#  Publications 

 



## **Copyright Notice**

*Electronic copies of publications provided on this website are for individual, non-commercial use only. Copyright belongs to those designated within each publication. Files provided herein are not to be disseminated or reposted without permission of the appropriate entities. For any articles not available on this website, please email Prof. Alfonso Caramazza,* [*caram@wjh.harvard.edu*](mailto:caram@wjh.harvard.edu) *for further discussion.*



 

 



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##  186 results 

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### 2018

Bracci, S., Caramazza, A., &amp; Peelen, M. V. (2018). [View-invariant representation of hand postures in the human lateral occipitotemporal cortex](/publications/view-invariant-representation-hand-postures-human-lateral-occipitotemporal). *NeuroImage*, *181*, 446-452.



 

 

Bracci, S., Caramazza, A., &amp; Peelen, M. V. (2018). [View-invariant representation of hand postures in the human lateral occipitotemporal cortex](/publications/view-invariant-representation-hand-postures-human-lateral-occipitotemporal). *NeuroImage*, *181*, 446-452.



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 Understanding other people's actions and [mental states](https://www.sciencedirect.com/topics/medicine-and-dentistry/mental-state) includes the interpretation of body [postures](https://www.sciencedirect.com/topics/medicine-and-dentistry/posture) and movements. In particular, hand postures are an important channel to signal both action and communicative intentions. Recognizing hand postures is... 

 

 

 

Striem-Amit, E., Vannuscorps, G., &amp; Caramazza, A. (2018). [Plasticity based on compensatory effector use in the association but not primary sensorimotor cortex of people born without hands](/publications/plasticity-based-compensatory-effector-use-association-not-primary). *Proceedings of the National Academy of Sciences*, *115*(30), 7801-7806.



 

 

Striem-Amit, E., Vannuscorps, G., &amp; Caramazza, A. (2018). [Plasticity based on compensatory effector use in the association but not primary sensorimotor cortex of people born without hands](/publications/plasticity-based-compensatory-effector-use-association-not-primary). *Proceedings of the National Academy of Sciences*, *115*(30), 7801-7806.



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 What forces direct brain organization and its plasticity? When brain regions are deprived of their input, which regions reorganize based on compensation for the disability and experience, and which regions show topographically constrained plasticity... 

 

 

 

Vannuscorps, G., Wurm, M., Striem-Amit, E., &amp; Caramazza, A. (2018). [Large-scale organizations of the hand action observation network in individuals born without hands](/publications/large-scale-organizations-hand-action-observation-network-individuals-born). *Cerebral Cortex*.



 

 

Vannuscorps, G., Wurm, M., Striem-Amit, E., &amp; Caramazza, A. (2018). [Large-scale organizations of the hand action observation network in individuals born without hands](/publications/large-scale-organizations-hand-action-observation-network-individuals-born). *Cerebral Cortex*.



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 The human high-level visual cortex comprises regions specialized for the processing of distinct types of stimuli, such as objects, animals, and human actions. How does this specialization emerge? Here, we investigated the role of effector-specific... 

 

 

 

 



### 2017

Wang, He, Peelen, Gong, Caramazza, &amp; Bi. (2017). [Domain selectivity in the parahippocampal gyrus is predicted by the same structural connectivity patterns in blind and sighted individuals](/publications/domain-selectivity-parahippocampal-gyrus-predicted-same-structural). *Journal of Neuroscience*, *37*(18), 4705-4716.



 

 

Wang, He, Peelen, Gong, Caramazza, &amp; Bi. (2017). [Domain selectivity in the parahippocampal gyrus is predicted by the same structural connectivity patterns in blind and sighted individuals](/publications/domain-selectivity-parahippocampal-gyrus-predicted-same-structural). *Journal of Neuroscience*, *37*(18), 4705-4716.



 

 

 

 

Striem-Amit, Vannuscorps, &amp; Caramazza. (2017). [Sensorimotor-independent development of hands and tools selectivity in the visual cortex](/publications/sensorimotor-independent-development-hands-and-tools-selectivity-visual-cortex). *Proceedings of the National Academy of Sciences*, *114*(18), 4787-4792.



 

 

Striem-Amit, Vannuscorps, &amp; Caramazza. (2017). [Sensorimotor-independent development of hands and tools selectivity in the visual cortex](/publications/sensorimotor-independent-development-hands-and-tools-selectivity-visual-cortex). *Proceedings of the National Academy of Sciences*, *114*(18), 4787-4792.



 

 

 

 

Wurm, Caramazza, &amp; Lingnau. (2017). [Action categories in lateral occipitotemporal cortex are organized along sociality and transitivity](/publications/action-categories-lateral-occipitotemporal-cortex-are-organized-along). *Journal of Neuroscience*, *37*(3), 562-575.



 

 

Wurm, Caramazza, &amp; Lingnau. (2017). [Action categories in lateral occipitotemporal cortex are organized along sociality and transitivity](/publications/action-categories-lateral-occipitotemporal-cortex-are-organized-along). *Journal of Neuroscience*, *37*(3), 562-575.



 

 

 

 

Leshinskaya, Contreras, Caramazza, &amp; Mitchell. (2017). [Neural Representations of Belief Concepts: A Representational Similarity Approach to Social Semantics](/publications/neural-representations-belief-concepts-representational-similarity-approach). *Cerebral Cortex*, *27*(1), 344-357.



 

 

Leshinskaya, Contreras, Caramazza, &amp; Mitchell. (2017). [Neural Representations of Belief Concepts: A Representational Similarity Approach to Social Semantics](/publications/neural-representations-belief-concepts-representational-similarity-approach). *Cerebral Cortex*, *27*(1), 344-357.



 

 

 

 

Anzellotti, &amp; Caramazza. (2017). [Multimodal representations of person identity individuated with fMRI](/publications/multimodal-representations-person-identity-individuated-fmri). *Cortex*, *89*, 85-97.



 

 

Anzellotti, &amp; Caramazza. (2017). [Multimodal representations of person identity individuated with fMRI](/publications/multimodal-representations-person-identity-individuated-fmri). *Cortex*, *89*, 85-97.



 

 

 

 

Papeo, L., Wurm, M., Oosterhof, N., &amp; Caramazza, A. (2017). [The neural representation of human versus nonhuman bipeds and quadrupeds ](/publications/neural-representation-human-versus-nonhuman-bipeds-and-quadrupeds). *Scientific Reports*, *7*(1), 14040 .



 

 

Papeo, L., Wurm, M., Oosterhof, N., &amp; Caramazza, A. (2017). [The neural representation of human versus nonhuman bipeds and quadrupeds ](/publications/neural-representation-human-versus-nonhuman-bipeds-and-quadrupeds). *Scientific Reports*, *7*(1), 14040 .



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
 How do humans recognize humans among other creatures? Recent studies suggest that a preference for conspecifics may emerge already in perceptual processing, in regions such as the right posterior superior temporal sulcus (pSTS), implicated in visual... 

 

 

 

 



### 2016

Vannuscorps, &amp; Caramazza. (2016). [Typical predictive eye movements during action observation without effector-specific motor simulation](/publications/typical-predictive-eye-movements-during-action-observation-without-effector). *Psychonomic Bulletin &amp; Review*, 1-6.



 

 

Vannuscorps, &amp; Caramazza. (2016). [Typical predictive eye movements during action observation without effector-specific motor simulation](/publications/typical-predictive-eye-movements-during-action-observation-without-effector). *Psychonomic Bulletin &amp; Review*, 1-6.



 

 

 

 

Vannuscorps, &amp; Caramazza. (2016). [Typical action perception and interpretation without motor simulation](/publications/typical-action-perception-and-interpretation-without-motor-simulation). *Proceedings of the National Academy of Sciences*, *113*(1), 86-91.



 

 

Vannuscorps, &amp; Caramazza. (2016). [Typical action perception and interpretation without motor simulation](/publications/typical-action-perception-and-interpretation-without-motor-simulation). *Proceedings of the National Academy of Sciences*, *113*(1), 86-91.



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
Every day, we interact with people synchronously, immediately understand what they are doing, and easily infer their mental state and the likely outcome of their actions from their kinematics. According to various motor simulation theories of perception...



 

 

 

Bi, Wang, &amp; Caramazza. (2016). [Object Domain and Modality in the Ventral Visual Pathway](/publications/object-domain-and-modality-ventral-visual-pathway). *Trends in Cognitive Sciences*, *20*(4), 282-290.



 

 

Bi, Wang, &amp; Caramazza. (2016). [Object Domain and Modality in the Ventral Visual Pathway](/publications/object-domain-and-modality-ventral-visual-pathway). *Trends in Cognitive Sciences*, *20*(4), 282-290.



 

 

 

- add\_circle do\_not\_disturb\_on Abstract
 
The nature of domain-specific organization in higher-order visual cortex (ventral occipital temporal cortex, VOTC) has been investigated both in the case of visual experience deprivation and of modality of stimulation in sighted individuals. Object domain...



 

 

 

 



 

 

 

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