Journal Article

Encoding of human action in Broca's area

Patrik Fazio, Anna Cantagallo, Laila Craighero, Alessandro D’Ausilio, Alice C. Roy, Thierry Pozzo, Ferdinando Calzolari, Enrico Granieri and Luciano Fadiga

in Brain

Published on behalf of The Guarantors of Brain

Volume 132, issue 7, pages 1980-1988
Published in print July 2009 | ISSN: 0006-8950
Published online May 2009 | e-ISSN: 1460-2156 | DOI:
Encoding of human action in Broca's area

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Broca's area has been considered, for over a century, as the brain centre responsible for speech production. Modern neuroimaging and neuropsychological evidence have suggested a wider functional role is played by this area. In addition to the evidence that it is involved in syntactical analysis, mathematical calculation and music processing, it has recently been shown that Broca's area may play some role in language comprehension and, more generally, in understanding actions of other individuals. As shown by functional magnetic resonance imaging, Broca's area is one of the cortical areas activated by hand/mouth action observation and it has been proposed that it may form a crucial node of a human mirror-neuron system. If, on the one hand, neuroimaging studies use a correlational approach which cannot offer a final proof for such claims, available neuropsychological data fail to offer a conclusive demonstration for two main reasons: (i) they use tasks taxing both language and action systems; and (ii) they rarely consider the possibility that Broca's aphasics may also be affected by some form of apraxia. We administered a novel action comprehension test—with almost no linguistic requirements—on selected frontal aphasic patients lacking apraxic symptoms. Patients, as well as matched controls, were shown short movies of human actions or of physical events. Their task consisted of ordering, in a temporal sequence, four pictures taken from each movie and randomly presented on the computer screen. Patient's performance showed a specific dissociation in their ability to re-order pictures of human actions (impaired) with respect to physical events (spared). Our study provides a demonstration that frontal aphasics, not affected by apraxia, are specifically impaired in their capability to correctly encode observed human actions.

Keywords: Broca's area; action recognition; mirror-neuron system; frontal aphasia; motor syntax

Journal Article.  5993 words.  Illustrated.

Subjects: Neurology ; Neuroscience

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