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31 results on '"Proprioceptive information"'

1. Evolution of Synaptic Delay Based Neural Controllers for Implementing Central Pattern Generators in Hexapod Robotic Structures

Author

Santos, José, Fernández, Pablo, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Ferrández Vicente, José Manuel, editor, Álvarez-Sánchez, José Ramón, editor, de la Paz López, Félix, editor, Toledo-Moreo, Fco. Javier, editor, and Adeli, Hojjat, editor

Published
2015
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3. Modeling Peripersonal Action Space for Virtual Humans Using Touch and Proprioception

Author

Nguyen, Nhung, Wachsmuth, Ipke, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Goebel, Randy, editor, Siekmann, Jörg, editor, Wahlster, Wolfgang, editor, Ruttkay, Zsófia, editor, Kipp, Michael, editor, Nijholt, Anton, editor, and Vilhjálmsson, Hannes Högni, editor

Published
2009
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4. Toward an Integrated Visuomotor Representation of the Peripersonal Space

Author

Chinellato, Eris, Grzyb, Beata J., Fattori, Patrizia, del Pobil, Angel P., Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Mira, José, editor, Ferrández, José Manuel, editor, Álvarez, José R., editor, de la Paz, Félix, editor, and Toledo, F. Javier, editor

Published
2009
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5. The Bayesian Draughtsman: A Model for Visuomotor Coordination in Drawing

Author

Coen Cagli, Ruben, Coraggio, Paolo, Napoletano, Paolo, Boccignone, Giuseppe, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Mele, Francesco, editor, Ramella, Giuliana, editor, Santillo, Silvia, editor, and Ventriglia, Francesco, editor

Published
2007
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6. A Neurocomputational Model of an Imitation Deficit Following Brain Lesion

Author

Petreska, Biljana, Billard, Aude G., Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Kollias, Stefanos D., editor, Stafylopatis, Andreas, editor, Duch, Włodzisław, editor, and Oja, Erkki, editor

Published
2006
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8. Discussion

Author

Lazarov, Nikolai E., Beck, F., editor, Kriz, W., editor, Putz, R., editor, Schiebler, T. H., editor, Zilles, K., editor, Christ, B., editor, Marani, E., editor, Sano, Y., editor, and Lazarov, Nikolai E.

Published
2000
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9. Investigation of the sensory-perceptual potential of middle preschool age children with disorders of psychological development

Author

Baryaeva, L. B. and Tvorogova, A. V.

Subjects
ОБРАЗОВАНИЕ. ПЕДАГОГИКА, ПЕРЦЕПТИВНЫЕ СПОСОБНОСТИ, AUDITORY MODALITY, СРЕДНИЙ ДОШКОЛЬНЫЙ ВОЗРАСТ, ПЕРЦЕПТИВНЫЕ УМЕНИЯ, ЭКСПЕРИМЕНТАЛЬНЫЕ ИССЛЕДОВАНИЯ, СЕНСОРНО-ПЕРЦЕПТИВНЫЕ ФУНКЦИИ, CHILDREN WITH DISORDERS OF PSYCHOLOGICAL DEVELOPMENT, СТИМУЛЯЦИЯ СЕНСОРНО-ПЕРЦЕПТИВНОГО РАЗВИТИЯ, PROPRIOCEPTIVE INFORMATION, УРОВЕНЬ СЕНСОРНО-ПЕРЦЕПТИВНОГО РАЗВИТИЯ, ВЕСТИБУЛЯРНАЯ ИНФОРМАЦИЯ, ПРОПРИОЦЕПТИВНАЯ ИНФОРМАЦИЯ, ТАКТИЛЬНЫЕ СТИМУЛЫ, TACTILE STIMULI, VESTIBULAR INFORMATION, DISORDERS OF PSYCHOLOGICAL DEVELOPMENT, СЛУХОВАЯ МОДАЛЬНОСТЬ, ДЕТИ С ЗАДЕРЖКОЙ ПСИХИЧЕСКОГО РАЗВИТИЯ, ДОШКОЛЬНАЯ ПЕДАГОГИКА, DPD, ДЕФЕКТОЛОГИЯ. СПЕЦИАЛЬНЫЕ ШКОЛЫ, СЕНСОРНО-ПЕРЦЕПТИВНОЕ РАЗВИТИЕ, ЗАДЕРЖКА ПСИХИЧЕСКОГО РАЗВИТИЯ, STIMULATION OF SENSORY-PERCEPTUAL DEVELOPMENT, PRESCHOOLERS, ПСИХИЧЕСКИЕ ПРОЦЕССЫ, СРЕДНИЕ ДОШКОЛЬНИКИ, SENSORY-PERCEPTUAL DEVELOPMENT, ЗПР, НАУЧНО-ИССЛЕДОВАТЕЛЬСКАЯ РАБОТА, ЗРИТЕЛЬНАЯ МОДАЛЬНОСТЬ
Abstract

Статья посвящена научно-исследовательской работе по выявлению уровня сенсорно-перцептивного развития детей среднего дошкольного возраста с задержкой психического развития. The article deals with the issue of identification of the level of sensory-perceptual development of children of middle preschool age with disorders of psychological development.

Published
2022

11. Brave Upside Down World – Does Looking Between the Legs Elongate or Shorten the Perceived Distance

Author

Oliver Tošković

Subjects
distance perception, body position, looking between the legs, vestibular information, proprioceptive information, Psychology, BF1-990
Abstract

The aim of this research was to give further evidence for the influence of vestibularand proprioceptive information on distance perception, and to verify how perceived distancechanges if we use matching versus verbal judgment task. That is, the aim was to investigate how perceived distance changes when we bend over and look between the legs. The experiment was performed on a daylight open field (full-cue situation), with 20 participants, high school students from the Petnica Science Center. Participants had the task to match distances of two stimuli, one of which was in front of them at eye level, whereas the other was behind them, and they could observe it by bending their body forward and looking between the legs .Stimuli were 7cm*5cm large, and rectangular in shape. Results have shown that perceived distance changes in such a way that distances observed between the legs are perceived as longer than distances observed from an upright position. This difference in perceived distances exists only for larger physical distances (3m and 5m), but not for smaller physical distances (1m. Results coincide with our previous findings which indicate that vestibular and proprioceptive information change elongates perceived distance. On the other hand, the results contradict some findings gained in experiments in which the verbal judgment task was used. These contrary results probably appear because the verbal judgment task leaves more space for higher cognitive processes to be involved.

Published
2010

13. Greater Cervical Muscle Fat Infiltration Evaluated by Magnetic Resonance Imaging is Associated With Poor Postural Stability in Patients With Cervical Spondylotic Radiculopathy.

Author

Mitsutake, Tsubasa, Sakamoto, Maiko, Chyuda, Yuji, Oka, Shinichiro, Hirata, Hirokatsu, Matsuo, Takashi, Oishi, Tsuyoshi, and Horikawa, Etsuo

Subjects
*POSTURAL muscles, *RADICULOPATHY, *NERVE tissue, *NERVES, *FATS & oils, *MUSCLES, *NECK anatomy, *ADIPOSE tissues, *BACK muscles, *CERVICAL vertebrae, *MAGNETIC resonance imaging, *POSTURE, *CROSS-sectional method, *CASE-control method, *SPONDYLOSIS, *ANATOMY, *SURGERY
Abstract

Study Design: A population-based, cross-sectional study.Objective: The aim of this study was to quantitatively evaluate the relationship between static postural stability and fat infiltration within cervical multifidus muscle in patients with cervical spondylotic radiculopathy (CSR).Summary Of Background Data: CSR causes denervation by compression of nerve roots. This denervation is detected by fatty infiltration or results in fatty infiltration within muscles. Proprioceptive information in cervical multifidus muscle plays an important role in coordinated movement of postural stability; however, there have been few studies evaluating the relationship between postural stability and fat infiltration within cervical multifidus muscle among CSR patients.Methods: Sixteen CSR patients with C6 injuries and 25 age-matched healthy controls underwent magnetic resonance images to examine bilateral cervical multifidus muscle. For evaluation of fat within muscle, a muscle fat index (MFI) was calculated by using both measurement of cervical multifidus muscle and intermuscular fat. Participants' postural stability at upright position with eyes-opened and eyes-closed for 60 seconds was examined by a platform. Two parameters, the total length and the area of the center of pressure (COP), were used for evaluation.Results: The CSR group showed significantly poorer postural stability than the control group (eyes-opened the total length; P < 0.05, eyes-closed the total length; P < 0.05, eyes-closed the area; P < 0.05). There were significant group differences at C4, C5, and C6 MFI (P < 0.05). In the CSR group, a correlation analysis demonstrated that the age, C4, C5, and C6 MFI values were significantly associated with the eyes-closed the total length of the COP (P < 0.05).Conclusions: Fat infiltration within muscle could lead to inhibition of normal activity of musculature. The present study suggests that fat within cervical multifidus muscle could directly cause postural instability in static standing, even though the proprioceptive information has normal lower limbs. [ABSTRACT FROM AUTHOR]

Published
2016
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15. Vision Affects Gait Speed but not Patterns of Muscle Activation During Inclined Walking—A Virtual Reality Study

Author

Amit Benady, Sean Zadik, Oran Ben-Gal, Desiderio Cano Porras, Atalia Wenkert, Sharon Gilaie-Dotan, Meir Plotnik, Institute for Digital Smart Society, and RS: FSE BISS

Subjects
DYNAMICS, 030506 rehabilitation, electromyography, Movement disorders, genetic structures, Computer science, Rod and frame test, Electromyography, rod-and-frame, PROPRIOCEPTIVE INFORMATION, 0302 clinical medicine, Gait (human), VERTICALITY PERCEPTION, Treadmill, FRAME TEST, Original Research, Vestibular system, medicine.diagnostic_test, INDEPENDENCE, Bioengineering and Biotechnology, Muscle activation, locomotion, BALANCE, inclined surfaces, medicine.symptom, 0305 other medical science, Psychology, Biotechnology, medicine.medical_specialty, Histology, SURFACE, lcsh:Biotechnology, Biomedical Engineering, Bioengineering, Virtual reality, 03 medical and health sciences, Acceleration, Physical medicine and rehabilitation, GRAVITY, visuomotor integration, lcsh:TP248.13-248.65, medicine, visual dependency, Sensory cue, Balance (ability), Proprioception, RECTUS FEMORIS, Gait, VISUAL-FIELD DEPENDENCE, human activities, 030217 neurology & neurosurgery
Abstract

While walking, our locomotion is affected by and adapts to the environment based on vision-based and body-based (vestibular and proprioception) cues, all contributing to an “Internal Model of Gravity”. During surface inclination transitions, we modulate gait to counteract gravitational forces by braking during downhill walking to avoid uncontrolled acceleration or by exerting effort to avoid deceleration while walking uphill. In this study, we investigated the role of vision in gait modulation during surface inclination transitions by using an immersive large-scale Virtual Reality (VR) system equipped with a self-paced treadmill and projected visual scenes that allowed us to modulate physical-visual inclinations congruence parametrically. Gait speed and leg muscle electromyography (EMG) were measured in 12 healthy young adults. In addition, the magnitude of subjective visual misperception of verticality was measured by the rod and frame test. During virtual (non-veridical) inclination transitions, vision modulated gait speed after transitions by (i) slowing down to counteract the excepted gravitational ‘boost’ in virtual downhill inclinations and by (ii) speeding up to counteract the expected gravity resistance in virtual uphill inclinations. These gait speed modulations were reflected in muscle activation intensity changes and associated with subjective visual verticality misperception. However, temporal patterns of muscle activation, which are significantly affected by real gravitational inclination transitions, were not affected by virtual (visual) inclination transitions. Our results delineate the contribution of vision to functional locomotion on uneven surfaces and may lead to enhanced rehabilitation strategies for neurological disorders affecting movement.Significance statementA crucial component of successful locomotion is maintaining balance and speed while walking on uneven surfaces. In order to reach successful locomotion, an individual must utilize multisensory integration of visual, gravitational, and proprioception cues. The contribution of vision to this process is still unclear, thus we used a fully immersive virtual reality treadmill setup allowing us to manipulate visual (virtual) and gravitational (real) surface inclinations independently during locomotion of healthy adults. While vision modulated gait speed for a short period after inclination transitions and this was predictive of individual’s visual dependency, muscle activation patterns were only affected by gravitational surface inclinations, not by vision. Understanding the vision’s contribution to successful locomotion may lead to improved rehabilitation for movement disorders.

Published
2021
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16. 3D Smart User Interactive System with Real-Time Responding Tele-Robotic Proprioceptive Information.

Author

Tee, Tiam Hee, Eu, Kok Seng, Yap, Kian Meng, Marshall, Alan, and Lee, Tsung-Han

Abstract

Feedback of proprioceptive information is essential for many tele-robotic systems, especially those designed to undertake tasks concerning hazardous environments and for efficient out-of-sight remote control applications. Given highly sensitive nature of these applications, even small errors (e.g. less than one degree of displacement in robot posture) can cause unnecessary risk. Thus, accurate feedback of proprioceptive information, as well as a technique to precisely interpret this information, is significant to operator. In this paper, we introduce a framework that uses pulse feedback mechanism to measure the proprioceptive information of a robot operating over real-time wireless communication and represent it in 3D model user interface. The 3D user interface enhances the interpretation of proprioceptive information to help operator to visualize the real-time relative position of the robot. The paper also provides results that demonstrate how the framework allows synchronization between 3D model and tele-robot to be achieved in real-time over wireless communications. [ABSTRACT FROM PUBLISHER]

Published
2013
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17. Movement and afferent representations in human motor areas: a simultaneous neuroimaging and transcranial magnetic/peripheral nerve-stimulation study

Author

Hitoshi eShitara, Tetsuya eShinozaki, Kenji eTakagishi, Manabu eHonda, and Takashi eHanakawa

Subjects
Motor Cortex, connectivity, multimodal neuroimaging, TMS/tDCS, proprioceptive information, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Neuroimaging combined with transcranial magnetic stimulation (TMS) to primary motor cortex (M1) is an emerging technique that can examine motor-system functionality through evoked activity. However, because sensory afferents from twitching muscles are widely represented in motor areas the amount of evoked activity directly resulting from TMS remains unclear. We delivered suprathreshold TMS to left M1 or electrically stimulated the right median nerve (MNS) in 18 healthy volunteers while simultaneously conducting functional magnetic resonance imaging and monitoring with electromyography (EMG). We examined in detail the localization of TMS-, muscle afferent- and superficial afferent-induced activity in M1 subdivisions. Muscle afferent- and TMS-evoked activity occurred mainly in rostral M1, while superficial afferents generated a slightly different activation distribution. In 12 participants who yielded quantifiable EMG, differences in brain activity ascribed to differences in movement-size were adjusted using integrated information from the EMGs. Sensory components only explained 10-20% of the suprathreshold TMS-induced activity, indicating that locally and remotely evoked activity in motor areas mostly resulted from the recruitment of neural and synaptic activity. The present study appears to justify the use of fMRI combined with suprathreshold TMS to M1 for evoked motor network imaging.

Published
2013
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18. Effects of consciousness and consistency in manual control of visual stimulus on reduction of the flash-lag effect for luminance change.

Author

Makoto eIchikawa and Yuko eMasakura

Subjects
training, active observation, subjective set, controlling of stimulus change, proprioceptive information, Psychology, BF1-990
Abstract

Four experiments investigated how observers' consciousness about their control of stimulus change affects the visual perception associated with the illusory flash-lag effect. In previous study (Ichikawa & Masakura, 2006), we found that the flash-lag effect in motion is reduced if observers were conscious that they were controlling stimulus movements by the use of computer mouse, even if the stimulus moved automatically, independently of observer’s mouse control. In the other study (Ichikawa & Masakura, 2010a), we found that the consistent directional relationship between the observer’s mouse control and stimulus movement, which is learned in our everyday computer use, is important for the reduction of the flash-lag effect in active observation. In the present study, we examined whether the reduction of the flash-lag effect in active observation requires the observers’ consciousness about their control of stimulus change, and consistency in coupling mouse movement direction and stimulus change across trials in experiments. We used the flash-lag effect in luminance change because there is no intrinsic relationship between observer’s mouse control and luminance change in our everyday computer use. We compared the illusory flash-lag effects for automatic change of the luminance with luminance change that was controlled by the observers’ active manipulation of a computer mouse. Because the flash occurs randomly in time, observers could not anticipate when the flash was presented. Results suggest that the not only observer’s consciousness of controlling the stimulus, but also consistency in coupling mouse movement direction with stimulus change, are required for the reduction of the flash-lag effect in active observation. The basis of the reduction of the flash-lag effect in active observation is discussed.

Published
2013
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19. Summary

Author

Lazarov, Nikolai E., Beck, F., editor, Kriz, W., editor, Putz, R., editor, Schiebler, T. H., editor, Zilles, K., editor, Christ, B., editor, Marani, E., editor, Sano, Y., editor, and Lazarov, Nikolai E.

Published
2000
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20. A Bilateral Ankle Manipulator to Investigate Human Balance Control.

Author

Schouten, A. C., Boonstra, T. A., Nieuwenhuis, F., Campfens, S. F., and van der Kooij, H.

Subjects
POSTURAL balance, ANKLE, HUMAN attitude & movement, PROPRIOCEPTION, HUMAN bioenergetics
Abstract

The ankles play an important role in human balance. In most studies investigating balance control the contribution of the left and right leg is not separated. However, in certain pathologies such as stroke and Parkinson's disease, balance control can be asymmetric. Here, a bilateral ankle perturbator (BAP) is presented, which applies support surface rotations to both ankles independently. The device consists of two small foot-size support surfaces, which are independently actuated. The BAP device can operate in either angle or torque control mode. The device is able to apply support surface rotations up to 8.6° with a bandwidth of 42 Hz. Additionally the platforms can be replaced by 6-DoF force plates to measure the center of pressure underneath each foot. With the optional force plates the bandwidth decreases to 16 Hz as a result of the additional weight. Two possible applications of the device to investigate human balance control are demonstrated: ankle stiffness by applying minimum jerk profiles and sensory reweighting of the proprioceptive information. In conclusion, we developed a bilateral ankle perturbator which is able to apply support surface rotations to both ankles independently. The major application of the device will be to investigate the contribution of both ankles to human balance control, and the interactions in balance control between both legs. [ABSTRACT FROM AUTHOR]

Published
2011
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21. Selective expression of histamine receptors in rat mesencephalic trigeminal neurons

Author

Lazarov, Nikolai E. and Gratzl, Manfred

Subjects
*INFLAMMATORY mediators, *BIOMOLECULES, *NERVOUS system, *CELL receptors
Abstract

Abstract: The perikarya of sensory neurons of the mesencephalic trigeminal nucleus (MTN) receive dense histaminergic hypothalamic innervation. In this study, we examine the yet unknown expression and localization of histamine receptors in the rat MTN using immunohistochemistry with subtype-specific antibodies. Same as the masticatory muscle spindle somata H1 receptors were located along the entire MTN, whereas H3 receptors were detected in the caudal pontine part of the nucleus, which receives input from periodontal afferents. Most of the immunostained cell bodies were surrounded by histidine decarboxylase-, histamine- or vesicular monoamine transporter 2-containing pericellular varicose fibers and terminals in a basket-like manner. Our results suggest that rat MTN neurons are directly influenced by histaminergic descending projections from the hypothalamus. It can be inferred that processing of proprioceptive information at the level of the MTN is controlled via histamine H1 and H3 receptors through different postsynaptic mechanisms. [Copyright &y& Elsevier]

Published
2006
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22. Mesencephalic Trigeminal Nucleus Development Is Dependent on Krox-20 Expression.

Author

De, Shampa, Anh Quan Nguyen, Shuler, Charles F., and Turman Jr., Jack E.

Subjects
PROPRIOCEPTION, ORAL habits, NEURONS, RHOMBENCEPHALON, NEUROLOGICAL disorders, BRAIN stem
Abstract

Krox-20, a C2H2-type zinc-finger transcription factor, plays an important role in rhombomere development. This study reveals that the Krox-20 null mutation impacts the development of mesencephalic trigeminal (Me5) neurons, a cell group traditionally thought to emerge from the mesencephalon. Based on cell counting studies, we show that Krox-20 null mutants have twice as many Me5 neurons relative to wildtypes at E15, but by birth have half the number of Me5 cells as wildtypes. TUNEL studies reveal a period of increased apoptosis from E17-P0 in mutants. The mutation does not result in differences in Me5 cell size, morphology, gene expression or peripheral projection patterns between genotypes, as demonstrated by retrograde tracing and Brn3a immunohistochemistry. The data suggest that Krox-20 regulates the period and extent of Me5 apoptosis, impacting the final number of Me5 neurons. The loss of Me5 in Krox-20–/– mice may highlight species-specific differences in the origin of these cells. Copyright © 2005 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published
2005
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23. Seeing or not seeing where your hands are.

Author

Làdavas, Elisabetta, Farnè, Alessandro, Zeloni, Gabriele, and di Pellegrino, Giuseppe

Subjects
VISUAL perception, MODULARITY (Psychology), HUMAN information processing, NEURONS, CELLS, NEUROSCIENCES
Abstract

Previous findings have demonstrated the existence of a visual peripersonal space centered on the hand in humans and its modulatory effects on tactile perception. A strong modulatory effect of vision on touch perception was found when a visual stimulus was presented near the hand. In contrast, when the visual stimulus was presented far from the hand, only a weak modulatory effect was found. The aim of the present study was to verify whether such cross-modal links between touch and vision in the peripersonal space centered on the hand could be mediated by proprioceptive signals specifying the current hand positions or if they directly reflect an interaction between two sensory modalities, i.e., vision and touch. To this aim, cross-modal effects were studied in two different experiments: one in which patients could see their hands and one in which vision of their hands was prevented. The results showed strong modulatory effects of vision on touch perception when the visual stimulus was presented near the seen hand and only mild effects when the vision of the hand was prevented. These findings are explained by referring to the activity of bimodal neurons in premotor and parietal cortex of macaque, which have tactile receptive fields on the hand, and corresponding visual receptive fields in the space immediately adjacent to the tactile fields. One important feature of these bimodal neurons is that their responsiveness to visual stimuli delivered near the body part is reduced or even extinguished when the view of the body part is prevented. This implies that, at least for the hand, the vision of the hand is crucial for determining the spatial mapping between vision and touch that takes place in the peripersonal space. In contrast, the proprioceptive signals specifying the current hand position in space do not seem to be relevant in determining the cross-modal interaction between vision and touch. [ABSTRACT FROM AUTHOR]

Published
2000
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24. Neglect as a deficit determined by an imbalance between multiple spatial representations.

Author

Làdavas, E., Berti, A., Ruozzi, E., and Barboni, F.

Abstract

A previous study on neglect suggested that at least two hand parameters are crucial in producing an amelioration of neglect: the hand (left or right) and the spatial position of the hand (left or right). The improvement observed in perceiving left targets when the left hand acts in the left space can be due either to proprioceptive or to visual cuing. The stimulated left hand located in the left space may act as a powerful visual cue for the enhancement of the left visuo-spatial representation, in the same way as any other visual stimulus presented in the periphery of the visual field. Alternatively, it may be that the perceived hand location (due to the activation of the proprioceptive system) acts as an attentional field able to enhance the representation of the left space. In order to disentangle these two hypotheses, in the present study a naming task was executed by a group of neglect patients and by a control group. The subjects had to name all the objects depicted on a sheet of paper which were reflected on a mirror that inverted right and left space. While doing the naming performance, the subjects passively moved either the right or the left hand, in the left or right space. Stimuli and hand were reflected in the mirror that inverted right and left space and direct view of the stimuli and of the stimulated hand was prevented by a board. The results show that patients were more accurate at naming stimuli reflected in the left side of the mirror when the left hand was located and moved on the left side. In this condition, however, the left hand was seen in the right side of the mirror. It is therefore clear that the better performance was not due to visuo-spatial cuing but to a proprioceptive cuing effect. The results are discussed in terms of the relevance of personal and peripersonal spatial activation in the modulation of extrapersonal visual neglect. The coactivation of different spatial representations seems to be very influential on stimulus coding, thus confirming that spatial awareness is strictly related to the joint activity of multiple brain maps. [ABSTRACT FROM AUTHOR]

Published
1997
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26. The Proprioceptive Background to Mechanisms of Orientation

Author

Pringle, J. W. S., Autrum, Hansjochem, editor, Bünning, E., editor, v. Frisch, K., editor, Hadorn, E., editor, Kühn, A., editor, Mayr, E., editor, Pirson, A., editor, Straub, J., editor, Stubbe, H., editor, Weidel, W., editor, Bünning, Erwin, editor, and v. Frisch, Karl, editor

Published
1963
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28. Eye movements and postural control in strabismic children

Author

Lions, Cynthia, Neuroprotection du Cerveau en Développement / Promoting Research Oriented Towards Early Cns Therapies (PROTECT), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré-Université Paris Diderot - Paris 7 (UPD7)-Institut National de la Santé et de la Recherche Médicale (INSERM), Université René Descartes - Paris V, Maria-Pia Bucci, Chantal Milleret, Neuroprotection du Cerveau en Développement (PROTECT), and Assistance publique - Hôpitaux de Paris (AP-HP) - Hôpital Robert Debré - Université Paris Diderot - Paris 7 (UP7) - Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects
Enfant, Coordination binoculaire, Corpus callosum, Proprioceptive information, Strabisme, Agenesis, Binocular coordination, Postural control, Agénésie, Corps calleux, Proprioception, Fixation, Strabismus, Eye movements, Reading, Contrôle postural, [SCCO.PSYC] Cognitive science/Psychology, Poursuite, Mouvements oculaires, [SCCO.PSYC]Cognitive science/Psychology, Saccades, Smooth pursuit, Lecture, Children
Abstract

Approximately 2% of children under 7 years old suffer strabismus (Williams et al., 2008), leading to a deficit in their visuel system. Firstly, we studied eye movements during reading and during smooth pursuit in strabismic children and compared these results to non strabismic age-matched children. Secondly, we studied postural control in both simple and double task, and the role of proprioceptive information on postural control in these children. We hypothesize that visual deficit in strabismic children delayed cognitive processing of visual information, and modified motor development by using other sensory systems to compensate their visual deficit. Four peer reviews were conducted to confirm these assumptions. Taken together, these studies provide a better understanding about mechanisms and interactions between oculomotricity and postural control in strabismic children. These findings allow to bring evidence for improve the diagnosis, rehabilitation treatment and also surgical treatment of strabismic children.; Environ, 2% des enfants de moins de 7 ans sont porteurs d'un strabisme (Williams et al., 2008) entraînant une perturbation de leur système visuel. Dans un premier temps, nous allons étudier les mouvements oculaires pendant la lecture d'un texte et pendant la poursuite d'une cible chez des enfants strabiques et de comparer ces résultats à des enfants non strabiques du même âge. Dans un second temps, nous avons étudié l'équilibre postural en condition de simple et de double tâche, puis nous avons examiné le rôle des informations proprioceptives sur le contrôle postural chez ces enfants. Nous émettons l'hypothèse selon laquelle le déficit visuel des enfants strabiques est à l'origine d'un retard ou d'un mauvais traitement cognitif de l'information visuelle ainsi qu'à l'origine d'un développement moteur modifiés s'appuyant sur d'autres systèmes sensoriels pour compenser leur déficit visuel. Quatre études publiées dans des revues internationales ont été réalisés pour tester ces hypothèses. L'ensemble de ces travaux a été réalisé afin d'apporter une meilleure compréhension des mécanismes et des interactions entre oculomotricité et contrôle postural chez les enfants strabiques. Ceci permet d'apporter des éléments fondés à l'aide au diagnostic, à la prise en charge rééducative mais aussi chirurgical de ces enfants strabiques.

Published
2014

29. Rôle de la vision pour le contrôle de la dynamique du mouvement lors d'un geste de pointage manuel chez l'adulte ainsi que chez l'enfant

Author

Mackrous, Isabelle and Proteau, Luc

Subjects
Dynamique, Enfants, Video-aiming, Kinematics, Online modulation, Proprioceptive information, Cinématique, Dynamic, Modulation en ligne, Visual information, Correction, Apprentissage, Pointage vidéo, Modèle interne, Correction en ligne, Information visuelle, Informatuion proprioceptive, Contrôle, Control, Learning, Internal model, Children
Abstract

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Published
2009

30. The proprioceptive and agonist roles of gastrocnemius, soleus and tibialis anterior muscles in maintaining human upright posture

Author

Di Giulio, I, Maganaris, CN, Baltzopoulos, V, and Loram, ID

Subjects
Ankle muscles, Proprioceptive information, Posture, Calf muscles
Abstract

This article is available open access through the publisher’s website at the link below. Copyright © 2009 The Authors. Humans can stand using sensory information solely from the ankle muscles. Muscle length and tension in the calf muscles (gastrocnemius and soleus) are unlikely to signal postural sways on account of balance-related modulation in agonist activity. These facts pose two questions: (1) Which ankle muscles provide the proprioceptive information? (2) Which peripheral mechanism could modulate agonist activity? To address these issues, subjects were asked to stand normally on two force plates. Ultrasound and surface EMG were recorded from the calf and tibialis anterior (TA) muscles. For all nine subjects, changes in muscle length of TA were mainly (84 ± 9% whole trial duration) orthodoxly correlated with bodily sway (centre of gravity, CoG), i.e. in accordance with passive ankle rotation. When orthodox, TA had the highest correlation with CoG (−0.66 ± 0.07, deep compartment, P < 0.001). For five subjects, the superficial TA compartment showed counter-intuitive changes in muscle length with CoG, probably due to the flattening of the foot and proximal attachment geometry. Gastrocnemius and soleus were usually (duration 71 ± 23 and 81 ± 16%, respectively) active agonists (paradoxically correlated with CoG) but, for short periods of time, they could be orthodox and then presented a moderate correlation (0.38 ± 0.16 and 0.28 ± 0.09, respectively) with CoG. Considering the duration and extent to which muscle length is orthodox and correlated with CoG, TA may be a better source of proprioceptive information than the active agonists (soleus and gastrocnemius). Therefore, if a peripheral feedback mechanism modulates agonist activity then reciprocal inhibition acted by TA on the calf muscles is more likely to be effective than the autogenic pathway.

Published
2009

31. Effects of consciousness and consistency in manual control of visual stimulus on reduction of the flash-lag effect for luminance change.

Author

Ichikawa M and Masakura Y

Abstract

Four experiments investigated how observers' consciousness about their control of stimulus change affects the visual perception associated with the illusory flash-lag effect. In previous study (Ichikawa and Masakura, 2006), we found that the flash-lag effect in motion is reduced if observers were conscious that they were controlling stimulus movements by the use of computer mouse, even if the stimulus moved automatically, independently of observer's mouse control. In the other study (Ichikawa and Masakura, 2010a), we found that the consistent directional relationship between the observer's mouse control and stimulus movement, which is learned in our everyday computer use, is important for the reduction of the flash-lag effect in active observation. In the present study, we examined whether the reduction of the flash-lag effect in active observation requires the observers' consciousness about their control of stimulus change, and consistency in coupling mouse movement direction and stimulus change across trials in experiments. We used the flash-lag effect in luminance change because there is no intrinsic relationship between observer's mouse control and luminance change in our everyday computer use. We compared the illusory flash-lag effects for automatic change of the luminance with luminance change that was controlled by the observers' active manipulation of a computer mouse. Because the flash occurs randomly in time, observers could not anticipate when the flash was presented. Results suggest that the not only observer's consciousness of controlling the stimulus, but also consistency in coupling mouse movement direction with stimulus change, are required for the reduction of the flash-lag effect in active observation. The basis of the reduction of the flash-lag effect in active observation is discussed.

Published
2013
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