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Influence of biomechanical models on joint kinematics and kinetics in baseball pitching. | LitMetric

AI Article Synopsis

  • - The study investigates how different biomechanical models impact pitching performance and injury risk by analyzing trunk and shoulder features in baseball.
  • - Researchers compared two models where one model had a fixed thoraco-humeral joint while the other did not, affecting measurements like thorax angular velocity and shoulder rotation speeds.
  • - Key findings showed that a fixed thoraco-humeral joint underestimated thorax velocity and overestimated shoulder rotation, which could misrepresent shoulder muscle contributions during pitching.

Article Abstract

In baseball pitching, biomechanical parameters have been linked to ball velocity and potential injury risk. However, although the features of a biomechanical model have a significant influence on the kinematics and kinetics of a motion, this influence have not been assessed for pitching. The aim of this study was to evaluate the choice of the trunk and shoulder features, by comparing two models using the same input. The models differed in thoraco-humeral joint definition (moving or fixed with the thorax), joint centre estimation, values of the inertial parameters and computational framework. One professional pitcher participated in the study. We found that the different features of the biomechanical models have a substantial influence on the kinematics and kinetics of the pitchers. With a fixed thoraco-humeral joint the peak average thorax angular velocity was delayed and underestimated by 17% and the shoulder internal rotation velocity was overestimated by 7%. The use of a thoraco-humeral joint fixed to the thorax will lead to an overestimation of the rotational power at the shoulder and will neglect the power produced by the forward and upward translation of the shoulder girdle. These findings have direct implications for the interpretation of shoulder muscle contributions to the pitch.

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Source
http://dx.doi.org/10.1080/14763141.2018.1523453DOI Listing

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