323 resultados para sensorimotor
Resumo:
Defensive behaviors, such as withdrawing your hand to avoid potentially harmful approaching objects, rely on rapid sensorimotor transformations between visual and motor coordinates. We examined the reference frame for coding visual information about objects approaching the hand during motor preparation. Subjects performed a simple visuomanual task while a task-irrelevant distractor ball rapidly approached a location either near to or far from their hand. After the distractor ball appearance, single pulses of transcranial magnetic stimulation were delivered over the subject's primary motor cortex, eliciting motor evoked potentials (MEPs) in their responding hand. MEP amplitude was reduced when the ball approached near the responding hand, both when the hand was on the left and the right of the midline. Strikingly, this suppression occurred very early, at 70-80ms after ball appearance, and was not modified by visual fixation location. Furthermore, it was selective for approaching balls, since static visual distractors did not modulate MEP amplitude. Together with additional behavioral measurements, we provide converging evidence for automatic hand-centered coding of visual space in the human brain.
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Several theories of the mechanisms linking perception and action require that the links are bidirectional, but there is a lack of consensus on the effects that action has on perception. We investigated this by measuring visual event-related brain potentials to observed hand actions while participants prepared responses that were spatially compatible (e.g., both were on the left side of the body) or incompatible and action type compatible (e.g., both were finger taps) or incompatible, with observed actions. An early enhanced processing of spatially compatible stimuli was observed, which is likely due to spatial attention. This was followed by an attenuation of processing for both spatially and action type compatible stimuli, likely to be driven by efference copy signals that attenuate processing of predicted sensory consequences of actions. Attenuation was not response-modality specific; it was found for manual stimuli when participants prepared manual and vocal responses, in line with the hypothesis that action control is hierarchically organized. These results indicate that spatial attention and forward model prediction mechanisms have opposite, but temporally distinct, effects on perception. This hypothesis can explain the inconsistency of recent findings on action-perception links and thereby supports the view that sensorimotor links are bidirectional. Such effects of action on perception are likely to be crucial, not only for the control of our own actions but also in sociocultural interaction, allowing us to predict the reactions of others to our own actions.
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Recent theories propose that semantic representation and sensorimotor processing have a common substrate via simulation. We tested the prediction that comprehension interacts with perception, using a standard psychophysics methodology.While passively listening to verbs that referred to upward or downward motion, and to control verbs that did not refer to motion, 20 subjects performed a motion-detection task, indicating whether or not they saw motion in visual stimuli containing threshold levels of coherent vertical motion. A signal detection analysis revealed that when verbs were directionally incongruent with the motion signal, perceptual sensitivity was impaired. Word comprehension also affected decision criteria and reaction times, but in different ways. The results are discussed with reference to existing explanations of embodied processing and the potential of psychophysical methods for assessing interactions between language and perception.
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The ‘action observation network’ (AON), which is thought to translate observed actions into motor codes required for their execution, is biologically tuned: it responds more to observation of human, than non-human, movement. This biological specificity has been taken to support the hypothesis that the AON underlies various social functions, such as theory of mind and action understanding, and that, when it is active during observation of non-human agents like humanoid robots, it is a sign of ascription of human mental states to these agents. This review will outline evidence for biological tuning in the AON, examining the features which generate it, and concluding that there is evidence for tuning to both the form and kinematic profile of observed movements, and little evidence for tuning to belief about stimulus identity. It will propose that a likely reason for biological tuning is that human actions, relative to non-biological movements, have been observed more frequently while executing corresponding actions. If the associative hypothesis of the AON is correct, and the network indeed supports social functioning, sensorimotor experience with non-human agents may help us to predict, and therefore interpret, their movements.
Resumo:
Ongoing debate in the literature concerns whether there is a link between contagious yawning and the human mirror neuron system (hMNS). One way of examining this issue is with the use of the electroencephalogram (EEG) to measure changes in mu activation during the observation of yawns. Mu oscillations are seen in the alpha bandwidth of the EEG (8–12 Hz) over sensorimotor areas. Previous work has shown that mu suppression is a useful index of hMNS activation and is sensitive to individual differences in empathy. In two experiments, we presented participants with videos of either people yawning or control stimuli. We found greater mu suppression for yawns than for controls over right motor and premotor areas, particularly for those scoring higher on traits of empathy. In a third experiment, auditory recordings of yawns were compared against electronically scrambled versions of the same yawns. We observed greater mu suppression for yawns than for the controls over right lateral premotor areas. Again, these findings were driven by those scoring highly on empathy. The results from these experiments support the notion that the hMNS is involved in contagious yawning, emphasise the link between contagious yawning and empathy, and stress the importance of good control stimuli.
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Motor imagery, passive movement, and movement observation have been suggested to activate the sensorimotor system without overt movement. The present study investigated these three covert movement modes together with overt movement in a within-subject design to allow for a fine-grained comparison of their abilities in activating the sensorimotor system, i.e. premotor, primary motor, and somatosensory cortices. For this, 21 healthy volunteers underwent functional magnetic resonance imaging (fMRI). In addition we explored the abilities of the different covert movement modes in activating the sensorimotor system in a pilot study of 5 stroke patients suffering from chronic severe hemiparesis. Results demonstrated that while all covert movement modes activated sensorimotor areas, there were profound differences between modes and between healthy volunteers and patients. In healthy volunteers, the pattern of neural activation in overt execution was best resembled by passive movement, followed by motor imagery, and lastly by movement observation. In patients, attempted overt execution was best resembled by motor imagery, followed by passive movement, and lastly by movement observation. Our results indicate that for severely hemiparetic stroke patients motor imagery may be the preferred way to activate the sensorimotor system without overt behavior. In addition, the clear differences between the covert movement modes point to the need for within-subject comparisons.
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What are the precise brain regions supporting the short-term retention of verbal information? A previous functional magnetic resonance imaging (fMRI) study suggested that they may be topographically variable across individuals, occurring, in most, in regions posterior to prefrontal cortex (PFC), and that detection of these regions may be best suited to a single-subject (SS) approach to fMRI analysis (Feredoes and Postle, 2007). In contrast, other studies using spatially normalized group-averaged (SNGA) analyses have localized storage-related activity to PFC. To evaluate the necessity of the regions identified by these two methods, we applied repetitive transcranial magnetic stimulation (rTMS) to SS- and SNGA-identified regions throughout the retention period of a delayed letter-recognition task. Results indicated that rTMS targeting SS analysis-identified regions of left perisylvian and sensorimotor cortex impaired performance, whereas rTMS targeting the SNGA-identified region of left caudal PFC had no effect on performance. Our results support the view that the short-term retention of verbal information can be supported by regions associated with acoustic, lexical, phonological, and speech-based representation of information. They also suggest that the brain bases of some cognitive functions may be better detected by SS than by SNGA approaches to fMRI data analysis.
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Recent evidence suggests that immobilization of the upper limb for 2–3 weeks induces changes in cortical thickness as well as motor performance. In constraint induced (CI) therapy, one of the most effective interventions for hemiplegia, the non-paretic arm is constrained to enforce the use of the paretic arm in the home setting. With the present study we aimed to explore whether non-paretic arm immobilization in CI therapy induces structural changes in the non-lesioned hemisphere, and how these changes are related to treatment benefit. 31 patients with chronic hemiparesis participated in CI therapy with (N = 14) and without (N = 17) constraint. Motor ability scores were acquired before and after treatment. Diffusion tensor imaging (DTI) data was obtained prior to treatment. Cortical thickness was measured with the Freesurfer software. In both groups cortical thickness in the contralesional primary somatosensory cortex increased and motor function improved with the intervention. However the cortical thickness change was not associated with the magnitude of motor function improvement. Moreover, the treatment effect and the cortical thickness change were not significantly different between the constraint and the non-constraint groups. There was no correlation between fractional anisotropy changes in the non-lesioned hemisphere and treatment outcome. CI therapy induced cortical thickness changes in contralesional sensorimotor regions, but this effect does not appear to be driven by the immobilization of the non-paretic arm, as indicated by the absence of differences between the constraint and the non-constraint groups. Our data does not suggest that the arm immobilization used in CI therapy is associated with noticeable cortical thinning.
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Objective. Assimilating the diagnosis complete spinal cord injury (SCI) takes time and is not easy, as patients know that there is no ‘cure’ at the present time. Brain–computer interfaces (BCIs) can facilitate daily living. However, inter-subject variability demands measurements with potential user groups and an understanding of how they differ to healthy users BCIs are more commonly tested with. Thus, a three-class motor imagery (MI) screening (left hand, right hand, feet) was performed with a group of 10 able-bodied and 16 complete spinal-cord-injured people (paraplegics, tetraplegics) with the objective of determining what differences were present between the user groups and how they would impact upon the ability of these user groups to interact with a BCI. Approach. Electrophysiological differences between patient groups and healthy users are measured in terms of sensorimotor rhythm deflections from baseline during MI, electroencephalogram microstate scalp maps and strengths of inter-channel phase synchronization. Additionally, using a common spatial pattern algorithm and a linear discriminant analysis classifier, the classification accuracy was calculated and compared between groups. Main results. It is seen that both patient groups (tetraplegic and paraplegic) have some significant differences in event-related desynchronization strengths, exhibit significant increases in synchronization and reach significantly lower accuracies (mean (M) = 66.1%) than the group of healthy subjects (M = 85.1%). Significance. The results demonstrate significant differences in electrophysiological correlates of motor control between healthy individuals and those individuals who stand to benefit most from BCI technology (individuals with SCI). They highlight the difficulty in directly translating results from healthy subjects to participants with SCI and the challenges that, therefore, arise in providing BCIs to such individuals
Resumo:
OBJECTIVE: Assimilating the diagnosis complete spinal cord injury (SCI) takes time and is not easy, as patients know that there is no 'cure' at the present time. Brain-computer interfaces (BCIs) can facilitate daily living. However, inter-subject variability demands measurements with potential user groups and an understanding of how they differ to healthy users BCIs are more commonly tested with. Thus, a three-class motor imagery (MI) screening (left hand, right hand, feet) was performed with a group of 10 able-bodied and 16 complete spinal-cord-injured people (paraplegics, tetraplegics) with the objective of determining what differences were present between the user groups and how they would impact upon the ability of these user groups to interact with a BCI. APPROACH: Electrophysiological differences between patient groups and healthy users are measured in terms of sensorimotor rhythm deflections from baseline during MI, electroencephalogram microstate scalp maps and strengths of inter-channel phase synchronization. Additionally, using a common spatial pattern algorithm and a linear discriminant analysis classifier, the classification accuracy was calculated and compared between groups. MAIN RESULTS: It is seen that both patient groups (tetraplegic and paraplegic) have some significant differences in event-related desynchronization strengths, exhibit significant increases in synchronization and reach significantly lower accuracies (mean (M) = 66.1%) than the group of healthy subjects (M = 85.1%). SIGNIFICANCE: The results demonstrate significant differences in electrophysiological correlates of motor control between healthy individuals and those individuals who stand to benefit most from BCI technology (individuals with SCI). They highlight the difficulty in directly translating results from healthy subjects to participants with SCI and the challenges that, therefore, arise in providing BCIs to such individuals.
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O ensino dos Princípios de Física nas escolas de Ensino de Primeiro Grau oficial tem se mostrado ineficaz no que diz respeito ao preparo do aluno para compreender a Física do 2º grau, dificultando a integração do indivíduo na sociedade tecnológica contemporânea, quer no acesso a um mercado de trabalho de mão-de-obra especializada, como técnico, quer como candidato ao ensino de 3º grau. Os princípios da Ciência Contemporânea podem e devem ser mobilizados para a solução de problemas. A compreensão da Física contemporânea no nível de abstração em que se encontra, requer do indivíduo um pensamento favorito por estruturas que possibilitem operações abstratas. A Epistemologia Genética de Jean Piaget mostra que a explicação do mundo físico pelo indivíduo data dos primeiros contatos com a realidade. A estratutação dessa realidade vai-se tornando cada vez mais complexa de acordo com as possibilidades de raciocínio que o indivíduo possua para interpretá-la. O raciocínio é o resultado das operações realizadas pelo indivíduo, possibilitadas por estraturas mentais subjacentes. Essas estruturas se desenvolvem à medida que o indivíduo interage com o meio, permitindo de início uma interação sensório-motora, que, aos poucos, vai se operacionalizando até dominar o pensamento concreto, podendo então passar a realizar operações sobre operações que são chamadas de operações formais ou abstratas. Estas acontecem a partir da adolescência. Os princípios da Física lecionados nas escolas de Ensino de Primeiro Grau requerem para a sua compreensão, além do domínio do pensamento concreto, o pensamento formal. Realizou-se uma pesquisa com alunos de 7ª e 8ª séries do Ensino de Primeiro Grau e alunos da 2ª série do curso de formação de professores; verificou-se que esses sujeitos não haviam dominado as operações concretas nem tinham ainda atingido o início do pensamento formal. Consequentemente, a aprendizagem dos principios de Física que lhes são ministrados acha-se seriamente comprometido, fazendo-se necessária uma mudança de atitude do professor frente aos alunos, a fim de desenvolver o seu raciocfnio propiciando uma aprendizagem efetiva.
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Este trabalho refere-se a um estudo longitudinal de um bebê, acompanhado em seu desenvolvimento cognitivo e emocional, a partir do oitavo ao décimo oitavo mês de vida. Baseando-se especificamente em observações sistemáticas realizadas no ambiente natural do bebê, este estudo tem por objetivo analisar o possível paralelo entre a construção da noção de objeto permanente em Piaget e as subfases do processo de separação-individuação. A visão integrada dos aspectos de desenvolvimento levam a resultados que evidenciam não a determinação de um aspecto sobre o outro, mas a conclusão de que ambos funcionam como estruturas que integram um mesmo sistema interdependente. Neste sentido, na relação mãe-bebê, não é a causa e o efeito que é necessário determinar, mas a compreensão da interação entre o sujeito e o objeto envolvidos neste processo. A constituição do objeto afetivo, está, portanto, estreitamente relacionado com a construção da noção de objeto permanente durante o período sensório-motor.
Resumo:
Este estudo pretende trazer uma contribuição à discussão da relação linguagem-cognição, através do exame de um aspecto restrito do problema: a hipótese de uma base cognitiva para aquisição de linguagem. O modelo teórico piagetiano é analisado em sua explicação da ontogenese da linguagem como resultante das construções da inteligência sensório-motora. Alguns de seus aspectos são questionados, a possibilidade de sua explicitação em forma de hipótese verificável é examinada e a literatura é analisada em busca de evidências relevantes. A principal lacuna constatada é a visão de linguagem restrita a aspectos de desempenho, sendo levado em conta apenas o começo da emissão de palavras na quase totalidade das pesquisas. Ainda dentro de uma perspectiva construtivista, o esboço de um novo modelo teórico é proposto, incluindo a discussão da ontogenese da compreensão de linguagem. Hipóteses decorrentes da proposta teórica, especialmente a de início da possibilidade de tratar o signo linguístico antes do estágio VI, são formuladas e verificadas por pesquisa empírica. Esta inclui um estudo longitudinal e outro transversal do desenvolvimento linguístico e cognitivo de 45 crianças entre 8 e 18 meses. O desenvolvimento da compreensão é comparado em diversos aspectos ao da produção ou fala. Verifica-se que o primeiro começa mais cedo, é mais rápido e atinge um vocabulário maior e um nível mais complexo na faixa etária estudada. Há evidências ainda de diferenças no papel da imitação na construção do vocabulário nas duas vertentes. Observa-se um início de resposta mais generalizada e sistemática à linguagem a partir de nove meses, ocasião em que a criança se mostra capaz de coordenação de reações circulares secundárias e quando consegue reconstruir mentalmente um objeto invisível a partir de uma fração visível. Considera-se que esta resposta já envolve a decodificação de signos e a diferenciação significante-significado, numa etapa preliminar de um processo evolutivo que se entrelaça com a formação de conceitos. Os dados nao permitem a identificação de prê-requisitos cognitivos para aquisição de liguagem, mas dois aspectos podem ser destacados como correlatos do início do processo de compartilhar o signo linguístico: a possibilidade da criança compreender que tem um nome e responder a ele e uma intencionalidade primitiva. Os resultados apoiam as hipóteses formuladas e sugerem que as construções finais do período sensório-motor não são condições necessárias para aquisição de linguagem e que esta não ê consequência direta do desenvolvimento cognitivo. Novos estudos são necessários para suprir as limitações desta pesquisa e verificação das implicações decorrentes dos resultados obtidos.
Resumo:
TEMA: a literatura aponta para a influência da postura corporal sobre as habilidades orais em crianças com desenvolvimento sensório-motor alterado. em crianças normais existem poucos estudos sobre essa relação. OBJETIVO: estudar em crianças a termo a relação entre habilidades motoras e habilidades motoras orais, desde 1 dia de vida até 24 meses de idade. MÉTODO: 42 crianças foram filmadas com 1 dia, 1 mês, 2, 3, 4, 5, 6, 9,12 e 24 meses nas posições supino, prono, sentado e em pé e durante alimentação com amamentação / mamadeira (até 5 meses), uso de colher para alimentação pastosa (3 aos 12 meses), uso de copo para água ou suco (6 aos 24 meses) e alimento sólido (6 aos 24 meses). Estabeleceram-se escores de quantificação para o desenvolvimento corporal e habilidades orais e utilizou-se o coeficiente de correlação de Pearson para o estudo estatístico, adotando-se nível de significância de 5%. RESULTADOS: os resultados do desenvolvimento motor apontaram para semelhança de dados entre supino e prono e sentado e em pé; para as habilidades orais (durante a alimentação com mamadeira/amamentação, colher, copo, mastigação) constatou-se em cada modalidade de alimentação, homogeneidade de aquisição de habilidades para lábios, língua e mandíbula. Houve associação entre habilidades motoras e orais; resultados apontam que o desenvolvimento motor (habilidades motoras) se deu antes das orais desde o 5° ao 24° mês e que as habilidades de mandíbula em copo e colher ocorreram antes das habilidades de lábios e língua. CONCLUSÃO: houve crescente aquisição de habilidades motoras e orais, variabilidade de habilidades em idades entre 3 e 24 meses e associação entre habilidades motoras e orais.
Resumo:
The purpose of this investigation was to examine coupling between visual information and body sway in children and young adults at various distances from a moving room front wall. Sixty children (from 4 to 14 years old) and 10 young adults stood upright inside a moving room that was oscillated at .2 and .5 Hz, at distances of .25, .5, 1, and 1.5 m from a front wall. Visual information induced body sway in all participants in all conditions. Young children swayed more than older participants, whether the moving room was oscillated or not. Coupling between visual information and body sway became stronger and the room movement influence became weaker with age. Up to the age of 10, coupling strength between visual information and body sway and the room movement influence were distance dependent. Postural control development appears to be dependent on how children reweight the contribution of varying sensory cues available in environment in order to control body sway. (C) 2007 Wiley Periodicals, Inc.
