Browsing by Author "Adkins, Denise Rene"
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- Cognitive Development in Late Childhood: An Examination of Working Memory and Inhibitory ControlAdkins, Denise Rene (Virginia Tech, 2006-04-07)An interactive framework of working memory and inhibitory control has been endorsed for examining cognitive development across the lifespan (Roberts & Pennington, 1996). According to this framework, the interaction between working memory and inhibitory control (WMIC) is necessary for adaptive daily functioning (Roberts & Pennington, 1996) and crucial for the development of executive functioning in childhood (Brocki & Bohlin, 2004). Empirical work from early developmental periods supports the interactive WMIC framework (e.g., Bell, 2001; Diamond, Kirkham, & Amso, 2002) and has identified sources of variability (brain electrical activity, temperament, and language) associated with WMIC functioning in infancy and early childhood (Wolfe & Bell, 2004). Although there is some evidence to suggest the interdependent nature of working memory and inhibitory control in late childhood and adulthood (Diamond, 2002; Luna, Garver, Urban, Lazar, & Sweeney, 2004), work in these later developmental periods has focused primarily on the independent processes of working memory (WM) and inhibitory control (IC) and the interactive WMIC framework has not been directly investigated from late childhood onward. Therefore, the first goal of the current study was to examine the interactive framework in a late childhood sample. The second goal of the study was to examine sources of variability in WMIC functioning in late childhood, with the intention of determining which sources of variability were associated with and contributed unique variance in explaining WMIC performance. Thirty-eight children (19 male) completed four age-appropriate interactive WMIC tasks (the color-word Stroop, the Fruit Stroop, the counting go/no-go and the Wisconsin Card Sort Test) and two language tasks. Both parents and children responded to a temperament questionnaire. Brain electrical activity was collected via EEG recordings during a two-minute baseline and WMIC tasks. The four interactive WMIC tasks were tested for relation of the independent (WM, IC) and combined (WMIC) components within tasks and across tasks. The four WMIC tasks were not correlated with one another. However, the independent (WM, IC) components were correlated both with one another and with the combined WMIC measure within each task, providing some support for an interactive framework in late childhood. The sources of variability associated with the independent (WM, IC) and combined (WMIC) components of each task were identified. These sources were used to explain both collective and unique variance in WMIC functioning for each task. Different sources of variability explained independent (WM, IC) and combined (WMIC) performance across tasks. Unique and shared contributors within and across tasks (the color-word Stroop, the Fruit Stroop, the counting go/no-go and the Wisconsin Card Sort Test) and components (WM, IC, WMIC) are discussed in an effort to determine how sources of variability may be related to WMIC functioning.
- Individual Differences in Spatial Memory Performance at 12 Months of Age: Contributions from Walking Experience and Brain Electrical ActivityAdkins, Denise Rene (Virginia Tech, 2004-05-07)This study examined individual differences in spatial memory performance in 12-month-old infants using brain electrical activity and walking experience. Greenough's experience-expectant and experience-dependent model of development was used to examine EEG power values among infants with different levels of walking experience (non-walkers, novice, experienced). In accordance with this model, a trend was shown for novice walkers to have higher EEG power values than both non-walkers and experienced walkers only in the central region. Walkers were also found to score higher on an object retrieval (OR) spatial memory task than non-walkers, with amount of walking experience being inconsequential. In addition, infants who scored higher on the OR spatial memory task showed a trend for higher EEG power values in medial frontal, central and parietal areas than infants scoring lower on the OR task. This was not the case for the manual search spatial memory task (AB). There was no interaction among spatial memory performance, walking experience and brain electrical activity. The utility of OR as a spatial memory task that requires the integration of relevant perceptual-motor integration is discussed.