Validity of a portable force platform for assessing biomechanical parameters in three different tasks.

The aim of this study was to determine the precision and accuracy of the vertical and anterior-posterior force components of the portable PASCO PS-2142 force plate. Impulse, peak force, and time to peak force were assessed and compared to a gold standard force plate in three different tasks: vertical jump, forward jump, and sprint start. Two healthy male participants performed ten trials for each task, resulting in 60 trials. Data analyses revealed good precision and accuracy for the vertical component of the portable force plate, with relative bias and root mean square (RMS) error values nearly the same in all tasks for the impulse, time to peak force, and peak force parameters. Precision and accuracy of the anterior-posterior component were lower for the impulse and time to peak force, with relative bias and RMS error values nearly the same between tasks. Despite the lower precision and accuracy of the anterior-posterior component of the portable force plate, these errors were systematic, reflecting a good repeatability of the measure. In addition, all variables presented good agreement between the portable and gold standard platforms. Our results provide a good perspective for using the aforementioned portable force plate in sports and clinical biomechanics.

Neuromuscular features in sprinters with cerebral palsy: case studies based on paralympic classification.

Despite the evolution of runner performance in athletes with cerebral palsy (CP), little is known about neuromuscular parameters of sprinters from different classes, especially related to power output, muscular imbalances and asymmetry indexes in lower limbs. The aim of this study was to assess muscle power, muscular imbalance and asymmetry in sprinters with CP. Four male sprinters with CP (age, 18 to 27 years; body mass, 58.5 to 72.8 kg; height, 161.5 to 174 cm) classified as T38, T37, T36, T35 according to International Paralympic Committee functional classification, performed vertical counter movement jump and squat jump on force plate and isokinetic torque evaluations in both limbs. The concentric peak torque (PT) was measured at 60°/sec, 120°/sec and 180°/sec and PT eccentric at 60°/sec and 120°/sec. The asymmetry indexes, conventional and functional ratios were assessed. the results showed that athletes with more severe impairments (T35 and T36) showed worse performance to muscle power, more muscular imbalance and higher asymmetry in PT between limbs (> 10%). The exception was T37 athlete, who presented the better performance for all variables. it is concluded that CP athletes with more severe impairments showed lower jumping performance and torque production of knee extensors and flexors, they showed greater asymmetries between limbs. Finally, considering the results of T37 athlete, it seems that the athletic training for a longer period can reverse part of the neuromuscular impairments caused by CP.

Biomechanical methods applied in martial arts studies

Martial arts are practiced in both amateur and in high professional level, stimulating scientific research in several areas of knowledge, including biomechanics. The main purpose of this review is to present the biomechanics methods used in the study of martial arts. The great importance of this study is the compilation of information science of what has already been analyzed under the biomechanics aspects related to martial arts and how this has been done. The methodology was directed to the revision of literature starting from articles, books, and seminars. From the collection of bibliographic surveys, it has been concluded that depending on the parameters studied e.g.: reaction time, speed, strength, power, among others, there is the need to apply one or more methods since there are situations in which only one biomechanical method will not be enough to answer the pointed question. It is also concluded that the investigated studies in the presented review showed the character of a descriptive examination, not directly applied to the development of techniques used on different modalities.

ANÁLISIS BIOMECÁNICO DE LA ESGRIMA MEDIANTE SISTEMAS OPTOELECTRÓNICOS DE ANÁLISIS DE MOVIMIENTO: ESTUDIO DE CASO: DEPORTISTA DE ALTO RENDIMIENTO

En este artículo se presenta el estudio de la técnica deportiva para esgrima por medio de un análisis biomecánico, realizado con ayuda de sistemas optoelectrónicos que capturan en tiempo real los dos gestos más destacados, el paso adelante y el fondo, con el objetivo de caracterizar digitalmente la biomecánica para su posterior análisis cinemático y de esta manera describir la técnica que tiene el deportista en la ejecución del movimiento. Con este estudio se lograron caracterizar de una forma cuantitativa las curvas de posición, ángulos articulares, velocidades y aceleraciones de cada uno de los marcadores situados en el cuerpo del deportista. Este estudio se realizó en un deportista de alto rendimiento, destacado en la modalidad de espada.

This article presents the study of fencing techniques through biomechanical analysis, using optoelectronic systems that capture in real time two main gestures: advance and lunge, with the objective to digitally characterize the biomechanics, for its further kinematical analysis to describe the fencer's technique in the movement execution. This study was made to characterize position curves, joint angles, velocity and acceleration of each of the markers located on the athlete's body, in a quantitative manner. This study was developed on a high performance athlete in sword modality.