Ultraestrutura, expressão gênica e imunomarcação da caspase-3, XIAP, IGF-1R do córtex cerebelar de ratos UChA (consumidores voluntários de etanol)

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Development and validation of an instrument to assess movement quality of the basketball free throw shooting

When a physical activity professional is teaching a motor skill, he evaluates the movement's learner and considers which interventions could be done at the moment. However, many times the instructor does not have such resources which could help him/her to evaluate the learner movement. The skill acquisition process could be facilitated if instructors could have an instrument that identifies errors, prioritizing information to be given to the learner. Considering that the specialized literature presents a lack of information about such tool, the purpose of this study was to develop, and to determine the objectivity and reliability of an instrument to assess the movement quality of the basketball free throw shooting. The checklist was developed and evaluated by basketball experts. Additionally, the checklist was used to assess 10 trials (edited video) from four individuals in different learning stages. Data were organized by the critical error and the error sum appointed by the experts in two different occasions (one week interval). Contrasting both evaluations, and also, contrasting different experts assessments, in sum and critical error, it was observed an average error of 16.9%. It was concluded that the checklist to assess the basketball free throw is reliable, and could help instructors to make a qualitative analysis. Moreover, the checklist may allow instructors to make assumptions on the motor learning process.

Instrução verbal: solicitar foco de atenção não garante sua adoção e melhor desempenho

The purposes of this study were to investigate a) the effect of redundant and non-redundant instruction on external focus of attention adoption, b) the effect of adopting an external focus of attention on performance in a front crawl swimming task, and c) the effect of redundancy in the wording of a verbal instruction on the above variables. 43 college students (m/f) aged 17 to 46 swam 25 m crawl at maximum speed, once under each of three conditions: without focus instruction (SF), following a focus instruction (CF) and a redundant focus instruction (CFR), in counterbalanced order. For focus adoption control, after completing the task participants were asked about what they had focused on while swimming. As a measure of performance, time and number of strokes were taken and the stroke index was calculated. The results showed that under redundant focus instruction (CFR) condition, 42 % failed to adopt the attentional focus as asked, and following focus (CF) instruction, 23 %. Under CF condition, the frequency of participants that adopted the focus was higher than of those who did not. Performance did not differ significantly among the three conditions (p>0,05). These findings stress the need of manipulation checks in attentional focus research, regarding both performance and motor learning efficiency, as well as the need for further investigation into the relation between instruction extension and performance.

Efeitos do conhecimento de resultados autocontrolado na aprendizagem motora

O objetivo do presente estudo foi analisar três diferentes estratégias de fornecer conhecimento de resultados (CR): autocontrolado, yoked pareado por tentativa e yoked pareado pela frequência média total de CR, na prática aleatória. A amostra foi constituída por 45 voluntários universitários, distribuídos em três grupos (n= 15 sujeitos). A tarefa consistiu em pressionar as teclas 2, 4, 8 e 6 do teclado numérico de um computador, em três diferentes tempos alvo (700, 900 e 1100 ms), praticados aleatoriamente. O experimento constou de fase de aquisição e testes de retenção e transferência atrasados. A análise dos dados foi realizada por meio da ANOVA e não foi constatada diferença significativa entre os grupos. Os resultados demonstraram que não houve efeito das frequências autocontroladas para a aprendizagem motora quando se utiliza a prática aleatória. Além disso, uma nova possibilidade de parear o grupo autocontrolado foi apresentada.

Dicas de aprendizagem auxiliam as crianças com TDC na aquisição de uma habilidade motora complexa?

O objetivo do estudo foi analisar se as dicas de aprendizagem auxiliam crianças com TDC na aquisição de uma habilidade motora complexa. Dez crianças com TDC e 14 de desenvolvimento típico, de 9 a 11 anos, foram divididas nos grupos TDC com dicas (TDCD), TDC sem dicas (TDCS), desenvolvimento típico com dicas (GDTD) e desenvolvimento típico sem dicas (GDTS). As crianças participaram de sete aulas, durante três semanas, para a aprendizagem do rolamento peixe, com o uso das dicas "empurre o chão", "coloque a mão o mais longe possível" e "queixo no peito". Os resultados não foram estatisticamente significantes entre os grupos, o que evidencia que as dicas não apresentaram efeito positivo na aprendizagem do rolamento peixe.

Interferência contextual e nível de habilidade na aprendizagem do serviço do voleibol

Este estudo investigou o efeito da interferência contextual (IC) na aquisição do serviço do voleibol em adolescentes com diferentes níveis de habilidade, considerando os testes de transferência imediato e retardado. A amostra foi composta por 56 meninas com idade entre 14 e 16 anos, distribuídas em quatro grupos de prática: aleatório com nível superior de habilidade (GAS), blocos com nível superior de habilidade (GBS), aleatório com nível inferior de habilidade (GAI) e blocos com nível inferior de habilidade (GBI). A tarefa motora consistiu dos serviços por baixo e por cima direcionados a alvos na quadra. Os resultados mostraram que o efeito da IC não foi observado nos grupos GAI e GBI, por outro lado, os grupos GAS e GBS apresentaram melhor desempenho no teste de transferência imediato. A ausência de diferenças significativas no teste de transferência retardado sugere que o efeito da IC pode ser temporário.

Construção e validação de um instrumento de análise qualitativa do arremesso (lance-livre) do basquetebol

Quando o profissional da área de Educação Física está ensinando uma habilidade motora, ele procura avaliar o movimento realizado pelo aluno e reflete sobre quais intervenções poderiam ser feitas naquele momento. No entanto, muitas vezes, o professor não dispõe de recursos que possam auxiliá-lo no processo de avaliação do movimento a ser aprendido pelo aluno. O processo de aquisição habilidades motoras poderia ser facilitado se o professor dispusesse nesse momento de um instrumento que identificasse o erro(s) cometido(s), bem como, qual seria a informação prioritária a ser fornecida ao aprendiz. Portanto, como a literatura especializada apresenta escassez no que diz respeito a esse tipo de ferramenta, o objetivo do presente estudo foi construir, validar e testar a objetividade e fidedignidade de um instrumento (checklist) que avalia a qualidade do arremesso do basquetebol (lance livre). O checklist da habilidade foi desenvolvido e avaliado por especialistas da modalidade esportiva e, posteriormente, o checklist foi utilizado para analisar 10 arremessos (vídeo editado) de quatro indivíduos em diferentes fases de aprendizagem da habilidade. Os resultados foram organizados em função do erro crítico e somatória de erros verificados pelos especialistas em duas ocasiões com uma semana de intervalo. Contrastando as avaliações do mesmo avaliador e entre avaliadores, em ambas as medidas, observou-se um nível de erro médio de 16,9%. Concluiu-se, portanto que o checklist proposto no presente estudo é um instrumento de avaliação do lance livre consistente e, nesse sentido, pode auxiliar professores e técnicos na análise qualitativa do arremesso. Além disso, esse instrumento de avaliação permite fazer inferências sobre o processo de aprendizagem de indivíduos nessa habilidade.

Modelo de aprendizaje exitoso en educación física y su mantenimiento. Estudio del efecto del refuerzo intermitente sobre la condición física

[ES] El propósito de este artículo es describir el proceso de la planificación de aprendizajes motores y de desarrollo de la condición física en el contexto escolar, analizando las circunstancias que rodean a este proceso, con el fin de orientar a los profesores a planificar y que garanticen cierta eficacia en la intervención.

Genetische Analyse des Somatostatin-Systems

Somatostatin ist ein Molekül mit multifunktinonellem Charakter, dem Neurotransmitter-, Neuromodulator- und (Neuro)-Hormoneigenschaften zugeschrieben werden. Gemäß seiner ubiquitären Verteilung in Geweben beeinflusst es Stoffwechsel- und Entwicklungsprozesse, bis hin zu Lern-und Gedächtnisleistungen. Diese Wirkungen resultieren aus dem lokalen und zeitlichen Zusammenspiel eines Liganden und fünf G-Protein gekoppelter Rezeptoren (SSTR1-5). Zur Charakterisierung der biologischen Bedeutung des Somatostatin-Systems im Gesamtorganismus wurde eine Mutationsanalyse einzelner Systemkomponenten durchgeführt. Sie umfaßte die Inaktivierung der Gene für das Somatostatin-Präpropeptid und die der Rezeptoren SSTR3 und SSTR4 durch Gene Targeting. Die entsprechenden Ausfallmutationen belegen: Weder die Rezeptoren 3 und 4, noch Somatostatin sind für das Überleben des Organismus unter Standardhaltungsbedingungen notwendig. Die entsprechenden Mauslinien zeigen keine unmittelbar auffälligen Einschränkungen ihrer Biologie. Die Somatostatin-Nullmaus wurde zum Hauptgegenstand einer detaillierten Untersuchung aufgrund der übergeordneten Position des Liganden in der Signalkaskade und verfügbaren Hinweisen zu seiner Funktion. Folgende Schlußfolgerungen konnten nach eingehender Analyse gezogen werden: Der Ausfall des Somatostatin-Gens hat erhöhte Plasmakonzentrationen an Wachstumshormon (GH) zur Konsequenz. Dies steht im Einklang mit der Rolle Somatostatins als hemmender Faktor der Wachstumshormon-Freisetzung, die in der Mutante aufgehoben ist. Durch die Somatostatin-Nullmaus wurde zudem deutlich: Somatostatin interagiert als wesentliches Bindeglied zwischen der Wachstums- und Streßachse. Permanent erhöhte Corticosteron-Werte in den Mutanten implizieren einen negativen tonischen Einfluß für die Sekretion von Glukocorticoiden in vivo. Damit zeigt die Knockout-Maus, daß Somatostatin normalerweise als ein entscheidendes inhibierendes Kontrollelement der Steroidfreisetzung fungiert. Verhaltensversuche offenbarten ein Defizit im motorischen Lernen. Somatostatin-Nullmäuse bleiben im Lernparadigma “Rotierender Stabtest” hinter ihren Artgenossen zurück ohne aber generell in Motorik oder Koordination eingeschränkt zu sein. Diese motorischen Lernvorgänge sind von einem funktionierenden Kleinhirn abhängig. Da Somatostatin und seine Rezeptoren kaum im adulten, wohl aber im sich entwickelnden Kleinhirn auftreten, belegt dieses Ergebnis die Funktion transient in der Entwicklung exprimierter Neuropeptide – eine lang bestehende, aber bislang experimentell nicht nachgewiesene Hypothese. Die Überprüfung weiterer physiologischer Parameter und Verhaltenskategorien unter Standard-Laborbedingunggen ergab keine sichtbaren Abweichungen im Vergleich zu Wildtyp-Mäusen. Damit steht nun ein Tiermodell zur weiterführenden Analyse für die Somatostatin-Forschung bereit: In endokrinologischen, elektrophysiologischen und verhaltens-biologischen Experimenten ist nun eine unmittelbare Korrelation selektiv mit dem Somatostatin-Peptid bzw. mit den Rezeptoren 3 und 4 aber auch in Kombination der Ausfallmutationen nach entsprechenden Kreuzungen möglich.

Untersuchung der Auswirkungen verschiedener Variationsbereiche des differenziellen Lernens und Lehrens im weiten Sinn auf ausgewählte technische Grundfertigkeiten im Hallenhockey

Die Frage wie großmotorische Bewegungen gelernt werden beschäftigt nicht nur Sportler, Trainer und Sportlehrer sondern auch Ärzte und Physiotherapeuten. Die sportwissenschaftlichen Teildisziplinen Bewegungs- und Trainingswissenschaft versuchen diese Frage sowohl im Sinne der Grundlagenforschung (Wie funktioniert Bewegungslernen?) als auch hinsichtlich der praktischen Konsequenzen (Wie lehrt man Bewegungen?) zu beantworten. Innerhalb dieser Themenfelder existieren Modelle, die Bewegungslernen als gezielte und extern unterstützte Ausbildung zentralnervöser Bewegungsprogramme verstehen und solche, die Lernen als Selbstorganisationsprozess interpretieren. Letzteren ist das Differenzielle Lernen und Lehren (Schöllhorn, 1999) zuzuordnen, das die Notwendigkeit betont, Bewegungen durch die Steigerung der Variationen während der Aneignungsphase zu lernen und zu lehren. Durch eine Vielzahl an Variationen, so die Modellannahme, findet der Lernende ohne externe Vorgaben selbstorganisiert ein individuelles situatives Optimum. Die vorliegende Arbeit untersucht, welchen Einfluss Variationen verschiedener Art und Größe auf die Lern- und Aneignungsleistung großmotorischer Bewegungen haben und in wie fern personenübergreifende Optima existieren. In zwei Experimenten wird der Einfluss von räumlichen (Bewegungsausführung, Bewegungsergebnis) und zeitlichen Variationen (zeitliche Verteilung der Trainingsreize) auf die Aneignungs- und Lernleistung großmotorischer sportlicher Bewegungen am Beispiel zweier technischer Grundfertigkeiten des Hallenhockeys untersucht. Die Ergebnisse der Experimente stützen die bisherige Befundlage zum Differenziellen Lernen und Lehren, wonach eine Zunahme an Variation in der Aneignungsphase zu größeren Aneignungs- und Lernleistungen führt. Zusätzlich wird die Annahme bestätigt, dass ein Zusammenhang von Variationsbereich und Lernrate in Form eines Optimaltrends vorliegt. Neu sind die Hinweise auf die Dynamik von motorischen Lernprozessen (Experiment 1). Hier scheinen individuelle Faktoren (z. B. die Lernbiografie) als auch die Phase im Lernprozess (Aneignung, Lernen) Einfluss zu haben auf den Umfang und die Struktur eines für die optimale Adaptation notwendigen Variationsbereichs. Darüber hinaus weisen die Befunde auf verschiedene Aneignungs- und Lerneffekte aufgrund alleiniger Variation der zeitlichen Verteilung bei ansonsten gleichen Trainingsreizen hin (Experiment 2). Für zukünftige Forschungsarbeiten zum Erlernen großmotorischer Bewegungen und für die sportliche Praxis dürfte es daher erkenntnisreich sein, die Historie der intrinsischen Dynamik der lernenden Systeme stärker zu berücksichtigen. Neben Fragestellungen für die Grundlagenforschung zum (Bewegungs-)Lernen ließen sich hieraus unmittelbar praxisrelevante Erkenntnisse darüber ableiten, wie Bewegungslernprozesse mittels verschiedener Variationsbereiche strukturiert und gesteuert werden könnten.

Rapid adaptation of visual search in simulated hemianopia

Patients with homonymous hemianopia have altered visual search patterns, but it is unclear how rapidly this develops and whether it reflects a strategic adaptation to altered perception or plastic changes to tissue damage. To study the temporal dynamics of adaptation alone, we used a gaze-contingent display to simulate left or right hemianopia in 10 healthy individuals as they performed 25 visual search trials. Visual search was slower and less accurate in hemianopic than in full-field viewing. With full-field viewing, there were improvements in search speed, fixation density, and number of fixations over the first 9 trials, then stable performance. With hemianopic viewing, there was a rapid shift of fixation into the blind field over the first 5-7 trials, followed by continuing gradual improvements in completion time, number of fixations, and fixation density over all 25 trials. We conclude that in the first minutes after onset of hemianopia, there is a biphasic pattern of adaptation to altered perception: an early rapid qualitative change that shifts visual search into the blind side, followed by more gradual gains in the efficiency of using this new strategy, a pattern that has parallels in other studies of motor learning.

Retraining of interjoint arm coordination after stroke using robot-assisted time-independent functional training

We have developed a haptic-based approach for retraining of interjoint coordination following stroke called time-independent functional training (TIFT) and implemented this mode in the ARMin III robotic exoskeleton. The ARMin III robot was developed by Drs. Robert Riener and Tobias Nef at the Swiss Federal Institute of Technology Zurich (Eidgenossische Technische Hochschule Zurich, or ETH Zurich), in Zurich, Switzerland. In the TIFT mode, the robot maintains arm movements within the proper kinematic trajectory via haptic walls at each joint. These arm movements focus training of interjoint coordination with highly intuitive real-time feedback of performance; arm movements advance within the trajectory only if their movement coordination is correct. In initial testing, 37 nondisabled subjects received a single session of learning of a complex pattern. Subjects were randomized to TIFT or visual demonstration or moved along with the robot as it moved though the pattern (time-dependent [TD] training). We examined visual demonstration to separate the effects of action observation on motor learning from the effects of the two haptic guidance methods. During these training trials, TIFT subjects reduced error and interaction forces between the robot and arm, while TD subject performance did not change. All groups showed significant learning of the trajectory during unassisted recall trials, but we observed no difference in learning between groups, possibly because this learning task is dominated by vision. Further testing in stroke populations is warranted.

SIGNALING MECHANISMS THAT CONTROL GAP JUNCTIONAL COUPLING BETWEEN RETINAL NEURONS

Gap junctions between neurons form the structural substrate for electrical synapses. Connexin 36 (Cx36, and its non-mammalian ortholog connexin 35) is the major neuronal gap junction protein in the central nervous system (CNS), and contributes to several important neuronal functions including neuronal synchronization, signal averaging, network oscillations, and motor learning. Connexin 36 is strongly expressed in the retina, where it is an obligatory component of the high-sensitivity rod photoreceptor pathway. A fundamental requirement of the retina is to adapt to broadly varying inputs in order to maintain a dynamic range of signaling output. Modulation of the strength of electrical coupling between networks of retinal neurons, including the Cx36-coupled AII amacrine cell in the primary rod circuit, is a hallmark of retinal luminance adaptation. However, very little is known about the mechanisms regulating dynamic modulation of Cx36-mediated coupling. The primary goal of this work was to understand how cellular signaling mechanisms regulate coupling through Cx36 gap junctions. We began by developing and characterizing phospho-specific antibodies against key regulatory phosphorylation sites on Cx36. Using these tools we showed that phosphorylation of Cx35 in fish models varies with light adaptation state, and is modulated by acute changes in background illumination. We next turned our focus to the well-studied and readily identifiable AII amacrine cell in mammalian retina. Using this model we showed that increased phosphorylation of Cx36 is directly related to increased coupling through these gap junctions, and that the dopamine-stimulated uncoupling of the AII network is mediated by dephosphorylation of Cx36 via protein kinase A-stimulated protein phosphatase 2A activity. We then showed that increased phosphorylation of Cx36 on the AII amacrine network is driven by depolarization of presynaptic ON-type bipolar cells as well as background light increments. This increase in phosphorylation is mediated by activation of extrasynaptic NMDA receptors associated with Cx36 gap junctions on AII amacrine cells and by Ca2+-calmodulin-dependent protein kinase II activation. Finally, these studies indicated that coupling is regulated locally at individual gap junction plaques. This work provides a framework for future study of regulation of Cx36-mediated coupling, in which increased phosphorylation of Cx36 indicates increased neuronal coupling.