Y. Ohki et Rs. Johansson, Sensorimotor interactions between pairs of fingers in bimanual and unimanual manipulative tasks, EXP BRAIN R, 127(1), 1999, pp. 43-53
The tuning of fingertip forces to the physical properties of objects during
manipulation may be controlled partly by digit-specific mechanisms using l
ocal afferent information and partly by controllers that support interdigit
al coordination and use sensory information from more than one digit. In th
e present study we addressed digital interactions when humans used the tips
of two fingers to restrain a pair of horizontally oriented plates from mov
ing when subjected to tangential force loads in the distal direction. Subje
cts used the right and left index fingers in a bimanual grasp, and the righ
t index and middle fingers in an unimanual grasp. The plates were loaded at
unpredictable times by identical force profiles consisting of a force incr
ease of up to a 3-N force plateau. The plates were concurrently loaded in 8
5% of the trials and each plate was loaded separately in 7% of the trials.
For each plate, we measured its movement and the normal and tangential forc
es applied by the finger to restrain it. When a finger was loaded, the subj
ect automatically responded by a normal force increase to a level that rema
ined fairly constant during the subsequent load plateau. The initial part o
f this finger grasp response was affected by simultaneous loading of its pa
rtner finger; the magnitude of the response was boosted with a bimanual gra
sp, whereas the onset latency tended to be shorter with a unimanual grasp.
Responses also occurred at a non-loaded finger during both bimanual and uni
manual grasps, but these responses were weaker than those evoked when the s
ame finger was loaded. In the bimanual grasp, they were largely characteriz
ed by a brief force pulse whose onset was delayed by some 15 ms compared wi
th the response onset of the loaded finger, i.e., there was no sustained re
sponse. In the unimanual grasp, the onset of the response coincided in time
with that of the accompanying (loaded) finger, and the dynamic response wa
s stronger and prolonged, with more than one force rate peak. There was als
o a significant static response present. We conclude that during unimanual
as well as bimanual reactive restrain tasks there are interactions between
digits engaged in terms of neural control that facilitate the response of a
digit when an accompanying digit is simultaneously loaded. However, digit-
specific afferent inputs are necessary for eliciting the full-size reactive
grasp responses required to successfully restrain the manipulandum.