Inertial torque during reaching directly impacts grip-force adaptation to weightless objects

T. Giard, F. Crevecoeur, J. McIntyre, J. L. Thonnard, P. Lefèvre*

*Corresponding author for this work

    Research output: Contribution to journalArticlepeer-review

    5 Citations (Scopus)

    Abstract

    A hallmark of movement control expressed by healthy humans is the ability to gradually improve motor performance through learning. In the context of object manipulation, previous work has shown that the presence of a torque load has a direct impact on grip-force control, characterized by a significantly slower grip-force adjustment across lifting movements. The origin of this slower adaptation rate remains unclear. On the one hand, information about tangential constraints during stationary holding may be difficult to extract in the presence of a torque. On the other hand, inertial torque experienced during movement may also potentially disrupt the grip-force adjustments, as the dynamical constraints clearly differ from the situation when no torque load is present. To address the influence of inertial torque loads, we instructed healthy adults to perform visually guided reaching movements in weightlessness while holding an unbalanced object relative to the grip axis. Weightlessness offered the possibility to remove gravitational constraints and isolate the effect of movement-related feedback on grip force adjustments. Grip-force adaptation rates were compared with a control group who manipulated a balanced object without any torque load and also in weightlessness. Our results clearly show that grip-force adaptation in the presence of a torque load is significantly slower, which suggests that the presence of torque loads experienced during movement may alter our internal estimates of how much force is required to hold an unbalanced object stable. This observation may explain why grasping objects around the expected location of the center of mass is such an important component of planning and control of manipulation tasks.

    Original languageEnglish
    Pages (from-to)3323-3332
    Number of pages10
    JournalExperimental Brain Research
    Volume233
    Issue number11
    DOIs
    Publication statusPublished - 1 Nov 2015

    Funding

    This research was supported by a grant from the European Space Agency (ESA), PRODEX and IAP (Belspo), and ARC (Belgium). J. McIntyre is supported by Université Paris Descartes, the Centre National de la Recherche Scientifique, the Conseil Régional Ile de France and by a grant from the Centre National d’Etudes Spatiales (CNES).

    FundersFunder number
    Australian Research Council
    Conseil Régional Ile de France
    European Space Agency
    European Space Agency
    Australian Research Council
    Centre national d'études spatiales
    Centre National de la Recherche Scientifique
    Université Paris Descartes

      Keywords

      • Adaptation
      • Grip-force
      • Motor control
      • Torque load
      • Weightlessness

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