Your search keyword '"Tinelli F"' showing total 5 results

1. Plasticity of the human visual brain after an early cortical lesion

Author

Mikellidou, K., Arrighi, R., Aghakhanyan, G., Tinelli, F., Frijia, F., Crespi, S., De Masi, F., Montanaro, D., and Morrone, M.C.

Published

2019

2. Feasibility of audio-motor training with the multisensory device ABBI: Implementation in a child with hemiplegia and hemianopia.

Author

Tinelli F, Gori M, Beani E, Sgandurra G, Martolini C, Maselli M, Petri S, and Purpura G

Subjects

Child, Feasibility Studies, Hand, Humans, Upper Extremity, Hemianopsia, Hemiplegia etiology

Abstract

Spatial representation is crucial when it comes to everyday interaction with the environment. Different factors influence spatial perception, such as body movements and vision. Accordingly, training strategies that exploit the plasticity of the human brain should be adopted early. In the current study we developed and tested a new training protocol based on the reinforcement of audio-motor associations. It supports spatial development in one hemiplegic child with an important visual field defect (hemianopia) in the same side of the hemiplegic limb. We focused on investigating whether a better representation of the space using the sound can also improve the involvement of the hemiplegic upper limb in daily life activity. The experimental training consists of intensive but entertaining rehabilitation for two weeks, during which a child performed ad-hoc developed audio-motor-spatial exercises with the Audio Bracelet for Blind Interaction (ABBI) for 2 h/day. We administered a battery of tests before and after the training that indicated that the child significantly improved in both the spatial aspects and the involvement of the hemiplegic limb in bimanual tasks. During the assessment, ActiGraph GT3X+ was used to measure asymmetry in the use of the two upper limbs with a standardized clinical tool, the Assisting Hand Assessment (AHA), pre and post-training. Additionally, the study measured and recorded spontaneous daily life activity for at least 2 h/day. These results confirm that one can enhance perceptual development in motor and visual disorders using naturally associated auditory feedback to body movements., (Copyright © 2022 Elsevier Ltd. All rights reserved.)

Published

2022

3. Cortical thickness of primary visual cortex correlates with motion deficits in periventricular leukomalacia.

Author

Bhat A, Biagi L, Cioni G, Tinelli F, and Morrone MC

Subjects

Child, Gray Matter, Humans, Infant, Newborn, Motion, Visual Pathways diagnostic imaging, Leukomalacia, Periventricular complications, Leukomalacia, Periventricular diagnostic imaging, Motion Perception, Visual Cortex diagnostic imaging

Abstract

Impairments of visual motion perception and, in particular, of flow motion have been consistently observed in premature and very low birth weight subjects during infancy. Flow motion information is analyzed at various cortical levels along the dorsal pathways, with information mainly provided by primary and early visual cortex (V1, V2 and V3). We investigated the cortical stage of the visual processing that underlies these motion impairments, measuring Grey Matter Volume and Cortical Thickness in 13 children with Periventricular Leukomalacia (PVL). The cortical thickness, but not the grey matter volume of area V1, correlates negatively with motion coherence sensitivity, indicating that the thinner the cortex, the better the performance among the patients. However, we did not find any such association with either the thickness or volume of area MT, MST and areas of the IPS, suggesting damage at the level of primary visual cortex or along the optic radiation., (Copyright © 2020 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2021

4. Time, number and attention in very low birth weight children.

Author

Tinelli F, Anobile G, Gori M, Aagten-Murphy D, Bartoli M, Burr DC, Cioni G, and Concetta Morrone M

Subjects

Auditory Perception physiology, Child, Cohort Studies, Discrimination, Psychological physiology, Female, Humans, Infant, Very Low Birth Weight physiology, Male, Parietal Lobe growth & development, Parietal Lobe physiology, Psychological Tests, Visual Perception physiology, Attention physiology, Infant, Very Low Birth Weight psychology, Mathematical Concepts, Time Perception physiology

Abstract

Premature birth has been associated with damage in many regions of the cerebral cortex, although there is a particularly strong susceptibility for damage within the parieto-occipital lobes (Volpe, 2009). As these areas have been shown to be critical for both visual attention and magnitudes perception (time, space, and number), it is important to investigate the impact of prematurity on both the magnitude and attentional systems, particularly for children without overt white matter injuries, where the lack of obvious injury may cause their difficulties to remain unnoticed. In this study, we investigated the ability to judge time intervals (visual, audio and audio-visual temporal bisection), discriminate between numerical quantities (numerosity comparison), map numbers onto space (numberline task) and to maintain visuo-spatial attention (multiple-object-tracking) in school-age preterm children (N29). The results show that various parietal functions may be more or less robust to prematurity-related difficulties, with strong impairments found on time estimation and attentional task, while numerical discrimination or mapping tasks remained relatively unimpaired. Thus while our study generally supports the hypothesis of a dorsal stream vulnerability in children born preterm relative to other cortical locations, it further suggests that particular cognitive processes, as highlighted by performance on different tasks, are far more susceptible than others., Competing Interests: The authors declare no conflict of interest., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

5. Impaired visual size-discrimination in children with movement disorders.

Author

Gori M, Tinelli F, Sandini G, Cioni G, and Burr D

Subjects

Adolescent, Case-Control Studies, Child, Child, Preschool, Female, Humans, Male, Movement Disorders complications, Perceptual Disorders etiology, Discrimination, Psychological, Movement Disorders physiopathology, Perceptual Disorders physiopathology, Size Perception, Visual Perception

Abstract

Multisensory integration of spatial information occurs late in childhood, at around eight years (Gori, Del Viva, Sandini, & Burr, 2008). For younger children, the haptic system dominates size discrimination and vision dominates orientation discrimination: the dominance may reflect sensory calibration, and could have direct consequences on children born with specific sensory disabilities. Here we measure thresholds for visual discrimination of orientation and size in children with movement disorders of upper limbs. Visual orientation discrimination was very similar to the age-matched typical children, but visual size discrimination thresholds were far worse, in all eight individuals with early-onset movement disorder. This surprising and counterintuitive result is readily explained by the cross-sensory calibration hypothesis: when the haptic sense is unavailable for manipulation, it cannot be readily used to estimate size, and hence to calibrate the visual experience of size: visual discrimination is subsequently impaired. This complements a previous study showing that non-sighted children have reduced acuity for haptic orientation, but not haptic size, discriminations (Gori, Sandini, Martinoli, & Burr, 2010). Together these studies show that when either vision or haptic manipulation is impaired, the impairment also impacts on complementary sensory systems that are calibrated by that one., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012