| Literature DB >> 18601912 |
Manuel Dafotakis1, Roland Sparing, Simon B Eickhoff, Gereon R Fink, Dennis A Nowak.
Abstract
When lifting objects of different mass but identical visual appearance, we apply grip forces that match the expected mass of the object. Here we study the role of the primary motor cortex (M1), the ventral premotor cortex (PMv) and the anterior intraparietal area (AIP) for predictive and reactive scaling of grip forces. Participants performed a precision grip between the index finger and thumb of the right hand to lift two different masses of identical visual appearance in random order. Neuronavigated single pulse transcranial magnetic stimulation (TMS) over (i) left M1, (ii) left PMv, (iii) left AIP and (iv) the vertex (for control) was applied at two time points of the grasping movement after an unexpected change in mass had occurred: (a) at the time of movement onset and (b) at the time of peak grasp aperture. TMS over the PMv, but not over the vertex, M1 or the AIP, interfered with the predictive scaling of grip forces according to the most recent lift when applied at the time of peak grasp aperture. In contrast, TMS over AIP, but not over the vertex, M1 or PMv, disrupted the reactive adjustment of grip force to the novel mass of the object at hand. The findings highlight the differential involvement of PMv in the predictive scaling of grip force and of AIP in the reactive online adjustment of grip force during object manipulation.Entities:
Mesh:
Year: 2008 PMID: 18601912 DOI: 10.1016/j.brainres.2008.06.027
Source DB: PubMed Journal: Brain Res ISSN: 0006-8993 Impact factor: 3.252