Effects of Local Gravity Compensation on Motor Control During Altered Environmental Gravity.

Fiche publication


Date publication

janvier 2021

Journal

Frontiers in neural circuits

Auteurs

Membres identifiés du Cancéropôle Est :
Pr PAPAXANTHIS Charalambos


Tous les auteurs :
Kunavar T, Jamšek M, Barbiero M, Blohm G, Nozaki D, Papaxanthis C, White O, Babič J

Résumé

Our sensorimotor control is well adapted to normogravity environment encountered on Earth and any change in gravity significantly disturbs our movement. In order to produce appropriate motor commands for aimed arm movements such as pointing or reaching, environmental changes have to be taken into account. This adaptation is crucial when performing successful movements during microgravity and hypergravity conditions. To mitigate the effects of changing gravitational levels, such as the changed movement duration and decreased accuracy, we explored the possible beneficial effects of gravity compensation on movement. Local gravity compensation was achieved using a motorized robotic device capable of applying precise forces to the subject's wrist that generated a normogravity equivalent torque at the shoulder joint during periods of microgravity and hypergravity. The efficiency of the local gravity compensation was assessed with an experiment in which participants performed a series of pointing movements toward the target on a screen during a parabolic flight. We compared movement duration, accuracy, movement trajectory, and muscle activations of movements during periods of microgravity and hypergravity with conditions when local gravity compensation was provided. The use of local gravity compensation at the arm mitigated the changes in movement duration, accuracy, and muscle activity. Our results suggest that the use of such an assistive device helps with movements during unfamiliar environmental gravity.

Mots clés

gravitational effects, hypergravity, microgravity, motor assistance, motor control, parabolic flight

Référence

Front Neural Circuits. 2021 ;15:750267