Efeito da expectativa na reorganização das dimensões espacial e temporal em ações interceptativas / Effect of expectancy on reorganization of the spatial and temporal dimensions in interceptive actions

Azevedo Neto, Raymundo Machado de

20 March 2012

O presente estudo teve como objetivo avaliar o efeito da expectativa na reorganização de aspectos espaciais e temporais em ações interceptativas. O estudo foi conduzido em dois experimentos, nos quais os participantes interceptaram manualmente um alvo móvel virtual em situações com diferentes probabilidades de mudança de trajetória/velocidade de deslocamento do alvo. Em ambos os experimentos foi realizada a comparação entre um grupo que recebeu informação verbal sobre a probabilidade de mudança de trajetória/velocidade (PR), e outro que não recebeu informação (SI) sobre as características probabilísticas da tarefa. Os resultados do experimento com mudança de trajetória indicaram que, além da reorganização na dimensão espacial ocorrer de maneira gradativa, as ações interceptativas parecem ter sido controladas por um mecanismo preditivo que é atualizado ao longo do tempo por informação visual. Em ambos os experimentos foi mostrado que a probabilidade do contexto influenciou as características espaciais e temporais da reorganização do movimento. Contudo, essa influência ocorreu somente no fim de uma série de tentativas. Este resultado, em conjunto com a ausência de diferença em aspectos cinemáticos e de desempenho entre os grupos experimentais, sugere que a expectativa de deslocamento futuro do alvo foi criada em função das tentativas iniciais de uma série e não pela informação verbal / The aim of the present study was to evaluate the effect of expectancy on reorganization of spatial and temporal dimensions in interceptive actions. The study was conducted through two experiments in which participants were to manually intercept a virtual moving target with different probabilities of target trajectory/velocity shift. Comparison between a group that received verbal information concerning probability of target trajectory/velocity shift (PR), and another group that did not receive that information (SI) was made in both experiments. Results of the experiment on target trajectory shift showed that, in addition to gradual movement reorganization in the spatial dimension, interceptive actions were controlled by a predictive mechanism which seemed to be continuously updated by visual information. Of main interest, it was shown that in both experiments probability of target trajectory/velocity change influenced the spatial and temporal characteristics of movement reorganization. However, this influence occurred only at the end of a series of trials. The same effect was observed in the experiment on target velocity shift. This result, adjoined with the absence of difference in kinematic and performance aspects between experimental groups, suggests that expectancy about future target displacement was created by the initial trials of a series and not by verbal information on probability of target trajectory/velocity shift

Controle motor

Integração visuomotora

Interceptação

Interception

Motor control

Visuomotor integration

Efeito da expectativa na reorganização das dimensões espacial e temporal em ações interceptativas / Effect of expectancy on reorganization of the spatial and temporal dimensions in interceptive actions

Raymundo Machado de Azevedo Neto

20 March 2012

O presente estudo teve como objetivo avaliar o efeito da expectativa na reorganização de aspectos espaciais e temporais em ações interceptativas. O estudo foi conduzido em dois experimentos, nos quais os participantes interceptaram manualmente um alvo móvel virtual em situações com diferentes probabilidades de mudança de trajetória/velocidade de deslocamento do alvo. Em ambos os experimentos foi realizada a comparação entre um grupo que recebeu informação verbal sobre a probabilidade de mudança de trajetória/velocidade (PR), e outro que não recebeu informação (SI) sobre as características probabilísticas da tarefa. Os resultados do experimento com mudança de trajetória indicaram que, além da reorganização na dimensão espacial ocorrer de maneira gradativa, as ações interceptativas parecem ter sido controladas por um mecanismo preditivo que é atualizado ao longo do tempo por informação visual. Em ambos os experimentos foi mostrado que a probabilidade do contexto influenciou as características espaciais e temporais da reorganização do movimento. Contudo, essa influência ocorreu somente no fim de uma série de tentativas. Este resultado, em conjunto com a ausência de diferença em aspectos cinemáticos e de desempenho entre os grupos experimentais, sugere que a expectativa de deslocamento futuro do alvo foi criada em função das tentativas iniciais de uma série e não pela informação verbal / The aim of the present study was to evaluate the effect of expectancy on reorganization of spatial and temporal dimensions in interceptive actions. The study was conducted through two experiments in which participants were to manually intercept a virtual moving target with different probabilities of target trajectory/velocity shift. Comparison between a group that received verbal information concerning probability of target trajectory/velocity shift (PR), and another group that did not receive that information (SI) was made in both experiments. Results of the experiment on target trajectory shift showed that, in addition to gradual movement reorganization in the spatial dimension, interceptive actions were controlled by a predictive mechanism which seemed to be continuously updated by visual information. Of main interest, it was shown that in both experiments probability of target trajectory/velocity change influenced the spatial and temporal characteristics of movement reorganization. However, this influence occurred only at the end of a series of trials. The same effect was observed in the experiment on target velocity shift. This result, adjoined with the absence of difference in kinematic and performance aspects between experimental groups, suggests that expectancy about future target displacement was created by the initial trials of a series and not by verbal information on probability of target trajectory/velocity shift

Controle motor

Integração visuomotora

Interceptação

Interception

Motor control

Visuomotor integration

Effects of task difficulty during dual-task circle tracing in Huntington's disease

Vaportzis, Ria, Georgiou-Karistianis, N., Churchyard, A., Stout, J.C.

05 November 2014

Yes / Huntington’s disease (HD) is associated with impairments in dual-task performance. Despite that, only a few studies have investigated dual-tasking in HD. We examined dual-task performance in 15 participants in the early stages of HD and 15 healthy controls. Participants performed direct circle tracing (able to view arm) and indirect circle tracing (arm obscured) either on their own (single tasks) or paired with serial subtraction by twos or threes (dual tasks). Overall, our results suggested that HD participants were significantly slower and less accurate than controls. Both groups were slower and less accurate when performing indirect circle tracing compared with direct circle tracing. HD participants experienced greater dual-task interference in terms of accuracy when performing direct circle tracing compared with indirect circle tracing. Despite that, controls were more inclined to speed–accuracy trade-offs compared with HD participants. Importantly, unlike controls, HD participants were not disproportionately faster when performing direct circle tracing as a single task compared with the dual-task conditions. Our results suggest that simple tasks place greater attentional demands on HD participants compared with controls. These findings support that impaired automaticity may be responsible for some of the attentional deficits manifested in HD. / Supported by the School of Psychological Sciences, Monash University.

Divided attention

Proprioception

Attention allocation

Speed-accuracy trade-off

Serial subtraction

Visuomotor integration

Age and task difficulty differences in dual tasking using circle tracing and serial subtraction tasks

Vaportzis, Ria, Georgiou-Karistianis, N., Stout, J.C.

18 October 2013

Yes / The aim of this study was to investigate age-related differences in dual task performance by using an upper limb proprioceptive task. Twenty-eight younger (18–30 years) and 28 older (>60 years) healthy adults performed circle tracing and serial subtraction tasks separately and concurrently. The tasks had two levels of difficulty: easy and hard. The circle tracing task included direct (easy) and indirect (hard) visual feedback conditions, and it was paired with serial subtraction by twos (easy) or threes (hard). We found that older adults were significantly slower than younger adults across all conditions and had significantly greater dual task costs when they performed circle tracing with easy serial subtraction. Higher levels of task difficulty were associated with slower speed in both groups. We found no age differences in accuracy. Participants either traded speed for accuracy or accuracy for speed regardless of age group. Overall, the findings suggest that speed and accuracy may be affected differently during dual tasking. In addition, older adults may rely more extensively on proprioceptive feedback to guide upper limb movement compared with younger adults. / Financial support for this study was obtained from the School of Psychology and Psychiatry, Monash University.

Divided attention

Proprioception

Attention allocation

Speed-accuracy trade-off

Visuomotor integration

Integração visuomotora em ações interceptativas:mecanismos cerebrais e influência da memória de curto prazo e da expectativa / Visuomotor integration in interceptive actions: neural mechanisms and influence of short-term memory and expectation

Azevedo Neto, Raymundo Machado de

01 August 2017

Muitas das interações que temos com o ambiente envolvem situações dinâmicas. Raramente estas situações são realizadas de maneira isolada. Em ações interceptativas, por exemplo, o sistema nervoso precisa estimar quando um alvo irá atingir uma determinada posição e constantemente ajustar os movimentos para diferentes contextos. Apesar de estudos psicofísicos terem investigado possíveis variáveis ópticas e modulações do contexto envolvidas na integração visuomotora, pouca atenção foi direcionada para compreender os mecanismos cerebrais da integração de informação visual de movimento e ações motoras em cenários dinâmicos. O objetivo geral desta tese foi investigar estes mecanismos e entender como o contexto modula a atividade cerebral em ações interceptativas em adultos jovens saudáveis. No primeiro experimento, foram investigadas quais áreas estão associadas com a integração entre informação visual de movimento e ação motora sincronizatória. Foi utilizado desenho relacionado à eventos em ressonância magnética funcional avaliando a atividade cerebral em tarefa de timing coincidente. Foi identificada uma rede fronto-parietal bilateral dorsal e ativação bilateral do braço ascendente do sulco temporal inferior, região funcionalmente definida como hV5+, e giro angular. No segundo experimento, foi testada a influência causal da área hV5+ e córtex pré-motor dorsal no viés comportamental que tentativa prévia exerce sobre a tentativa atual usando estimulação magnética transcraniana. Os resultados deste experimento sugerem que o efeito da tentativa prévia depende fortemente de um mecanismo de memória de curto prazo implícito no córtex pré-motor dorsal e moderadamente da área hV5+. No terceiro experimento, o objetivo foi verificar o efeito da repetição e expectativa de repetição da velocidade do estímulo nas áreas associadas com ações interceptativas. Para isso, os participantes interceptaram pares de alvos móveis com velocidade igual ou diferente em experimento relacionado à eventos em ressonância magnética funcional. A expectativa sobre a repetição da velocidade do estímulo foi manipulada pela probabilidade de repetição da velocidade do alvo em diferentes blocos. Os resultados comportamentais indicaram que a velocidade do primeiro estímulo enviesou o erro temporal dos participantes para responder ao segundo estímulo e que a manipulação da expectativa dos participantes não resultou em diferença no erro temporal. Não houve modulação da amplitude do sinal BOLD pela repetição do estímulo ou pela manipulação da expectativa sobre a repetição de velocidade. No quarto experimento, foram investigados os mecanismos cerebrais que permitem que a expectativa influencie o comportamento em uma tarefa de timing coincidente. Para isso, a expectativa sobre a velocidade do alvo foi manipulada a cada tentativa por meio de dicas em um experimento relacionado à eventos em ressonância magnética funcional. Os resultados deste experimento mostraram que a expectativa sobre a velocidade do alvo aumenta o sinal BOLD para expectativa válida em hV5+ e córtex pré-motor dorsal. Em geral, os resultados desta tese mostram que a integração visuomotora em ações interceptativas está associada com atividade em uma rede fronto-parietal dorsal e da área hV5+. Destas áreas, foi verificado que o córtex pré-motor dorsal e área hV5+ tem papel de armazenar informação da tentativa prévia que enviesa o comportamento na tentativa atual. Por fim, foi mostrado que a expectativa sobre a velocidade do alvo modula o sinal BOLD em áreas iniciais do processamento sensorial e de planejamento motor. Estes resultados avançam o conhecimento sobre os mecanismos neurais associados à integração visuomotora em ações interceptativas e mostram como o contexto em que a tarefa é realizada modula essa integração / Many of our interactions with the environment happen in dynamic situations. These situations are rarely experienced in isolation. In interceptive actions, for example, the nervous system needs to estimate when a target will arrive at a certain position and constantly adjust movements for different contexts. Although psychophysical studies have investigated the putative optical variables and contextual modulations in visuomotor integration, less attention has been devoted to understand brain mechanisms underlying the integration of visual motion information and motor actions in dynamic scenarios. The main goal of the present thesis was to investigate the brain mechanisms involved in visuomotor integration of interceptive actions in healthy young adults. In the first experiment, it was investigated which brain areas are associated with integration of visual motion information and timed motor action in an event-related functional magnetic resonance imaging experiment. Results showed greater BOLD signal in a bilateral dorsal fronto-parietal network, as well as hV5+ and angular gyrus. In the second experiment, it was tested the causal influence of area hV5+ and dorsal premotor cortex on the behavioral bias that previous trial exerts on the current trial using transcranial magnetic stimulation. The results of this experiment provide causal evidence that the previous trial effect is mediated to a large extent by an implicit shortterm memory mechanism in the dorsal premotor cortex, and to a lesser extent by hV5 +, in a visuomotor integration task with moving objects. In the third experiment, the goal was to verify the effect of repetition and expectation about repetition of speed in brain areas associated with visuomotor integration in interceptive actions. To that end, participants intercepted pairs of moving targets with either same or different speed in an event-related functional magnetic resonance experiment. Expectation about speed repetition of target speed was manipulated through the probability of speed repetition in different blocks. Behavioral results indicate that speed from the first stimulus biased participants\' temporal error for the second stimulus. However, manipulation of participants\' expectation did not affect temporal error. In addition, BOLD signal amplitude was modulated by neither stimulus speed repetition nor expectation. In the forth experiment, brain mechanisms that allow expectation to influence behavior in a coincident timing task were investigated. Participant\'s expectation about target speed was manipulated on a trial-by-trial basis by means of cues in an event-related functional magnetic resonance experiment. The results of this experiment showed that expectation about target speed increases BOLD signal for valid expectations in hV5+ and dorsal premotor cortex. Overall, the results in this thesis show that visuomotor integration in interceptive actions is associated with activity in a dorsal fronto-parietal network and hV5+. In addition, it was verified that dorsal premotor cortex and hV5+ have a role in storing information from previous trial that bias behavior on the current trial. Lastly, it was shown that expectation about upcoming target speed modulates BOLD signal in early stage visual motion processing as well as motor planning areas. These results advance knowledge about the brain mechanisms associated with visuomotor integration in interceptive actions and show how context modulates this integration process

Estimulação magnética transcraniana

Expectation

Expectativa

Functional magnetic ressonance imaging

Implicit short-term memory

Informação visual de movimento

Integração visuomotora

Memória de curto prazo implícita

Ressonância magnética funcional

Transcranial magnetic stimulation

Visual motion information

Visuomotor integration

Integração visuomotora em ações interceptativas:mecanismos cerebrais e influência da memória de curto prazo e da expectativa / Visuomotor integration in interceptive actions: neural mechanisms and influence of short-term memory and expectation

Raymundo Machado de Azevedo Neto

01 August 2017

Muitas das interações que temos com o ambiente envolvem situações dinâmicas. Raramente estas situações são realizadas de maneira isolada. Em ações interceptativas, por exemplo, o sistema nervoso precisa estimar quando um alvo irá atingir uma determinada posição e constantemente ajustar os movimentos para diferentes contextos. Apesar de estudos psicofísicos terem investigado possíveis variáveis ópticas e modulações do contexto envolvidas na integração visuomotora, pouca atenção foi direcionada para compreender os mecanismos cerebrais da integração de informação visual de movimento e ações motoras em cenários dinâmicos. O objetivo geral desta tese foi investigar estes mecanismos e entender como o contexto modula a atividade cerebral em ações interceptativas em adultos jovens saudáveis. No primeiro experimento, foram investigadas quais áreas estão associadas com a integração entre informação visual de movimento e ação motora sincronizatória. Foi utilizado desenho relacionado à eventos em ressonância magnética funcional avaliando a atividade cerebral em tarefa de timing coincidente. Foi identificada uma rede fronto-parietal bilateral dorsal e ativação bilateral do braço ascendente do sulco temporal inferior, região funcionalmente definida como hV5+, e giro angular. No segundo experimento, foi testada a influência causal da área hV5+ e córtex pré-motor dorsal no viés comportamental que tentativa prévia exerce sobre a tentativa atual usando estimulação magnética transcraniana. Os resultados deste experimento sugerem que o efeito da tentativa prévia depende fortemente de um mecanismo de memória de curto prazo implícito no córtex pré-motor dorsal e moderadamente da área hV5+. No terceiro experimento, o objetivo foi verificar o efeito da repetição e expectativa de repetição da velocidade do estímulo nas áreas associadas com ações interceptativas. Para isso, os participantes interceptaram pares de alvos móveis com velocidade igual ou diferente em experimento relacionado à eventos em ressonância magnética funcional. A expectativa sobre a repetição da velocidade do estímulo foi manipulada pela probabilidade de repetição da velocidade do alvo em diferentes blocos. Os resultados comportamentais indicaram que a velocidade do primeiro estímulo enviesou o erro temporal dos participantes para responder ao segundo estímulo e que a manipulação da expectativa dos participantes não resultou em diferença no erro temporal. Não houve modulação da amplitude do sinal BOLD pela repetição do estímulo ou pela manipulação da expectativa sobre a repetição de velocidade. No quarto experimento, foram investigados os mecanismos cerebrais que permitem que a expectativa influencie o comportamento em uma tarefa de timing coincidente. Para isso, a expectativa sobre a velocidade do alvo foi manipulada a cada tentativa por meio de dicas em um experimento relacionado à eventos em ressonância magnética funcional. Os resultados deste experimento mostraram que a expectativa sobre a velocidade do alvo aumenta o sinal BOLD para expectativa válida em hV5+ e córtex pré-motor dorsal. Em geral, os resultados desta tese mostram que a integração visuomotora em ações interceptativas está associada com atividade em uma rede fronto-parietal dorsal e da área hV5+. Destas áreas, foi verificado que o córtex pré-motor dorsal e área hV5+ tem papel de armazenar informação da tentativa prévia que enviesa o comportamento na tentativa atual. Por fim, foi mostrado que a expectativa sobre a velocidade do alvo modula o sinal BOLD em áreas iniciais do processamento sensorial e de planejamento motor. Estes resultados avançam o conhecimento sobre os mecanismos neurais associados à integração visuomotora em ações interceptativas e mostram como o contexto em que a tarefa é realizada modula essa integração / Many of our interactions with the environment happen in dynamic situations. These situations are rarely experienced in isolation. In interceptive actions, for example, the nervous system needs to estimate when a target will arrive at a certain position and constantly adjust movements for different contexts. Although psychophysical studies have investigated the putative optical variables and contextual modulations in visuomotor integration, less attention has been devoted to understand brain mechanisms underlying the integration of visual motion information and motor actions in dynamic scenarios. The main goal of the present thesis was to investigate the brain mechanisms involved in visuomotor integration of interceptive actions in healthy young adults. In the first experiment, it was investigated which brain areas are associated with integration of visual motion information and timed motor action in an event-related functional magnetic resonance imaging experiment. Results showed greater BOLD signal in a bilateral dorsal fronto-parietal network, as well as hV5+ and angular gyrus. In the second experiment, it was tested the causal influence of area hV5+ and dorsal premotor cortex on the behavioral bias that previous trial exerts on the current trial using transcranial magnetic stimulation. The results of this experiment provide causal evidence that the previous trial effect is mediated to a large extent by an implicit shortterm memory mechanism in the dorsal premotor cortex, and to a lesser extent by hV5 +, in a visuomotor integration task with moving objects. In the third experiment, the goal was to verify the effect of repetition and expectation about repetition of speed in brain areas associated with visuomotor integration in interceptive actions. To that end, participants intercepted pairs of moving targets with either same or different speed in an event-related functional magnetic resonance experiment. Expectation about speed repetition of target speed was manipulated through the probability of speed repetition in different blocks. Behavioral results indicate that speed from the first stimulus biased participants\' temporal error for the second stimulus. However, manipulation of participants\' expectation did not affect temporal error. In addition, BOLD signal amplitude was modulated by neither stimulus speed repetition nor expectation. In the forth experiment, brain mechanisms that allow expectation to influence behavior in a coincident timing task were investigated. Participant\'s expectation about target speed was manipulated on a trial-by-trial basis by means of cues in an event-related functional magnetic resonance experiment. The results of this experiment showed that expectation about target speed increases BOLD signal for valid expectations in hV5+ and dorsal premotor cortex. Overall, the results in this thesis show that visuomotor integration in interceptive actions is associated with activity in a dorsal fronto-parietal network and hV5+. In addition, it was verified that dorsal premotor cortex and hV5+ have a role in storing information from previous trial that bias behavior on the current trial. Lastly, it was shown that expectation about upcoming target speed modulates BOLD signal in early stage visual motion processing as well as motor planning areas. These results advance knowledge about the brain mechanisms associated with visuomotor integration in interceptive actions and show how context modulates this integration process

Estimulação magnética transcraniana

Expectativa

Informação visual de movimento

Integração visuomotora

Memória de curto prazo implícita

Ressonância magnética funcional

Expectation

Functional magnetic ressonance imaging

Implicit short-term memory

Transcranial magnetic stimulation

Visual motion information

Visuomotor integration

Impacts fonctionnels du traumatisme craniocérébral léger sur la vision et l'équilibre postural chez l'adulte

Piponnier, Jean-Claude

08 1900

Le traumatisme craniocérébral léger (TCCL) a des effets complexes sur plusieurs fonctions cérébrales, dont l’évaluation et le suivi peuvent être difficiles. Les problèmes visuels et les troubles de l’équilibre font partie des plaintes fréquemment rencontrées après un TCCL. En outre, ces problèmes peuvent continuer à affecter les personnes ayant eu un TCCL longtemps après la phase aiguë du traumatisme. Cependant, les évaluations cliniques conventionnelles de la vision et de l’équilibre ne permettent pas, la plupart du temps, d’objectiver ces symptômes, surtout lorsqu’ils s’installent durablement. De plus, il n’existe pas, à notre connaissance, d’étude longitudinale ayant étudié les déficits visuels perceptifs, en tant que tels, ni les troubles de l’équilibre secondaires à un TCCL, chez l’adulte. L’objectif de ce projet était donc de déterminer la nature et la durée des effets d’un tel traumatisme sur la perception visuelle et sur la stabilité posturale, en évaluant des adultes TCCL et contrôles sur une période d’un an. Les mêmes sujets, exactement, ont participé aux deux expériences, qui ont été menées les mêmes jours pour chacun des sujets. L’impact du TCCL sur la perception visuelle de réseaux sinusoïdaux définis par des attributs de premier et de second ordre a d’abord été étudié. Quinze adultes diagnostiqués TCCL ont été évalués 15 jours, 3 mois et 12 mois après leur traumatisme. Quinze adultes contrôles appariés ont été évalués à des périodes identiques. Des temps de réaction (TR) de détection de clignotement et de discrimination de direction de mouvement ont été mesurés. Les niveaux de contraste des stimuli de premier et de second ordre ont été ajustés pour qu’ils aient une visibilité comparable, et les moyennes, médianes, écarts-types (ET) et écarts interquartiles (EIQ) des TR correspondant aux bonnes réponses ont été calculés. Le niveau de symptômes a également été évalué pour le comparer aux données de TR. De façon générale, les TR des TCCL étaient plus longs et plus variables (plus grands ET et EIQ) que ceux des contrôles. De plus, les TR des TCCL étaient plus courts pour les stimuli de premier ordre que pour ceux de second ordre, et plus variables pour les stimuli de premier ordre que pour ceux de second ordre, dans la condition de discrimination de mouvement. Ces observations se sont répétées au cours des trois sessions. Le niveau de symptômes des TCCL était supérieur à celui des participants contrôles, et malgré une amélioration, cet écart est resté significatif sur la période d’un an qui a suivi le traumatisme. La seconde expérience, elle, était destinée à évaluer l’impact du TCCL sur le contrôle postural. Pour cela, nous avons mesuré l’amplitude d’oscillation posturale dans l’axe antéropostérieur et l’instabilité posturale (au moyen de la vitesse quadratique moyenne (VQM) des oscillations posturales) en position debout, les pieds joints, sur une surface ferme, dans cinq conditions différentes : les yeux fermés, et dans un tunnel virtuel tridimensionnel soit statique, soit oscillant de façon sinusoïdale dans la direction antéropostérieure à trois vitesses différentes. Des mesures d’équilibre dérivées de tests cliniques, le Bruininks-Oseretsky Test of Motor Proficiency 2nd edition (BOT-2) et le Balance Error Scoring System (BESS) ont également été utilisées. Les participants diagnostiqués TCCL présentaient une plus grande instabilité posturale (une plus grande VQM des oscillations posturales) que les participants contrôles 2 semaines et 3 mois après le traumatisme, toutes conditions confondues. Ces troubles de l’équilibre secondaires au TCCL n’étaient plus présents un an après le traumatisme. Ces résultats suggèrent également que les déficits affectant les processus d’intégration visuelle mis en évidence dans la première expérience ont pu contribuer aux troubles de l’équilibre secondaires au TCCL. L’amplitude d’oscillation posturale dans l’axe antéropostérieur de même que les mesures dérivées des tests cliniques d’évaluation de l’équilibre (BOT-2 et BESS) ne se sont pas révélées être des mesures sensibles pour quantifier le déficit postural chez les sujets TCCL. L’association des mesures de TR à la perception des propriétés spécifiques des stimuli s’est révélée être à la fois une méthode de mesure particulièrement sensible aux anomalies visuomotrices secondaires à un TCCL, et un outil précis d’investigation des mécanismes sous-jacents à ces anomalies qui surviennent lorsque le cerveau est exposé à un traumatisme léger. De la même façon, les mesures d’instabilité posturale se sont révélées suffisamment sensibles pour permettre de mesurer les troubles de l’équilibre secondaires à un TCCL. Ainsi, le développement de tests de dépistage basés sur ces résultats et destinés à l’évaluation du TCCL dès ses premières étapes apparaît particulièrement intéressant. Il semble également primordial d’examiner les relations entre de tels déficits et la réalisation d’activités de la vie quotidienne, telles que les activités scolaires, professionnelles ou sportives, pour déterminer les impacts fonctionnels que peuvent avoir ces troubles des fonctions visuomotrice et du contrôle de l’équilibre. / Mild traumatic brain injury (mTBI) has complex effects on several brain functions that can be difficult to assess and follow-up. Visual and balance problems are frequently reported after an mTBI. Furthermore, these problems can still affect mTBI individuals far beyond the acute stage of injury. However, standard clinical assessments of vision and balance most often fail to objectivize these symptoms, especially if they are lingering. Moreover, to our knowledge, no longitudinal study investigated either mTBI-related deficits of visual perception per se, or mTBI-related balance deficits in adults. The aim of this project was to determine the nature and duration of the effects of such a traumatism on visual perception as well as on postural stability, by evaluating mTBI and control adults over a one-year period. Exactly the same subjects participated in both experiments, which took place on the same days for every subject. The impact of mTBI on the visual perception of sine-wave gratings defined by first-and second-order characteristics was, first, investigated. Fifteen adults diagnosed with mTBI were assessed at 15 days, 3 months and 12 months after injury. Fifteen matched controls followed the same testing schedule. Reaction times (RTs) for flicker detection and motion direction discrimination were measured. Stimulus contrast of first- and second-order patterns was equated to control for visibility, and correct-response RT means, standard deviations (SDs), medians, and interquartile ranges (IQRs) were calculated. The level of symptoms was also evaluated to compare it to RT data. In general in mTBI, RTs were longer and more variable (ie., larger SDs and IQRs), than those of controls. In addition, mTBI participants’ RTs to first-order stimuli were shorter than those to second-order stimuli, and more irregular for first- than for second-order stimuli in the motion condition. All these observations were made over the 3 sessions. The level of symptoms observed in mTBI was higher than that of control participants and this difference did also persist up to one year after the brain injury, despite an improvement. The second experiment, then, investigated the impact of mTBI on postural control. To achieve that, antero-posterior body sway amplitude (BSA) and postural instability (given by body sway velocity root mean square, vRMS) during upright stance, feet together, on a firm surface, were measured in five different conditions: with eyes closed and in a 3D virtual reality tunnel, either static or sinusoidally moving in the antero-posterior direction at 3 different velocities. Balance measures derived from clinical tests, Bruininks-Oseretsky Test of Motor Proficiency 2nd edition (BOT-2) and Balance Error Scoring System (BESS), were also used. Participants diagnosed with mTBI exhibited more postural instability (i.e. higher body sway vRMS) than control participants at 2 weeks and at 3 months post-injury, regardless of the testing condition. These mTBI-related balance deficits were no longer present one year postinjury. These results also suggest that visual processing impairments revealed in the first experiment might have contributed to mTBI-related balance deficits. Anteroposterior BSA as well as measures derived from clinical tests for balance assessment did not appear to be sensitive enough to quantify postural deficits of mTBI participants. The combination of RT measures with particular stimulus properties appeared to be a highly sensitive method for measuring mTBI-induced visuomotor anomalies, and to provide a fine probe of the underlying mechanisms when the brain is exposed to mild trauma. Likewise, postural instability measures prove to be sensitive enough for measuring mTBI-induced balance deficits. Developing screening tests in this respect intended for early post-mTBI use would be of interest. Also, studying relationships of such deficits with performance in daily life activities, such as school, work, or sports, is crucial in order to determine the functional impacts of these alterations in visuomotor and balance functions.

Intégration visuomotrice

Stimuli visuels

Premier ordre

Second ordre

Mouvement

Temps de réaction

Équilibre

Instabilité posturale

Mild traumatic brain injury (mTBI)

Visuomotor integration

Visual stimuli

First-order

Second-order

Motion

Reaction time

Balance

Postural instability