Your search keyword '"Cattaneo, Z"' showing total 13 results

1. The chronometry of symmetry detection in the lateral occipital (LO) cortex

Author

Cattaneo, Z, Bona, S, Ciricugno, A, Silvanto, J, Cattaneo Z., Bona S., Ciricugno A., Silvanto J., Cattaneo, Z, Bona, S, Ciricugno, A, Silvanto, J, Cattaneo Z., Bona S., Ciricugno A., and Silvanto J.

Abstract

The lateral occipital cortex (LO) has been shown to code the presence of both vertical and horizontal visual symmetry in dot patterns. However, the specific time window at which LO is causally involved in symmetry encoding has not been investigated. This was assessed using a chronometric transcranial magnetic stimulation (TMS) approach. Participants were presented with a series of dot configurations and instructed to judge whether they were symmetric along the vertical axis or not while receiving a double pulse of TMS over either the right LO (rLO) or the vertex (baseline) at different time windows (ranging from 50 ms to 290 ms from stimulus onset). We found that TMS delivered over the rLO significantly decreased participants’ accuracy in discriminating symmetric from non-symmetric patterns when TMS was applied between 130 ms and 250 ms from stimulus onset, suggesting that LO is causally involved in symmetry perception within this time window. These findings confirm and extend prior neuroimaging and ERP evidence by demonstrating not only that LO is causally involved in symmetry encoding but also that its contribution occurs in a relatively large temporal window, at least in tasks requiring fast discrimination of mirror symmetry in briefly (75 ms) presented patterns as in our study.

Published

2022

2. Space at home and psychological distress during the Covid-19 lockdown in Italy

Author

Fornara, F, Mosca, O, Bosco, A, Caffo, A, Lopez, A, Iachini, T, Ruggiero, G, Ruotolo, F, Sbordone, F, Ferrara, A, Cattaneo, Z, Arioli, M, Frassinetti, F, Candini, M, Miola, L, Pazzaglia, F, Fornara F., Mosca O., Bosco A., Caffo A. O., Lopez A., Iachini T., Ruggiero G., Ruotolo F., Sbordone F. L., Ferrara A., Cattaneo Z., Arioli M., Frassinetti F., Candini M., Miola L., Pazzaglia F., Fornara, F, Mosca, O, Bosco, A, Caffo, A, Lopez, A, Iachini, T, Ruggiero, G, Ruotolo, F, Sbordone, F, Ferrara, A, Cattaneo, Z, Arioli, M, Frassinetti, F, Candini, M, Miola, L, Pazzaglia, F, Fornara F., Mosca O., Bosco A., Caffo A. O., Lopez A., Iachini T., Ruggiero G., Ruotolo F., Sbordone F. L., Ferrara A., Cattaneo Z., Arioli M., Frassinetti F., Candini M., Miola L., and Pazzaglia F.

Abstract

Prolonged periods of restrictions on people's freedom of movement during the first massive wave of the COVID-19 pandemic meant that most people engaged in all their daily activities at home. This suggested the need for the spatial features of the home and its occupants' perception of them to be investigated in terms of people's wellbeing. The present study was conducted on a large sample (N = 1354) drawn from different Italian regions. It examined the relationship between the “objective” and “subjective” dimensions of the home, measured in terms of objective home crowding and satisfaction with the space at home, in relation to perceived stress and the perceived risk of COVID-19 infection during the lockdown. The results showed that perceived stress is influenced by objective home crowding through the mediation of satisfaction with the space at home. These associations were more pronounced in younger generations. The negative association between satisfaction with the space at home and perceived stress was higher, the lower the perceived COVID-19 risk.

Published

2022

3. Distinct Cerebellar regions for Body Motion Discrimination

Author

Ferrari, C, Ciricugno, A, Battelli, L, Grossman, E, Cattaneo, Z, Grossman, ED, Ferrari, C, Ciricugno, A, Battelli, L, Grossman, E, Cattaneo, Z, and Grossman, ED

Abstract

Visual processing of human movements is critical for adaptive social behavior. Cerebellar activations have been observed during biological motion discrimination in prior neuroimaging studies, and cerebellar lesions may be detrimental for this task. However, whether the cerebellum plays a causal role in biological motion discrimination has never been tested. Here, we addressed this issue in three different experiments by interfering with the posterior cerebellar lobe using transcranial magnetic stimulation (TMS) during a biological discrimination task. In Experiments 1 and 2, we found that TMS delivered at onset of the visual stimuli over the vermis (vermal lobule VI), but not over the left cerebellar hemisphere (left lobule VI/Crus I), interfered with participants' ability to distinguish biological from scrambled motion compared to stimulation of a control site (vertex). Interestingly, when stimulation was delivered at a later time point (300 ms after stimulus onset), participants performed worse when TMS was delivered over the left cerebellar hemisphere compared to the vermis and the vertex (Experiment 3). Our data show that the posterior cerebellum is causally involved in biological motion discrimination and suggest that different sectors of the posterior cerebellar lobe may contribute to the task at different time points.

Published

2022

4. Cerebellar contribution to emotional body language perception: a TMS study

Author

Ferrari, C, Ciricugno, A, Urgesi, C, Cattaneo, Z, Ferrari, C, Ciricugno, A, Urgesi, C, and Cattaneo, Z

Abstract

Consistent evidence suggests that the cerebellum contributes to the processing of emotional facial expressions. However, it is not yet known whether the cerebellum is recruited when emotions are expressed by body postures or movements, or whether it is recruited differently for positive and negative emotions. In this study, we asked healthy participants to discriminate between body postures (with masked face) expressing emotions of opposite valence (happiness vs anger, Experiment 1), or of the same valence (negative: anger vs sadness; positive: happiness vs surprise, Experiment 2). While performing the task, participants received online transcranial magnetic stimulation (TMS) over a region of the posterior left cerebellum and over two control sites (early visual cortex and vertex). We found that TMS over the cerebellum affected participants' ability to discriminate emotional body postures, but only when one of the emotions was negatively valenced (i.e. anger). These findings suggest that the cerebellar region we stimulated is involved in processing the emotional content conveyed by body postures and gestures. Our findings complement prior evidence on the role of the cerebellum in emotional face processing and have important implications from a clinical perspective, where non-invasive cerebellar stimulation is a promising tool for the treatment of motor, cognitive and affective deficits.

Published

2022

5. Dorsomedial prefrontal cortex and cerebellar contribution to in-group attitudes: a transcranial magnetic stimulation study

Author

Gamond, L, Ferrari, C, LA ROCCA, S, Cattaneo, Z, GAMOND, LUCILE, FERRARI, CHIARA, LA ROCCA, STEFANIA, CATTANEO, ZAIRA, Gamond, L, Ferrari, C, LA ROCCA, S, Cattaneo, Z, GAMOND, LUCILE, FERRARI, CHIARA, LA ROCCA, STEFANIA, and CATTANEO, ZAIRA

Abstract

We tend to express more positive judgments and behaviors toward individuals belonging to our own group compared to other (out-) groups. In this study, we assessed the role of the cerebellum and of the dorsomedial prefrontal cortex (dmPFC) – two regions critically implicated in social cognition processes – in mediating implicit valenced attitudes toward in-group and out-group individuals. To this aim, we used transcranial magnetic stimulation (TMS) in combination with a standard attitude priming task, in which Caucasian participants had to categorize the valence of a series of adjectives primed by either an in-group or an out-group face. In two behavioral experiments, we found an in-group bias (i.e. faster categorization of positive adjectives when preceded by in-group faces) but no evidence of an out-group bias. Interestingly, TMS over both the dmPFC and over the (right) cerebellum significantly interfered with the modulation exerted by group membership on adjective valence classification, abolishing the in-group bias observed at baseline. Overall, our data suggest that both the dmPFC and the cerebellum play a causal role in mediating implicit social attitudes.

Published

2017

6. The neural basis of mirror symmetry detection: a review

Author

Cattaneo, Z, CATTANEO, ZAIRA, Cattaneo, Z, and CATTANEO, ZAIRA

Abstract

The human visual system is extremely sensitive to the presence of bilateral (mirror) symmetry. In this review, I summarise the results of recent work investigating the neural basis of mirror symmetry detection, focusing in particular on brain stimulation evidence. Overall, available findings converge in pointing to the lateral occipital (LO) complex, especially in the right hemisphere, as a key region causally involved in symmetry detection. Interestingly, they also suggest that another region in the right extrastriate visual cortex, the occipital face area (OFA), is causally implied in symmetry detection, posing an interesting connection at the neural level between visual cortex responses to faces and to symmetry. Finally, this review also considers evidence on haptic symmetry detection in sighted and early blind individuals that points to LO as a multi-modal symmetry-sensitive region, and suggests that symmetry is a salient perceptual feature mediated by LO even when any visual experience is missing

Published

2017

7. The dorsomedial prefrontal cortex mediates the interaction between moral and aesthetic valuation: a TMS study on the Beauty-is-Good stereotype

Author

Ferrari, C, Nadal, M, Schiavi, S, Vecchi, T, Cela Conde, C, Cattaneo, Z, FERRARI, CHIARA, SCHIAVI, SUSANNA, CATTANEO, ZAIRA, Ferrari, C, Nadal, M, Schiavi, S, Vecchi, T, Cela Conde, C, Cattaneo, Z, FERRARI, CHIARA, SCHIAVI, SUSANNA, and CATTANEO, ZAIRA

Abstract

Attractive individuals are perceived as possessing more positive personal traits than unattractive individuals. This reliance on aesthetic features to infer moral character suggests a close link between aesthetic and moral valuation. Here we aimed to investigate the neural underpinnings of the interaction between aesthetic and moral valuation by combining transcranial magnetic stimulation (TMS) with a priming paradigm designed to assess the Beauty-is-Good stereotype. Participants evaluated the trustworthiness of a series of faces (targets), each of which was preceded by an adjective describing desirable, undesirable, or neutral aesthetic qualities (primes). TMS was applied between prime and target to interfere with activity in two regions known to be involved in aesthetic and moral valuation: The dorsomedial prefrontal cortex (dmPFC, a core region in social cognition) and the dorsolateral prefrontal cortex (dlPFC, critical in decision making). Our results showed that when TMS was applied over vertex (control) and over the dlPFC, participants judged faces as more trustworthy when preceded by positive than by negative aesthetic primes (as also shown in two behavioral experiments). However, when TMS was applied over the dmPFC, primes had no effect on trustworthiness judgments. A second Experiment corroborated this finding. Our results suggest that mPFC plays a causal role linking moral and aesthetic valuation

Published

2017

8. Congenital prosopagnosia is associated with a genetic variation in the oxytocin receptor (OXTR) gene: An exploratory study

Author

Cattaneo, Z, Daini, R, Malaspina, M, Manai, F, Lillo, M, Fermi, V, Schiavi, S, Suchan, B, Comincini, S, CATTANEO, ZAIRA, DAINI, ROBERTA, MALASPINA, MANUELA, SCHIAVI, SUSANNA, Comincini, S., Cattaneo, Z, Daini, R, Malaspina, M, Manai, F, Lillo, M, Fermi, V, Schiavi, S, Suchan, B, Comincini, S, CATTANEO, ZAIRA, DAINI, ROBERTA, MALASPINA, MANUELA, SCHIAVI, SUSANNA, and Comincini, S.

Abstract

Face-recognition deficits, referred to with the term prosopagnosia (i.e., face blindness), may manifest during development in the absence of any brain injury (from here the term congenital prosopagnosia, CP). It has been estimated that approximately 2.5% of the population is affected by face-processing deficits not depending on brain lesions, and varying a lot in severity. The genetic bases of this disorder are not known. In this study we tested for genetic association between single-nucleotide polymorphisms (SNPs) in the oxytocin receptor gene (OXTR) and CP in a restricted cohort of Italian participants. We found evidence of an association between the common genetic variants rs53576 and rs2254298 OXTR SNPs and prosopagnosia. This association was also found when including an additional group of German individuals classified as prosopagnosic in the analysis. Our preliminary data provide initial support for the involvement of genetic variants of OXTR in a relevant cognitive impairment, whose genetic bases are still largely unexplored.

Published

2016

9. Guess who? Investigating the proper name processing network by means of tDCS

Author

Pisoni, A, Vernice, M, Iasevoli, L, Cattaneo, Z, Papagno, C, PISONI, ALBERTO, VERNICE, MIRTA, CATTANEO, ZAIRA, PAPAGNO, COSTANZA, Pisoni, A, Vernice, M, Iasevoli, L, Cattaneo, Z, Papagno, C, PISONI, ALBERTO, VERNICE, MIRTA, CATTANEO, ZAIRA, and PAPAGNO, COSTANZA

Abstract

Learning people's names is a challenging task for most individuals and becomes increasingly difficult with age. In the current study, we investigated the role of the fronto-temporal network in this task by applying tDCS over the left anterior temporal lobe (ATL) and the left inferior frontal gyrus (IFG) during unfamiliar face-name association learning. Proper name retrieval was tested with a face naming and a face-name association task. In Experiment 1, we found that real anodal tDCS over the left ATL decreased naming accuracy compared to sham stimulation because participants produced significantly more intrusions. The stimulation may have increased interference among arising competitors when retrieving the correct name associated to the presented face, as indicated by the longer response latencies in the association task after real tDCS. In Experiment 2, cathodal tDCS applied over the left ATL did not affect the participants' performance in the same tasks, ruling out a possible effect of discomfort or stimulation side effects. In Experiment 3, anodal tDCS over the left IFG led to a significant decrease in intrusions compared to sham stimulation, possibly improving a selection mechanism. Our results confirm the role of the left ATL and the IFG in the retrieval of proper names, and demonstrate the importance of their functional interaction in processing proper names.

Published

2015

10. Happiness takes you right: The effect of emotional stimuli on line bisection

Author

Cattaneo, Z, Lega, C, Boehringer, J, Gallucci, M, Girelli, L, Carbon, C, CATTANEO, ZAIRA, LEGA, CARLOTTA, GALLUCCI, MARCELLO, GIRELLI, LUISA, Carbon, C., Cattaneo, Z, Lega, C, Boehringer, J, Gallucci, M, Girelli, L, Carbon, C, CATTANEO, ZAIRA, LEGA, CARLOTTA, GALLUCCI, MARCELLO, GIRELLI, LUISA, and Carbon, C.

Abstract

Emotion recognition is mediated by a complex network of cortical and subcortical areas, with the two hemispheres likely being differently involved in processing positive and negative emotions. As results on valence-dependent hemispheric specialisation are quite inconsistent, we carried out three experiments with emotional stimuli with a task being sensitive to measure specific hemispheric processing. Participants were required to bisect visual lines that were delimited by emotional face flankers, or to haptically bisect rods while concurrently listening to emotional vocal expressions. We found that prolonged (but not transient) exposition to concurrent happy stimuli significantly shifted the bisection bias to the right compared to both sad and neutral stimuli, indexing a greater involvement of the left hemisphere in processing of positively connoted stimuli. No differences between sad and neutral stimuli were observed across the experiments. In sum, our data provide consistent evidence in favour of a greater involvement of the left hemisphere in processing positive emotions and suggest that (prolonged) exposure to stimuli expressing happiness significantly affects allocation of (spatial) attentional resources, regardless of the sensory (visual/auditory) modality in which the emotion is perceived and space is explored (visual/haptic)

Published

2014

11. Ambiguous idiom processing in Parkinson's disease patients

Author

Papagno, C, Mattavelli, G, Cattaneo, Z, Romito, L, Albanese, A, PAPAGNO, COSTANZA, MATTAVELLI, GIULIA CAMILLA, CATTANEO, ZAIRA, Romito,L, Albanese, A., Papagno, C, Mattavelli, G, Cattaneo, Z, Romito, L, Albanese, A, PAPAGNO, COSTANZA, MATTAVELLI, GIULIA CAMILLA, CATTANEO, ZAIRA, Romito,L, and Albanese, A.

Abstract

Patients affected by Parkinson’s disease (PD) can provide crucial information about the involvement of the motor system and prefrontal cortex in processing idioms including action verbs, since dopamine modulates the activity of these structures, and, consequently, different levels of this neurotransmitter can induce different cognitive impairments. In order to investigate the ability to process ambiguous idioms containing an action verb in patients, we asked 15 PD patients, in both OFF- and ONphases, and 15 healthy matched participants to judge the plausibility of literal and idiomatic sentences, each presented at a self-paced rate. Patients in OFF-phase were faster in reading idiomatic than literal sentences, supporting the view that the motor system is not involved in online idiom processing. However, patients during OFF-phase were impaired in judging the plausibility of idiomatic ambiguous sentences, possibly due to the reduction of dopamine in prefrontal regions. The involvement of the motor system was evident in the ON-phase for literal sentences, suggesting that motor activation is strictly dependent on the context.

Published

2014

12. Listening to white noise counteracts visual and haptic pseudoneglect

Author

Cattaneo, Z, Lega, C, Vecchi, T, Vallar, G, CATTANEO, ZAIRA, LEGA, CARLOTTA, VALLAR, GIUSEPPE, Cattaneo, Z, Lega, C, Vecchi, T, Vallar, G, CATTANEO, ZAIRA, LEGA, CARLOTTA, and VALLAR, GIUSEPPE

Abstract

Neurologically intact individuals usually show a leftward bias in line bisection, a tendency known as "pseudoneglect", likely reflecting a right-hemisphere dominance in controlling the allocation of spatial attention. Studies in brain-damaged patients with left visuospatial neglect have reported that auditory stimulation may reduce the deficit, both in a spatially dependent and in a spatially independent way. Here we show for the first time that the concurrent binaural presentation of auditory white noise affects healthy individuals' performance in both visual and haptic bisection, reducing their leftward error. We suggest that this effect depends on the noise boosting alertness and restoring the hemispheric activation balance. Our data clearly show that task-irrelevant auditory noise crossmodally affects the allocation of spatial resources in both the haptic and the visual space; future research may clarify whether these effects are specific for the type of auditory stimulation.

Published

2012

13. Transcranial magnetic stimulation of medial prefrontal cortex modulates face expressions processing in a priming task

Author

Mattavelli, G, Cattaneo, Z, Papagno, C, MATTAVELLI, GIULIA CAMILLA, CATTANEO, ZAIRA, PAPAGNO, COSTANZA, Mattavelli, G, Cattaneo, Z, Papagno, C, MATTAVELLI, GIULIA CAMILLA, CATTANEO, ZAIRA, and PAPAGNO, COSTANZA

Abstract

The medial prefrontal cortex (mPFC) and the right somatosensory cortex (rSC) are known to be involved in emotion processing and face expression recognition, although the possibility of segregated circuits for specific emotions in these regions remains unclear. To investigate this issue, we used transcranial magnetic stimulation (TMS) together with a priming paradigm to modulate the activation state of the mPFC and the rSC during emotional expressions discrimination. This novel paradigm allows analyzing how TMS interacts with the ongoing activity of different neuronal populations following prime processing. Participants were asked to discriminate between angry and happy faces that were preceded by a congruent prime (a word expressing the same emotion), an incongruent prime (a word expressing the opposite emotion) or a neutral prime. In TMS trials, a single pulse was delivered over the mPFC, rSC or Vertex (control site) between prime and target presentation. TMS applied over the mPFC significantly affected the priming effect, by selectively increasing response latencies in congruent trials. This indicates that the mPFC contains different neural representations for angry and happy expressions. TMS over rSC did not significantly affect the priming effect, suggesting that rSC is not involved in processing verbal emotional stimuli. © 2011 Elsevier Ltd.

Published

2011