984 resultados para Space Perception
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It investigates the perception of the public space in the city of Natal. It approaches, therefore apprehension forms, entails and experiences, in the formalization in the way of seeing, to live and to interact with that part of the urban territoriality. With that perspective, they were focalized, especially, three periods lived in Natal: the first two decades of the century XX, the beginning of the forties, also of the previous century, and the scenery with which that city comes at the present time. With that direction, it puts back in focus, and for reflection, not just an universe that makes possible the people to interact, independent of the individual will of each one, but also the importance of that interaction for the social and political life of the city and for the formation of a wider and interactive vision of the people with yours surroundings
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A study of eye movements during simulated travel toward a grove of four stationary trees revealed that observers looked most at pairs of trees that converged or decelerated apart. Such pairs specify that one's direction of travel, called heading, is to the outside of the near member of the pair. Observers looked at these trees more than those that accelerated apart; such pairs do not offer trustworthy heading information. Observers also looked at gaps between trees less often when they converged or diverged apart, and heading can never be between such pairs. Heading responses were in accord with eye movements. In general, if observers responded accurately, they had looked at trees that converged or decelerated apart; if they were inaccurate, they had not. Results support the notion that observers seek out their heading through eye movements, saccading to and fixating on the most informative locations in the field of view.
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Background: Impairment in non-motor functions such as disturbances of some executive functions are also common events in Parkinson's disease patients. Objective: To verify the performance of Parkinson's disease patients in activities requiring visuoconstructive and visuospatial skills. Method: Thirty elderly patients with mild or moderate stages of Parkinson's disease were studied. The assessment of the clinical condition was based on the unified Parkinson's disease rating scale (56.28; SD=33.48), Hoehn and Yahr (2.2; SD=0.83), Schwab and England (78.93%), clock drawing test (7.36; SD=2.51), and mini-mental state examination (26.48; SD=10.11). Pearson's correlation and stepwise multiple regression were used for statistical analyses. Results: The patients presented deterioration in visuospatial and visuoconstructive skills. Conclusion: The clock drawing test proved to be a useful predictive tool for identifying early cognitive impairment in these individuals.
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Pós-graduação em Educação Matemática - IGCE
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Visual search and oculomotor behaviour are believed to be very relevant for athlete performance, especially for sports requiring refined visuo-motor coordination skills. Modern coaches believe that a correct visuo-motor strategy may be part of advanced training programs. In this thesis two experiments are reported in which gaze behaviour of expert and novice athletes were investigated while they were doing a real sport specific task. The experiments concern two different sports: judo and soccer. In each experiment, number of fixations, fixation locations and mean fixation duration (ms) were considered. An observational analysis was done at the end of the paper to see perceptual differences between near and far space. Purpose: The aim of the judo study was to delineate differences in gaze behaviour characteristics between a population of athletes and one of non athletes. Aspects specifically investigated were: search rate, search order and viewing time across different conditions in a real-world task. The second study was aimed at identifying gaze behaviour in varsity soccer goalkeepers while facing a penalty kick executed with instep and inside foot. Then an attempt has been done to compare the gaze strategies of expert judoka and soccer goalkeepers in order to delineate possible differences related to the different conditions of reacting to events occurring in near (peripersonal) or far (extrapersonal) space. Judo Methods: A sample of 9 judoka (black belt) and 11 near judoka (white belt) were studied. Eye movements were recorded at 500Hz using a video based eye tracker (EyeLink II). Each subject participated in 40 sessions for about 40 minutes. Gaze behaviour was considered as average number of locations fixated per trial, the average number of fixations per trial, and mean fixation duration. Soccer Methods: Seven (n = 7) intermediate level male volunteered for the experiment. The kickers and goalkeepers, had at least varsity level soccer experience. The vision-in-action (VIA) system (Vickers 1996; Vickers 2007) was used to collect the coupled gaze and motor behaviours of the goalkeepers. This system integrated input from a mobile eye tracking system (Applied Sciences Laboratories) with an external video of the goalkeeper’s saving actions. The goalkeepers took 30 penalty kicks on a synthetic pitch in accordance with FIFA (2008) laws. Judo Results: Results indicate that experts group differed significantly from near expert for fixations duration, and number of fixations per trial. The expert judokas used a less exhaustive search strategy involving fewer fixations of longer duration than their novice counterparts and focused on central regions of the body. The results showed that in defence and attack situation expert group did a greater number of transitions with respect to their novice counterpart. Soccer Results: We found significant main effect for the number of locations fixated across outcome (goal/save) but not for foot contact (instep/inside). Participants spent more time fixating the areas in instep than inside kick and in goal than in save situation. Mean and standard error in search strategy as a result of foot contact and outcome indicate that the most gaze behaviour start and finish on ball interest areas. Conclusions: Expert goalkeepers tend to spend more time in inside-save than instep-save penalty, differences that was opposite in scored penalty kick. Judo results show that differences in visual behaviour related to the level of expertise appear mainly when the test presentation is continuous, last for a relatively long period of time and present a high level of uncertainty with regard to the chronology and the nature of events. Expert judoist performers “anchor” the fovea on central regions of the scene (lapel and face) while using peripheral vision to monitor opponents’ limb movements. The differences between judo and soccer gaze strategies are discussed on the light of physiological and neuropsychological differences between near and far space perception.
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The discovery of grid cells in the medial entorhinal cortex (MEC) permits the characterization of hippocampal computation in much greater detail than previously possible. The present study addresses how an integrate-and-fire unit driven by grid-cell spike trains may transform the multipeaked, spatial firing pattern of grid cells into the single-peaked activity that is typical of hippocampal place cells. Previous studies have shown that in the absence of network interactions, this transformation can succeed only if the place cell receives inputs from grids with overlapping vertices at the location of the place cell's firing field. In our simulations, the selection of these inputs was accomplished by fast Hebbian plasticity alone. The resulting nonlinear process was acutely sensitive to small input variations. Simulations differing only in the exact spike timing of grid cells produced different field locations for the same place cells. Place fields became concentrated in areas that correlated with the initial trajectory of the animal; the introduction of feedback inhibitory cells reduced this bias. These results suggest distinct roles for plasticity of the perforant path synapses and for competition via feedback inhibition in the formation of place fields in a novel environment. Furthermore, they imply that variability in MEC spiking patterns or in the rat's trajectory is sufficient for generating a distinct population code in a novel environment and suggest that recalling this code in a familiar environment involves additional inputs and/or a different mode of operation of the network.
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Recent studies have shown that sulforaphane, a naturally occurring compound that is found in cruciferous vegetables, offers cellular protection in several models of brain injury. When administered following traumatic brain injury (TBI), sulforaphane has been demonstrated to attenuate blood-brain barrier permeability and reduce cerebral edema. These beneficial effects of sulforaphane have been shown to involve induction of a group of cytoprotective, Nrf2-driven genes, whose protein products include free radical scavenging and detoxifying enzymes. However, the influence of sulforaphane on post-injury cognitive deficits has not been examined. In this study, we examined if sulforaphane, when administered following cortical impact injury, can improve the performance of rats tested in hippocampal- and prefrontal cortex-dependent tasks. Our results indicate that sulforaphane treatment improves performance in the Morris water maze task (as indicated by decreased latencies during learning and platform localization during a probe trial) and reduces working memory dysfunction (tested using the delayed match-to-place task). These behavioral improvements were only observed when the treatment was initiated 1h, but not 6h, post-injury. These studies support the use of sulforaphane in the treatment of TBI, and extend the previously observed protective effects to include enhanced cognition.
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Subfields of the hippocampus display differential dynamics in processing a spatial environment, especially when changes are introduced to the environment. Specifically, when familiar cues in the environment are spatially rearranged, place cells in the CA3 subfield tend to rotate with a particular set of cues (e.g., proximal cues), maintaining a coherent spatial representation. Place cells in CA1, in contrast, display discordant behaviors (e.g., rotating with different sets of cues or remapping) in the same condition. In addition, on average, CA3 place cells shift their firing locations (measured by the center of mass, or COM) backward over time when the animal encounters the changed environment for the first time, but not after that first experience. However, CA1 displays an opposite pattern, in which place cells exhibit the backward COM-shift only from the second day of experience, but not on the first day. Here, we examined the relationship between the environment-representing behavior (i.e., rotation vs. remapping) and the COM-shift of place fields in CA1 and CA3. Both in CA1 and CA3, the backward (as well as forward) COM-shift phenomena occurred regardless of the rotating versus remapping of the place cell. The differential, daily time course of the onset/offset of backward COM-shift in the cue-altered environment in CA1 and CA3 (on day 1 in CA1 and from day 2 onward in CA3) stems from different population dynamics between the subfields. The results suggest that heterogeneous, complex plasticity mechanisms underlie the environment-representating behavior (i.e., rotate/remap) and the COM-shifting behavior of the place cell.
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The place-specific activity of hippocampal cells provides downstream structures with information regarding an animal's position within an environment and, perhaps, the location of goals within that environment. In rodents, recent research has suggested that distal cues primarily set the orientation of the spatial representation, whereas the boundaries of the behavioral apparatus determine the locations of place activity. The current study was designed to address possible biases in some previous research that may have minimized the likelihood of observing place activity bound to distal cues. Hippocampal single-unit activity was recorded from six freely moving rats as they were trained to perform a tone-initiated place-preference task on an open-field platform. To investigate whether place activity was bound to the room- or platform-based coordinate frame (or both), the platform was translated within the room at an "early" and at a "late" phase of task acquisition (Shift 1 and Shift 2). At both time points, CA1 and CA3 place cells demonstrated room-associated and/or platform-associated activity, or remapped in response to the platform shift. Shift 1 revealed place activity that reflected an interaction between a dominant platform-based (proximal) coordinate frame and a weaker room-based (distal) frame because many CA1 and CA3 place fields shifted to a location intermediate to the two reference frames. Shift 2 resulted in place activity that became more strongly bound to either the platform- or room-based coordinate frame, suggesting the emergence of two independent spatial frames of reference (with many more cells participating in platform-based than in room-based representations).
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Desordens da ansiedade, especialmente a agorafobia e a desordem do pânico foram associadas a anormalidades das funções vestibulares. Evidências de que o controle do equilíbrio pode exigir habilidades atencionais também foram relatadas. Utilizando o medo de altura como modelo clínico onde sintomas ansiosos coexistem com anormalidades com a percepção espacial e controle do equilíbrio, este estudo investigou o desempenho em testes de atenção visual em voluntários normais com altos e baixos escores obtidos do Questionário de Acrofobia. O teste de rastreio visual foi realizado em 30 indivíduos (15 em cada grupo) enquanto ouviam dois tipos diferentes de estímulos auditivos. Na condição volume um som de 900 Hz era apresentado em ambos ouvidos durante 2 segundos seguidos de mais 2 segundos de silêncio. Na condição balanço , o mesmo som era apresentado durante 2 segundos ao ouvido direito seguido por 2 segundos ao ouvido esquerdo. Estímulos auditivos de movimento provocaram maior desconforto em ambos os grupos, mas nos indivíduos com maiores escores de acrofobia estes estímulos foram associados a um pior desempenho no teste visual. Embora muito limitado pela amostra experimental, este estudo sugere que o medo de altura pode estar associado à dependência visual para manutenção do equilíbrio e que poderia piorar o desempenho nos testes visuais devido à competição dos recursos neuro-cognitivos. Implicações experimentais e clínicas destes achados preliminares exigem outras pesquisas.
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Desordens da ansiedade, especialmente a agorafobia e a desordem do pânico foram associadas a anormalidades das funções vestibulares. Evidências de que o controle do equilíbrio pode exigir habilidades atencionais também foram relatadas. Utilizando o medo de altura como modelo clínico onde sintomas ansiosos coexistem com anormalidades com a percepção espacial e controle do equilíbrio, este estudo investigou o desempenho em testes de atenção visual em voluntários normais com altos e baixos escores obtidos do Questionário de Acrofobia. O teste de rastreio visual foi realizado em 30 indivíduos (15 em cada grupo) enquanto ouviam dois tipos diferentes de estímulos auditivos. Na condição volume um som de 900 Hz era apresentado em ambos ouvidos durante 2 segundos seguidos de mais 2 segundos de silêncio. Na condição balanço , o mesmo som era apresentado durante 2 segundos ao ouvido direito seguido por 2 segundos ao ouvido esquerdo. Estímulos auditivos de movimento provocaram maior desconforto em ambos os grupos, mas nos indivíduos com maiores escores de acrofobia estes estímulos foram associados a um pior desempenho no teste visual. Embora muito limitado pela amostra experimental, este estudo sugere que o medo de altura pode estar associado à dependência visual para manutenção do equilíbrio e que poderia piorar o desempenho nos testes visuais devido à competição dos recursos neuro-cognitivos. Implicações experimentais e clínicas destes achados preliminares exigem outras pesquisas.
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Mode of access: Internet.
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Photocopy (negative)
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Desordens da ansiedade, especialmente a agorafobia e a desordem do pânico foram associadas a anormalidades das funções vestibulares. Evidências de que o controle do equilíbrio pode exigir habilidades atencionais também foram relatadas. Utilizando o medo de altura como modelo clínico onde sintomas ansiosos coexistem com anormalidades com a percepção espacial e controle do equilíbrio, este estudo investigou o desempenho em testes de atenção visual em voluntários normais com altos e baixos escores obtidos do Questionário de Acrofobia. O teste de rastreio visual foi realizado em 30 indivíduos (15 em cada grupo) enquanto ouviam dois tipos diferentes de estímulos auditivos. Na condição volume um som de 900 Hz era apresentado em ambos ouvidos durante 2 segundos seguidos de mais 2 segundos de silêncio. Na condição balanço , o mesmo som era apresentado durante 2 segundos ao ouvido direito seguido por 2 segundos ao ouvido esquerdo. Estímulos auditivos de movimento provocaram maior desconforto em ambos os grupos, mas nos indivíduos com maiores escores de acrofobia estes estímulos foram associados a um pior desempenho no teste visual. Embora muito limitado pela amostra experimental, este estudo sugere que o medo de altura pode estar associado à dependência visual para manutenção do equilíbrio e que poderia piorar o desempenho nos testes visuais devido à competição dos recursos neuro-cognitivos. Implicações experimentais e clínicas destes achados preliminares exigem outras pesquisas.
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Pouvoir déterminer la provenance des sons est fondamental pour bien interagir avec notre environnement. La localisation auditive est une faculté importante et complexe du système auditif humain. Le cerveau doit décoder le signal acoustique pour en extraire les indices qui lui permettent de localiser une source sonore. Ces indices de localisation auditive dépendent en partie de propriétés morphologiques et environnementales qui ne peuvent être anticipées par l'encodage génétique. Le traitement de ces indices doit donc être ajusté par l'expérience durant la période de développement. À l’âge adulte, la plasticité en localisation auditive existe encore. Cette plasticité a été étudiée au niveau comportemental, mais on ne connaît que très peu ses corrélats et mécanismes neuronaux. La présente recherche avait pour objectif d'examiner cette plasticité, ainsi que les mécanismes d'encodage des indices de localisation auditive, tant sur le plan comportemental, qu'à travers les corrélats neuronaux du comportement observé. Dans les deux premières études, nous avons imposé un décalage perceptif de l’espace auditif horizontal à l’aide de bouchons d’oreille numériques. Nous avons montré que de jeunes adultes peuvent rapidement s’adapter à un décalage perceptif important. Au moyen de l’IRM fonctionnelle haute résolution, nous avons observé des changements de l’activité corticale auditive accompagnant cette adaptation, en termes de latéralisation hémisphérique. Nous avons également pu confirmer l’hypothèse de codage par hémichamp comme représentation de l'espace auditif horizontal. Dans une troisième étude, nous avons modifié l’indice auditif le plus important pour la perception de l’espace vertical à l’aide de moulages en silicone. Nous avons montré que l’adaptation à cette modification n’était suivie d’aucun effet consécutif au retrait des moulages, même lors de la toute première présentation d’un stimulus sonore. Ce résultat concorde avec l’hypothèse d’un mécanisme dit de many-to-one mapping, à travers lequel plusieurs profils spectraux peuvent être associés à une même position spatiale. Dans une quatrième étude, au moyen de l’IRM fonctionnelle et en tirant profit de l’adaptation aux moulages de silicone, nous avons révélé l’encodage de l’élévation sonore dans le cortex auditif humain.
