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Keywords
(8)
Category Learning
Caudate Nucleus
Episodic Memory
Functional Connectivity
Granger Causality
Implicit Learning
Medial Temporal Lobe
Basal Ganglia
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Dissociating hippocampal and basal ganglia contributions to category learning using stimulus novelty and subjective judgments
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Dissociating hippocampal and basal ganglia contributions to category learning using stimulus novelty and subjective judgments
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Citations: 1
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Carol A. Seger
,
Christina S. Dennison
,
Dan Lopez-Paniagua
,
Erik J. Peterson
,
Aubrey A. Roark
We identified factors leading to hippocampal and
basal ganglia
recruitment during categorization learning. Subjects alternated between blocks of a standard trial and error
category learning
task and a subjective judgment task. In the subjective judgments task subjects categorized the stimulus and then instead of receiving feedback they indicated the basis of their response using 4 options: Remember: Conscious
episodic memory
of previous trials. Know-Automatic: Automatic, rapid response accompanied by conscious awareness of category membership. Know-Intuition: A “gut feeling” without fully conscious knowledge of category membership. Guess: Guessing. In addition, new stimuli were introduced throughout the experiment to examine effects of novelty. Categorization overall recruited both the
basal ganglia
and posterior hippocampus. However,
basal ganglia
activity was found during Know judgments (both Automatic and Intuition), whereas posterior hippocampus activity was found during Remember judgments.
Granger causality
mapping indicated interactions between the
basal ganglia
and hippocampus, with the putamen exerting directed influence on the posterior hippocampus, which in turn exerted directed influence on the posterior caudate nucleus. We also found a region of anterior hippocampus that showed decreased activity relative to baseline during categorization overall, and showed a strong novelty effect. Our results indicate that subjective measures may be effective in dissociating
basal ganglia
from hippocampal dependent learning, and that the
basal ganglia
are involved in both conscious and unconscious learning. They also indicate a dissociation within the hippocampus, in which the anterior regions are sensitive to novelty, and the posterior regions are involved in memory based categorization learning.
Journal:
Journal of The American Academy of Dermatology - J AMER ACAD DERMATOL
, vol. 55, no. 4, pp. 1739-1753, 2011
DOI:
10.1016/j.neuroimage.2011.01.026
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The reusable test library and how to use it
D. A. Harry
Journal:
Neurobiology of Learning and Memory - NEUROBIOL LEARN MEMORY
, 1997