856 resultados para eye movements
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Considerando que os movimentos e fixações do olhar podem ficar sob controle de contingências e que instruções colocam comportamentos sob controle de contingências, buscou-se investigar os efeitos de instruções, que descrevem respostas de escolha, sobre os movimentos e fixações do olhar em uma situação de discriminação simples simultânea. Participaram do estudo 15 universitários distribuídos em três condições experimentais. As três condições diferiram em um único aspecto: quanto ao tipo de instrução apresentada ao participante no início da Fase 1. Na Condição I era apresentada uma instrução mínima, na Condição II era apresentada uma instrução correspondente às contingências de reforçamento em vigor e na Condição III uma instrução discrepante das contingências de reforçamento em vigor. Na Fase 2 ocorriam mudanças não sinalizadas nas contingências de reforço programadas. A tarefa dos participantes era clicar com o mouse em um de dois estímulos apresentados simultaneamente. Os resultados mostraram, de modo geral, que na Condição I a maioria dos participantes apresentaram desempenho discriminado nas Fases 1 e 2, tendo olhado mais frequentemente para o S- e para a propriedade do estímulo irrelevante para a discriminação, no início das fases e para o S+ e para a propriedade relevante, no final das fases. Na Condição II, todos os participantes apresentaram desempenho discriminado, de acordo com o especificado na instrução correspondente, desde o início da Fase 1 e olharam mais frequentemente o S+, tendo a maioria olhado com maior frequência à parte do estímulo que continha a propriedade relevante para a discriminação. Na Fase 2, a maioria não apresentou desempenho sob controle das contingências, tendo olhado com frequência equiparada para S+ e S-, apresentando diferentes padrões de respostas quando analisada as partes dos estímulos. Na Condição III, a maioria dos participantes deixou de seguir a regra discrepante, apresentada no início da Fase 1, e emitiu desempenhos discriminados de acordo com as contingências programadas nas Fases 1 e 2. A maioria olhou mais frequentemente para o S+e para a propriedade relevante para discriminação no fim das fases. Os dados das três condições indicam que instruções podem interferir nos padrões de movimentos dos olhos, assim como contingências, entretanto, gerando padrões diferentes de respostas de escolha e de movimento dos olhos.
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The control of stances such as the upright stance seems not to have a purpose in itself; this control could facilitate the execution of other simultaneous tasks, the so-called suprapostural tasks. The goal of this study was to determine the effects of saccadic eye movements on the control of posture. Twelve adult participants had their body oscillations analyzed while standing upright, for 70 s, in the postural conditions of feet apart and feet together, performing fixation in the central target or horizontal saccadic movements, in the conditions slow (0,5 Hz) and fast (1,1 Hz). The results showed that saccadic movements, independently of their frequency, strongly reduced trunk and head oscillations in the anterior-posterior (AP) axis. In this axis, there was an effect of feet position only in head oscillation. In the medio-lateral (ML) axis, the results showed a strong effect of feet position with body oscillation decreased in the condition of feet apart. The effect of the visual task in the ML axis occurred only for trunk oscillation, not reaching significance level in the pairewise comparisons. In the AP axis, the data corroborate a facilitatory explanation of the control of posture: the reduction in body oscillation limited the variations of the stimulus image projected on the retina, facilitating the execution of saccadic movements as compared to fixation. In the ML axis, the effect of reducing the basis of support was more evident than the effect of saccadic movements, suggesting that the available resources were used primarily for the postural task in detriment of the visual task. Additionally, aspects like attentional focus and sensory information pick up are discussed as mechanisms involved in this task
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Postural control is needed to perform various daily activities, from staying in one posture, standing, to sports situations. Many studies have shown that sensory systems help to maintain posture stable; acquisition of perceptual information, particularly through head and eye movements, allows static and dynamic equilibrium. Research related to both motor behavior and physical activities such as gymnastics have contributed to a better understanding of complexities involved in human postural control. The purpose of this study was to review the related literature, searching for possible answers on how everyday and sports actions are performed, with respect to the control and maintenance of posture. Its focus was on how the human body acquires information from the sensory systems, vision in special, and how this information acts to support the control of posture and gaze
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Pós-graduação em Desenvolvimento Humano e Tecnologias - IBRC
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Individuals treated with combined valproate-lamotrigine rarely present late adverse effects (unrelated to introduction and titration). We describe four patients in whom such effects occurred after continuous, long-term use of valproate-lamotrigine (at 9 months to 2 years after final antiepileptic drug adjustment). The patients presented heterogeneous disturbances, including ataxia, vertigo, and headache, and rare movement disorders, such as tics and abnormal eye movements. Although these effects are heterogeneous in their occurrence and timing, they can alert physicians to the possibility of late neurologic disturbances, and must be considered in order to avoid unnecessary ancillary tests. Treatment discontinuation is unnecessary, given that a small decrease in dose led to remission of these adverse effects. (c) 2012 Elsevier Inc. All rights reserved.
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Human brain is provided with a flexible audio-visual system, which interprets and guides responses to external events according to spatial alignment, temporal synchronization and effectiveness of unimodal signals. The aim of the present thesis was to explore the possibility that such a system might represent the neural correlate of sensory compensation after a damage to one sensory pathway. To this purpose, three experimental studies have been conducted, which addressed the immediate, short-term and long-term effects of audio-visual integration on patients with Visual Field Defect (VFD). Experiment 1 investigated whether the integration of stimuli from different modalities (cross-modal) and from the same modality (within-modal) have a different, immediate effect on localization behaviour. Patients had to localize modality-specific stimuli (visual or auditory), cross-modal stimulus pairs (visual-auditory) and within-modal stimulus pairs (visual-visual). Results showed that cross-modal stimuli evoked a greater improvement than within modal stimuli, consistent with a Bayesian explanation. Moreover, even when visual processing was impaired, cross-modal stimuli improved performance in an optimal fashion. These findings support the hypothesis that the improvement derived from multisensory integration is not attributable to simple target redundancy, and prove that optimal integration of cross-modal signals occurs in processing stage which are not consciously accessible. Experiment 2 examined the possibility to induce a short term improvement of localization performance without an explicit knowledge of visual stimulus. Patients with VFD and patients with neglect had to localize weak sounds before and after a brief exposure to a passive cross-modal stimulation, which comprised spatially disparate or spatially coincident audio-visual stimuli. After exposure to spatially disparate stimuli in the affected field, only patients with neglect exhibited a shifts of auditory localization toward the visual attractor (the so called Ventriloquism After-Effect). In contrast, after adaptation to spatially coincident stimuli, both neglect and hemianopic patients exhibited a significant improvement of auditory localization, proving the occurrence of After Effect for multisensory enhancement. These results suggest the presence of two distinct recalibration mechanisms, each mediated by a different neural route: a geniculo-striate circuit and a colliculus-extrastriate circuit respectively. Finally, Experiment 3 verified whether a systematic audio-visual stimulation could exert a long-lasting effect on patients’ oculomotor behaviour. Eye movements responses during a visual search task and a reading task were studied before and after visual (control) or audio-visual (experimental) training, in a group of twelve patients with VFD and twelve controls subjects. Results showed that prior to treatment, patients’ performance was significantly different from that of controls in relation to fixations and saccade parameters; after audiovisual training, all patients reported an improvement in ocular exploration characterized by fewer fixations and refixations, quicker and larger saccades, and reduced scanpath length. Similarly, reading parameters were significantly affected by the training, with respect to specific impairments observed in left and right hemisphere–damaged patients. The present findings provide evidence that a systematic audio-visual stimulation may encourage a more organized pattern of visual exploration with long lasting effects. In conclusion, results from these studies clearly demonstrate that the beneficial effects of audio-visual integration can be retained in absence of explicit processing of visual stimulus. Surprisingly, an improvement of spatial orienting can be obtained not only when a on-line response is required, but also after either a brief or a long adaptation to audio-visual stimulus pairs, so suggesting the maintenance of mechanisms subserving cross-modal perceptual learning after a damage to geniculo-striate pathway. The colliculus-extrastriate pathway, which is spared in patients with VFD, seems to play a pivotal role in this sensory compensation.
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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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Obbiettivo: approfondire le conoscenze sul sonno attraverso l'analisi di possibili marcatori di sonnolenza, gli Slow Eye Movements, con particolare attenzione ad una specifica patologia del sonno chiamata Obstructive Sleep Apnea Syndrome (OSAS). Metodi: sono stati analizzati gli Slow Eye Movements a partire dall'output di un algoritmo automatico, già esistente, per la loro identificazione a partire dal segnale elettro-oculografico. Il lavoro è stato condotto in ambiente MATLAB. Risultati: si sono rilevate differenze in soggetti OSAS e sani: i primi mostrano un numero maggiore di SEM nell'arco della veglia. Questa attività diventa maggiore a distanze superiori dal sonno rispetto a soggetti sani. Inoltre si è riscontrato che i SEM in veglia sono associati ad un aumento di ritmo cerebrale alpha, ed una diminuzione del ritmo beta. Conclusioni: questo studio sembra validare i SEM come marcatori di sonnolenza e ne approfondisce la conoscenza. Essi potrebbero essere quindi utilizzati in ambito clinico e tecnologico per rilevare stati di sonnolenza.
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La sonnolenza durante la guida è un problema di notevole entità e rappresenta la causa di numerosi incidenti stradali. Rilevare i segnali che precedono la sonnolenza è molto importante in quanto, é possibile mettere in guardia i conducenti dei mezzi adottando misure correttive e prevenendo gli incidenti. Attualmente non esiste una metodica efficace in grado di misurare la sonnolenza in maniera affidabile, e che risulti di facile applicazione. La si potrebbe riconoscere da mutazioni di tipo comportamentale del soggetto come: presenza di sbadigli, chiusura degli occhi o movimenti di caduta della testa. I soggetti in stato di sonnolenza presentano dei deficit nelle loro capacità cognitive e psicomotorie. Lo stesso vale per i conducenti i quali, quando sono mentalmente affaticati non sono in grado di mantenere un elevato livello di attenzione. I tempi di reazione si allungano e la capacità decisionale si riduce. Ciò è associato a cambiamenti delle attività delta, theta e alfa di un tracciato EEG. Tramite lo studio dei segnali EEG è possibile ricavare informazioni utili sullo stato di veglia e sull'insorgenza del sonno. Come strumento di classificazione per elaborare e interpretare tali segnali, in questo studio di tesi sono state utilizzate le support vector machines(SVM). Le SVM rappresentano un insieme di metodi di apprendimento che permettono la classicazione di determinati pattern. Necessitano di un set di dati di training per creare un modello che viene testato su un diverso insieme di dati per valutarne le prestazioni. L'obiettivo è quello di classicare in modo corretto i dati di input. Una caratteristica delle SVM è una buona capacità di generalizzare indipendentemente dalla dimensione dello spazio di input. Questo le rende particolarmente adatte per l'analisi di dati biomedici come le registrazioni EEG multicanale caratterizzate da una certa ridondanza intrinseca dei dati. Nonostante sia abbastanza semplice distinguere lo stato di veglia dallo stato di sonno, i criteri per valutarne la transizione non sono ancora stati standardizzati. Sicuramente l'attività elettro-oculografica (EOG) riesce a dare informazioni utili riguardo l'insorgenza del sonno, in quanto essa è caratterizzata dalla presenza di movimenti oculari lenti rotatori (Slow Eye Movements, SEM) tipici della transizione dalla veglia alla sonno. L'attività SEM inizia prima dello stadio 1 del sonno, continua lungo tutta la durata dello stesso stadio 1, declinando progressivamente nei primi minuti dello stadio 2 del sonno fino a completa cessazione. In questo studio, per analizzare l'insorgere della sonnolenza nei conducenti di mezzi, sono state utilizzate registrazioni provenienti da un solo canale EEG e da due canali EOG. Utilizzare un solo canale EEG impedisce una definizione affidabile dell'ipnogramma da parte dei clinici. Quindi l'obiettivo che ci si propone, in primo luogo, è quello di realizzare un classificatore del sonno abbastanza affidabile, a partire da un solo canale EEG, al fine di verificare come si dispongono i SEM a cavallo dell'addormentamento. Quello che ci si aspetta è che effettivamente l'insorgere della sonnolenza sia caratterizzata da una massiccia presenza di SEM.
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Neglect is defined as the failure to attend and to orient to the contralesional side of space. A horizontal bias towards the right visual field is a classical finding in patients who suffered from a right-hemispheric stroke. The vertical dimension of spatial attention orienting has only sparsely been investigated so far. The aim of this study was to investigate the specificity of this vertical bias by means of a search task, which taps a more pronounced top-down attentional component. Eye movements and behavioural search performance were measured in thirteen patients with left-sided neglect after right hemispheric stroke and in thirteen age-matched controls. Concerning behavioural performance, patients found significantly less targets than healthy controls in both the upper and lower left quadrant. However, when targets were located in the lower left quadrant, patients needed more visual fixations (and therefore longer search time) to find them, suggesting a time-dependent vertical bias.
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The historical context in which saccades are made influences their latency and error rates, but less is known about how context influences their spatial parameters. We recently described a novel spatial bias for antisaccades, in which the endpoints of these responses deviate towards alternative goal locations used in the same experimental block, and showed that expectancy (prior probability) is at least partly responsible for this 'alternate-goal bias'. In this report we asked whether trial history also plays a role. Subjects performed antisaccades to a stimulus randomly located on the horizontal meridian, on a 40° angle downwards from the horizontal meridian, or on a 40° upward angle, with all three locations equally probable on any given trial. We found that the endpoints of antisaccades were significantly displaced towards the goal location of not only the immediately preceding trial (n - 1) but also the penultimate (n - 2) trial. Furthermore, this bias was mainly present for antisaccades with a short latency of <250 ms and was rapidly corrected by secondary saccades. We conclude that the location of recent antisaccades biases the spatial programming of upcoming antisaccades, that this historical effect persists over many seconds, and that it influences mainly rapidly generated eye movements. Because corrective saccades eliminate the historical bias, we suggest that the bias arises in processes generating the response vector, rather than processes generating the perceptual estimate of goal location.
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We investigated the effect of image size on saccade amplitudes. First, in a meta-analysis, relevant results from previous scene perception studies are summarised, suggesting the possibility of a linear relationship between mean saccade amplitude and image size. Forty-eight observers viewed 96 colour scene images scaled to four different sizes, while their eye movements were recorded. Mean and median saccade amplitudes were found to be directly proportional to image size, while the mode of the distribution lay in the range of very short saccades. However, saccade amplitudes expressed as percentages of image size were not constant over the different image sizes; on smaller stimulus images, the relative saccades were found to be larger, and vice versa. In sum, and as far as mean and median saccade amplitudes are concerned, the size of stimulus images is the dominant factor. Other factors, such as image properties, viewing task, or measurement equipment, are only of subordinate importance. Thus, the role of stimulus size has to be reconsidered, in theoretical as well as methodological terms.
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BACKGROUND: The aim of this study was to determine the performance of a new, 3D-monitor based, objective stereotest in children under the age of four. METHODS: Random-dot circles (diameter 10 cm, crossed, disparity of 0.34 degrees) randomly changing their position were presented on an 3D-monitor while eye movements were monitored by infrared photo-oculography. If > or = 3 consecutive stimuli were seen, a positive response was assumed. One hundred thirty-four normal children aged 2 months to 4 years (average 17+/-15.3 months) were examined. RESULTS: Below the age of 12 months, we were not able to obtain a response to the 3D stimulus. For older children the following rates of positive responses were found: 12-18 months 25%, 18-24 months 10%, 24-30 months 16%, 30-36 months 57%, 36-42 months 100%, and 42-48 months 91%. Multiple linear logistic regression showed a significant influence on stimulus recognition of the explanatory variables age (p<0.00001) and child cooperation (p<0.001), but not of gender (p>0.1). CONCLUSIONS: This 3D-monitor based stereotest allows an objective measurement of random-dot stereopsis in younger children. It might open new ways to screen children for visual abnormalities and to study the development of stereovision. However, the current experimental setting does not allow determining random-dot stereopsis in children younger than 12 months.
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Interhemispheric imbalance is discussed as a pathophysiological mechanism in visuospatial neglect. It is suggested that after a lesion of the right hemisphere the mutual transcallosal inhibition is impaired, resulting in an increased activity of the left hemisphere. We investigated the interhemispheric balance of attention in healthy subjects by using a free visual exploration task and by interfering with the neural activity of the posterior parietal cortex (PPC) of either hemisphere using an inhibitory transcranial magnetic stimulation routine with theta burst stimulation (TBS). Subjects explored colour photographs of real-life scenes presented on a computer screen under four conditions: (i) without TBS; (ii) after TBS over the right PPC; (iii) after TBS over the left PPC; and (iv) after TBS over the right PPC and, after the first half of the task, over the left PPC. Eye movements were measured, and distribution of mean cumulative fixation duration over screen halves was analyzed. TBS over the right PPC resulted in a significant rightward shift of mean cumulative fixation duration of approximately 30 min. The shift could be reversed when a subsequent train of TBS was applied over the left PPC. However, left PPC stimulation alone had no significant effect on visual exploration behaviour. The present study shows that the effect of TBS on the PPC depends on which hemisphere is stimulated and on the state of the contralateral homologue area. These findings are in accordance with the predictions of the interhemispheric rivalry model in neglect.
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The right posterior parietal cortex (PPC) is critically involved in visual exploration behaviour, and damage to this area may lead to neglect of the left hemispace. We investigated whether neglect-like visual exploration behaviour could be induced in healthy subjects using theta burst repetitive transcranial magnetic stimulation (rTMS). To this end, one continuous train of theta burst rTMS was applied over the right PPC in 12 healthy subjects prior to a visual exploration task where colour photographs of real-life scenes were presented on a computer screen. In a control experiment, stimulation was also applied over the vertex. Eye movements were measured, and the distribution of visual fixations in the left and right halves of the screen was analysed. In comparison to the performance of 28 control subjects without stimulation, theta burst rTMS over the right PPC, but not the vertex, significantly decreased cumulative fixation duration in the left screen-half and significantly increased cumulative fixation duration in the right screen-half for a time period of 30 min. These results suggest that theta burst rTMS is a reliable method of inducing transient neglect-like visual exploration behaviour.
