TY - JOUR
T1 - Do simple intransitive finger movements consistently activate frontoparietal mirror neuron areas in humans?
AU - Jonas, M.
AU - Siebner, H. R.
AU - Biermann-Ruben, K.
AU - Kessler, K.
AU - Bäumer, T.
AU - Büchel, C.
AU - Schnitzler, A.
AU - Münchau, A.
N1 - Funding Information:
This work was funded by a grant from the Volkswagenstiftung (I/78553). C.B. (01GO0510) and H.S. (01GO0511) were supported by a structural grant of the Bundesministerium für Bildung und Forschung (BMBF) to NeuroImageNord. We wish to thank Rüdiger Lange and Adam McNamara for their technical assistance.
PY - 2007
Y1 - 2007
N2 - The posterior inferior frontal gyrus (pIFG) and anterior inferior parietal lobule (aIPL) form the core regions of the human "mirror neuron system" that matches an observed movement onto its internal motor representation. We used event-related functional MRI to examine whether simple intransitive finger movements evoke "mirror activity" in the pIFG and aIPL. In separate sessions, participants either merely observed visuospatial stimuli or responded to them as quickly as possible with a spatially compatible finger movement. A picture of a relaxed hand with static dots on the tip of the index and little finger was continuously presented as high-level baseline. Four types of stimuli were presented in a pseudorandom order: a color change of a dot, a moving finger, a moving dot, or a simultaneous finger-dot movement. Dot movements were spatially and kinematically matched to finger movements. Participants were faster at imitating a finger movement than performing the same movement in response to a moving dot or a color change of a dot. Though imitative responses were facilitated, fMRI revealed no additional "mirror activity" in the pIFG and aIPL during the observation or imitation of finger movements as opposed to observing or responding to a moving dot. Mere observation of a finger movement alone failed to induce significant activation of the pIFG and aIPL. The lack of a signature of "mirror neuron activity" in the inferior frontoparietal cortex is presumably due to specific features of the task which may have favored stimulus-response mapping based on common spatial coding. We propose that the responsiveness of human frontoparietal mirror neuron areas to simple intransitive movements critically depends on the experimental context.
AB - The posterior inferior frontal gyrus (pIFG) and anterior inferior parietal lobule (aIPL) form the core regions of the human "mirror neuron system" that matches an observed movement onto its internal motor representation. We used event-related functional MRI to examine whether simple intransitive finger movements evoke "mirror activity" in the pIFG and aIPL. In separate sessions, participants either merely observed visuospatial stimuli or responded to them as quickly as possible with a spatially compatible finger movement. A picture of a relaxed hand with static dots on the tip of the index and little finger was continuously presented as high-level baseline. Four types of stimuli were presented in a pseudorandom order: a color change of a dot, a moving finger, a moving dot, or a simultaneous finger-dot movement. Dot movements were spatially and kinematically matched to finger movements. Participants were faster at imitating a finger movement than performing the same movement in response to a moving dot or a color change of a dot. Though imitative responses were facilitated, fMRI revealed no additional "mirror activity" in the pIFG and aIPL during the observation or imitation of finger movements as opposed to observing or responding to a moving dot. Mere observation of a finger movement alone failed to induce significant activation of the pIFG and aIPL. The lack of a signature of "mirror neuron activity" in the inferior frontoparietal cortex is presumably due to specific features of the task which may have favored stimulus-response mapping based on common spatial coding. We propose that the responsiveness of human frontoparietal mirror neuron areas to simple intransitive movements critically depends on the experimental context.
UR - http://www.scopus.com/inward/record.url?scp=34247885989&partnerID=8YFLogxK
U2 - 10.1016/j.neuroimage.2007.03.028
DO - 10.1016/j.neuroimage.2007.03.028
M3 - Journal articles
C2 - 17499169
AN - SCOPUS:34247885989
SN - 1053-8119
VL - 36
SP - T44-T53
JO - NeuroImage
JF - NeuroImage
IS - SUPPL. 2
ER -