3,121 research outputs found

    The influence of time and money on product evaluations: A neurophysiological analysis

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    "Time is money" is how a common saying goes, reflecting a widespread assumption in many people\u27s everyday life. It seems that money and time are very similar concepts which might even be exchangeable all together. However, the neurophysiological processes underlying the activation of time or money are not yet completely understood. In order to understand in how far and in which dimensions the concept of time versus the concept of money effects human behavior we enquired the neural differences of the time versus money effect. This paper broadens the understanding of both concepts and investigates the posited distinct mindsets of time and money using functional magnetic resonance imaging (fMRI) technology. A sample of 44 righthanded adults has been analyzed. Our data supports the idea of the existence of two distinct mindsets for time and money. However, contrasting both conditions in one general linear model only a few significant differences have been found. The insula seems to be a crucial locus for the neural difference of both mindsets. Higher insula activation in the time condition suggests stronger urge for the product primed with time

    Temporal judgments of actions following unilateral brain damage

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    Sense of time is a complex construct, and its neural correlates remain to date in most part unknown. To complicate the frame, physical attributes of the stimulus, such as its intensity or movement, influence temporal perception. Although previous studies have shown that time perception can be compromised after a brain lesion, the evidence on the role of the left and right hemispheres are meager. In two experiments, the study explores the ability of temporal estimation of multi-second actions and non-biological movements in 33 patients suffering from unilateral brain lesion. Furthermore, the modulatory role of induced embodiment processes is investigated. The results reveal a joint contribution of the two hemispheres depending not only on different durations but also on the presence of actions. Indeed, the left hemisphere damaged patients find it difficult to estimate 4500 ms or longer durations, while the right hemisphere damaged patients fail in 3000 ms durations. Furthermore, the former fail when a biological action is shown, while the latter fail in non-biological movement. Embodiment processes have a modulatory effect only after right hemisphere lesions. Among neuropsychological variables, only spatial neglect influences estimation of non-biological movement

    Short-term memory of temporal aspects of noxious and innocuous thermal sensation : psychophysical and fMRI studies

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    La douleur peut être considérée comme un système de protection qui signale une menace et qui nous avertit des dégâts imminents aux tissus. En tant que mécanisme de défense, il nécessite l'apprentissage et la mémoire des expériences du passé pour la survie et les comportements liés à la douleur. Par conséquent, notre expérience de la douleur actuelle est fortement influencée par les expériences antérieures et l'apprentissage. Cependant, malgré son importance, notre compréhension actuelle de l'interaction entre le système de la douleur et le système de mémoire est très limitée. La mémoire de la douleur est un sujet de recherche très vaste. Il nécessite une compréhension des mécanismes impliqués à chaque étape du système de mémoire (mémoire immédiate, à court terme et à long terme) et l'interaction entre eux. Parmi les étapes multiples de la mémoire, la mémoire à court terme de la douleur est une zone qui est moins recherchée, alors qu'il existe une énorme quantité de recherche neuroscientifique dans la mémoire à court terme sur d'autres modalités, en particulier la vision. L'étude de la mémoire à court terme de la douleur est particulièrement importante car cette trace de la mémoire à court terme de la douleur est ensuite convertie en mémoire à long terme et affecte ensuite les expériences futures de la douleur. Cette thèse est largement axée sur la mémoire à court terme de la douleur. La complexité et la multi dimensionnalité de la douleur ajoutent encore un autre élément à la recherche sur la mémoire de la douleur. Par exemple, la trace de la mémoire de la douleur peut contenir des traces de mémoire de diverses composantes de la douleur telles que la réponse sensorielle affective, cognitive et motrice et l'interaction entre elles. Par conséquent, une première étape dans l'exploration neuroscientifique de la mémoire de la douleur nécessite la réduction de l'expérience de la douleur tout en englobant tous ces différents composants à un seul composant. Dans la recherche présentée ici, nous avons généralement examiné cela par des instructions d'attention ‘ top-down’ pour assister à la dimension sensorielle de la douleur. La recherche précédente sur la mémoire à court terme de la douleur a également porté principalement sur la dimension sensorielle de la douleur. Cependant, parmi les dimensions sensorielles de la douleur, la mémoire à court terme de l'intensité et de la dimension spatiale de la douleur a fait l'objet de recherches antérieures. Malgré son importance, la dimension temporelle de la douleur est restée complètement inexplorée dans la recherche sur la mémoire de la douleur. La recherche menée dans cette thèse est consacrée à l'exploration de la mémoire à court terme de la durée de la douleur. La durée de la douleur peut être suivie de manière indépendante, mais peut également être suivie conjointement avec la dimension d'intensité telle que le suivi dynamique de l'intensité de la douleur dans le temps. Les études menées dans cette thèse traitent spécifiquement du traitement isolé de la durée de la douleur ainsi que du traitement conjoint de la dimension durée / intensité de la douleur. La première étude psychophysique a exploré la nature de la représentation mentale du modèle de mémoire de la douleur thermique dynamique et a également été conçue pour aborder les différences de la dimension sensorielle et affective de la douleur thermique dans la mémoire à court terme. La deuxième étude psychophysique portait sur les propriétés de la mémoire à court terme de la sensation thermique non douloureux en comparant le suivi dynamique de la sensation et le suivi isolé de la durée d'un événement thermique non douloureux. La troisième étude poursuit l'exploration du traitement dynamique de la durée conjointement avec l'intensité par rapport au traitement isolé de la durée dans la mémoire à court terme en utilisant des stimuli thermiques douloureuse une résonance magnétique fonctionnelle (IRMF). Dans l'ensemble, les résultats des études psychophysiques ont montré une transformation significative de la durée et de la dynamique de la sensation thermique douloureux et non-douloureux dans la mémoire à court terme; comme la perte d'informations somatosensorielles temporelles en mémoire. Nous avons en outre montré une amélioration du rappel de la durée dans le suivi dynamique de la durée, en comparaison avec le suivi de la durée isolée. Nous avons également montré des différences dans les corrélats neuronaux de la mémoire à court terme de la durée de douleur par rapport à la dynamique de douleur. L'étude de l'IRMF a montré des similitudes frappantes dans les corrélats neuronaux sous-jacents à la mémoire à court terme de douleur et d'autres modalités telles que la contribution des coticés fronto-pariétales ainsi que les corticaux sensoriels impliqués dans le traitement perceptuel.Pain can be viewed as a protective system that signals threat and alerts us to impending tissue damage. As a defense mechanism, it necessitates the learning and memory of past painful experiences for survival and pain-related behavior. Therefore our current pain experience is heavily influenced by previous experiences and learning. However, despite its importance, our current understanding of the interaction between the pain system and the memory system is very limited. Pain memory is a very broad topic of research on its own. It requires an understanding of the mechanisms involved at each stage of the memory system (immediate, short-term, and long-term memory), and the interaction among them. Among the multiple stages of memory, the short-term memory of pain is an area that is less researched, while there are enormous amount of neuroscientific research in short-term memory of other modalities, particularly vision. Investigation of the short-term memory of pain is especially important as the short-term memory trace of pain is converted to long-term memory and subsequently affects future pain experiences. This thesis is broadly focused on the short-term memory of pain. The complexity and multi-dimensionality of pain adds yet another element to the research on pain memory. For example, the memory trace of pain may contain memory traces of various components of pain such as sensory, affective, cognitive, and motoric responses, and the interactions among them. Therefore, an initial step in the neuroscientific exploration of pain memory requires narrowing down the pain experience, which encompasses all of these various components, to one single component. In the research presented here, we achieved this using top-down attentional instructions to attend to the sensory component of pain. The previous research on short-term memory of pain also focused mainly on the sensory component of pain. However, within the sensory component of pain the short-term memory of intensity and spatial dimension of pain has been the focus of previous research. Despite its importance, the temporal dimension of pain remained completely unexplored in pain memory research. Thus, the research conducted in this thesis is devoted to the exploration of short-term memory of the duration of pain. Pain duration can be tracked independently, but it can also be tracked conjointly with intensity, such as in dynamic tracking of pain intensity over time. The studies addressed in this thesis examined the isolated processing of pain duration as well as conjoint processing of the duration and intensity of pain. The first psychophysical study explored the nature of the mental representation of the memory template of dynamic thermal pain sensation and, additionally, addressed the differences between the sensory versus affective dimensions of thermal pain sensation in short-term memory. The second psychophysical study focused on properties of the short-term memory of innocuous thermal sensation by comparing dynamic tracking of sensation versus isolated tracking of duration of an innocuous thermal event. The third study explored the dynamic processing of duration conjointly with intensity, versus the isolated processing of duration in short-term memory, using noxious thermal stimuli and functional magnetic resonance imaging (fMRI). Overall, the results of the psychophysical studies showed significant transformation of duration and dynamics information of noxious and innocuous thermal sensation in short-term memory, such as loss of temporal somatosensory information. Additionally, we showed improvement in duration recall during dynamic tracking versus isolated tracking of duration. The fMRI study revealed differences in neural correlates of short-term memory of pain duration versus pain dynamics. Importantly, it also showed striking similarities between neural correlates underlying the short-term memory of pain and those underlying other modalities, such as a contribution of fronto-parietal cortices as well as sensory cortices involved in perceptual processing

    Research on integration of visual and motion cues for flight simulation and ride quality investigation

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    Vestibular perception and integration of several sensory inputs in simulation were studied. The relationship between tilt sensation induced by moving fields and those produced by actual body tilt is discussed. Linearvection studies were included and the application of the vestibular model for perception of orientation based on motion cues is presented. Other areas of examination includes visual cues in approach to landing, and a comparison of linear and nonlinear wash out filters using a model of the human vestibular system is given

    Perception of the Body in Space: Mechanisms

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    The principal topic is the perception of body orientation and motion in space and the extent to which these perceptual abstraction can be related directly to the knowledge of sensory mechanisms, particularly for the vestibular apparatus. Spatial orientation is firmly based on the underlying sensory mechanisms and their central integration. For some of the simplest situations, like rotation about a vertical axis in darkness, the dynamic response of the semicircular canals furnishes almost enough information to explain the sensations of turning and stopping. For more complex conditions involving multiple sensory systems and possible conflicts among their messages, a mechanistic response requires significant speculative assumptions. The models that exist for multisensory spatial orientation are still largely of the non-rational parameter variety. They are capable of predicting relationships among input motions and output perceptions of motion, but they involve computational functions that do not now and perhaps never will have their counterpart in central nervous system machinery. The challenge continues to be in the iterative process of testing models by experiment, correcting them where necessary, and testing them again

    Distortions of Subjective Time Perception Within and Across Senses

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    Background: The ability to estimate the passage of time is of fundamental importance for perceptual and cognitive processes. One experience of time is the perception of duration, which is not isomorphic to physical duration and can be distorted by a number of factors. Yet, the critical features generating these perceptual shifts in subjective duration are not understood. Methodology/Findings: We used prospective duration judgments within and across sensory modalities to examine the effect of stimulus predictability and feature change on the perception of duration. First, we found robust distortions of perceived duration in auditory, visual and auditory-visual presentations despite the predictability of the feature changes in the stimuli. For example, a looming disc embedded in a series of steady discs led to time dilation, whereas a steady disc embedded in a series of looming discs led to time compression. Second, we addressed whether visual (auditory) inputs could alter the perception of duration of auditory (visual) inputs. When participants were presented with incongruent audio-visual stimuli, the perceived duration of auditory events could be shortened or lengthened by the presence of conflicting visual information; however, the perceived duration of visual events was seldom distorted by the presence of auditory information and was never perceived shorter than their actual durations. Conclusions/Significance: These results support the existence of multisensory interactions in the perception of duration and, importantly, suggest that vision can modify auditory temporal perception in a pure timing task. Insofar as distortions in subjective duration can neither be accounted for by the unpredictability of an auditory, visual or auditory-visual event, we propose that it is the intrinsic features of the stimulus that critically affect subjective time distortions

    The multisensory attentional consequences of tool use : a functional magnetic resonance imaging study

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    Background: Tool use in humans requires that multisensory information is integrated across different locations, from objects seen to be distant from the hand, but felt indirectly at the hand via the tool. We tested the hypothesis that using a simple tool to perceive vibrotactile stimuli results in the enhanced processing of visual stimuli presented at the distal, functional part of the tool. Such a finding would be consistent with a shift of spatial attention to the location where the tool is used. Methodology/Principal Findings: We tested this hypothesis by scanning healthy human participants’ brains using functional magnetic resonance imaging, while they used a simple tool to discriminate between target vibrations, accompanied by congruent or incongruent visual distractors, on the same or opposite side to the tool. The attentional hypothesis was supported: BOLD response in occipital cortex, particularly in the right hemisphere lingual gyrus, varied significantly as a function of tool position, increasing contralaterally, and decreasing ipsilaterally to the tool. Furthermore, these modulations occurred despite the fact that participants were repeatedly instructed to ignore the visual stimuli, to respond only to the vibrotactile stimuli, and to maintain visual fixation centrally. In addition, the magnitude of multisensory (visual-vibrotactile) interactions in participants’ behavioural responses significantly predicted the BOLD response in occipital cortical areas that were also modulated as a function of both visual stimulus position and tool position. Conclusions/Significance: These results show that using a simple tool to locate and to perceive vibrotactile stimuli is accompanied by a shift of spatial attention to the location where the functional part of the tool is used, resulting in enhanced processing of visual stimuli at that location, and decreased processing at other locations. This was most clearly observed in the right hemisphere lingual gyrus. Such modulations of visual processing may reflect the functional importance of visuospatial information during human tool use

    Time Distortions in Mind

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    Time Distortions in Mind brings together current research on temporal processing in clinical populations to elucidate the interdependence between perturbations in timing and disturbances in the mind and brain. For the student, the scientist, and the stepping-stone for further research. Readership: An excellent reference for the student and the scientist interested in aspects of temporal processing and abnormal psychology

    Dissociating Explicit and Implicit Timing in Parkinson\u2019s Disease Patients: Evidence from Bisection and Foreperiod Tasks

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    A consistent body of literature reported that Parkinson\u2019s disease (PD) is marked by severe deficits in temporal processing. However, the exact nature of timing problems in PD patients is still elusive. In particular, what remains unclear is whether the temporal dysfunction observed in PD patients regards explicit and/or implicit timing. Explicit timing tasks require participants to attend to the duration of the stimulus, whereas in implicit timing tasks no explicit instruction to process time is received but time still affects performance. In the present study, we investigated temporal ability in PD by comparing 20 PD participants and 20 control participants in both explicit and implicit timing tasks. Specifically, we used a time bisection task to investigate explicit timing and a foreperiod task for implicit timing. Moreover, this is the first study investigating sequential effects in PD participants. Results showed preserved temporal ability in PD participants in the implicit timing task only (i.e., normal foreperiod and sequential effects). By contrast, PD participants failed in the explicit timing task as they displayed shorter perceived durations and higher variability compared to controls. Overall, the dissociation reported here supports the idea that timing can be differentiated according to whether it is explicitly or implicitly processed, and that PD participants are selectively impaired in the explicit processing of time

    Time Distortions in Mind

    Get PDF
    Time Distortions in Mind brings together current research on temporal processing in clinical populations to elucidate the interdependence between perturbations in timing and disturbances in the mind and brain. For the student, the scientist, and the stepping-stone for further research
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