par Gheysen, Freja;Van Opstal, Filip 
;Roggeman, Chantal;Van Waelvelde, Hilde;Fias, Wim
Référence Frontiers in Human Neuroscience, 5, page (12)
Publication Publié, 2011
;Roggeman, Chantal;Van Waelvelde, Hilde;Fias, WimRéférence Frontiers in Human Neuroscience, 5, page (12)
Publication Publié, 2011
Article révisé par les pairs
| Résumé : | The present fMRI study investigated the neural areas involved in implicit perceptual sequence learning. To obtain more insight in the functional contributions of the brain areas, we tracked both the behavioral and neural time course of the learning process, using a perceptual serial color matching task. Next, to investigate whether the neural time course was specific for perceptual informatin, imaging results were compared to the results of implicit motor sequence learning, previously investigated using an identical serial color matching task (Gheysen et al., 2010). Results indicated that implicit sequences can be acquired by at least two neural systems: the caudate nucleus and the hippocampus, having different operating principles. The caudate nucleus contributed to the implicit sequence learning process for perceptual as well as motor information in a similar and gradual way. The hippocampus, on the other hand, was engaged in a much faster learning process which was more pronounced for the motor compared to the perceptual task. Interestingly, the perceptual and motor learning process occurred on a comparable implicit level, suggesting that consciousness is not the main determinant factor dissociating the hippocampal from the caudate learning system. This study is not only the first to successfully and unambiguoulsy compare brain activation between perceptual and motor levels of implicit sequence learning, it also provides new insights into the specific hippocampal and caudate learning function. |
