Tashauna L. Blankenship

Frontotemporal Coherence and Executive Functions Contribute to Episodic Memory During Middle Childhood

Contributions of differential behavioral (executive functions) and electrophysiological (frontal-temporal electroencephalogram or EEG coherence) measures to episodic memory performance were examined during middle childhood. Cognitive flexibility and right frontotemporal functional connectivity during encoding (F4/T8), as well as left frontotemporal functional connectivity during retrieval (Fp1/T7), contributed to episodic memory performance in a sample of 9–12-year-olds. These results suggest that executive functions differentially influence episodic memory, as does left and right frontotemporal functional connectivity during different portions of the memory task.

Frontotemporal function]al connectivity and executive functions contribute to episodic memory performance.

The contributions of hemispheric-specific electrophysiology (electroencephalogram or EEG) and independent executive functions (inhibitory control, working memory, cognitive flexibility) to episodic memory performance were examined using abstract paintings. Right hemisphere frontotemporal functional connectivity during encoding and retrieval, measured via EEG alpha coherence, statistically predicted performance on recency but not recognition judgments for the abstract paintings. Theta coherence, however, did not predict performance. Likewise, cognitive flexibility statistically predicted performance on recency judgments, but not recognition. These findings suggest that recognition and recency operate via separate electrophysiological and executive mechanisms.

Executive Function Mediates the Association Between Toddler Negative Affectivity and Early Academic Achievement

ABSTRACT Research Findings: We examined the nature of association between toddler negative affectivity (NA) and later academic achievement by testing early childhood executive function (EF) as a mediator that links children’s temperament and their performance on standardized math and reading assessments. One hundred eighty-four children (93 boys, 91 girls) participated in our longitudinal study. Children’s NA was measured at age 2 and EF at age 4. At age 6, academic achievement in reading and mathematics were assessed using the Woodcock-Johnson III Tests of Achievement. Results indicated that NA at age 2 negatively predicted EF at age 4, which positively predicted mathematics achievement and reading achievement at age 6. Age 4 EF mediated the relation between age 2 NA and age 6 academic achievement in both reading and math. These findings highlight the significance of considering both NA and EF in conversations about children’s academic achievement. Practice or Policy: For children with temperamentally high NA, focusing on efforts to enhance emotion regulation and EF during the preschool years may benefit their later mathematics and reading achievement.

Behavioral performance and neural areas associated with memory processes contribute to math and reading achievement in 6-year-old children

Associations between working memory and academic achievement (math and reading) are well documented. Surprisingly, little is known of the contributions of episodic memory, segmented into temporal memory (recollection proxy) and item recognition (familiarity proxy), to academic achievement. This is the first study to observe these associations in typically developing 6-year old children. Overlap in neural correlates exists between working memory, episodic memory, and math and reading achievement. We attempted to tease apart the neural contributions of working memory, temporal memory, and item recognition to math and reading achievement. Results suggest that working memory and temporal memory, but not item recognition, are important contributors to both math and reading achievement, and that EEG power during a working memory task contributes to performance on tests of academic achievement.

Semantic future thinking and executive functions at age 4: The moderating role of frontal brain electrical activity

Previous studies provide conflicting results regarding the relation between future thinking and executive functioning during early childhood. Furthermore, little is known of the neural mechanisms involved in future thinking during early childhood. We examined the moderating role of frontal electroencephalogram (EEG) activity on the relation between executive functioning and semantic future thinking performance in a sample of 4-year-old children. Our results suggest that frontal EEG moderates the relation between executive functioning and semantic future thinking performance, but only for medium to high levels of frontal EEG power values. These results provide emerging evidence regarding the role of both executive functioning and frontal brain electrical activity on semantic future thinking in 4-year-olds.

Episodic memory in middle childhood: Age, brain electrical activity, and self-reported attention

Middle childhood is a transitional period for episodic memory (EM) performance, as a result of improvements in strategies that are used to encode and retrieve memories. EM is also a skill continually assessed for testing in the school setting. The purpose of this study was to examine EM performance during middle childhood and its relation to individual differences in attentional abilities and in neurophysiological functioning. We examined self-reports of attention at 6, 7 and 8-years of age as well as parietal EEG recorded during baseline, memory task encoding, and memory task retrieval. Results indicate that child self-reports of attention predicted EM performance. Additionally, the difference from baseline to retrieval-related EEG activation contributed variance to EM performance. Results replicate other middle childhood studies showing a positive association between EM performance and attention while also suggesting that parietal EEG yields critical information regarding memory performance.