Jarnet Han Wazny scite author profile

Expertise in processing faces is a cornerstone of human social interaction. However, the developmental course of many key brain regions supporting face preferential processing in the human brain remains undefined. Here, we present findings from an FMRI study using a simple viewing paradigm of faces and objects in a continuous age sample covering the age range from 6 years through adulthood. These findings are the first to use such a sample paired with whole-brain FMRI analyses to investigate development within the core and extended face networks across the developmental spectrum from middle childhood to adulthood. We found evidence, albeit modest, for a developmental trend in the volume of the right fusiform face area (rFFA) but no developmental change in the intensity of activation. From a spatial perspective, the middle portion of the right fusiform gyrus most commonly found in adult studies of face processing was increasingly likely to be included in the FFA as age increased to adulthood. Outside of the FFA, the most striking finding was that children hyperactivated nearly every aspect of the extended face system relative to adults, including the amygdala, anterior temporal pole, insula, inferior frontal gyrus, anterior cingulate gyrus, and parietal cortex. Overall, the findings suggest that development is best characterized by increasing modulation of face-sensitive regions throughout the brain to engage only those systems necessary for task requirements.

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Development of brain systems for nonsymbolic numerosity and the relationship to formal math academic achievement

Haist

Wazny

Toomarian

et al. 2014

Human Brain Mapping

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A central question in cognitive and educational neuroscience is whether brain operations supporting non-linguistic intuitive number sense (numerosity) predict individual acquisition and academic achievement for symbolic or “formal” math knowledge. Here, we conducted a developmental functional MRI study of nonsymbolic numerosity task performance in 44 participants including 14 school age children (6–12 years-old), 14 adolescents (13–17 years-old), and 16 adults and compared a brain activity measure of numerosity precision to scores from the Woodcock-Johnson III Broad Math index of math academic achievement. Accuracy and reaction time from the numerosity task did not reliably predict formal math achievement. We found a significant positive developmental trend for improved numerosity precision in the parietal cortex and intraparietal sulcus (IPS) specifically. Controlling for age and overall cognitive ability, we found a reliable positive relationship between individual math achievement scores and parietal lobe activity only in children. In addition, children showed robust positive relationships between math achievement and numerosity precision within ventral stream processing areas bilaterally. The pattern of results suggests a dynamic developmental trajectory for visual discrimination strategies that predict the acquisition of formal math knowledge. In adults, the efficiency of visual discrimination marked by numerosity acuity in ventral occipital-temporal cortex and hippocampus differentiated individuals with better or worse formal math achievement, respectively. Overall, these results suggest that two different brain systems for nonsymbolic numerosity acuity may contribute to individual differences in math achievement and that the contribution of these systems differs across development.

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Real-Time Cognitive-State Neuroimaging in Applied Education

Wazny

Nathan-Roberts

2018

Proceedings of the Human Factors and Ergonomics Society Annual

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The combination of advances in cognitive neuroscience & the development of powerful, yet portable, devices are enabling real-time assessments in education. Electroencephalography (EEG) & functional near-infrared spectroscopy (fNIRS) are two such neuroimaging tools being explored during instruction, with a current focus on student attention, engagement, & cognitive load. Neural synchrony has been linked with successful knowledge transfer, social interaction quality, engagement level, & shared attention. These studies, along with ergonomic considerations, are the focus of this literature review. Real-time learning assessments can optimize both teacher & student performance & satisfaction. A tailored instruction has the potential to create optimal learning experiences & more-proactively address learning difficulties.

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Jarnet Han Wazny

The functional architecture for face-processing expertise: FMRI evidence of the developmental trajectory of the core and the extended face systems

Development of brain systems for nonsymbolic numerosity and the relationship to formal math academic achievement

Real-Time Cognitive-State Neuroimaging in Applied Education

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