Abstract
Implicit contextual learning refers to the ability to memorize contextual information from our environment. This contextual information can then be used to guide our attention to a specific location. Although the medial temporal lobe is important for this type of learning, the basal ganglia might also be involved considering its role in many implicit learning processes. In order to understand the role of the basal ganglia in this top–down process, a group of non-demented early-stage Parkinson's patients were tested with a contextual cueing task. In this visual search task, subjects have to quickly locate a target among a number of distractors. To test implicit contextual learning, some of the configurations are repeated during the experiment, resulting in faster responses. A significant interaction effect was found between Group and Configuration, indicating that the control subjects responded faster when the spatial context was repeated, whereas Parkinson's patients failed to do so. These results, showing that the contextual cueing effect was significantly different for the patients than for the controls, suggest an important role for the basal ganglia in implicit contextual learning, thus extending previous findings of medial temporal lobe involvement. The basal ganglia are therefore not only involved in implicit motor learning, but may also have a role in purely visual implicit learning.
Highlights
Our environment contains a large amount of information that is stable over time
The current study was aimed at investigating implicit contextual learning in patients with damage to the basal ganglia due to Parkinson’s disease
The finding that Parkinson patients failed to benefit from a repeated context suggests an important role for the basal ganglia in implicit contextual learning
Summary
Our environment contains a large amount of information that is stable over time. For example, the positions of doors, windows, large pieces of furniture, trees and houses are usually fixed in relation to each other. Specific objects are found close to each other or in specific locations, for instance pots and pans are close to the stove in the kitchen. This type of visual organization can be memorized and can guide attention when scanning our environment Chun & Jiang, 1998) This mechanism is called implicit contextual learning and is thought to help internalize meaningful regularities and co-variations between objects and events in the visual world (Chun, 2000). Research has mainly been aimed at defining the importance of the medial temporal lobes (MTL), including the hippocampus. Chun and Phelps (1999) found that amnesia patients with damage to the MTL were not able to benefit from repeated spatial context information, suggesting a crucial role for the MTL in implicit contextual
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