amphipoda embryology, Amphipoda genetics, Extremities embryology, Regeneration genetics
Abstract

Regenerating animals have the ability to reproduce body parts that were originally made in the embryo and subsequently lost due to injury. Understanding whether regeneration mirrors development is an open question in most regenerative species. Here, we take a transcriptomics approach to examine whether leg regeneration shows similar temporal patterns of gene expression as leg development in the embryo, in the crustacean Parhyale hawaiensis . We find that leg development in the embryo shows stereotypic temporal patterns of gene expression. In contrast, the dynamics of gene expression during leg regeneration show a higher degree of variation related to the physiology of individual animals. A major driver of this variation is the molting cycle. We dissect the transcriptional signals of individual physiology and regeneration to obtain clearer temporal signals marking distinct phases of leg regeneration. Comparing the transcriptional dynamics of development and regeneration we find that, although the two processes use similar sets of genes, the temporal patterns in which these genes are deployed are different and cannot be systematically aligned.

Published
2022
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24. Sharing motor plans while acting jointly: A TMS study.

Author

Barchiesi G, Zazio A, Marcantoni E, Bulgari M, Barattieri di San Pietro C, Sinigaglia C, and Bortoletto M

Subjects
Electromyography, Evoked Potentials, Motor physiology, Hand physiology, Humans, Reaction Time, Motor Cortex physiology, Transcranial Magnetic Stimulation methods
Abstract

When acting together, we may represent not only our own individual goals but also a collective goal. Although behavioural evidence suggests that agents' motor plans might be related to collective goals, direct neurophysiological evidence of whether collective goals are motorically represented is still scarce. The aim of the present transcranial magnetic stimulation (TMS) study is to begin to fill this gap. A participant and a confederate were asked to sequentially perform a two-choice reaction time task by acting on pressure sensors. In their own turn, they saw a cue indicating whether to lift their fingers from (or to press them on) a pressure sensor to shoot a ball across the screen as fast as possible. The confederate responded with the right hand, the participant with the left hand. While the confederate acted on the sensor, the participant's motor evoked potentials (MEPs) were collected from the right Extensor Carpi Ulnaris. If participants represent their own and the confederate's actions as being directed to a collective goal, MEPs amplitude should be modulated according to the action the confederate should perform. To test this conjecture, we contrasted three conditions: a Joint condition, in which both players worked together with their collective goal being to shoot the ball to get it to a common target, a Parallel condition, in which the players performed exactly the same task but received independent outcomes for their performance, and a Competitive condition, in which the outcome of the game still depended on the other player performance, but without the collective goal feature. Results showed no MEPs modulation according to the confederate's action in the Joint condition. Post-hoc exploratory analyses both provide some hints about this negative finding and also suggest possible improvements (i.e., adopting a different dependent variable, avoiding task-switching between conditions) for testing our hypothesis that collective goal can be represented motorically., (Copyright © 2022 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2022
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25. The Hazards of Regeneration: From Morgan's Legacy to Evo-Devo.

Author

Sinigaglia C, Alié A, and Tiozzo S

Subjects
Animals, Biological Evolution, Developmental Biology
Abstract

In his prominent book Regeneration (1901), T.H. Morgan's collected and synthesized theoretical and experimental findings from a diverse array of regenerating animals and plants. Through his endeavor, he introduced a new way to study regeneration and its evolution, setting a conceptual framework that still guides today's research and that embraces the contemporary evolutionary and developmental approaches.In the first part of the chapter, we summarize Morgan's major tenets and use it as a narrative thread to advocate interpreting regenerative biology through the theoretical tools provided by evolution and developmental biology, but also to highlight potential caveats resulting from the rapid proliferation of comparative studies and from the expansion of experimental laboratory models. In the second part, we review some experimental evo-devo approaches, highlighting their power and some of their interpretative dangers. Finally, in order to further understand the evolution of regenerative abilities, we portray an adaptive perspective on the evolution of regeneration and suggest a framework for investigating the adaptive nature of regeneration., (© 2022. The Author(s).)

Published
2022
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26. Emerging of new bioartificial corticospinal motor synergies using a robotic additional thumb.

Author

Rossi S, Salvietti G, Neri F, Romanella SM, Cinti A, Sinigaglia C, Ulivelli M, Lisini Baldi T, Santarnecchi E, and Prattichizzo D

Subjects
Adult, Artificial Limbs, Evoked Potentials, Motor, Female, Humans, Magnetic Resonance Imaging, Male, Motor Cortex diagnostic imaging, Motor Neurons physiology, Motor Skills, Thumb innervation, Motor Cortex physiology, Pyramidal Tracts physiology, Robotics instrumentation, Thumb physiology
Abstract

It is likely that when using an artificially augmented hand with six fingers, the natural five plus a robotic one, corticospinal motor synergies controlling grasping actions might be different. However, no direct neurophysiological evidence for this reasonable assumption is available yet. We used transcranial magnetic stimulation of the primary motor cortex to directly address this issue during motor imagery of objects' grasping actions performed with or without the Soft Sixth Finger (SSF). The SSF is a wearable robotic additional thumb patented for helping patients with hand paresis and inherent loss of thumb opposition abilities. To this aim, we capitalized from the solid notion that neural circuits and mechanisms underlying motor imagery overlap those of physiological voluntary actions. After a few minutes of training, healthy humans wearing the SSF rapidly reshaped the pattern of corticospinal outputs towards forearm and hand muscles governing imagined grasping actions of different objects, suggesting the possibility that the extra finger might rapidly be encoded into the user's body schema, which is integral part of the frontal-parietal grasping network. Such neural signatures might explain how the motor system of human beings is open to very quickly welcoming emerging augmentative bioartificial corticospinal grasping strategies. Such an ability might represent the functional substrate of a final common pathway the brain might count on towards new interactions with the surrounding objects within the peripersonal space. Findings provide a neurophysiological framework for implementing augmentative robotic tools in humans and for the exploitation of the SSF in conceptually new rehabilitation settings., (© 2021. The Author(s).)

Published
2021
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27. Consciousness and complexity: a consilience of evidence.

Author

Sarasso S, Casali AG, Casarotto S, Rosanova M, Sinigaglia C, and Massimini M

Abstract

Over the last years, a surge of empirical studies converged on complexity-related measures as reliable markers of consciousness across many different conditions, such as sleep, anesthesia, hallucinatory states, coma, and related disorders. Most of these measures were independently proposed by researchers endorsing disparate frameworks and employing different methods and techniques. Since this body of evidence has not been systematically reviewed and coherently organized so far, this positive trend has remained somewhat below the radar. The aim of this paper is to make this consilience of evidence in the science of consciousness explicit. We start with a systematic assessment of the growing literature on complexity-related measures and identify their common denominator, tracing it back to core theoretical principles and predictions put forward more than 20 years ago. In doing this, we highlight a consistent trajectory spanning two decades of consciousness research and provide a provisional taxonomy of the present literature. Finally, we consider all of the above as a positive ground to approach new questions and devise future experiments that may help consolidate and further develop a promising field where empirical research on consciousness appears to have, so far, naturally converged., Competing Interests: None declared., (© The Author(s) 2021. Published by Oxford University Press.)

Published
2021
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28. Reduced readiness potential and post-movement beta synchronization reflect self-disorders in early course schizophrenia.

Author

Donati FL, Fecchio M, Maestri D, Cornali M, Derchi CC, Casetta C, Zalaffi M, Sinigaglia C, Sarasso S, and D'Agostino A

Subjects
Action Potentials, Adult, Brain physiopathology, Electroencephalography, Female, Humans, Male, Schizophrenia therapy, Severity of Illness Index, Symptom Assessment, Young Adult, Schizophrenia diagnosis, Schizophrenic Psychology
Abstract

Disturbances of conscious awareness, or self-disorders, are a defining feature of schizophrenia. These include symptoms such as delusions of control, i.e. the belief that one's actions are controlled by an external agent. Models of self-disorders point at altered neural mechanisms of source monitoring, i.e. the ability of the brain to discriminate self-generated stimuli from those driven by the environment. However, evidence supporting this putative relationship is currently lacking. We performed electroencephalography (EEG) during self-paced, brisk right fist closures in ten (M = 9; F = 1) patients with Early-Course Schizophrenia (ECSCZ) and age and gender-matched healthy volunteers. We measured the Readiness Potential (RP), i.e. an EEG feature preceding self-generated movements, and movement-related EEG spectral changes. Self-disorders in ECSCZ were assessed with the Examination of Anomalous Self-Experience (EASE). Patients showed a markedly reduced RP and altered post-movement Event-Related Synchronization (ERS) in the beta frequency band (14-24 Hz) compared to healthy controls. Importantly, smaller RP and weaker ERS were associated with higher EASE scores in ECSCZ. Our data suggest that disturbances of neural correlates preceding and following self-initiated movements may reflect the severity of self-disorders in patients suffering from ECSCZ. These findings point towards deficits in basic mechanisms of sensorimotor integration as a substrate for self-disorders., (© 2021. The Author(s).)

Published
2021
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29. Colors and Handles: How Action Primes Perception.

Author

Costantini M, Quarona D, and Sinigaglia C

Abstract

How deeply does action influence perception? Does action performance affect the perception of object features directly related to action only? Or does it concern also object features such as colors, which are not held to directly afford action? The present study aimed at answering these questions. We asked participants to repeatedly grasp a handled mug hidden from their view before judging whether a visually presented mug was blue rather than cyan. The motor training impacted on their perceptual judgments, by speeding participants' responses, when the handle of the presented mug was spatially aligned with the trained hand. The priming effect did not occur when participants were trained to merely touch the mug with their hand closed in a fist. This indicates that action performance may shape the perceptual judgment on object features, even when these features are colors and do not afford any action. How we act on surrounding objects is therefore not without consequence for how we experience them., 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 Costantini, Quarona and Sinigaglia.)

Published
2021
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30. Neurotypical individuals fail to understand action vitality form in children with autism spectrum disorder.

Author

Casartelli L, Federici A, Fumagalli L, Cesareo A, Nicoli M, Ronconi L, Vitale A, Molteni M, Rizzolatti G, and Sinigaglia C

Subjects
Adult, Child, Female, Healthy Volunteers, Humans, Male, Young Adult, Autism Spectrum Disorder psychology, Comprehension, Recognition, Psychology, Social Interaction
Abstract

Any defects of sociality in individuals diagnosed with autism spectrum disorder (ASD) are standardly explained in terms of those individuals' putative impairments in a variety of cognitive functions. Recently, however, the need for a bidirectional approach to social interaction has been emphasized. Such an approach highlights differences in basic ways of acting between ASD and neurotypical individuals which would prevent them from understanding each other. Here we pursue this approach by focusing on basic action features reflecting the agent's mood and affective states. These are action features Stern named "vitality forms," and which are widely assumed to substantiate core social interactions [D. N. Stern, The Interpersonal World of the Infant (1985); D. N. Stern, Forms of Vitality Exploring Dynamic Experience in Psychology, Arts, Psychotherapy, and Development (2010)]. Previously we demonstrated that, although ASD and typically developing (TD) children alike differentiate vitality forms when performing actions, ASD children express them in a way that is motorically dissimilar to TD children. To assess whether this motor dissimilarity may have consequences for vitality form recognition, we asked neurotypical participants to identify the vitality form of different types of action performed by ASD or TD children. We found that participants exhibited remarkable inaccuracy in identifying ASD children's vitality forms. Interestingly, their performance did not benefit from information feedback. This indicates that how people act matters for understanding others and for being understood by them. Because vitality forms pervade every aspect of daily life, our findings promise to open the way to a deeper comprehension of the bidirectional difficulties for both ASD and neurotypical individuals in interacting with one another., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published
2020
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31. Pattern regulation in a regenerating jellyfish.

Author

Sinigaglia C, Peron S, Eichelbrenner J, Chevalier S, Steger J, Barreau C, Houliston E, and Leclère L

Subjects
Animals, Cell Movement, Hydrozoa cytology, Hydrozoa metabolism, Wnt Proteins metabolism, Wnt Signaling Pathway, Body Patterning physiology, Hydrozoa physiology, Regeneration physiology
Abstract

Jellyfish, with their tetraradial symmetry, offer a novel paradigm for addressing patterning mechanisms during regeneration. Here we show that an interplay between mechanical forces, cell migration and proliferation allows jellyfish fragments to regain shape and functionality rapidly, notably by efficient restoration of the central feeding organ (manubrium). Fragmentation first triggers actomyosin-powered remodeling that restores body umbrella shape, causing radial smooth muscle fibers to converge around 'hubs' which serve as positional landmarks. Stabilization of these hubs, and associated expression of Wnt6 , depends on the configuration of the adjoining muscle fiber 'spokes'. Stabilized hubs presage the site of the manubrium blastema, whose growth is Wnt/β-catenin dependent and fueled by both cell proliferation and long-range cell recruitment. Manubrium morphogenesis is modulated by its connections with the gastrovascular canal system. We conclude that body patterning in regenerating jellyfish emerges mainly from local interactions, triggered and directed by the remodeling process., Competing Interests: CS, SP, JE, SC, JS, CB, EH, LL No competing interests declared, (© 2020, Sinigaglia et al.)

Published
2020
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33. How Tool-Use Shapes Body Metric Representation: Evidence From Motor Training With and Without Robotic Assistance.

Author

Bruno V, Carpinella I, Rabuffetti M, De Giuli L, Sinigaglia C, Garbarini F, and Ferrarin M

Abstract

Previous evidence has shown that tool-use can reshape one's own body schema, extending peripersonal space and modulating the representation of related body parts. Here, we investigated the role of tool action in shaping the body metric representation, by contrasting two different views. According to a first view, the shaping would rely on the mere execution of tool action, while the second view suggests that the shaping induced by tool action on body representation would primarily depend on the representation of the action goals to be accomplished. To this aim, we contrasted a condition in which participants voluntarily accomplish the movement by representing the program and goal of a tool action (i.e., active tool-use training) with a condition in which the tool-use training was produced without any prior goal representation (i.e., passive tool-use training by means of robotic assistance). If the body metric representation primarily depends on the coexistence between goal representation and bodily movements, we would expect an increase of the perceived forearm length in the post- with respect to the pre-training phase after the active training phase only. Healthy participants were asked to estimate the midpoint of their right forearm before and after 20 min of tool-use training. In the active condition, subjects performed "enfold-and-push" movements using a rake to prolong their arm. In the passive condition, subjects were asked to be completely relaxed while the movements were performed with robotic assistance. Results showed a significant increase in the perceived arm length in the post- with respect to the pre-training phase only in the active task. Interestingly, only in the post-training phase, a significant difference was found between active and passive conditions, with a higher perceived arm length in the former than in the latter. From a theoretical perspective, these findings suggest that tool-use may shape body metric representation only when action programs are motorically represented and not merely produced. From a clinical perspective, these results support the use of robots for the rehabilitation of brain-damaged hemiplegic patients, provided that robot assistance during the exercises is present only "as-needed" and that patients' motor representation is actively involved., (Copyright © 2019 Bruno, Carpinella, Rabuffetti, De Giuli, Sinigaglia, Garbarini and Ferrarin.)

Published
2019
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34. A Widely Applicable Urea-based Fluorescent/Colorimetric mRNA in situ Hybridization Protocol.

Author

Sinigaglia C

Abstract

In situ hybridization methods are routinely employed to detect nucleic acid sequences, allowing to localize gene expression or to study chromosomal organization in their native context. These methods rely on the pairwise binding of a labeled probe to the target endogenous nucleic acid sequence-the hybridization step, followed by detection of annealed sequences by means of fluorescent or colorimetric reactions. Successful hybridization requires permeabilization of tissues, followed by denaturation of nucleic acids strands, which is usually carried out in a formamide-based buffer and at high temperatures. Such reaction conditions, besides posing a health hazard (both concerning manipulation and waste disposal), can be excessively harsh for the delicate tissues of some species or developmental stages. We detail here an alternative method for in situ hybridization, where the toxic formamide is replaced with a urea solution. This substitution improved both tissues preservation and signal-to-noise detection, in several animal species. The protocol described here, originally developed for the hydrozoan jellyfish Clytia hemisphaerica , provides guidelines for adapting formamide-based traditional protocols to the urea variant. Urea-based protocols have already been successfully applied to diverse invertebrate and vertebrate species, showing the ease of such a modification, and providing the scientific community with a promising, safer and versatile tool., Competing Interests: Competing interestsThe author declares there are no competing interests., (Copyright © 2019 The Authors; exclusive licensee Bio-protocol LLC.)

Published
2019
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35. The multifaceted role of nerves in animal regeneration.

Author

Sinigaglia C and Averof M

Subjects
Animals, Extremities innervation, Nerve Regeneration physiology, Nervous System metabolism, Urodela growth & development, Extremities growth & development, Nerve Regeneration genetics, Nervous System growth & development, Vertebrates growth & development
Abstract

The discovery that the nervous system plays a critical role in salamander limb regeneration, in 1823, provided the first mechanistic insights into regenerative phenomena and stimulated a long quest for molecular regulators. A role for nerves in the context of regeneration has been suggested for most vertebrate and invertebrate groups, thus offering a possible shared mechanism for the regulation of regenerative processes among animals. Methodological differences and technical limitations, especially in invertebrate groups, have so far hampered broad comparisons and the search for common principles on the role of nerves. This review considers both old and recent work in this topic and provides a broad perspective on the roles of nerves during regeneration. Nerves are found consistently to have important roles in regeneration, but their mode of action varies across species. The ongoing technological developments in a broad range of invertebrate models are now paving the way for the discovery of the shared and unique roles of nerves in animal regeneration., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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36. How action performance affects object perception.

Author

Costantini M, Tommasi L, and Sinigaglia C

Subjects
Female, Humans, Male, Photic Stimulation methods, Random Allocation, Young Adult, Feedback, Sensory physiology, Hand Strength physiology, Psychomotor Performance physiology, Reaction Time physiology, Visual Perception physiology
Abstract

How deep is the linkage between action and perception? Much is known about how object perception impacts on action performance, much less about how action performance affects object perception. Does action performance affect perceptual judgment on object features such as shape and orientation? Answering these questions was the aim of the present study. Participants were asked to reach and grasp a handled mug without any visual feedback before judging whether a visually presented mug was handled or not. Performing repeatedly a grasping action resulted in a perceptual categorization aftereffect as measured by a slowdown in the judgment on a handled mug. We suggest that what people are doing may impact on their perceptual judgments on the surrounding things.

Published
2019
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37. The genome of the jellyfish Clytia hemisphaerica and the evolution of the cnidarian life-cycle.

Author

Leclère L, Horin C, Chevalier S, Lapébie P, Dru P, Peron S, Jager M, Condamine T, Pottin K, Romano S, Steger J, Sinigaglia C, Barreau C, Quiroga Artigas G, Ruggiero A, Fourrage C, Kraus JEM, Poulain J, Aury JM, Wincker P, Quéinnec E, Technau U, Manuel M, Momose T, Houliston E, and Copley RR

Subjects
Animals, Evolution, Molecular, Genome, Hydrozoa
Abstract

Jellyfish (medusae) are a distinctive life-cycle stage of medusozoan cnidarians. They are major marine predators, with integrated neurosensory, muscular and organ systems. The genetic foundations of this complex form are largely unknown. We report the draft genome of the hydrozoan jellyfish Clytia hemisphaerica and use multiple transcriptomes to determine gene use across life-cycle stages. Medusa, planula larva and polyp are each characterized by distinct transcriptome signatures reflecting abrupt life-cycle transitions and all deploy a mixture of phylogenetically old and new genes. Medusa-specific transcription factors, including many with bilaterian orthologues, associate with diverse neurosensory structures. Compared to Clytia, the polyp-only hydrozoan Hydra has lost many of the medusa-expressed transcription factors, despite similar overall rates of gene content evolution and sequence evolution. Absence of expression and gene loss among Clytia orthologues of genes patterning the anthozoan aboral pole, secondary axis and endomesoderm support simplification of planulae and polyps in Hydrozoa, including loss of bilateral symmetry. Consequently, although the polyp and planula are generally considered the ancestral cnidarian forms, in Clytia the medusa maximally deploys the ancestral cnidarian-bilaterian transcription factor gene complement.

Published
2019
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38. A safer, urea-based in situ hybridization method improves detection of gene expression in diverse animal species.

Author

Sinigaglia C, Thiel D, Hejnol A, Houliston E, and Leclère L

Subjects
Animals, Gene Expression Regulation, Hydrozoa genetics, Species Specificity, Gene Expression Profiling methods, Hydrozoa metabolism, In Situ Hybridization methods, Urea chemistry
Abstract

In situ hybridization is a widely employed technique allowing spatial visualization of gene expression in fixed specimens. It has greatly advanced our understanding of biological processes, including developmental regulation. In situ protocols are today routinely followed in numerous laboratories, and although details might change, they all include a hybridization step, where specific antisense RNA or DNA probes anneal to the target nucleic acid sequence. This step is generally carried out at high temperatures and in a denaturing solution, called hybridization buffer, commonly containing 50% (v/v) formamide - a hazardous chemical. When applied to the soft-bodied hydrozoan medusa Clytia hemisphaerica, we found that this traditional hybridization approach was not fully satisfactory, causing extensive deterioration of morphology and tissue texture which compromised our observation and interpretation of results. We thus tested alternative solutions for in situ detection of gene expression and, inspired by optimized protocols for Northern and Southern blot analysis, we substituted the 50% formamide with an equal volume of 8M urea solution in the hybridization buffer. Our new protocol not only yielded better morphologies and tissue consistency, but also notably improved the resolution of the signal, allowing more precise localization of gene expression and reducing aspecific staining associated with problematic areas. Given the improved results and reduced manipulation risks, we tested the urea protocol on other metazoans, two brachiopod species (Novocrania anomala and Terebratalia transversa) and the priapulid worm Priapulus caudatus, obtaining a similar reduction of aspecific probe binding. Overall, substitution of formamide by urea during in situ hybridization offers a safer alternative, potentially of widespread use in research, medical and teaching contexts. We encourage other workers to test this approach on their study organisms, and hope that they will also obtain better sample preservation, more precise expression patterns and fewer problems due to aspecific staining, as we report here for Clytia medusae and Novocrania and Terebratalia developing larvae., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2018
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39. Peripersonal space representation develops independently from visual experience.

Author

Ricciardi E, Menicagli D, Leo A, Costantini M, Pietrini P, and Sinigaglia C

Subjects
Adult, Female, Hand Strength physiology, Humans, Male, Orientation physiology, Personal Space, Reaction Time physiology, Space Perception physiology, Visual Perception physiology
Abstract

Our daily-life actions are typically driven by vision. When acting upon an object, we need to represent its visual features (e.g. shape, orientation, etc.) and to map them into our own peripersonal space. But what happens with people who have never had any visual experience? How can they map object features into their own peripersonal space? Do they do it differently from sighted agents? To tackle these questions, we carried out a series of behavioral experiments in sighted and congenitally blind subjects. We took advantage of a spatial alignment effect paradigm, which typically refers to a decrease of reaction times when subjects perform an action (e.g., a reach-to-grasp pantomime) congruent with that afforded by a presented object. To systematically examine peripersonal space mapping, we presented visual or auditory affording objects both within and outside subjects' reach. The results showed that sighted and congenitally blind subjects did not differ in mapping objects into their own peripersonal space. Strikingly, this mapping occurred also when objects were presented outside subjects' reach, but within the peripersonal space of another agent. This suggests that (the lack of) visual experience does not significantly affect the development of both one's own and others' peripersonal space representation.

Published
2017
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40. Drawn together: When motor representations ground joint actions.

Author

Della Gatta F, Garbarini F, Rabuffetti M, Viganò L, Butterfill SA, and Sinigaglia C

Subjects
Adult, Female, Goals, Humans, Male, Young Adult, Interpersonal Relations, Psychomotor Performance
Abstract

What enables individuals to act together? Recent discoveries suggest that a variety of mechanisms are involved. But something fundamental is yet to be investigated. In joint action, agents represent a collective goal, or so it is often assumed. But how, if at all, are collective goals represented in joint action and how do such representations impact performance? To investigate this question we adapted a bimanual paradigm, the circle-line drawing paradigm, to contrast two agents acting in parallel with two agents performing a joint action. Participants were required to draw lines or circles while observing circles or lines being drawn. The findings indicate that interpersonal motor coupling may occur in joint but not parallel action. This suggests that participants in joint actions can represent collective goals motorically., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published
2017
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41. The mirror mechanism: a basic principle of brain function.

Author

Rizzolatti G and Sinigaglia C

Subjects
Animals, Cognition physiology, Emotions physiology, Humans, Nerve Net cytology, Nerve Net physiology, Psychomotor Performance physiology, Brain cytology, Brain physiology, Brain Mapping methods, Mirror Neurons physiology
Abstract

The mirror mechanism is a basic brain mechanism that transforms sensory representations of others' behaviour into one's own motor or visceromotor representations concerning that behaviour. According to its location in the brain, it may fulfil a range of cognitive functions, including action and emotion understanding. In each case, it may enable a route to knowledge of others' behaviour, which mainly depends on one's own motor or visceromotor representations.

Published
2016
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42. Development of the aboral domain in Nematostella requires β-catenin and the opposing activities of Six3/6 and Frizzled5/8.

Author

Leclère L, Bause M, Sinigaglia C, Steger J, and Rentzsch F

Subjects
Animals, Benzazepines pharmacology, Biomarkers metabolism, Cell Polarity drug effects, Fibroblast Growth Factors metabolism, Gastrulation drug effects, Gastrulation genetics, Gene Expression Regulation, Developmental drug effects, Gene Knockdown Techniques, Indoles pharmacology, Models, Biological, Protein Binding drug effects, Sea Anemones drug effects, Sea Anemones genetics, Signal Transduction drug effects, Transcription, Genetic drug effects, Homeobox Protein SIX3, Body Patterning drug effects, Body Patterning genetics, Eye Proteins metabolism, Frizzled Receptors metabolism, Homeodomain Proteins metabolism, Nerve Tissue Proteins metabolism, Sea Anemones embryology, Sea Anemones metabolism, beta Catenin metabolism
Abstract

The development of the oral pole in cnidarians and the posterior pole in bilaterians is regulated by canonical Wnt signaling, whereas a set of transcription factors, including Six3/6 and FoxQ2, controls aboral development in cnidarians and anterior identity in bilaterians. However, it is poorly understood how these two patterning systems are initially set up in order to generate correct patterning along the primary body axis. Investigating the early steps of aboral pole formation in the sea anemone Nematostella vectensis, we found that, at blastula stage, oral genes are expressed before aboral genes and that Nvβ-catenin regulates both oral and aboral development. In the oral hemisphere, Nvβ-catenin specifies all subdomains except the oral-most, NvSnailA-expressing domain, which is expanded upon Nvβ-catenin knockdown. In addition, Nvβ-catenin establishes the aboral patterning system by promoting the expression of NvSix3/6 at the aboral pole and suppressing the Wnt receptor NvFrizzled5/8 at the oral pole. NvFrizzled5/8 expression thereby gets restricted to the aboral domain. At gastrula stage, NvSix3/6 and NvFrizzled5/8 are both expressed in the aboral domain, but they have opposing activities, with NvSix3/6 maintaining and NvFrizzled5/8 restricting the size of the aboral domain. At planula stage, NvFrizzled5/8 is required for patterning within the aboral domain and for regulating the size of the apical organ by modulation of a previously characterized FGF feedback loop. Our findings suggest conserved roles for Six3/6 and Frizzled5/8 in aboral/anterior development and reveal key functions for Nvβ-catenin in the patterning of the entire oral-aboral axis of Nematostella., (© 2016. Published by The Company of Biologists Ltd.)

Published
2016
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43. Press to grasp: how action dynamics shape object categorization.

Author

Triberti S, Repetto C, Costantini M, Riva G, and Sinigaglia C

Subjects
Adult, Female, Humans, Male, Young Adult, Hand Strength physiology, Pattern Recognition, Visual classification, Pattern Recognition, Visual physiology, Photic Stimulation methods, Psychomotor Performance physiology
Abstract

Action and object are deeply linked to each other. Not only can viewing an object influence an ongoing action, but motor representations of action can also influence visual categorization of objects. It is tempting to assume that this influence is effector-specific. However, there is indirect evidence suggesting that this influence may be related to the action goal and not just to the effector involved in achieving it. This paper aimed, for the first time, to tackle this issue directly. Participants were asked to categorize different objects in terms of the effector (e.g. hand or foot) typically used to act upon them. The task was delivered before and after a training session in which participants were instructed either just to press a pedal with their foot or to perform the same foot action with the goal of guiding an avatar's hand to grasp a small ball. Results showed that pressing a pedal to grasp a ball influenced how participants correctly identified graspable objects as hand-related ones, making their responses more uncertain than before the training. Just pressing a pedal did not have any similar effect. This is evidence that the influence of action on object categorization can be goal-related rather than effector-specific.

Published
2016
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44. A cnidarian homologue of an insect gustatory receptor functions in developmental body patterning.

Author

Saina M, Busengdal H, Sinigaglia C, Petrone L, Oliveri P, Rentzsch F, and Benton R

Subjects
Animals, Blastula metabolism, Chemoreceptor Cells metabolism, Cloning, Molecular, Evolution, Molecular, Gastrula metabolism, Genome, Genomics, Insecta, Neurons metabolism, Phylogeny, Receptors, Cell Surface metabolism, Sea Anemones genetics, Sensory Receptor Cells metabolism, Signal Transduction, Strongylocentrotus purpuratus genetics, Body Patterning, Gene Expression Regulation, Developmental, Insect Proteins metabolism, Sea Anemones embryology, Strongylocentrotus purpuratus embryology
Abstract

Insect gustatory and odorant receptors (GRs and ORs) form a superfamily of novel transmembrane proteins, which are expressed in chemosensory neurons that detect environmental stimuli. Here we identify homologues of GRs (Gustatory receptor-like (Grl) genes) in genomes across Protostomia, Deuterostomia and non-Bilateria. Surprisingly, two Grls in the cnidarian Nematostella vectensis, NvecGrl1 and NvecGrl2, are expressed early in development, in the blastula and gastrula, but not at later stages when a putative chemosensory organ forms. NvecGrl1 transcripts are detected around the aboral pole, considered the equivalent to the head-forming region of Bilateria. Morpholino-mediated knockdown of NvecGrl1 causes developmental patterning defects of this region, leading to animals lacking the apical sensory organ. A deuterostome Grl from the sea urchin Strongylocentrotus purpuratus displays similar patterns of developmental expression. These results reveal an early evolutionary origin of the insect chemosensory receptor family and raise the possibility that their ancestral role was in embryonic development.

Published
2015
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45. Molecular characterization of the apical organ of the anthozoan Nematostella vectensis.

Author

Sinigaglia C, Busengdal H, Lerner A, Oliveri P, and Rentzsch F

Subjects
Animals, Embryo, Nonmammalian metabolism, Evolution, Molecular, Fibroblast Growth Factors metabolism, Gene Expression Profiling, In Situ Hybridization, Metamorphosis, Biological genetics, Neurons metabolism, Oligonucleotide Array Sequence Analysis, Phylogeny, Sea Urchins embryology, Sea Urchins physiology, Signal Transduction, Species Specificity, Transcription Factors metabolism, Cilia physiology, Gene Expression Regulation, Developmental, Nervous System embryology, Sea Anemones embryology, Sea Anemones physiology, Sense Organs embryology
Abstract

Apical organs are sensory structures present in many marine invertebrate larvae where they are considered to be involved in their settlement, metamorphosis and locomotion. In bilaterians they are characterised by a tuft of long cilia and receptor cells and they are associated with groups of neurons, but their relatively low morphological complexity and dispersed phylogenetic distribution have left their evolutionary relationship unresolved. Moreover, since apical organs are not present in the standard model organisms, their development and function are not well understood. To provide a foundation for a better understanding of this structure we have characterised the molecular composition of the apical organ of the sea anemone Nematostella vectensis. In a microarray-based comparison of the gene expression profiles of planulae with either a wildtype or an experimentally expanded apical organ, we identified 78 evolutionarily conserved genes, which are predominantly or specifically expressed in the apical organ of Nematostella. This gene set comprises signalling molecules, transcription factors, structural and metabolic genes. The majority of these genes, including several conserved, but previously uncharacterized ones, are potentially involved in different aspects of the development or function of the long cilia of the apical organ. To demonstrate the utility of this gene set for comparative analyses, we further analysed the expression of a subset of previously uncharacterized putative orthologs in sea urchin larvae and detected expression for twelve out of eighteen of them in the apical domain. Our study provides a molecular characterization of the apical organ of Nematostella and represents an informative tool for future studies addressing the development, function and evolutionary history of apical organ cells., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2015
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46. When a laser pen becomes a stick: remapping of space by tool-use observation in hemispatial neglect.

Author

Costantini M, Frassinetti F, Maini M, Ambrosini E, Gallese V, and Sinigaglia C

Subjects
Aged, Brain Injuries diagnosis, Female, Hand physiopathology, Humans, Male, Middle Aged, Orientation physiology, Perceptual Disorders diagnosis, Brain Injuries pathology, Functional Laterality physiology, Lasers, Perceptual Disorders pathology, Space Perception physiology
Abstract

The role of active tool use in the remapping of space in hemispatial neglect patients has been extensively investigated. To date, however, there is no evidence that observing tool use can play a role in the remapping of space in hemispatial neglect patients. In this study, a patient with a severe hemispatial neglect in near but not far space and twelve healthy controls were asked to bisect near and far lines using a laser pen. The task was performed both before and immediately after sessions in which they merely observed the experimenter bisecting near and far lines with a stick. During the observation session, participants were either holding an identical stick or empty-handed. Results, in both the neglect patient and healthy controls, showed that observing the experimenter bisecting line while holding the same tool, produces a remapping of the far space into the near space. This result was particularly evident in the neglect patient where observing line-bisection task extended the spatial deficit from the near to the far space. Our results provide new empirical support to the idea that the space around us is not mapped in merely metrical terms, rather it seems to be deeply impacted by both action observation and execution.

Published
2014
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47. The neural correlates of 'vitality form' recognition: an fMRI study: this work is dedicated to Daniel Stern, whose immeasurable contribution to science has inspired our research.

Author

Di Cesare G, Di Dio C, Rochat MJ, Sinigaglia C, Bruschweiler-Stern N, Stern DN, and Rizzolatti G

Subjects
Adult, Biomechanical Phenomena, Brain physiology, Brain Mapping, Female, Goals, Humans, Magnetic Resonance Imaging, Male, Neural Pathways physiology, Video Recording, Young Adult, Motion Perception physiology, Recognition, Psychology physiology, Social Perception
Abstract

The observation of goal-directed actions performed by another individual allows one to understand what that individual is doing and why he/she is doing it. Important information about others' behaviour is also carried out by the dynamics of the observed action. Action dynamics characterize the 'vitality form' of an action describing the cognitive and affective relation between the performing agent and the action recipient. Here, using the fMRI technique, we assessed the neural correlates of vitality form recognition presenting participants with videos showing two actors executing actions with different vitality forms: energetic and gentle. The participants viewed the actions in two tasks. In one task (what), they had to focus on the goal of the presented action; in the other task (how), they had to focus on the vitality form. For both tasks, activations were found in the action observation/execution circuit. Most interestingly, the contrast how vs what revealed activation in right dorso-central insula, highlighting the involvement, in the recognition of vitality form, of an anatomical region connecting somatosensory areas with the medial temporal region and, in particular, with the hippocampus. This somatosensory-insular-limbic circuit could underlie the observers' capacity to understand the vitality forms conveyed by the observed action., (© The Author (2013). Published by Oxford University Press. For Permissions, please email: journals.permissions@oup.com.)

Published
2014
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48. How your hand drives my eyes.

Author

Costantini M, Ambrosini E, Cardellicchio P, and Sinigaglia C

Subjects
Adult, Biomechanical Phenomena, Eye Movement Measurements, Female, Goals, Humans, Male, Motor Cortex physiopathology, Social Perception, Temporal Lobe physiopathology, Transcranial Magnetic Stimulation, Eye Movements, Hand, Motion Perception physiology, Motor Cortex physiology, Temporal Lobe physiology
Abstract

When viewing object-related hand actions people make proactive eye movements of the same kind as those made when performing such actions. Why is this so? It has been suggested that proactive gaze when viewing a given hand action depends on the recruitment of motor areas such as the ventral premotor (PMv) cortex that would be involved in the execution of that action. However, direct evidence for a distinctive role of the PMv cortex in driving gaze behavior is still lacking. We recorded eye moments while viewing hand actions before and immediately after delivering repetitive transcranial magnetic stimulation (rTMS) over the left PMv and the posterior part of the left superior temporal sulcus, which is known to be involved in high-order visual action processing. Our results showed that rTMS-induced effects were selective with respect to the viewed actions following the virtual lesion of the left PMv only. This, for the first time, provides direct evidence that the PMv cortex might selectively contribute to driving the viewer's gaze to the action's target. When people view another's action, their eyes may be driven by motor processes similar to those they would need to perform the action themselves.

Published
2014
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49. Understanding action with the motor system.

Author

Gallese V and Sinigaglia C

Subjects
Animals, Humans, Biological Evolution, Brain physiology, Learning physiology, Mirror Neurons physiology, Social Perception
Abstract

We challenge Cook et al.'s claim about the vagueness of the notion of action understanding in relation with mirror neurons. We show the multidimensional nature of action understanding and provide a definition of motor-based action understanding, shedding new light on the various components of action understanding and on their relationship. Finally, we propose an alternative perspective on the origin of mirror neurons, stressing the necessity to abandon the dichotomy between genetic and associative hypotheses.

Published
2014
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50. Impaired vitality form recognition in autism.

Author

Rochat MJ, Veroni V, Bruschweiler-Stern N, Pieraccini C, Bonnet-Brilhault F, Barthélémy C, Malvy J, Sinigaglia C, Stern DN, and Rizzolatti G

Subjects
Adolescent, Analysis of Variance, Child, Female, Humans, Male, Young Adult, Autistic Disorder complications, Goals, Memory Disorders etiology, Recognition, Psychology physiology
Abstract

Along with the understanding of the goal of an action ("what" is done) and the intention underlying it ("why" it is done), social interactions largely depend on the appraisal of the action from the dynamics of the movement: "how" it is performed (its "vitality form"). Do individuals with autism, especially children, possess this capacity? Here we show that, unlike typically developing individuals, individuals with autism reveal severe deficits in recognizing vitality forms, and their capacity to appraise them does not improve with age. Deficit in vitality form recognition appears, therefore, to be a newly recognized trait marker of autism., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published
2013
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