Working Memory for Complex Scenes: Age Differences in Frontal and Hippocampal Activations

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Working Memory for Complex Scenes: Age Differences in Frontal and Hippocampal Activations

Denise C. Park

University of Illinois at Urbana-Champaign

Robert C. Welsh

University of Michigan

Christy Marshuetz

Yale University

Angela H. Gutchess, Joseph Mikels, Thad A. Polk, Douglas C. Noll and Stephan F. Taylor

University of Michigan

Age differences in frontal and hippocampal activations in workingmemory were investigated during a maintenance and subsequentprobe interval in an event-related fMRI design. Younger andolder adults either viewed or maintained photographs of real-worldscenes (extended visual or maintenance conditions) over a 4-secinterval before responding to a probe fragment from the studiedpicture. Behavioral accuracy was largely equivalent across ageand conditions on the probe task, but underlying neural activationsdiffered. Younger but not older adults showed increased leftanterior hippocampal activations in the extended visual comparedwith the maintenance condition. On the subsequent probe interval,however, older adults showed more left and right inferior frontalactivations than younger adults. The increased frontal activationsat probe in older adults may have been compensatory for thedecreased hippocampal activations during maintenance, but alternativelycould have reflected the increased difficulty of the probe taskfor the older subjects. Thus, we demonstrate qualitatively differentengagement of both frontal and hippocampal structures in olderadults in a working memory task, despite behavioral equivalence.

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				J. O. S. Goh, S. C. Siong, D. Park, A. Gutchess, A. Hebrank, and M. W. L. Chee Cortical Areas Involved in Object, Background, and Object-Background Processing Revealed with Functional Magnetic Resonance Adaptation J. Neurosci., November 10, 2004; 24(45): 10223 - 10228. [Abstract] [Full Text] [PDF]