A higher-order mechanism overrules the automatic grip-load force constraint during bimanual asymmetrical movements

Abstract

The aim of the present study was to examine grip-load force regulation during unimanual and bimanual movements. Two protocols were included which manipulated the object's weight and covered distance. Results showed that grip-load ratio was adapted to the task requirements. During unimanual and bimanual symmetrical movements, an increased grip-load force ratio for long versus short amplitude movements as well as for light versus heavy weight movements was noted. These findings could be related to the observed movement speed variations associated with the tasks. During bimanual asymmetrical movements, the grip-load force ratio became comparable for both sides. When transporting different object's weights to constant distances, the grip-load force ratio of light weight movements decreased towards that of heavy weight movements. As movement speed was reduced, it indicates that grasping forces were adapted accordingly. When transporting constant object's weights to different distances, the grip-load force ratio of short amplitude movements increased towards that of long amplitude movements. Since movement speed was decreased, it suggests that a bimanual coordinative command overruled the automatic grip-load coupling. In conclusion, these data show that interlimb coupling induced a rescaling towards a common control structure, leading to similar grasping forces during bimanual movements with dissimilar actions.