Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/33312
Appears in Collections:Psychology Journal Articles
Peer Review Status: Refereed
Title: To eat or not to eat? Kinematics and muscle activity of reach-to-grasp movements are influenced by the action goal, but observers do not detect these differences
Author(s): Naish, Katherine R
Reader, Arran T
Houston-Price, Carmel
Bremner, Andrew J
Holmes, Nicholas P
Contact Email: arran.reader@stir.ac.uk
Keywords: Reach to grasp
Kinematics
Electromyography
Action prediction
Movement planning
Pre-grasp
Issue Date: Mar-2013
Date Deposited: 10-Sep-2021
Citation: Naish KR, Reader AT, Houston-Price C, Bremner AJ & Holmes NP (2013) To eat or not to eat? Kinematics and muscle activity of reach-to-grasp movements are influenced by the action goal, but observers do not detect these differences. Experimental Brain Research, 225 (2), pp. 261-275. https://doi.org/10.1007/s00221-012-3367-2
Abstract: Recent evidence suggests that the mirror neuron system responds to the goals of actions, even when the end of the movement is hidden from view. To investigate whether this predictive ability might be based on the detection of early differences between actions with different outcomes, we used electromyography (EMG) and motion tracking to assess whether two actions with different goals (grasp to eat and grasp to place) differed from each other in their initial reaching phases. In a second experiment, we then tested whether observers could detect early differences and predict the outcome of these movements, based on seeing only part of the actions. Experiment 1 revealed early kinematic differences between the two movements, with grasp-to-eat movements characterised by an earlier peak acceleration, and different grasp position, compared to grasp-to-place movements. There were also significant differences in forearm muscle activity in the reaching phase of the two actions. The behavioural data arising from Experiments 2a and 2b indicated that observers are not able to predict whether an object is going to be brought to the mouth or placed until after the grasp has been completed. This suggests that the early kinematic differences are either not visible to observers, or that they are not used to predict the end-goals of actions. These data are discussed in the context of the mirror neuron system.
DOI Link: 10.1007/s00221-012-3367-2
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