Control of Fingertip Forces in Multidigit Manipulation

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Control of Fingertip Forces in Multidigit Manipulation

J. Randall Flanagan,¹ Magnus K. O. Burstedt,² and Roland S. Johansson²

¹Department of Psychology, Queen's University, Kingston, Ontario K7L 3N6, Canada; and ²Department of Physiology, University of Umeå, S-901 87 Umea, Sweden

Flanagan, J. Randall, Magnus K. O. Burstedt, and Roland S. Johansson. Control of fingertip forces in multidigit manipulation. Previous studies of control of fingertip forces in skilled manipulationhave focused on tasks involving two digits, typically the thumband index finger. Here we examine control of fingertip actionsin a multidigit task in which subjects lifted an object usingunimanual and bimanual grasps engaging the tips of the thumb andtwo fingers. The grasps resembled those used when lifting a cylindricalobject from above; the two fingers were some 4.25 cm apart andthe thumb was ~5.54 cm from either finger. The three-dimensionalforces and torques applied by each digit and the digit contactpositions were measured along with the position and orientationof the object. The vertical forces applied tangential to the graspsurfaces to lift the object were synchronized across the digits,and the contribution by each digit to the total vertical forcereflected intrinsic object properties (geometric relationshipbetween the object's center of mass and the grasped surfaces).Subjects often applied small torques tangential to the graspedsurfaces even though the object could have been lifted withoutsuch torques. The normal forces generated by each digit increasedin parallel with the local tangential load (force and torque),providing an adequate safety margin against slips at each digit.In the present task, the orientations of the force vectors appliedby the separate digits were not fully constrained and thereforethe motor controller had to choose from a number of possible solutions.Our findings suggest that subjects attempt to minimize (or atleast reduce) fingertip forces while at the same time ensure thatgrasp stability is preserved. Subjects also avoid horizontal tangentialforces, even at a small cost in total force. Moreover, there weresubtle actions exerted by the digits that included changes inthe distribution of vertical forces across digits and slight objecttilt. It is not clear to what extent the brain explicitly controlledthese actions, but they could serve, for instance, to keep tangentialtorques small and to compensate for variations in digit contactpositions. In conclusion, we have shown that when lifting an objectwith a three-digit grip, the coordination of fingertip forces,in many respects, matches what has been documented previouslyfor two-digit grasping. At the same time, our study reveals novelaspects of force control that emerge only in multidigit manipulativetasks.

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				M. P. Rearick, A. Casares, and M. Santello Task-Dependent Modulation of Multi-Digit Force Coordination Patterns J Neurophysiol, March 1, 2003; 89(3): 1317 - 1326. [Abstract] [Full Text] [PDF]

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