Anticipatory Postural Adjustments (APAs) are commonly described as unconscious muscular activities aimed to counterbalance the perturbation caused by the primary movement, so as to ensure the whole-body balance. These activities usually create one or more fixation chains which spread over several muscles of different limbs, and may be thus called inter-limb APAs. However, we reported that APAs also precede voluntary movements involving tiny masses, like a flexion/extension of the wrist or even a brisk flexion of the index-finger. In particular, such movements are preceded by an intra-limb APA chain, that involves muscles acting on the proximal joints. Considering the small mass of the moving segments, it is unlikely that the ensuing perturbation could threaten the whole-body balance, so that it is interesting to enquire the physiological role of intra-limb APAs and their organization and control compared to inter-limb APAs. Since several years, our research is focused on intra-limb APAs and highlighted a strict correspondence in their behaviour and temporal/spatial organization with respect to inter-limb APAs. Hence we suggested that both are manifestations of the same phenomenon. Particular emphasis has been given to intra-limb APAs preceding index-finger flexion, because their relatively simple biomechanics and the fact that muscular actions were limited to a single arm allowed peculiar investigations, leading to important conclusions. Indeed, such paradigm provided evidence that APAs and prime mover activation are driven by a shared motor command, and also that by granting a proper fixation of those body segments proximal to the moving one, APAs are involved in refining movement precision.
The intra-limb anticipatory postural adjustments and their role in movement performance
F. Bolzoni;
2017-01-01
Abstract
Anticipatory Postural Adjustments (APAs) are commonly described as unconscious muscular activities aimed to counterbalance the perturbation caused by the primary movement, so as to ensure the whole-body balance. These activities usually create one or more fixation chains which spread over several muscles of different limbs, and may be thus called inter-limb APAs. However, we reported that APAs also precede voluntary movements involving tiny masses, like a flexion/extension of the wrist or even a brisk flexion of the index-finger. In particular, such movements are preceded by an intra-limb APA chain, that involves muscles acting on the proximal joints. Considering the small mass of the moving segments, it is unlikely that the ensuing perturbation could threaten the whole-body balance, so that it is interesting to enquire the physiological role of intra-limb APAs and their organization and control compared to inter-limb APAs. Since several years, our research is focused on intra-limb APAs and highlighted a strict correspondence in their behaviour and temporal/spatial organization with respect to inter-limb APAs. Hence we suggested that both are manifestations of the same phenomenon. Particular emphasis has been given to intra-limb APAs preceding index-finger flexion, because their relatively simple biomechanics and the fact that muscular actions were limited to a single arm allowed peculiar investigations, leading to important conclusions. Indeed, such paradigm provided evidence that APAs and prime mover activation are driven by a shared motor command, and also that by granting a proper fixation of those body segments proximal to the moving one, APAs are involved in refining movement precision.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.