Abstract
The capacity to detect landmarks in the environment and to associate each landmark with its spatial context is a fundamental operation for navigation, especially when the context is relevant for successful navigation. Recent evidence suggests robust age-related improvements in contextual memory. The current study investigated the effect of spatial context on landmark recognition memory in children and adolescents. Participants, ages 8–18, watched a video depicting a route through a virtual environment. The location at which landmarks occurred was manipulated to test the hypothesis that memory processes vary as a function of context. Functional magnetic resonance imaging data was acquired while participants performed an old-new recognition memory test of the landmarks. Old compared to new landmarks recruited a network of regions including the hippocampus and the inferior/middle frontal gyrus in all participants. Developmental differences were observed in the functional organization of the parahippocampal gyrus and the anterior cingulate cortex, such that memory representations strengthened linearly with age only when the associated spatial context was relevant for navigation. These results support the view that medial temporal lobe regions become increasingly specialized with development; these changes may be responsible for the development of successful navigation strategies.
Highlights
Spatial navigation is a core characteristic of human behavior
The neural distinction between landmarks associated with a relevant spatial context and landmarks associated with an irrelevant spatial context is a major but not exclusive component of a mechanism underlying navigation
The current study examined whether the neural representation of landmarks in the medial temporal lobe (MTL) and prefrontal cortex (PFC) changes during the childhood years
Summary
Spatial navigation is a core characteristic of human behavior. It requires the ability to detect and memorize critical features in the environment, such as reference points or landmarks. When we travel a route through an unknown area, we remember what we encountered (i.e., a landmark) as well as phenomenological details such as when and where we encountered it. In a behavioral study, Janzen (2006) showed that the capacity to retain landmarks in memory and the associated spatial context supports navigation. Neuroscientists have established a direct link between age-related improvements in contextual memories and developmental changes in medial temporal lobe (MTL) function (Ghetti et al, 2010; DeMaster and Ghetti, 2013). The effect of spatial context on the neural representation of landmark recognition memory in children and adolescents remains poorly understood
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