Your search keyword '"Ansuini A"' showing total 9 results

1. Predicting Object Size from Hand Kinematics: A Temporal Perspective

Author

Ansuini, C. (author), Cavallo, A. (author), Koul, A. (author), Jacono, M. (author), Yang, Y. (author), Becchio, C. (author), Ansuini, C. (author), Cavallo, A. (author), Koul, A. (author), Jacono, M. (author), Yang, Y. (author), and Becchio, C. (author)

Abstract

Research on reach-to-grasp movements generally concentrates on kinematics values that are expression of maxima, in particular the maximum aperture of the hand and the peak of wrist velocity. These parameters provide a snapshot description of movement kinematics at a specific time point during reach, i.e., the maximum within a set of value, but do not allow to investigate how hand kinematics gradually conform to target properties. The present study was designed to extend the characterization of object size effects to the temporal domain. Thus, we computed the wrist velocity and the grip aperture throughout reach-to-grasp movements aimed at large versus small objects. To provide a deeper understanding of how joint movements varied over time, we also considered the time course of finger motion relative to hand motion. Results revealed that movement parameters evolved in parallel but at different rates in relation to object size. Furthermore, a classification analysis performed using a Support Vector Machine (SVM) approach showed that kinematic features taken as a group predicted the correct target size well before contact with the object. Interestingly, some kinematics features exhibited a higher ability to discriminate the target size than others did. These findings reinforce our knowledge about the relationship between kinematics and object properties and shed new light on the quantity and quality of information available in the kinematics of a reach-to-grasp movement over time. This might have important implications for our understanding of the action-perception coupling mechanism., Biomechanical Engineering, Mechanical, Maritime and Materials Engineering

Published

2015

2. When Ears Drive Hands: The Influence of Contact Sound on Reaching to Grasp

Author

Massimo Grassi, Bruno L. Giordano, Umberto Castiello, Chiara Begliomini, and Caterina Ansuini

Subjects

Adult, Male, medicine.medical_specialty, business.product_category, genetic structures, media_common.quotation_subject, lcsh:Medicine, Stimulus (physiology), Audiology, Reach to grasp, Fingers, Neuroscience/Motor Systems, Perception, medicine, Humans, Second-order stimulus, lcsh:Science, Headphones, media_common, Multidisciplinary, Neuroscience/Behavioral Neuroscience, Hand Strength, Neuroscience/Sensory Systems, lcsh:R, GRASP, Ear, Crossmodal interactions, Hand, Lower half, Perceptual performance, Neuroscience/Experimental Psychology, Biomechanical Phenomena, Neuroscience/Psychology, Sound, Facilitation, lcsh:Q, Female, business, Psychology, Photic Stimulation, Research Article

Abstract

BACKGROUND: Most research on the roles of auditory information and its interaction with vision has focused on perceptual performance. Little is known on the effects of sound cues on visually-guided hand movements. METHODOLOGY/PRINCIPAL FINDINGS: We recorded the sound produced by the fingers upon contact as participants grasped stimulus objects which were covered with different materials. Then, in a further session the pre-recorded contact sounds were delivered to participants via headphones before or following the initiation of reach-to-grasp movements towards the stimulus objects. Reach-to-grasp movement kinematics were measured under the following conditions: (i) congruent, in which the presented contact sound and the contact sound elicited by the to-be-grasped stimulus corresponded; (ii) incongruent, in which the presented contact sound was different to that generated by the stimulus upon contact; (iii) control, in which a synthetic sound, not associated with a real event, was presented. Facilitation effects were found for congruent trials; interference effects were found for incongruent trials. In a second experiment, the upper and the lower parts of the stimulus were covered with different materials. The presented sound was always congruent with the material covering either the upper or the lower half of the stimulus. Participants consistently placed their fingers on the half of the stimulus that corresponded to the presented contact sound. CONCLUSIONS/SIGNIFICANCE: Altogether these findings offer a substantial contribution to the current debate about the type of object representations elicited by auditory stimuli and on the multisensory nature of the sensorimotor transformations underlying action.

Published

2010

3. Effects of arm crossing on spatial perspective taking

Author

Gallace, A, Furlanetto, T, Ansuini, C, Becchio, C, GALLACE, ALBERTO, Becchio, C., Gallace, A, Furlanetto, T, Ansuini, C, Becchio, C, GALLACE, ALBERTO, and Becchio, C.

Abstract

Human social interactions often require people to take a different perspective than their own. Although much research has been done on egocentric spatial representation in a solo context, little is known about how space is mapped in relation to other bodies. Here we used a spatial perspective-taking paradigm to investigate whether observing a person holding his arms crossed over the body midline has an impact on the encoding of left/right and front/back spatial relations from that person's perspective. In three experiments, we compared performance in a task in which spatial judgments were made from the perspective of the participant or from that of a co-experimenter. Depending on the experimental condition, the participant's and the co-experimenter's arms were either crossed or not crossed over the midline. Our results showed that crossing the arms had a specific effect on spatial judgments based on a first-person perspective. More specifically, the responses corresponding to the dominant hand side were slower in the crossed than in the uncrossed arms condition. Crucially, a similar effect was also found when the participants adopted the perspective of a person holding his arms crossed, but not when the other person's arms were held in an unusual but uncrossed posture. Taken together these findings indicate that egocentric space and altercentric space are similarly coded in neurocognitive maps structured with respect to specific body segments

Published

2014

4. Doing It Your Way: How Individual Movement Styles Affect Action Prediction.

Author

Koul, Atesh, Cavallo, Andrea, Ansuini, Caterina, and Becchio, Cristina

Subjects

MOTOR ability, INTENTION, HUMAN mechanics, PREDICTION models, HUMAN kinematics

Abstract

Individuals show significant variations in performing a motor act. Previous studies in the action observation literature have largely ignored this ubiquitous, if often unwanted, characteristic of motor performance, assuming movement patterns to be highly similar across repetitions and individuals. In the present study, we examined the possibility that individual variations in motor style directly influence the ability to understand and predict others’ actions. To this end, we first recorded grasping movements performed with different intents and used a two-step cluster analysis to identify quantitatively ‘clusters’ of movements performed with similar movement styles (). Next, using videos of the same movements, we proceeded to examine the influence of these styles on the ability to judge intention from action observation (Experiments and ). We found that motor styles directly influenced observers’ ability to ‘read’ others’ intention, with some styles always being less ‘readable’ than others. These results provide experimental support for the significance of motor variability for action prediction, suggesting that the ability to predict what another person is likely to do next directly depends on her individual movement style. [ABSTRACT FROM AUTHOR]

Published

2016

5. Predicting Object Size from Hand Kinematics: A Temporal Perspective.

Author

Ansuini, Caterina, Cavallo, Andrea, Koul, Atesh, Jacono, Marco, Yang, Yuan, and Becchio, Cristina

Subjects

*SUPPORT vector machines, *FEATURE extraction, *DATA quality, *LOGICAL prediction, *PARAMETER estimation

Abstract

Research on reach-to-grasp movements generally concentrates on kinematics values that are expression of maxima, in particular the maximum aperture of the hand and the peak of wrist velocity. These parameters provide a snapshot description of movement kinematics at a specific time point during reach, i.e., the maximum within a set of value, but do not allow to investigate how hand kinematics gradually conform to target properties. The present study was designed to extend the characterization of object size effects to the temporal domain. Thus, we computed the wrist velocity and the grip aperture throughout reach-to-grasp movements aimed at large versus small objects. To provide a deeper understanding of how joint movements varied over time, we also considered the time course of finger motion relative to hand motion. Results revealed that movement parameters evolved in parallel but at different rates in relation to object size. Furthermore, a classification analysis performed using a Support Vector Machine (SVM) approach showed that kinematic features taken as a group predicted the correct target size well before contact with the object. Interestingly, some kinematics features exhibited a higher ability to discriminate the target size than others did. These findings reinforce our knowledge about the relationship between kinematics and object properties and shed new light on the quantity and quality of information available in the kinematics of a reach-to-grasp movement over time. This might have important implications for our understanding of the action-perception coupling mechanism. [ABSTRACT FROM AUTHOR]

Published

2015

6. Effects of Arm Crossing on Spatial Perspective-Taking.

Author

Furlanetto, Tiziano, Gallace, Alberto, Ansuini, Caterina, and Becchio, Cristina

Subjects

SOCIAL interaction, EGOISM, EXPERIMENTAL psychology, MENTAL health, SENSORY perception, NEUROSCIENCES

Abstract

Human social interactions often require people to take a different perspective than their own. Although much research has been done on egocentric spatial representation in a solo context, little is known about how space is mapped in relation to other bodies. Here we used a spatial perspective-taking paradigm to investigate whether observing a person holding his arms crossed over the body midline has an impact on the encoding of left/right and front/back spatial relations from that person’s perspective. In three experiments, we compared performance in a task in which spatial judgments were made from the perspective of the participant or from that of a co-experimenter. Depending on the experimental condition, the participant’s and the co-experimenter’s arms were either crossed or not crossed over the midline. Our results showed that crossing the arms had a specific effect on spatial judgments based on a first-person perspective. More specifically, the responses corresponding to the dominant hand side were slower in the crossed than in the uncrossed arms condition. Crucially, a similar effect was also found when the participants adopted the perspective of a person holding his arms crossed, but not when the other person’s arms were held in an unusual but uncrossed posture. Taken together these findings indicate that egocentric space and altercentric space are similarly coded in neurocognitive maps structured with respect to specific body segments. [ABSTRACT FROM AUTHOR]

Published

2014

7. When Ears Drive Hands: The Influence of Contact Sound on Reaching to Grasp.

Author

Castiello, Umberto, Giordano, Bruno L., Begliomini, Chiara, Ansuini, Caterina, and Grassi, Massimo

Subjects

AUDITORY adaptation, AUDITORY perception, KINEMATICS, DIMENSIONAL preference, STIMULUS synthesis, SOUNDS, HAND, FINGERS, HEADPHONES

Abstract

Background: Most research on the roles of auditory information and its interaction with vision has focused on perceptual performance. Little is known on the effects of sound cues on visually-guided hand movements. Methodology/Principal Findings: We recorded the sound produced by the fingers upon contact as participants grasped stimulus objects which were covered with different materials. Then, in a further session the pre-recorded contact sounds were delivered to participants via headphones before or following the initiation of reach-to-grasp movements towards the stimulus objects. Reach-to-grasp movement kinematics were measured under the following conditions: (i) congruent, in which the presented contact sound and the contact sound elicited by the to-be-grasped stimulus corresponded; (ii) incongruent, in which the presented contact sound was different to that generated by the stimulus upon contact; (iii) control, in which a synthetic sound, not associated with a real event, was presented. Facilitation effects were found for congruent trials; interference effects were found for incongruent trials. In a second experiment, the upper and the lower parts of the stimulus were covered with different materials. The presented sound was always congruent with the material covering either the upper or the lower half of the stimulus. Participants consistently placed their fingers on the half of the stimulus that corresponded to the presented contact sound. Conclusions/Significance: Altogether these findings offer a substantial contribution to the current debate about the type of object representations elicited by auditory stimuli and on the multisensory nature of the sensorimotor transformations underlying action. [ABSTRACT FROM AUTHOR]

Published

2010

8. The Grasping Side of Odours.

Author

Tubaldi, Federico, Ansuini, Caterina, Tirindelli, Roberto, and Castiello, Umberto

Subjects

*PERCEPTUAL motor learning, *INFANTS, *PROPRIOCEPTION, *SMELL, *KINEMATICS, *SENSORIMOTOR cortex

Abstract

Background: Research on multisensory integration during natural tasks such as reach-to-grasp is still in its infancy. Crossmodal links between vision, proprioception and audition have been identified, but how olfaction contributes to plan and control reach-to-grasp movements has not been decisively shown. We used kinematics to explicitly test the influence of olfactory stimuli on reach-to-grasp movements. Methodology/Principal Findings: Subjects were requested to reach towards and grasp a small or a large visual target (i.e., precision grip, involving the opposition of index finger and thumb for a small size target and a power grip, involving the flexion of all digits around the object for a large target) in the absence or in the presence of an odour evoking either a small or a large object that if grasped would require a precision grip and a whole hand grasp, respectively. When the type of grasp evoked by the odour did not coincide with that for the visual target, interference effects were evident on the kinematics of hand shaping and the level of synergies amongst fingers decreased. When the visual target and the object evoked by the odour required the same type of grasp, facilitation emerged and the intrinsic relations amongst individual fingers were maintained. Conclusions/Significance: This study demonstrates that olfactory information contains highly detailed information able to elicit the planning for a reach-to-grasp movement suited to interact with the evoked object. The findings offer a substantial contribution to the current debate about the multisensory nature of the sensorimotor transformations underlying grasping. [ABSTRACT FROM AUTHOR]

Published

2008

9. Differential Screening of Phage-Ab Libraries by Oligonucleotide Microarray Technology.

Author

Monaci, Paolo, Luzzago, Alessandra, Santini, Claudia, De Pra, Alessandra, Arcuri, Mirko, Magistri, Francesca, Bellini, Alessandro, Ansuini, Helenia, Ambrosio, Maria, Ammendola, Virginia, Bigotti, Maria Giulia, Cirillo, Agostino, Nuzzo, Maurizio, Nasti, Annamaria Assunta, Neuner, Philippe, Orsatti, Laura, Pezzanera, Monica, Sbardellati, Andrea, Silvestre, Giuseppe, and Uva, Paolo

Subjects

OLIGONUCLEOTIDES, NUCLEOTIDES, DNA microarrays, NUCLEOTIDE sequence, NUCLEOTIDE analysis, SEQUENCE alignment, GENETIC code, GENETIC transcription, CELL populations

Abstract

A novel and efficient tagArray technology was developed that allows rapid identification of antibodies which bind to receptors with a specific expression profile, in the absence of biological information. This method is based on the cloning of a specific, short nucleotide sequence (tag) in the phagemid coding for each phage-displayed antibody fragment (phage-Ab) present in a library. In order to set up and validate the method we identified about 10,000 different phage-Abs binding to receptors expressed in their native formon the cell surface (10 kMembranome collection) and tagged each individual phage-Ab. The frequency of each phage- Ab in a given population can at this point be inferred by measuring the frequency of its associated tag sequence through standard DNA hybridization methods. Using tiny amounts of biological samples we identified phage-Abs binding to receptors preferentially expressed on primary tumor cells rather than on cells obtained from matched normal tissues. These antibodies inhibited cell proliferation in vitro and tumor development in vivo, thus representing therapeutic lead candidates. [ABSTRACT FROM AUTHOR]

Published

2008