Kinesthetic Working Memory and Action Control within the Dorsal Stream

doi:10.1093/cercor/bhm071

Cerebral Cortex Advance Access published online on June 4, 2007
Cerebral Cortex, doi:10.1093/cercor/bhm071

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Kinesthetic Working Memory and Action Control within the Dorsal Stream

Katja Fiehler¹, Michael Burke¹, Annerose Engel¹, Siegfried Bien² and Frank Rösler¹

¹ Department of Experimental and Biological Psychology, ² Department of Neuroradiology, Philipps-Universität Marburg, Marburg, Germany

Address correspondence to Katja Fiehler, Philipps-Universität Marburg, Department of Experimental and Biological Psychology, Gutenbergstr. 18, D-35032 Marburg, Germany. Email: fiehler{at}staff.uni-marburg.de.

There is wide agreement that the "dorsal (action) stream" processesvisual information for movement control. However, movementsdepend not only on vision but also on tactile and kinestheticinformation (=haptics). Using functional magnetic resonanceimaging, the present study investigates to what extent networkswithin the dorsal stream are also utilized for kinesthetic actioncontrol and whether they are also involved in kinesthetic workingmemory. Fourteen blindfolded participants performed a delayed-recognitiontask in which right-handed movements had to be encoded, maintained,and later recognized without any visual feedback. Encoding ofhand movements activated somatosensory areas, superior parietallobe (dorsodorsal stream), anterior intraparietal sulcus (aIPS)and adjoining areas (ventrodorsal stream), premotor cortex,and occipitotemporal cortex (ventral stream). Short-term maintenanceof kinesthetic information elicited load-dependent activityin the aIPS and adjacent anterior portion of the superior parietallobe (ventrodorsal stream) of the left hemisphere. We proposethat the action representation system of the dorsodorsal andventrodorsal stream is utilized not only for visual but alsofor kinesthetic action control. Moreover, the present findingsdemonstrate that networks within the ventrodorsal stream, inparticular the left aIPS and closely adjacent areas, are alsoengaged in working memory maintenance of kinesthetic information.

Key Words: haptic • human fMRI • intraparietal sulcus • perception and action • primary somatosensory cortex • sensorimotor transformation

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