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2. Electromyographic and kinetic strategies to control movements

Author

Marconi, NF, Almeida, GL, and Gottlieb, GL

Subjects
EMG, kinematics, kinetics, controle motor, motor control, movement reconstruction, reconstrução de movimento, cinemática, cinética
Abstract

Introduction: This paper is a literature review on the electromyographic and kinetic strategies used by the central nervous system to control voluntary movement. Such strategies have been identified from carrying out simple and complex movements, with and without direction reversal. Objective: To discuss the set of rules used to modulate the muscle activity patterns and muscle torque generated during voluntary movements involving one and two joints. Electromyographic strategies used to control simple movements involving one or two joints are dealt with first. Kinetic strategies are discussed in terms of the generation and modulation of muscle torque to carry out simple and complex movements. Linear synergy between muscle activity and muscle torque and the correlation of the muscle torque generated between chain-linked joints are then discussed. The role of interactive forces in the control of movements is also discussed. Conclusion: Physical therapy practice requires a theoretical framework based on technical-scientific knowledge to guide it. Motor control theories are powerful tools for this. Such knowledge could be used towards understanding the adaptations and modifications in motor control mechanisms that occur as a result of disorders or disease. INTRODUÇÃO: O presente trabalho é uma revisão de literatura sobre as estratégias eletromiográficas e cinéticas usadas pelo sistema nervoso central para controlar movimentos voluntários. Essas estratégias foram identificadas durante a execução de movimentos simples e complexos, com e sem reversão em direção. Objetivo: A proposta desse artigo é discutir o conjunto de regras usadas para modular os padrões de atividade muscular e a força gerada nas articulações (torque muscular). Primeiramente, abordamos as estratégias eletromiográficas usadas para controlar movimentos envolvendo uma ou duas articulações. Discutimos as estratégias cinéticas, em termos de geração e modulação do torque muscular para realizar movimentos simples e complexos. A sinergia linear entre atividade muscular e torque muscular e a correlação entre torque muscular gerado em articulações ligadas em cadeia também será discutida. Além disso, abordamos o papel das forças de interação para o controle dos movimentos. Conclusão: A prática da fisioterapia requer um arcabouço teórico baseado no conhecimento técnico-científico para guiá-la. Nesse sentido, as teorias de controle motor são ferramentas importantes. Tais conhecimentos seriam utilizados para entender as adaptações e modificações que ocorrem nos mecanismos de controle motor devido a uma disfunção ou doença.

Published
2006

5. Interference of high-heeled shoes in static balance among young women.

Author

Gerber SB, Costa RV, Grecco LA, Pasini H, Marconi NF, and Oliveira CS

Subjects
Adolescent, Adult, Cross-Sectional Studies, Female, Humans, Orientation, Sensory Deprivation, Visual Perception, Weight-Bearing, Young Adult, Postural Balance, Shoes adverse effects
Abstract

The aim of the present study was to assess the effect of the use of high-heeled shoes on static balance in young adult women. Fifty-three women between 18 and 30 years of age and accustomed to wearing high-heeled shoes participated in the study. None of the participants had any orthopedic or neurologic alterations. Static balance was assessed using a force plate. Oscillations from the center of pressure in the mediolateral and anteroposterior directions were measured both when barefoot and when wearing high-heeled shoes [7 centimeters (cm) in height and 1cm in diameter] under the conditions of eyes open and eyes closed. Two-way analysis of variance was employed for the statistical analysis, with the level of significance set at 5% (p<.05). The results revealed statistically significant differences between tests when barefoot and when wearing high-heeled shoes as well as with eyes open and eyes closed (p<.01). With the use of high-heeled shoes, there was a significant increase in mediolateral oscillation with eyes closed (p<.01). The present study demonstrates that the use of seven-cm high heels altered static balance in the healthy young women analyzed, increasing the oscillation of the center of pressure, regardless of visual restriction., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2012
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6. Upward squatting in individuals with and without patellofemoral pain syndrome: a biomechanical study.

Author

Dionisio VC, Marconi NF, dos Santos I, and Almeida GL

Subjects
Adult, Ankle Joint physiology, Biomechanical Phenomena, Case-Control Studies, Electromyography methods, Female, Humans, Knee Joint physiology, Male, Pain Measurement, Proprioception physiology, Reference Values, Young Adult, Exercise Test methods, Patellofemoral Pain Syndrome physiopathology, Posture, Range of Motion, Articular physiology
Abstract

The purpose of the study was to test the hypothesis on whether individuals with patellofemoral pain syndrome (PFPS) try to avoid knee position during upward squatting so as not to aggravate this syndrome. Also, we tested whether PFPS would generate changes in the kinetic and electromyographic (EMG) strategies used to perform this task. Eight healthy subjects and 8 subjects with PFPS, but without a history of pain for at least 30 days, took part in the experiment. They were asked to perform upward squatting with knees initially flexed at 60° (very flexed) until reaching an upright position. Angle, velocity, and acceleration (kinematic) were reconstructed for knee and ankle joints. The torques at these joints were calculated using inverse dynamics, taking into account anthropometric and inertial characteristics of each subject, including records from force data. Only activities of major muscles were recorded. The kinetic and EMG profiles were quantified during acceleration and deceleration phases of the upward squatting. Both healthy and PFPS subjects used the same kinetic and EMG strategies to perform the upward squatting, even though the magnitude of the muscle activities were decreased for the latter group. Compared to the control group, the PFPS subjects presented larger joint ankle torques and smaller knee joint torques. However, the subjects avoided keeping their knees very flexed at the initial position. Group differences in the kinetic and EMG strategies can be explained by differences in the initial position, suggesting a protective strategy used by subjects with PFPS. Therefore, for these subjects, coaches and therapists should avoid using this exercise when the knee is required to move above 40° flexion.

Published
2011
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7. The linear co-variance between joint muscle torques is not a generalized principle.

Author

Sande de Souza LA, Dionísio VC, Lerena MA, Marconi NF, and Almeida GL

Subjects
Aged, Computer Simulation, Female, Humans, Male, Middle Aged, Torque, Elbow Joint physiology, Models, Biological, Movement physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Postural Balance physiology, Shoulder Joint physiology
Abstract

In 1996, Gottlieb et al. [Gottlieb GL, Song Q, Hong D, Almeida GL, Corcos DM. Coordinating movement at two joints: A principle of linear covariance. J Neurophysiol 1996;75(4):1760-4] identified a linear co-variance between the joint muscle torques generated at two connected joints. The joint muscle torques changed directions and magnitudes in a synchronized and linear fashion and called it the principle of linear co-variance. Here we showed that this principle cannot hold for some class of movements. Neurologically normal subjects performed multijoint movements involving elbow and shoulder with reversal towards three targets in the sagittal plane without any constraints. The movement kinematics was calculated using the X and Y coordinates of the markers positioned over the joints. Inverse dynamics was used to calculate the joint muscle, interaction and net torques. We found that for the class of voluntary movements analyzed, the joint muscle torques of the elbow and the shoulder were not linearly correlated. The same was observed for the interaction torques. But, the net torques at both joints, i.e., the sum of the interaction and the joint muscle torques were linearly correlated. We showed that by decoupling the joint muscle torques, but keeping the net torques linearly correlated, the CNS was able to generate fast and accurate movements with straight fingertip paths. The movement paths were typical of the ones in which the joint muscle torques were linearly correlated.

Published
2009
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8. Principles for learning horizontal-planar arm movements with reversal.

Author

Marconi NF and Almeida GL

Subjects
Adolescent, Adult, Female, Humans, Male, Torque, Young Adult, Learning physiology, Motor Skills physiology, Movement physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Task Performance and Analysis
Abstract

Purpose: This study tested the hypothesis that muscle and interaction torques can be altered independently in order to improve in specific kinematics performance observed following practice. We also tested the hypothesis that a simple set of rules of EMG-control and kinetic-control models could explain the EMG and kinetic changes due to practice of movements with reversal., Scope: Kinematics of the upper arm with reversal, performed over three distances, was reconstructed using motion analysis. The muscle and interaction torques were calculated using inverse-dynamics. EMG activities of the major arm muscles were also recorded. The results demonstrate that improved performance is facilitated by an increase in muscle torque (and therefore acceleration) at the proximal joint (shoulder) and by an increase in the interaction torque at the distal joint (elbow). No changes were observed in the amount of muscle activity underlying these kinetic modifications, except for a decrease in the shoulder antagonist latency., Conclusion: The results confirm Bernstein's idea that the central nervous system takes advantage of the passive-interactive properties of the moving system. Also the modulation of the EMG patterns should be explained taking in account the reactive forces and the dual functions (maintenance of posture and generation of movement) of the muscles.

Published
2008
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9. Coupling between muscle activities and muscle torques during horizontal-planar arm movements with direction reversal.

Author

Almeida GL, Freitas SM, and Marconi NF

Subjects
Adaptation, Physiological physiology, Adolescent, Adult, Feedback physiology, Female, Humans, Male, Torque, Arm physiology, Motor Activity physiology, Movement physiology, Muscle Contraction physiology, Muscle, Skeletal physiology, Postural Balance physiology
Abstract

In this study we investigated the hypothesis that the simple set of rules used to explain the modulation of muscle activities during single-joint movements could also be applied for reversal movements of the shoulder and elbow joints. The muscle torques of both joints were characterized by a triphasic impulse. The first impulse of each joint accelerated the limb to the target and was generated by an initial burst of the muscles activated first (primary mover). The second impulse decelerated the limb to the target, reversed movement direction and accelerated the limb back to the initial position, and was generated by an initial burst of the muscles activated second (secondary movers). A third impulse, in each joint, decelerated the limb to the initial position due to the generation of a second burst of the primary movers. The first burst of the primary mover decreased abruptly, and the latency between the activation of the primary and secondary movers varied in proportion with target distances for the elbow, but not for the shoulder muscles. All impulses and bursts increased with target distances and were well coupled. Therefore, as predicted, the bursts of muscle activities were modulated to generate the appropriate level of muscle torque.

Published
2006
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10. Effects of Displacement and Trajectory Length on the Variability Pattern of Reaching Movements.

Author

Jaric S, Ferreira SM, Tortoza C, Marconi NF, and Almeida GL

Abstract

The design of the present study enabled the authors to distinguish between the possible effects of movement displacement and trajectory length on the pattern of final positions of planar reaching movements. With their eyes closed, 9 subjects performed series of fast and accurate movements from different initial positions to the same target. For some series, the movements were unconstrained and were therefore performed along an approximately straight vertical line. For other series, an obstacle was positioned so that trajectory length was increased because of an increase in movement curvature. Ellipses of variability obtained by means of principal component analysis applied to the scatter of movement final positions enabled the authors to assess the pattern of movement variable errors. The results showed that the orientation of the ellipses was not affected by movement displacement or by trajectory length, whereas variable errors increased with movement displacement. An increase in trajectory length as a consequence of increased curvature caused no change in variable error. From the perspective of current motor control theory, that finding was quite unexpected. Further studies are required so that one can distinguish among the possible effects of various kinematics, kinetics, and other variables that could affect the pattern of variable errors of reaching movements.

Published
1999
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